US20040062761A1 - Nucleic acid and corresponding protein entitled 151P3D4 useful in treatment and detection of cancer - Google Patents

Nucleic acid and corresponding protein entitled 151P3D4 useful in treatment and detection of cancer Download PDF

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US20040062761A1
US20040062761A1 US10/120,907 US12090702A US2004062761A1 US 20040062761 A1 US20040062761 A1 US 20040062761A1 US 12090702 A US12090702 A US 12090702A US 2004062761 A1 US2004062761 A1 US 2004062761A1
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cell
cancer
cells
amino acid
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Pia Challita-Eid
Arthur Raitano
Mary Faris
Rene Hubert
Karen Morrison
Robert Morrison
Wangmao Ge
Aya Jakobovits
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Agensys Inc
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Abstract

A novel gene (designated 151P3D4) and its encoded protein, and variants thereof, are described wherein 151P3D4 exhibits tissue specific expression in normal adult tissue, and is aberrantly expressed in the cancers listed in Table I. Consequently, 151P3D4 provides a diagnostic, prognostic, prophylactic and/or therapeutic target for cancer. The 151P3D4 gene or fragment thereof, or its encoded protein, or variants thereof, or a fragment thereof, can be used to elicit a humoral or cellular immune response; antibodies or T cells reactive with 151P3D4 can be used in active or passive immunization.

Description

    CROSS-REFERENCE TO RELATED APPLICATIONS
  • This application claims priority from U.S. Serial No. 60/282,739 filed Apr. 10, 2001, and U.S. Serial No. 60/286,630, filed Apr. 25, 2001. The contents of these applications are hereby incorporated by reference herein in their entirety.[0001]
    • STATEMENT OF RIGHTS TO INVENTIONS MADE UNDER FEDERALLY SPONSORED RESEARCH
  • Not applicable. [0002]
    • FIELD OF THE INVENTION
  • The invention described herein relates to a gene and its encoded protein, termed 151P3D4, expressed in certain cancers, and to diagnostic and therapeutic methods and compositions useful in the management of cancers that express 151P3D4. [0003]
    • BACKGROUND OF THE INVENTION
  • Cancer is the second leading cause of human death next to coronary disease. Worldwide, millions of people die from cancer every year. In the United States alone, as reported by the American Cancer Society, cancer causes the death of well over a half-million people annually, with over 1.2 million new cases diagnosed per year. While deaths from heart disease have been declining significantly, those resulting from cancer generally are on the rise. In the early part of the next century, cancer is predicted to become the leading cause of death. [0004]
  • Worldwide, several cancers stand out as the leading killers. In particular, carcinomas of the lung, prostate, breast, colon, pancreas, and ovary represent the primary causes of cancer death. These and virtually all other carcinomas share a common lethal feature. With very few exceptions, metastatic disease from a carcinoma is fatal. Moreover, even for those cancer patients who initially survive their primary cancers, common experience has shown that their lives are dramatically altered. Many cancer patients experience strong anxieties driven by the awareness of the potential for recurrence or treatment failure. Many cancer patients experience physical debilitations following treatment. Furthermore, many cancer patients experience a recurrence. [0005]
  • Worldwide, prostate cancer is the fourth most prevalent cancer in men. In North America and Northern Europe, it is by far the most common cancer in males and is the second leading cause of cancer death in men. In the United States alone, well over 30,000 men die annually of this disease-second only to lung cancer. Despite the magnitude of these figures, there is still no effective treatment for metastatic prostate cancer. Surgical prostatectomy, radiation therapy, hormone ablation therapy, surgical castration and chemotherapy continue to be the main treatment modalities. Unfortunately, these treatments are ineffective for many and are often associated with undesirable consequences. [0006]
  • On the diagnostic front, the lack of a prostate tumor marker that can accurately detect early-stage, localized tumors remains a significant limitation in the diagnosis and management of this disease. Although the serum prostate specific antigen (PSA) assay has been a very useful tool, however its specificity and general utility is widely regarded as lacking in several important respects. [0007]
  • Progress in identifying additional specific markers for prostate cancer has been improved by the generation of prostate cancer xenografts that can recapitulate different stages of the disease in mice. The LAPC (Los Angeles Prostate Cancer) xenografts are prostate cancer xenografts that have survived passage in severe combined immune deficient (SCID) mice and have exhibited the capacity to mimic the transition from androgen dependence to androgen independence (Klein et al., 1997, Nat. Med. 3:402). More recently identified prostate cancer markers include PCTA-1 (Su et al., 1996, Proc. Natl. Acad. Sci. USA 93: 7252), prostate-specific membrane (PSM) antigen (Pinto et al., Clin Cancer Res Sep. 2, 1996 (9): 1445-51), STEAP (Hubert, et al., Proc Natl Acad Sci USA. Dec. 7, 1999; 96(25): 14523-8) and prostate stem cell antigen (PSCA) (Reiter et al., 1998, Proc. Natl. Acad. Sci. USA 95: 1735). [0008]
  • While previously identified markers such as PSA, PSM, PCTA and PSCA have facilitated efforts to diagnose and treat prostate cancer, there is need for the identification of additional markers and therapeutic targets for prostate and related cancers in order to further improve diagnosis and therapy. [0009]
  • Renal cell carcinoma (RCC) accounts for approximately 3 percent of adult malignancies. Once adenomas reach a diameter of 2 to 3 cm, malignant potential exists. In the adult, the two principal malignant renal tumors are renal cell adenocarcinoma and transitional cell carcinoma of the renal pelvis or ureter. The incidence of renal cell adenocarcinoma is estimated at more than 29,000 cases in the United States, and more than 11,600 patients died of this disease in 1998. Transitional cell carcinoma is less frequent, with an incidence of approximately 500 cases per year in the United States. [0010]
  • Surgery has been the primary therapy for renal cell adenocarcinoma for many decades. Until recently, metastatic disease has been refractory to any systemic therapy. With recent developments in systemic therapies, particularly immunotherapies, metastatic renal cell carcinoma may be approached aggressively in appropriate patients with a possibility of durable responses. Nevertheless, there is a remaining need for effective therapies for these patients. [0011]
  • Of all new cases of cancer in the United States, bladder cancer represents approximately 5 percent in men (fifth most common neoplasm) and 3 percent in women (eighth most common neoplasm). The incidence is increasing slowly, concurrent with an increasing older population. In 1998, there was an estimated 54,500 cases, including 39,500 in men and 15,000 in women. The age-adjusted incidence in the United States is 32 per 100,000 for men and 8 per 100,000 in women. The historic male/female ratio of 3:1 may be decreasing related to smoking patterns in women. There were an estimated 11,000 deaths from bladder cancer in 1998 (7,800 in men and 3,900 in women). Bladder cancer incidence and mortality strongly increase with age and will be an increasing problem as the population becomes more elderly. [0012]
  • Most bladder cancers recur in the bladder. Bladder cancer is managed with a combination of transurethral resection of the bladder (TUR) and intravesical chemotherapy or immunotherapy. The multifocal and recurrent nature of bladder cancer points out the limitations of TUR. Most muscle-invasive cancers are not cured by TUR alone. Radical cystectomy and urinary diversion is the most effective means to eliminate the cancer but carry an undeniable impact on urinary and sexual function. There continues to be a significant need for treatment modalities that are beneficial for bladder cancer patients. [0013]
  • An estimated 130,200 cases of colorectal cancer occurred in 2000 in the United States, including 93,800 cases of colon cancer and 36,400 of rectal cancer. Colorectal cancers are the third most common cancers in men and women. Incidence rates declined significantly during 1992-1996 (−2.1% per year). Research suggests that these declines have been due to increased screening and polyp removal, preventing progression of polyps to invasive cancers. There were an estimated 56,300 deaths (47,700 from colon cancer, 8,600 from rectal cancer) in 2000, accounting for about 11% of all U.S. cancer deaths. [0014]
  • At present, surgery is the most common form of therapy for colorectal cancer, and for cancers that have not spread, it is frequently curative. Chemotherapy, or chemotherapy plus radiation, is given before or after surgery to most patients whose cancer has deeply perforated the bowel wall or has spread to the lymph nodes. A permanent colostomy (creation of an abdominal opening for elimination of body wastes) is occasionally needed for colon cancer and is infrequently required for rectal cancer. There continues to be a need for effective diagnostic and treatment modalities for colorectal cancer. [0015]
  • There were an estimated 164,100 new cases of lung and bronchial cancer in 2000, accounting for 14% of all U.S. cancer diagnoses. The incidence rate of lung and bronchial cancer is declining significantly in men, from a high of 86.5 per 100,000 in 1984 to 70.0 in 1996. In the 1990s, the rate of increase among women began to slow. In 1996, the incidence rate in women was 42.3 per 100,000. [0016]
  • Lung and bronchial cancer caused an estimated 156,900 deaths in 2000, accounting for 28% of all cancer deaths. During 1992-1996, mortality from lung cancer declined significantly among men (−1.7% per year) while rates for women were still significantly increasing (0.9% per year). Since 1987, more women have died each year of lung cancer than breast cancer, which, for over 40 years, was the major cause of cancer death in women. Decreasing lung cancer incidence and mortality rates most likely resulted from decreased smoking rates over the previous 30 years; however, decreasing smoking patterns among women lag behind those of men. Of concern, although the declines in adult tobacco use have slowed, tobacco use in youth is increasing again. [0017]
  • Treatment options for lung and bronchial cancer are determined by the type and stage of the cancer and include surgery, radiation therapy, and chemotherapy. For many localized cancers, surgery is usually the treatment of choice. Because the disease has usually spread by the time it is discovered, radiation therapy and chemotherapy are often needed in combination with surgery. Chemotherapy alone or combined with radiation is the treatment of choice for small cell lung cancer; on this regimen, a large percentage of patients experience remission, which in some cases is long lasting. There is however, an ongoing need for effective treatment and diagnostic approaches for lung and bronchial cancers. [0018]
  • An estimated 182,800 new invasive cases of breast cancer were expected to occur among women in the United States during 2000. Additionally, about 1,400 new cases of breast cancer were expected to be diagnosed in men in 2000. After increasing about 4% per year in the 1980s, breast cancer incidence rates in women have leveled off in the 1990s to about 110.6 cases per 100,000. [0019]
  • In the United States alone, there were an estimated 41,200 deaths (40,800 women, 400 men) in 2000 due to breast cancer. Breast cancer ranks second among cancer deaths in women. According to the most recent data, mortality rates declined significantly during 1992-1996 with the largest decreases in younger women, both white and black. These decreases were probably the result of earlier detection and improved treatment. [0020]
  • Taking into account the medical circumstances and the patient's preferences, treatment of breast cancer may involve lumpectomy (local removal of the tumor) and removal of the lymph nodes under the arm; mastectomy (surgical removal of the breast) and removal of the lymph nodes under the arm; radiation therapy; chemotherapy; or hormone therapy. Often, two or more methods are used in combination. Numerous studies have shown that, for early stage disease, long-term survival rates after lumpectomy plus radiotherapy are similar to survival rates after modified radical mastectomy. Significant advances in reconstruction techniques provide several options for breast reconstruction after mastectomy. Recently, such reconstruction has been done at the same time as the mastectomy. [0021]
  • Local excision of ductal carcinoma in situ (DCIS) with adequate amounts of surrounding normal breast tissue may prevent the local recurrence of the DCIS. Radiation to the breast and/or tamoxifen may reduce the chance of DCIS occurring in the remaining breast tissue. This is important because DCIS, if left untreated, may develop into invasive breast cancer. Nevertheless, there are serious side effects or sequelae to. these treatments. There is, therefore, a need for efficacious breast cancer treatments. [0022]
  • There were an estimated 23,100 new cases of ovarian cancer in the United States in 2000. It accounts for 4% of all cancers among women and ranks second among gynecologic cancers. During 1992-1996, ovarian cancer incidence rates were significantly declining. Consequent to ovarian cancer, there were an estimated 14,000 deaths in 2000. Ovarian cancer causes more deaths than any other cancer of the female reproductive system. [0023]
  • Surgery, radiation therapy, and chemotherapy are treatment options for ovarian cancer. Surgery usually includes the removal of one or both ovaries, the fallopian tubes (salpingo-oophorectomy), and the uterus (hysterectomy). In some very early tumors, only the involved ovary will be removed, especially in young women who wish to have children. In advanced disease, an attempt is made to remove all intra-abdominal disease to enhance the effect of chemotherapy. There continues to be an important need for effective treatment options for ovarian cancer. [0024]
  • There were an estimated 28,300 new cases of pancreatic cancer in the United States in 2000. Over the past 20 years, rates of pancreatic cancer have declined in men. Rates among women have remained approximately constant but may be beginning to decline. Pancreatic cancer caused an estimated 28,200 deaths in 2000 in the United States. Over the past 20 years, there has been a slight but significant decrease in mortality rates among men (about −0.9% per year) while rates have increased slightly among women. [0025]
  • Surgery, radiation therapy, and chemotherapy are treatment options for pancreatic cancer. These treatment options can extend survival and/or relieve symptoms in many patients but are not likely to produce a cure for most. There is a significant need for additional therapeutic and diagnostic options for pancreatic cancer. [0026]
    • SUMMARY OF THE INVENTION
  • The present invention relates to a gene, designated 151P3D4, that has now been found to be over-expressed in the cancer(s) listed in Table I. Northern blot expression analysis of 151P3D4 gene expression in normal tissues shows a restricted expression pattern in adult tissues. The nucleotide (FIG. 2) and amino acid (FIG. 2, and FIG. 3) sequences of 151P3D4 are provided. The tissue-related profile of 151P3D4 in normal adult tissues, combined with the over-expression observed in the tissues listed in Table I, shows that 151P3D4 is aberrantly over-expressed in at least some cancers, and thus serves as a useful diagnostic, prophylactic, prognostic, and/or therapeutic target for cancers of the tissue(s) such as those listed in Table I. [0027]
  • The invention provides polynucleotides corresponding or complementary to all or part of the 151P3D4 genes, mRNAs, and/or coding sequences, preferably in isolated form, including polynucleotides encoding 151P3D4-related proteins and fragments of 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, or more than 25 contiguous amino acids; at least 30, 35, 40, 45, 50, 55, 60, 65, 70, 80, 85, 90, 95, 100 or more than 100 contiguous amino acids of a 151P3D4-related protein, as well as the peptides/proteins themselves; DNA, RNA, DNA/RNA hybrids, and related molecules, polynucleotides or oligonucleotides complementary or having at least a 90% homology to the 151P3D4 genes or mRNA sequences or parts thereof, and polynucleotides or oligonucleotides that hybridize to the 151P3D4 genes, mRNAs, or to 151P3D4-encoding polynucleotides. Also provided are means for isolating cDNAs and the genes encoding 151P3D4. Recombinant DNA molecules containing 151P3D4 polynucleotides, cells transformed or transduced with such molecules, and host-vector systems for the expression of 151P3D4 gene products are also provided. The invention further provides antibodies that bind to 151P3D4 proteins and polypeptide fragments thereof, including polyclonal and monoclonal antibodies, murine and other mammalian antibodies, chimeric antibodies, humanized and fully human antibodies, and antibodies labeled with a detectable marker or therapeutic agent. In certain embodiments there is a proviso that the entire nucleic acid sequence of FIG. 2 is not encoded and/or the entire amino acid sequence of FIG. 2 is not prepared. In certain embodiments, the entire nucleic acid sequence of FIG. 2 is encoded and/or the entire amino acid sequence of FIG. 2 is prepared, either of which are in respective human unit dose forms. [0028]
  • The invention further provides methods for detecting the presence and status of 151P3D4 polynucleotides and proteins in various biological samples, as well as methods for identifying cells that express 151P3D4. A typical embodiment of this invention provides methods for monitoring 151P3D4 gene products in a tissue or hematology sample having or suspected of having some form of growth dysregulation such as cancer. [0029]
  • The invention further provides various immunogenic or therapeutic compositions and strategies for treating cancers that express 151P3D4 such as cancers of tissues listed in Table I, including therapies aimed at inhibiting the transcription, translation, processing or function of 151P3D4 as well as cancer vaccines. In one aspect, the invention provides compositions, and methods comprising them, for treating a cancer that expresses 151P3D4 in a human subject wherein the composition comprises a carrier suitable for human use and a human unit dose of one or more than one agent that inhibits the production or function of 151P3D4. Preferably, the carrier is a uniquely human carrier. In another aspect of the invention, the agent is a moiety that is immunoreactive with 151P3D4 protein. Non-limiting examples of such moieties include, but are not limited to, antibodies (such as single chain, monoclonal, polyclonal, humanized, chimeric, or human antibodies), functional equivalents thereof (whether naturally occurring or synthetic), and combinations thereof. The antibodies can be conjugated to a diagnostic or therapeutic moiety. In another aspect, the agent is a small molecule as defined herein. [0030]
  • In another aspect, the agent comprises one or more than one peptide which comprises a cytotoxic T lymphocyte (CTL) epitope that binds an HLA class I molecule in a human to elicit a CTL response to 151P3D4 and/or one or more than one peptide which comprises a helper T lymphocyte (HTL) epitope which binds an HLA class II molecule in a human to elicit an HTL response. The peptides of the invention may be on the same or on one or more separate polypeptide molecules. In a further aspect of the invention, the agent comprises one or more than one nucleic acid molecule that expresses one or more than one of the CTL or HTL response stimulating peptides as described above. In yet another aspect of the invention, the one or more than one nucleic acid molecule may express a moiety that is immunologically reactive with 151P3D4 as described above. The one or more than one nucleic acid molecule may also be, or encodes, a molecule that inhibits production of 151P3D4. Non-limiting examples of such molecules include, but are not limited to, those complementary to a nucleotide sequence essential for production of 151P3D4 (e.g. antisense sequences or molecules that form a triple helix with a nucleotide double helix essential for 151P3D4 production) or a ribozyme effective to lyse 151P3D4 mRNA. [0031]
  • Another embodiment of the invention is antibody epitopes which comprise a peptide regions, or an oligonucleotide encoding the peptide region, that has one two, three, four, or five of the following characteristics: [0032]
  • i) a peptide region of at least 5 amino acids of a particular peptide of FIG. 3, in any whole number increment up to the full length of that protein in FIG. 3, that includes an amino acid position having a value equal to or greater than 0.5, 0.6, 0.7, 0.8, 0.9, or having a value equal to 1.0, in the Hydrophilicity profile of FIG. 5; [0033]
  • ii) a peptide region of at least 5 amino acids of a particular peptide of FIG. 3, in any whole number increment up to the full length of that protein in FIG. 3, that includes an amino acid position having a value equal to or less than 0.5, 0.4, 0.3, 0.2, 0.1, or having a value equal to 0.0, in the Hydropathicity profile of FIG. 6; [0034]
  • iii) a peptide region of at least 5 amino acids of a particular peptide of FIG. 3, in any whole number increment up to the full length of that protein in FIG. 3, that includes an amino acid position having a value equal to or greater than 0.5, 0.6, 0.7, 0.8, 0.9, or having a value equal to 1.0, in the Percent Accessible Residues profile of FIG. 7; [0035]
  • iv) a peptide region of at least 5 amino acids of a particular peptide of FIG. 3, in any whole number increment up to the full length of that protein in FIG. 3, that includes an amino acid position having a value equal to or greater than 0.5, 0.6, 0.7, 0.8, 0.9, or having a value equal to 1.0, in the Average Flexibility profile of FIG. 8; or [0036]
  • v) a peptide region of at least 5 amino acids of a particular peptide of FIG. 3, in any whole number increment up to the full length of that protein in FIG. 3, that includes an amino acid position having a value equal to or greater than 0.5, 0.6, 0.7, 0.8, 0.9, or having a value equal to 1.0, in the Beta-turn profile of FIG. 9. [0037]
    • BRIEF DESCRIPTION OF THE FIGURES
  • FIG. 1. The 151P3D4 SSH sequence of 417 nucleotides. [0038]
  • FIG. 2. The cDNA (SEQ ID. NO.:______) and amino acid sequence (SEQ ID. NO.:______) of 151P3D4 v.1 clone 1-placenta (also called “151P3D4 v.1” or “[0039] 151P3D4 variant 1”) is shown in FIG. 2A. The start methionine is underlined. The open reading frame extends from nucleic acid 316-1380 including the stop codon. The cDNA (SEQ ID. NO.:______) and amino acid sequence (SEQ ID. NO.:______) of 151P3D4 variant 2 (also called “151P3D4 v.2”) is shown in FIG. 2B. The codon for the start methionine is underlined. The open reading frame extends from nucleic acid 1-2166 including the stop codon. The cDNA (SEQ ID. NO.:______) and amino acid sequence (SEQ ID. NO.:______) of 151P3D4 variant 3 (also called “151P3D4 v.3”) is shown in FIG. 2C. The codon for the start methionine is underlined. The open reading frame extends from nucleic acid 316-1380 including the stop codon. The cDNA (SEQ ID. NO.:______) and amino acid sequence (SEQ ID. NO.:______) of 151P3D4 variant 4 (also called “151P3D4 v.4”) is shown in FIG. 2D. The codon for the start methionine is underlined. The open reading frame extends from nucleic acid 316-1380 including the stop codon. The cDNA (SEQ ID. NO.:______) and amino acid sequence (SEQ ID. NO.:______) of 151P3D4 variant 5 (also called “151P3D4 v.5”) is shown in FIG. 2E. The codon for the start methionine is underlined. The open reading frame extends from nucleic acid 316-1380 including the stop codon. The cDNA (SEQ ID. NO.:______) and amino acid sequence (SEQ ID. NO.:______) of 151P3D4 variant 6 (also called “151P3D4 v.6”) is shown in FIG. 2F. The codon for the start methionine is underlined. The open reading frame extends from nucleic acid 316-1380 including the stop codon. The cDNA (SEQ ID. NO.:______) and amino acid sequence (SEQ ID. NO.:______) of 151P3D4 variant 7 (also called “151P3D4 v.7”) is shown in FIG. 2G. The codon for the start methionine is underlined. The open reading frame extends from nucleic acid 316-1380 including the stop codon. The cDNA (SEQ ID. NO.:______) and amino acid sequence (SEQ ID. NO.:______) of 151P3D4 variant 8 (also called “151P3D4 v.8”) is shown in FIG. 2H. The codon for the start methionine is underlined. The open reading frame extends from nucleic acid 316-1380 including the stop codon. The cDNA (SEQ ID. NO.:______) and amino acid sequence (SEQ ID. NO.:______) of 151P3D4 variant 9 (also called “151P3D4 v.9”) is shown in FIG. 2I. The codon for the start methionine is underlined. The open reading frame extends from nucleic acid 316-1380 including the stop codon. The cDNA (SEQ ID. NO.:______) and amino acid sequence (SEQ ID. NO.:______) of 151P3D4 variant 10 (also called “151P3D4 v.10”) is shown in FIG. 2J. The codon for the start methionine is underlined. The open reading frame extends from nucleic acid 316-1380 including the stop codon. The cDNA (SEQ ID. NO.:______) and amino acid sequence (SEQ ID. NO.:______) of 151P3D4 variant 11 (also called “151P3D4 v.11”) is shown in FIG. 2K. The codon for the start methionine is underlined. The open reading frame extends from nucleic acid 316-1380 including the stop codon. As used herein, a reference to 151P3D4 includes all variants thereof, including those shown in FIGS. 10 and 12.
  • FIG. 3. Amino acid sequence of 151P3D4 v.1 (SEQ ID. NO.:______) is shown in FIG. 3A; it has 354 amino acids. The amino acid sequence of 151P3D4 v.2 (SEQ ID. NO.:______) is shown in FIG. 3B; it has 721 amino acids. As used herein, a reference to 151P3D4 includes all variants thereof, including those shown in FIGS. 11 and 12. [0040]
  • FIG. 4. The nucleic acid sequence alignment of 151P3D4 v.1 with the mRNA for human cartilage link protein is shown in FIG. 4A. The amino acid sequence alignments of 151P3D4 v.1 with human cartilage link protein (4B), mouse cartilage link protein (4C), 151P3D4 v.2 (4D), hypothetical protein XP[0041] 094318 (4E), bovine cartilage link protein (4F), and rat cartilage link protein (4G) are shown in FIGS. 4B-4G. The amino acid sequence alignments of 151P3D4 v.2 with human cartilage link protein is shown in FIG. 4H. The clustal alignment of 151P3D4 v.1 and 151P3D4 v.2 is shown in FIG. 4I.
  • FIG. 5. Hydrophilicity amino acid profile of A) 151P3D4 v.1 and B) 151P3D4 v.2, determined by computer algorithm sequence analysis using the method of Hopp and Woods (Hopp T. P., Woods K. R., 1981. Proc. Natl. Acad. Sci. U.S.A. 78:3824-3828) accessed on the Protscale website (www.expasy.ch/cgi-bin/protscale.pl) through the ExPasy molecular biology server. [0042]
  • FIG. 6. Hydropathicity amino acid profile of A) 151P3D4 v.1 and B) 151P3D4 v.2, determined by computer algorithm sequence analysis using the method of Kyte and Doolittle (Kyte J., Doolittle R. F., 1982. J. Mol. Biol. 157:105-132) accessed on the ProtScale website (www.expasy.ch/cgi-bin/protscale.pl) through the ExPasy molecular biology server. [0043]
  • FIG. 7. Percent accessible residues amino acid profile of A) 151P3D4 v.1 and B) 151P3D4 v.2, determined by computer algorithm sequence analysis using the method of Janin (Janin J., 1979 Nature 277:491-492) accessed on the ProtScale website (www.expasy.ch/cgi-bin/protscale.pl) through the ExPasy molecular biology server. [0044]
  • FIG. 8. Average flexibility amino acid profile of A) 151P3D4 v.1 and B) 151P3D4 v.2, determined by computer algorithm sequence analysis using the method of Bhaskaran and Ponnuswamy (Bhaskaran R., and Ponnuswamy P. K., 1988. Int. J. Pept. Protein Res. 32:242-255) accessed on the ProtScale website (www.expasy.ch/cgi-bin/protscale.pl) through the ExPasy molecular biology server. [0045]
  • FIG. 9. Beta-turn amino acid profile of A) 151P3D4 v.1 and B) 151P3D4 v.2, determined by computer algorithm sequence analysis using the method of Deleage and Roux (Deleage, G., Roux B. 1987 Protein Engineering 1:289-294) accessed on the ProtScale website (www.expasy.ch/cgi-bin/protscale.pl) through the ExPasy molecular biology server. [0046]
  • FIG. 10. Schematic display of nucleotide variants of 151P3D4. Schematic alignment of Single Nucleotide Polymorphism(SNP) variants of 151P3D4. Variants 151P3D4 v.3 through v.11are variants with single nucleotide differences. Though these SNP variants are shown separately, they could also occur in any combinations and in any one of the transcript variants that contains the base pairs. Numbers correspond to those of 151P3D4 v.1. The black boxes show the same sequence as 151P3D4 v.1 . SNPs are indicate the boxes. [0047]
  • FIG. 11. Schematic alignment of protein variants of 151P3D4. Nucleotide variants 151P3D4 v.2 through v.9 in FIG. 10 code for the same protein as 151P3D4 v.1. Variants 151P3D4 v.2 codes for a protein that shares 321 aa with 151P3D4 v.1. Boxes with the same fill pattern represent the same sequence. Numbers in “( )” underneath the boxes correspond to 151P3D4 v.1. [0048]
  • FIG. 12. Schematic alignment of transcript variants of 151P3D4. Variant 151P3D4 v.2 is an alternative transcript, which shares the last three exons with 151P3D4 v.1. The first two exons of 151P3D4 v.1 are located in the sixth intron (between [0049] exons 6 and 7) of 151P3D4 v.2. Numbers in “( )” underneath the boxes correspond to those of 151P3D4 v.2. Boxes with the same fill pattern represent the same sequence.
  • FIG. 13. Secondary structure prediction for 151P3D4 protein variants. The secondary structure of [0050] 151P3D4 protein variants 1 and 2 (FIGS. A and B, respectively) were predicted using the HNN—Hierarchical Neural Network method (Guermeur, 1997, http://pbil.ibcp.fr/cgi-bin/npsa13automat.pl?page=npsa_nn.html), accessed from the ExPasy molecular biology server (http://www.expasy.ch/tools/). This method predicts the presence and location of alpha helices, extended strands, and random coils from the primary protein sequence. The percent of the protein in a given secondary structure is also listed.
  • FIG. 14. Expression of 151P3D4 by RT-PCR. First strand cDNA was prepared from vital pool 1 (liver, lung and kidney), vital pool 2 (pancreas, colon and stomach), bladder cancer pool, kidney cancer pool, colon cancer pool, lung cancer pool, ovary cancer pool, breast cancer pool, and cancer metastasis pool. Normalization was performed by PCR using primers to actin and GAPDH. Semi-quantitative PCR, using primers to 151P3D4, was performed at 26 and 30 cycles of amplification. Results show strong expression of. 151P3D4 in ovary cancer pool. Expression of 151P3D4 was also detected in bladder cancer pool, kidney cancer pool, colon cancer pool, lung cancer pool, breast cancer pool, cancer metastasis pool, [0051] vital pool 2, but not in vital pool 1.
  • FIG. 15. Expression of 151P3D4 in normal tissues. Two multiple tissue northern blots (Clontech) both with 2 ug of mRNA/lane were probed with the 151P3D4 sequence. Size standards in kilobases (kb) are indicated on the side. Results show expression of 151P3D4 in small intestine and placenta. Lower level expression was also detected in heart and colon, but not in the other normal tissues tested. [0052]
  • FIG. 16. Expression of 151P3D4 in bladder cancer patient tissues. RNA was extracted from normal bladder (NB), bladder cancer cell lines (CL: UM-UC-3, J82, SCaBER), bladder cancer patient tumors (T) and normal adjacent tissue (NAT). Northern blots with 10 ug of total RNA were probed with the 151P3D4 SSH sequence. Size standards in kilobases are indicated on the side. Results show expression of 151P3D4 in patient bladder cancer tissues, and in UM-UC-3 bladder cancer cell lines, but not in normal bladder nor in the other bladder cancer cell lines tested. [0053]
  • FIG. 17. Expression of 151P3D4 in kidney cancer patient tissues. RNA was extracted from kidney cancer cell lines (CL: 769-P, A498, SW839), normal kidney (NK), kidney cancer patient tumors (T) and their normal adjacent tissues (NAT). Northern blots with 10 ug of total RNA were probed with the 151P3D4 SSH sequence. Size standards in kilobases are on the side. Results show expression of 151P3D4 in patient kidney tumor tissues, but not in normal kidney, nor in the cell lines tested. [0054]
  • FIG. 18. Expression of 151P3D4 in ovary cancer patient tissues. RNA was extracted from ovary and cervical cancer cell lines (CL), normal ovary (N), and ovary cancer patient tumor (T). Northern blots with 10 ug of total RNA were probed with the 151P3D4 SSH sequence. Size standards in kilobases are on the side. Results show strong expression of 151P3D4 in patient ovary cancer tissues, but not in normal ovary nor in the ovary and cervical cancer cell lines. [0055]
  • FIG. 19. Expression of 151P3D4 in stomach and uterus human cancer specimens. Expression of 151P3D4 was assayed in a panel of human stomach and uterus cancers (T) and their respective matched normal tissues (N) on RNA dot blots. 151P3D4 expression was seen in both stomach and uterus cancers. [0056]
  • FIG. 20. 151P3D4 expression in 293T cells following transfection. 293T cells were transfected with either 151P3D4 .pcDNA3.1/mychis or pcDNA3.1/mychis vector control. Forty hours later, cell lysates were collected. Samples were run on an SDS-PAGE acrylamide gel, blotted and stained with anti-his antibody. The blot was developed using the ECL chemiluminescence kit and visualized by autoradiography. Results show expression of 151P3D4 from the 151P3D4. pcDNA3.1 /mychis mammalian expression construct in the lysates of 151P3D4. pcDNA3.1/mychis transfected cells, but not from the control pcDNA3.1/mychis vector.[0057]
    • DETAILED DESCRIPTION OF THE INVENTION
  • Outline of Sections [0058]
  • I.) Definitions [0059]
  • II.) 151P3D4 Polynucleotides [0060]
  • II.A.) Uses of 151P3D4 Polynucleotides [0061]
  • II.A.1.) Monitoring of Genetic Abnormalities [0062]
  • II.A.2.) Antisense Embodiments [0063]
  • II.A.3.) Primers and Primer Pairs [0064]
  • II.A.4.) Isolation of 151P3D4-Encoding Nucleic Acid Molecules [0065]
  • II.A.5.) Recombinant Nucleic Acid Molecules and Host-Vector Systems [0066]
  • III.) 151P3D4-related Proteins [0067]
  • III.A.) Motif-bearing Protein Embodiments [0068]
  • III.B.) Expression of 151P3D4-related Proteins [0069]
  • III.C.) Modifications of 151P3D4-related Proteins [0070]
  • III.D.) Uses of 151P3D4-related Proteins [0071]
  • IV.) 151P3D4 Antibodies [0072]
  • V.) 151P3D4 Cellular Immune Responses [0073]
  • VI.) 151P3D4 Transgenic Animals [0074]
  • VII.) Methods for the Detection of 151P3D4 [0075]
  • VIII.) Methods for Monitoring the Status of 151P3D4-related Genes and Their Products [0076]
  • IX.) Identification of Molecules That Interact With 151P3D4 [0077]
  • X.) Therapeutic Methods and Compositions [0078]
  • X.A.) Anti-Cancer Vaccines [0079]
  • X.B.) 151P3D4 as a Target for Antibody-Based Therapy [0080]
  • X.C.) 151P3D4 as a Target for Cellular Immune Responses [0081]
  • X.C.1. Minigene Vaccines [0082]
  • X.C.2. Combinations of CTL Peptides with Helper Peptides [0083]
  • X.C.3. Combinations of CTL Peptides with T Cell Priming Agents [0084]
  • X.C.4. Vaccine Compositions Comprising DC Pulsed with CTL and/or HTL Peptides [0085]
  • X.D.) Adoptive Immunotherapy [0086]
  • X.E.) Administration of Vaccines for Therapeutic or Prophylactic Purposes [0087]
  • XI.) Diagnostic and Prognostic Embodiments of 151P3D4. [0088]
  • XII.) Inhibition of 151P3D4 Protein Function [0089]
  • XII.A.) Inhibition of 151P3D4 With Intracellular Antibodies [0090]
  • XII.B.) Inhibition of 151P3D4 with Recombinant Proteins [0091]
  • XII.C.) Inhibition of 151P3D4 Transcription or Translation [0092]
  • XII.D.) General Considerations for Therapeutic Strategies [0093]
  • XIII.) KITS [0094]
  • I.) Definitions: [0095]
  • Unless otherwise defined, all terms of art, notations and other scientific terms or terminology used herein are intended to have the meanings commonly understood by those of skill in the art to which this invention pertains. In some cases, terms with commonly understood meanings are defined herein for clarity and/or for ready reference, and the inclusion of such definitions herein should not necessarily be construed to represent a substantial difference over what is generally understood in the art. Many of the techniques and procedures described or referenced herein are well understood and commonly employed using conventional methodology by those skilled in the art, such as, for example, the widely utilized molecular cloning methodologies described in Sambrook et al., Molecular Cloning: A Laboratory Manual 2nd. edition (1989) Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y. As appropriate, procedures involving the use of commercially available kits and reagents are generally carried out in accordance with manufacturer defined protocols and/or parameters unless otherwise noted. [0096]
  • The terms “advanced prostate cancer”, “locally advanced prostate cancer”, “advanced disease” and “locally advanced disease” mean prostate cancers that have extended through the prostate capsule, and are meant to include stage C disease under the American Urological Association (AUA) system, stage C1-C2 disease under the Whitmore-Jewett systemn, and stage T3-T4 and N+ disease under the TNM (tumor, node, metastasis) system. In general surgery is not recommended for patients with locally advanced disease, and these patients have substantially less favorable outcomes compared to patients having clinically localized (organ-confined) prostate cancer. Locally advanced disease is clinically identified by palpable evidence of induration beyond the lateral border of the prostate, or asymmetry or induration above the prostate base. Locally advanced prostate cancer is presently diagnosed pathologically following radical prostatectomy if the tumor invades or penetrates the prostatic capsule, extends into the surgical margin, or invades the seminal vesicles. [0097]
  • “Altering the native glycosylation pattern” is intended for purposes herein to mean deleting one or more carbohydrate moieties found in native sequence 151P3D4 (either by removing the underlying glycosylation site or by deleting the glycosylation by chemical and/or enzymatic means), and/or adding one or more glycosylation sites that are not present in the native sequence 151P3D4. In addition, the phrase includes qualitative changes in the glycosylation of the native proteins, involving a change in the nature and proportions of the various carbohydrate moieties present. [0098]
  • The term “analog” refers to a molecule which is structurally similar or shares similar or corresponding attributes with another molecule (e.g. a 151P3D4-related protein). For example an analog of a [0099] 151P3D 4 protein can be specifically bound by an antibody or T cell that specifically binds to 151P3D4.
  • The term “antibody” is used in the broadest sense. Therefore an “antibody” can be naturally occurring or man-made such as monoclonal antibodies produced by conventional hybridoma technology. Anti-151P3D4 antibodies comprise monoclonal and polyclonal antibodies as well as fragments containing the antigen-binding domain and/or one or more complementarity determining regions of these antibodies. [0100]
  • An “antibody fragment” is defined as at least a portion of the variable region of the immunoglobulin molecule that binds to its target, i.e., the antigen-binding region. In one embodiment it specifically covers single anti-151P3D4 antibodies and clones thereof (including agonist, antagonist and neutralizing antibodies) and anti-151P3D4 antibody compositions with polyepitopic specificity. [0101]
  • The term “codon optimized sequences” refers to nucleotide sequences that have been optimized for a particular host species by replacing any codons having a usage frequency of less than about 20%. Nucleotide sequences that have been optimized for expression in a given host species by elimination of spurious polyadenylation sequences, elimination of exon/intron splicing signals, elimination of transposon-like repeats and/or optimization of GC content in addition to codon optimization are referred to herein as an “expression enhanced sequences.”[0102]
  • The term “cytotoxic agent” refers to a substance that inhibits or prevents the expression activity of cells, function of cells and/or causes destruction of cells. The term is intended to include radioactive isotopes chemotherapeutic agents, and toxins such as small molecule toxins or enzymatically active toxins of bacterial, fungal, plant or animal origin, including fragments and/or variants thereof. Examples of cytotoxic agents include, but are not limited to maytansinoids, yttrium, bismuth, ricin, ricin A-chain, doxorubicin, daunorubicin, taxol, ethidium bromide, mitomycin, etoposide, tenoposide, vincristine, vinblastine, colchicine, dihydroxy anthracin dione, actinomycin, diphtheria toxin, Pseudomonas exotoxin (PE) A, PE40, abrin, abrin A chain, modeccin A chain, alpha-sarcin, gelonin, mitogellin, retstrictocin, phenomycin, enomycin, curicin, crotin, calicheamicin, sapaonaria officinalis inhibitor, and glucocorticoid and other chemotherapeutic agents, as well as radioisotopes such as At[0103] 211, I131, I125, Y90, Re186, Re188, Sm153, Bi212, P32 and radioactive isotopes of Lu. Antibodies may also be conjugated to an anti-cancer pro-drug activating enzyme capable of converting the pro-drug to its active form.
  • The term “homolog” refers to a molecule which exhibits homology to another molecule, by for example, having sequences of chemical residues that are the same or similar at corresponding positions. [0104]
  • “Human Leukocyte Antigen” or “HLA” is a human class I or class II Major Histocompatibility Complex (MHC) protein (see, e.g., Stites, et al., IMMUNOLOGY, 8[0105] TH Ed., Lange Publishing, Los Altos, Calif. (1994).
  • The terms “hybridize”, “hybridizing”, “hybridizes” and the like, used in the context of polynucleotides, are meant to refer to conventional hybridization conditions, preferably such as hybridization in 50% formamide/6×SSC/0.1% SDS/100 μg/ml ssDNA, in which temperatures for hybridization are above 37 degrees C. and temperatures for washing in 0.1×SSC/0.1% SDS are above 55 degrees C. [0106]
  • The phrases “isolated” or “biologically pure” refer to material which is substantially or essentially free from components which normally accompany the material as it is found in its native state. Thus, isolated peptides in accordance with the invention preferably do not contain materials normally associated with the peptides in their in situ environment. For example, a polynucleotide is said to be “isolated” when it is substantially separated from contaminant polynucleotides that correspond or are complementary to genes other than the 151P3D4 genes or that encode polypeptides other than 151P3D4 gene product or fragments thereof. A skilled artisan can readily employ nucleic acid isolation procedures to obtain an isolated 151P3D4 polynucleotide. A protein is said to be “isolated,” for example, when physical, mechanical or chemical methods are employed to remove the 151P3D4 proteins from cellular constituents that are normally associated with the protein. A skilled artisan can readily employ standard purification methods to obtain an isolated l5IP3D4 protein. Alternatively, an isolated protein can be prepared by chemical means. [0107]
  • The term “mammal” refers to any organism classified as a mammal, including mice, rats, rabbits, dogs, cats, cows, horses and humans. In one embodiment of the invention, the mammal is a mouse. In another embodiment of the invention, the mammal is a human. [0108]
  • The terms “metastatic prostate cancer” and “metastatic disease” mean prostate cancers that have spread to regional lymph nodes or to distant sites, and are meant to include stage D disease under the AUA system and stage TxNxM+ under the TNM system. As is the case with locally advanced prostate cancer, surgery is generally not indicated for patients with metastatic disease, and hormonal (androgen ablation) therapy is a preferred treatment modality. Patients with metastatic prostate cancer eventually develop an androgen-refractory state within 12 to 18 months of treatment initiation. Approximately half of these androgen-refractory patients die within 6 months after developing that status. The most common site for prostate cancer metastasis is bone. Prostate cancer bone metastases are often osteoblastic rather than osteolytic (i.e., resulting in net bone formation). Bone metastases are found most frequently in the spine, followed by the femur, pelvis, rib cage, skull and humerus. Other common sites for metastasis include lymph nodes, lung, liver and brain. Metastatic prostate cancer is typically diagnosed by open or laparoscopic pelvic lymphadenectomy, whole body radionuclide scans, skeletal radiography, and/or bone lesion biopsy. [0109]
  • The term “monoclonal antibody” refers to an antibody obtained from a population of substantially homogeneous antibodies, i.e., the antibodies comprising the population are identical except for possible naturally occurring mutations that are present in minor amounts. [0110]
  • A “motif”, as in biological motif of a 151P3D4-related protein, refers to any pattern of amino acids forming part of the primary sequence of a protein, that is associated with a particular function (e.g. protein-protein interaction, protein-DNA interaction, etc) or modification (e.g. that is phosphorylated, glycosylated or amidated), or localization (e.g. secretory sequence, nuclear localization sequence, etc.) or a sequence that is correlated with being immunogenic, either humorally or cellularly. A motif can be either contiguous or capable of being aligned to certain positions that are generally correlated with a certain function or property. In the context of HLA motifs, “motif” refers to the pattern of residues in a peptide of defined length, usually a peptide of from about 8 to about 13 amino acids for a class I HLA motif and from about 6 to about 25 amino acids for a class II HLA motif, which is recognized by a particular HLA molecule. Peptide motifs for HLA binding are typically different for each protein encoded by each human HLA allele and differ in the pattern of the primary and secondary anchor residues. [0111]
  • A “pharmaceutical excipient” comprises a material such as an adjuvant, a carrier, pH-adjusting and buffering agents, tonicity adjusting agents, wetting agents, preservative, and the like. [0112]
  • “Pharmaceutically acceptable” refers to a non-toxic, inert, and/or composition that is physiologically compatible with humans or other mammals. [0113]
  • The term “polynucleotide” means a polymeric form of nucleotides of at least 10 bases or base pairs in length, either ribonucleotides or deoxynucleotides or a modified form of either type of nucleotide, and is meant to include single and double stranded forms of DNA and/or RNA. In the art, this term if often used interchangeably with “oligonucleotide”. A polynucleotide can comprise a nucleotide sequence disclosed herein wherein thymidine (T), as shown for example in FIG. 2, can also be uracil (U); this definition pertains to the differences between the chemical structures of DNA and RNA, in particular the observation that one of the four major bases in RNA is uracil (U) instead of thymidine (T). [0114]
  • The term “polypeptide” means a polymer of at least about 4, 5, 6, 7, or 8 amino acids. Throughout the specification, standard three letter or single letter designations for amino acids are used. In the art, this term is often used interchangeably with “peptide” or “protein”. [0115]
  • An HLA “primary anchor residue” is an amino acid at a specific position along a peptide sequence which is understood to provide a contact point between the immunogenic peptide and the HLA molecule. One to three, usually two, primary anchor residues within a peptide of defined length generally defines a “motif” for an immunogenic peptide. These residues are understood to fit in close contact with peptide binding groove of an HLA molecule, with their side chains buried in specific pockets of the binding groove. In one embodiment, for example, the primary anchor residues for an HLA class I molecule are located at position 2 (from the amino terminal position) and at the carboxyl terminal position of a 8, 9, 10, 11, or 12 residue peptide epitope in accordance with the invention. In another embodiment, for example, the primary anchor residues of a peptide that will bind an HLA class II molecule are spaced relative to each other, rather than to the termini of a peptide, where the peptide is generally of at least 9 amino acids in length. The primary anchor positions for each motif and supermotif are set forth in Table IV. For example, analog peptides can be created by altering the presence or absence of particular residues in the primary and/or secondary anchor positions shown in Table IV. Such analogs are used to modulate the binding affinity and/or population coverage of a peptide comprising a particular HLA motif or supermotif. [0116]
  • A “recombinant” DNA or RNA molecule is a DNA or RNA molecule that has been subjected to molecular manipulation in vitro. [0117]
  • Non-limiting examples of small molecules include compounds that bind or interact with 151P3D4, ligands including hormones, neuropeptides, chemokines, odorants, phospholipids, and functional equivalents thereof that bind and preferably inhibit 151P3D4 protein function. Such non-limiting small molecules preferably have a molecular weight of less than about 10 kDa, more preferably below about 9, about 8, about 7, about 6, about 5 or about 4 kDa. In certain embodiments, small molecules physically associate with, or bind, 151P3D4 protein; are not found in naturally occurring metabolic pathways; and/or are more soluble in aqueous than non-aqueous solutions [0118]
  • “Stringency” of hybridization reactions is readily determinable by one of ordinary skill in the art, and generally is an empirical calculation dependent upon probe length, washing temperature, and salt concentration. In general, longer probes require higher temperatures for proper annealing, while shorter probes need lower temperatures. Hybridization generally depends on the ability of denatured nucleic acid sequences to reanneal when complementary strands are present in an environment below their melting temperature. The higher the degree of desired homology between the probe and hybridizable sequence, the higher the relative temperature that can be used. As a result, it follows that higher relative temperatures would tend to make the reaction conditions more stringent, while lower temperatures less so. For additional details and explanation of stringency of hybridization reactions, see Ausubel et al., Current Protocols in Molecular Biology, Wiley Interscience Publishers, (1995). [0119]
  • “Stringent conditions” or “high stringency conditions”, as defined herein, are identified by, but not limited to, those that: (1) employ low ionic strength and high temperature for washing, for example 0.015 M sodium chloride/0.0015 M sodium citrate/0.1% sodium dodecyl sulfate at 50° C.; (2) employ during hybridization a denaturing agent, such as formamide, for example, 50% (v/v) formamide with 0.1% bovine serum albumin/0.1% Ficoll/0.1% polyvinylpyrrolidone/50 mM sodium phosphate buffer at pH 6.5 with 750 mM sodium chloride, 75 mM sodium citrate at 42° C.; or (3) employ 50% formamide, 5×SSC (0.75 M NaCl, 0.075 M sodium citrate), 50 mM sodium phosphate (pH 6.8), 0.1% sodium pyrophosphate, 5× Denhardt's solution, sonicated salmon sperm DNA (50 μg/ml), 0.1% SDS, and 10% dextran sulfate at 42° C., with washes at 42° C. in 0.2×SSC (sodium chloride/sodium. citrate) and 50% fornamide at 55° C., followed by a high-stringency wash consisting of 0.1×SSC containing EDTA at 55° C. “Moderately stringent conditions” are described by, but not limited to, those in Sambrook et al., Molecular Cloning: A Laboratory Manual, New York: Cold Spring Harbor Press, 1989, and include the use of washing solution and hybridization conditions (e.g., temperature, ionic strength and % SDS) less stringent than those described above. An example of moderately stringent conditions is overnight incubation at 37° C. in a solution comprising: 20% formamide, 5×SSC (150 mM NaCl, 15 mM trisodium citrate), 50 mM sodium phosphate (pH 7.6), 5× Denhardt's solution, 10% dextran sulfate, and 20 mg/mL denatured sheared salmon sperm DNA, followed by washing the filters in 1×SSC at about 37-50° C. The skilled artisan will recognize how to adjust the temperature, ionic strength, etc. as necessary to accommodate factors such as probe length and the like. [0120]
  • An HLA “supermotif” is a peptide binding specificity shared by HLA molecules encoded by two or more HLA alleles. [0121]
  • As used herein “to treat” or “therapeutic” and grammatically related terms, refer to any improvement of any consequence of disease, such as prolonged survival, less morbidity, and/or a lessening of side effects which are the byproducts of an alternative therapeutic modality; full eradication of disease is not required. [0122]
  • A “transgenic animal” (e.g., a mouse or rat) is an animal having cells that contain a transgene, which transgene was introduced into the animal or an ancestor of the animal at a prenatal, e.g., an embryonic stage. A “transgene” is a DNA that is integrated into the genome of a cell from which a transgenic animal develops. [0123]
  • As used herein, an HLA or cellular immune response “vaccine” is a composition that contains or encodes one or more peptides of the invention. There are numerous embodiments of such vaccines, such as a cocktail of one or more individual peptides; one or more peptides of the invention comprised by a polyepitopic peptide; or nucleic acids that encode such individual peptides or polypeptides, e.g., a minigene that encodes a polyepitopic peptide. The “one or more peptides” can include any whole unit integer from 1-150 or more, e.g., at least 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 105, 110, 115, 120, 125, 130, 135, 140, 145, or 150 or more peptides of the invention. The peptides or polypeptides can optionally be modified, such as by lipidation, addition of targeting or other sequences. HLA class I peptides of the invention can be admixed with, or linked to, HLA class II peptides, to facilitate activation of both cytotoxic T lymphocytes and helper T lymphocytes. HLA vaccines can also comprise peptide-pulsed antigen presenting cells, e.g., dendritic cells. [0124]
  • The term “variant” refers to a molecule that exhibits a variation from a described type or norm, such as a protein that has one or more different amino acid residues in the corresponding position(s) of a specifically described protein (e.g. the 151P3D4 protein shown in FIG. 2 or FIG. 3. An analog is an example of a variant protein. Splice isoforms and single nucleotides polymorphisms (SNPs) are further examples of variants. [0125]
  • The “151P3D4-related proteins” of the invention include those specifically identified herein, as well as allelic variants, conservative substitution variants, analogs and homologs that can be isolated/generated and characterized without undue experimentation following the methods outlined herein or readily available in the art. Fusion proteins that combine parts of different 151P3D4 proteins or fragments thereof, as well as fusion proteins of a 151P3D4 protein and a heterologous polypeptide are also included. Such 151P3D4 proteins are collectively referred to as the 151P3D4-related proteins, the proteins of the invention, or 151P3D4. The term “151P3D4-related protein” refers to a polypeptide fragment or a 151P3D4 protein sequence of 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, or more than 25 amino acids; or, at least 30, 35, 40, 45, 50, 55, 60, 65, 70, 80, 85, 90, 95, 100, 105, 110, 115, 120, 125, 130, 135, 140, 145, 150, 155, 160, 165, 170, 175, 180, 185, 190, 195, 200, 225, 250, 275, 300, 325, 350, or 354 or more amino acids. [0126]
  • II.) 151P3D4 Polynucleotides [0127]
  • One aspect of the invention provides polynucleotides corresponding or complementary to all or part of a 151P3D4 gene, mRNA, and/or coding sequence, preferably in isolated form, including polynucleotides encoding a 151P3D4-related protein and fragments thereof, DNA, RNA, DNA/RNA hybrid, and related molecules, polynucleotides or oligonucleotides complementary to a 151P3D4 gene or mRNA sequence or a part thereof, and polynucleotides or oligonucleotides that hybridize to a 151P3D4 gene, mRNA, or to a 151P3D4 encoding polynucleotide (collectively, “151P3D4 polynucleotides”). In all instances when referred to in this section, T can also be U in FIG. 2. [0128]
  • Embodiments of a 151P3D4 polynucleotide include: a 151P3D4 polynucleotide having the sequence shown in FIG. 2, the nucleotide sequence of 151P3D4 as shown in FIG. 2 wherein T is U; at least 10 contiguous nucleotides of a polynucleotide having the sequence as shown in FIG. 2; or, at least 10 contiguous nucleotides of a polynucleotide having the sequence as shown in FIG. 2 where T is U. For example, embodiments of 151P3D4 nucleotides comprise, without limitation: [0129]
  • (I) a polynucleotide comprising, consisting essentially of, or consisting of a sequence as shown in FIG. 2 (SEQ ID NO:______), wherein T can also be U; [0130]
  • (II) a polynucleotide comprising, consisting essentially of, or consisting of the sequence as shown in FIG. 2A (SEQ ID NO:______), from [0131] nucleotide residue number 316 through nucleotide residue number 1380, including the stop codon, wherein T can also be U;
  • (III) a polynucleotide comprising, consisting essentially of, or consisting of the sequence as shown in FIG. 2B (SEQ ID NO:______), from [0132] nucleotide residue number 1 through nucleotide residue number 2166, including the stop codon, wherein T can also be U;
  • (IV) a polynucleotide comprising, consisting essentially of, or consisting of the sequences as shown in FIGS. [0133] 2C-2K (SEQ ID NOs:______), from nucleotide residue number 316 through nucleotide residue number 1380, including the a stop codon, wherein T can also be U;
  • (V) a polynucleotide that encodes a 151P3D4-related protein that is at least 90% homologous to an entire amino acid sequence shown in FIGS. [0134] 2A-K (SEQ ID NO:______);
  • (VI) a polynucleotide that encodes a 151P3D4-related protein that is at least 90% identical to an entire amino acid sequence shown in FIGS. [0135] 2A-K (SEQ ID NO:______);
  • (VII) a polynucleotide that encodes at least one peptide set forth in Tables V-XVIII and XXII-LI; [0136]
  • (VIII) a polynucleotide that encodes a peptide region of at least 5 amino acids of a peptide of FIG. 3A in any whole number increment up to 354 that includes an amino acid position having a value greater than 0.5 in the Hydrophilicity profile of FIG. 5A; or of FIG. 3B in any whole number increment up to 721 that includes an amino acid position having a value greater than 0.5 in the Hydrophilicity profile of FIG. 5B; [0137]
  • (XIX) a polynucleotide that encodes a peptide region of at least 5 amino acids of a peptide of FIG. 3A in any whole number increment up to 354 that includes an amino acid position having a value less than 0.5 in the Hydropathicity profile of FIG. 6A; or of FIG. 3B in any whole number increment up to 721 that includes an amino acid position having a value less than 0.5 in the Hydropathicity profile of FIG. 6B; [0138]
  • (X) a polynucleotide that encodes a peptide region of at least 5 amino acids of a peptide of FIG. 3A in any whole number increment up to 354 that includes an amino acid position having a value greater than 0.5 in the Percent Accessible Residues profile of FIG. 7A; or of FIG. 3B in any whole number increment up to 721 that includes an amino acid position having a value greater than 0.5 in the Percent Accessible Residues profile of FIG. 7B; [0139]
  • (XII) a polynucleotide that encodes a peptide region of at least 5 amino acids of a peptide of FIG. 3A in any whole number increment up to 354 that includes an amino acid position having a value greater than 0.5 in the Average Flexibility profile of FIG. 8A; or of FIG. 3B in any whole number increment up to 721 that includes an amino acid position having a value greater than 0.5 in the Average Flexibility profile of FIG. 8B; [0140]
  • (XIII) a polynucleotide that encodes a peptide region of at least 5 amino acids of a peptide of FIG. 3A in any whole number increment up to 354 that includes an amino acid position having a value greater than 0.5 in the Beta-turn profile of FIG. 9A; or of FIG. 3B in any whole number increment up to 721 that includes an amino acid position having a value greater than 0.5 in the Beta-turn profile of FIG. 9B; [0141]
  • (XIV) a polynucleotide that is fully complementary to a polynucleotide of any one of (I)-(XIII). [0142]
  • (XV) a peptide that is encoded by any of (I)-(XIV); and [0143]
  • (XVI) a polynucleotide of any of (I)-(XIV) or peptide of (XV) together with a pharmaceutical excipient and/or in a human unit dose form. [0144]
  • As used herein, a range is understood to specifically disclose all whole unit positions thereof. [0145]
  • Typical embodiments of the invention disclosed herein include 151P3D4 polynucleotides that encode specific portions of 151P3D4 mRNA sequences (and those which are complementary to such sequences) such as those that encode the proteins and/or fragments thereof, for example: [0146]
  • (a) 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 105, 110, 115, 120, 125, 130, 135, 140, 145, 150, 155, 160, 165, 170, 175, 180, 185, 190, 195, 200, 225, 250, 275, 300, 325, 350, or 354 or more contiguous amino acids of 151P3D4. [0147]
  • (b) 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 105, 110, 115, 120, 125, 130, 135, 140, 145, 150, 155, 160, 165, 170, 175, 180, 185, 190, 195, 200, 225, 250, 275, 300, 325, 350, 375, 400, 425, 450, 475, 500, 525, 550, 575, 600, 625, 650, 675, 700, or 721 or more contiguous amino acids of [0148] 151P3D4 variant 2.
  • For example, representative embodiments of the invention disclosed herein include: polynucleotides and their encoded peptides themselves encoding about amino acid 1 to about amino acid 10 of the 151P3D4 protein shown in FIG. 2 or FIG. 3, polynucleotides encoding about amino acid 10 to about amino acid 20 of the 151P3D4 protein shown in FIG. 2 or FIG. 3, polynucleotides encoding about amino acid 20 to about amino acid 30 of the 151P3D4 protein shown in FIG. 2 or FIG. 3, polynucleotides encoding about amino acid 30 to about amino acid 40 of the 151P3D4 protein shown in FIG. 2 or FIG. 3, polynucleotides encoding about amino acid 40 to about amino acid 50 of the 151P3D4 protein shown in FIG. 2 or FIG. 3, polynucleotides encoding about amino acid 50 to about amino acid 60 of the 151P3D4 protein shown in FIG. 2 or FIG. 3, polynucleotides encoding about amino acid 60 to about amino acid 70 of the 151P3D4 protein shown in FIG. 2 or FIG. 3, polynucleotides encoding about amino acid 70 to about amino acid 80 of the 151P3D4 protein shown in FIG. 2 or FIG. 3, polynucleotides encoding about amino acid 80 to about amino acid 90 of the 151P3D4 protein shown in FIG. 2 or FIG. 3, polynucleotides encoding about amino acid 90 to about amino acid 100 of the 151P3D4 protein shown in FIG. 2 or FIG. 3, in increments of about 10 amino acids, ending at the carboxyl terminal amino acid set forth in FIG. 2 or FIG. 3. Accordingly polynucleotides encoding portions of the amino acid sequence (of about 10 amino acids), of [0149] amino acids 100 through the carboxyl terminal amino acid of the 151P3D4 protein are embodiments of the invention. Wherein it is understood that each particular amino acid position discloses that position plus or minus five amino acid residues.
  • Polynucleotides encoding relatively long portions of a 151P3D4 protein are also within the scope of the invention. For example, polynucleotides encoding from about amino acid 1 (or 20 or 30 or 40 etc.) to about [0150] amino acid 20, (or 30, or 40 or 50 etc.) of the 151P3D4 protein “or variant” shown in FIG. 2 or FIG. 3 can be generated by a variety of techniques well known in the art. These polynucleotide fragments can include any portion of the 151P3D4 sequence as shown in FIG. 2.
  • One embodiment of the invention comprises an HLA peptide, that occurs at least twice in Tables V-XVIII and XXII to LI collectively, or an oligonucleotide that encodes the HLA peptide. Another embodiment of the invention comprises an HLA peptide that occurs at least once in Tables V-XVIII and at least once in tables XXII to LI, or an oligonucleotide that encodes the HLA peptide. In another embodiment of the invention, typical polynucleotide fragments can encode one or more of the 151P3D4 protein or variant N-glycosylation sites, cAMP and cGMP-dependent protein kinase phosphorylation sites, casein kinase II phosphorylation sites or N-myristoylation site and amidation sites. [0151]
  • II.A.) Uses of 151P3D4 Polynucleotides [0152]
  • II.A.1.) Monitoring of Genetic Abnormalities [0153]
  • The polynucleotides of the preceding paragraphs have a number of different specific uses. The human 151P3D4 gene maps to the chromosomal location set forth in the Example entitled “Chromosomal Mapping of 151P3D4.” For example, because the 151P3D4 gene maps to this chromosome, polynucleotides that encode different regions of the 151P3D4 proteins are used to characterize cytogenetic abnormalities of this chromosomal locale, such as abnormalities that are identified as being associated with various cancers. In certain genes, a variety of chromosomal abnormalities including rearrangements have been identified as frequent cytogenetic abnormalities in a number of different cancers (see e.g. Krajinovic et al., Mutat. Res. 382(34): 81-83 (1998); Johansson et al., Blood 86(10): 3905-3914 (1995) and Finger et al., P.N.A.S. 85(23): 9158-9162 (1988)). Thus, polynucleotides encoding specific regions of the 151P3D4 proteins provide new tools that can be used to delineate; with greater precision than previously possible, cytogenetic abnormalities in the chromosomal region that encodes 151P3D4 that may contribute to the malignant phenotype. In this context, these polynucleotides satisfy a need in the art for expanding the sensitivity of chromosomal screening in order to identify more subtle and less common chromosomal abnormalities (see e.g. Evans et al, Am. J. Obstet. Gynecol 171(4): 1055-1057 (1994)). [0154]
  • Furthermore, as 151P3D4 was shown to be highly expressed in bladder and other cancers, 151P3D4 polynucleotides are used in methods assessing the status of 151P3D4 gene products in normal versus cancerous tissues. Typically, polynucleotides that encode specific regions of the 151P3D4 proteins are used to assess the presence of perturbations (such as deletions, insertions, point mutations, or alterations resulting in a loss of an antigen etc.) in specific regions of the 151P3D4 gene, such as regions containing one or more motifs. Exemplary assays include both RT-PCR assays as well as single-strand conformation polymorphism (SSCP) analysis (see, e.g., Marrogi et al., J. Cutan. Pathol. 26(8): 369-378 (1999), both of which utilize polynucleotides encoding specific regions of a protein to examine these regions within the protein. [0155]
  • II.A.2.) Antisense Embodiments [0156]
  • Other specifically contemplated nucleic acid related embodiments of the invention disclosed herein are genomic DNA, cDNAs, rybozymes, and antisense molecules, as well as nucleic acid molecules based on an alternative backbone, or including alternative bases, whether derived from natural sources or synthesized, and include molecules capable of inhibiting the RNA or protein expression of 151P3D4. For example, antisense molecules can be RNAs or other molecules, including peptide nucleic acids (PNAs) or non-nucleic acid molecules such as phosphorothioate derivatives, that specifically bind DNA or RNA in a base pair-dependent manner. A skilled artisan can readily obtain these classes of nucleic acid molecules using the 151P3D4 polynucleotides and polynucleotide sequences disclosed herein. [0157]
  • Antisense technology entails the administration of exogenous oligonucleotides that bind to a target polynucleotide located within the cells. The term “antisense” refers to the fact that such oligonucleotides are complementary to their intracellular targets, e.g., 151P3D4. See for example, Jack Cohen, Oligodeoxynucleotides, Antisense Inhibitors of Gene Expression, CRC Press, 1989; and Synthesis 1:1-5 (1988). The 151P3D4 antisense oligonucleotides of the present invention include derivatives such as S-oligonucleotides (phosphorothioate derivatives or S-oligos, see, Jack Cohen, supra), which exhibit enhanced cancer cell growth inhibitory action. S-oligos (nucleoside phosphorothioates) are isoelectronic analogs of an oligonucleotide (O-oligo) in which a nonbridging oxygen atom of the phosphate group is replaced by a sulfur atom. The S-oligos of the present invention can be prepared by treatment of the corresponding O-oligos with 3H-1,2-benzodithiol-3-one-1,1-dioxide, which is a sulfur transfer reagent. See, e.g., Iyer, R. P. et al., J. Org. Chem. 55:4693-4698 (1990); and Iyer, R. P. et al., J. Am. Chem. Soc. 112:1253-1254 (1990). Additional 151P3D4 antisense oligonucleotides of the present invention include morpholino antisense oligonucleotides known in the art (see, e.g., Partridge et al., 1996, Antisense & Nucleic Acid Drug Development 6: 169-175). [0158]
  • The 151P3D4 antisense oligonucleotides of the present invention typically can be RNA or DNA that is complementary to and stably hybridizes with the first 100 5′ codons or last 100 3′ codons of a 151P3D4 genomic sequence or the corresponding mRNA. Absolute complementarity is not required, although high degrees of complementarity are preferred. Use of an oligonucleotide complementary to this region allows for the selective hybridization to 151P3D4 mRNA and not to mRNA specifying other regulatory subunits of protein kinase. In one embodiment, 151P3D4 antisense oligonucleotides of the present invention are 15 to 30-mer fragments of the antisense DNA molecule that have a sequence that hybridizes to 151P3D4 mRNA. Optionally, 151P3D4 antisense oligonucleotide is a 30-mer oligonucleotide that is complementary to a region in the first 10 5′ codons or last 10 3′ codons of 151P3D4. Alternatively, the antisense molecules are modified to employ ribozymes in the inhibition of 151P3D4 expression, see, e.g., L. A. Couture & D. T. Stinchcomb; [0159] Trends Genet 12: 510-515 (1996).
  • II.A.3.) Primers and Primer Pairs [0160]
  • Further specific embodiments of this nucleotides of the invention include primers and primer pairs, which allow the specific amplification of polynucleotides of the invention or of any specific parts thereof, and probes that selectively or specifically hybridize to nucleic acid molecules of the invention or to any part thereof. Probes can be labeled with a detectable marker, such as, for example, a radioisotope, fluorescent compound, bioluminescent compound, a chemiluminescent compound, metal chelator or enzyme. Such probes and primers are used to detect the presence of a 151P3D4 polynucleotide in a sample and as a means for detecting a cell expressing a 151P3D4 protein. [0161]
  • Examples of such probes include polypeptides comprising all or part of the human 151P3D4 cDNA sequence shown in FIG. 2. Examples of primer pairs capable of specifically amplifping 151P3D4 mRNAs are also described in the Examples. As will be understood by the skilled artisan, a great many different primers and probes can be prepared based on the sequences provided herein and used effectively to amplify and/or detect a 151P3D4 mRNA. [0162]
  • The 151P3D4 polynucleotides of the invention are useful for a variety of purposes, including but not limited to their use as probes and primers for the amplification and/or detection of the 151P3D4 gene(s), mRNA(s), or fragments thereof; as reagents for the diagnosis and/or prognosis of prostate cancer and other cancers; as coding sequences capable of directing the expression of 151P3D4 polypeptides; as tools for modulating or inhibiting the expression of the 151P3D4 gene(s) and/or translation of the 151P3D4 transcript(s); and as therapeutic agents. [0163]
  • The present invention includes the use of any probe as described herein to identify and isolate a 151P3D4 or 151P3D4 related nucleic acid sequence from a naturally occurring source, such as humans or other mammals, as well as the isolated nucleic acid sequence per se, which would comprise all or most of the sequences found in the probe used. [0164]
  • II.A.4.) Isolation of 151P3D4-Encoding Nucleic Acid Molecules [0165]
  • The 151P3D4 cDNA sequences described herein enable the isolation of other polynucleotides encoding 151P3D4 gene product(s), as well as the isolation of polynucleotides encoding 151P3D4 gene product homologs alternatively spliced isoforms, allelic variants, and mutant forms of a 151P3D4 gene product as well as polynucleotides that encode analogs of 151P3D4-related proteins. Various molecular cloning methods that can be employed to isolate full length cDNAs encoding a 151P3D4 gene are well known (see, for example, Sambrook, J. et al., Molecular Cloning: A Laboratory Manual, 2d edition, Cold Spring Harbor Press, New York, 1989; Current Protocols in Molecular Biology. Ausubel et al, Eds., Wiley and Sons, 1995). For example, lambda phage cloning methodologies can be conveniently employed, using commercially available cloning systems (e.g., Lambda ZAP Express, Stratagene). Phage clones containing 151P3D4 gene cDNAs can be identified by probing with a labeled 151P3D4 cDNA or a fragment thereof For example, in one embodiment, a 151P3D4 cDNA (e.g., FIG. 2) or a portion thereof can be synthesized and used as a probe to retrieve overlapping and full-length cDNAs corresponding to a 151P3D4 gene. A 151P3D4 gene itself can be isolated by screening genomic DNA libraries, bacterial artificial chromosome libraries (BACs), yeast artificial chromosome libraries (YACs), and the like, with 151P3D4 DNA probes or primers. [0166]
  • II.A.5.) Recombinant Nucleic Acid Molecules and Host-Vector Systems [0167]
  • The invention also provides recombinant DNA or RNA molecules containing a 151P3D4 polynucleotide, a fragment, analog or homologue thereof, including but not limited to phages, plasmids, phagemids, cosmids, YACs, BACs, as well as various viral and non-viral vectors well known in the art, and cells transformed or transfected with such recombinant DNA or RNA molecules. Methods for generating such molecules are well known (see, for example, Sambrook et al., 1989, supra). [0168]
  • The invention further provides a host-vector system comprising a recombinant DNA molecule containing a 151P3D4 polynucleotide, fragment, analog or homologue thereof within a suitable prokaryotic or eukaryotic host cell. Examples of suitable eukaryotic host cells include a yeast cell, a plant cell, or an animal cell, such as a mammalian cell or an insect cell (e.g., a baculovirus-infectible cell such as an Sf9 or HighFive cell). Examples of suitable mammalian cells include various prostate cancer cell lines such as DU145 and TsuPr1, other transfectable or transducible prostate cancer cell lines, primary cells (PrEC), as well as a number of mammalian cells routinely used for the expression of recombinant proteins (e.g., COS, CHO, 293, 293T cells). More particularly, a polynucleotide comprising the coding sequence of 151P3D4 or a fragment, analog or homolog thereof can be used to generate 151P3D4 proteins or fragments thereof using any number of host-vector systems routinely used and widely known in the art. [0169]
  • A wide range of host-vector systems suitable for the expression of 151P3D4 proteins or fragments thereof are available, see for example, Sambrook et al., 1989, supra; Current Protocols in Molecular Biology, 1995, supra). Preferred vectors for mammalian expression include but are not limited to pcDNA 3.1 myc-His-tag (Invitrogen) and the retroviral vector pSRAαtkneo (Muller et al., 1991, MCB 11:1785). Using these expression vectors, 151P3D4 can be expressed in several prostate cancer and non-prostate cell lines, including for example 293, 293T, rat-1, NIH 3T3 and TsuPr1. The host-vector systems of the invention are useful for the production of a 151P3D4 protein or fragment thereof. Such host-vector systems can be employed to study the functional properties of 151P3D4 and 151P3D4 mutations or analogs. [0170]
  • Recombinant human 151P3D4 protein or an analog or homolog or fragment thereof can be produced by mammalian cells transfected with a construct encoding a 151P3D4-related nucleotide. For example, 293T cells can be transfected with an expression plasmid encoding 151P3D4 or fragment, analog or homolog thereof, a 151P3D4-related protein is expressed in the 293T cells, and the recombinant 151P3D4 protein is isolated using standard purification methods (e.g., affinity purification using anti-151P3D4 antibodies). In another embodiment, a 151P3D4 coding sequence is subcloned into the retroviral vector pSRαMSVtkneo and used to infect various mammalian cell lines, such as NIH 3T3, TsuPr1, 293 and rat-1 in order to establish 151P3D4 expressing cell lines. Various other expression systems well known in the art can also be employed. Expression constructs encoding a leader peptide joined in frame to a 151P3D4 coding sequence can be used for the generation of a secreted form of recombinant 151P3D4 protein. [0171]
  • As discussed herein, redundancy in the genetic code permits variation in 151P3D4 gene sequences. In particular, it is known in the art that specific host species often have specific codon preferences, and thus one can adapt the disclosed sequence as preferred for a desired host. For example, preferred analog codon sequences typically have rare codons (i.e., codons having a usage frequency of less than about 20% in known sequences of the desired host) replaced with higher frequency codons. Codon preferences for a specific species are calculated, for example, by utilizing codon usage tables available on the INTERNET such as at URL www.dna.affrc.go.jp/˜nakamura/codon.html. [0172]
  • Additional sequence modifications are known to enhance protein expression in a cellular host. These include elimination of sequences encoding spurious polyadenylation signals, exon/intron splice site signals, transposon-like repeats, and/or other such well-characterized sequences that are deleterious to gene expression. The GC content of the sequence is adjusted to levels average for a given cellular host, as calculated by reference to known genes expressed in the host cell. Where possible, the sequence is modified to avoid predicted hairpin secondary mRNA structures. Other useful modifications include the addition of a translational initiation consensus sequence at the start of the open reading frame, as described in Kozak, [0173] Mol. Cell Bio., 9:5073-5080 (1989). Skilled artisans understand that the general rule that eukaryotic ribosomes initiate translation exclusively at the 5′ proximal AUG codon is abrogated only under rare conditions (see, e.g., Kozak PNAS 92(7): 2662-2666, (1995) and Kozak NAR 15(20): 8125-8148 (1987)).
  • III.) 151P3D4Related Proteins [0174]
  • Another aspect of the present invention provides 151P3D4-related proteins. Specific embodiments of 151P3D4 proteins comprise a polypeptide having all or part of the amino acid sequence of human 151P3D4 as shown in FIG. 2 or FIG. 3. Alternatively, embodiments of 151P3D4 proteins comprise variant, homolog or analog polypeptides that have alterations in the amino acid sequence of 151P3D4 shown in FIG. 2 or FIG. 3. [0175]
  • In general, naturally occurring allelic variants of human 151P3D4 share a high degree of structural identity and homology (e.g., 90% or more homology). Typically, allelic variants of a 151P3D4 protein contain conservative amino acid substitutions within the 151P3D4 sequences described herein or contain a substitution of an amino acid from a corresponding position in a homologue of 151P3D4. One class of 151P3D4 allelic variants are proteins that share a high degree of homology with at least a small region of a particular 151P3D4 amino acid sequence, but further contain a radical departure from the sequence, such as a non-conservative substitution, truncation, insertion or frame shift. In comparisons of protein sequences, the terms, similarity, identity, and homology each have a distinct meaning as appreciated in the field of genetics. Moreover, orthology and paralogy can be important concepts describing the relationship of members of a given protein family in one organism to the members of the same family in other organisms. [0176]
  • Amino acid abbreviations are provided in Table II. Conservative amino acid substitutions can frequently be made in a protein without altering either the conformation or the function of the protein. Proteins of the invention can comprise 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 conservative substitutions. Such changes include substituting any of isoleucine (I), valine (V), and leucine (L) for any other of these hydrophobic amino acids; aspartic acid (D) for glutamic acid (E) and vice versa; glutamine (Q) for asparagine (N) and vice versa; and serine (S) for threonine (T) and vice versa. Other substitutions can also be considered conservative, depending on the environment of the particular amino acid and its role in the three-dimensional structure of the protein. For example, glycine (G) and alanine (A) can frequently be interchangeable, as can alanine (A) and valine (V). Methionine (M), which is relatively hydrophobic, can frequently be interchanged with leucine and isoleucine, and sometimes with valine. Lysine (K) and arginine (R) are frequently interchangeable in locations in which the significant feature of the amino acid residue is its charge and the differing pK's of these two amino acid residues are not significant. Still other changes can be considered “conservative” in particular environments (see, e.g. Table III herein; pages 13-15 “Biochemistry” 2[0177] nd ED. Lubert Stryer ed (Stanford University); Henikoff et al., PNAS 1992 Vol 89 10915-10919; Lei et al., J Biol Chem May 19, 1995; 270(20):11882-6).
  • Embodiments of the invention disclosed herein include a wide variety of art-accepted variants or analogs of 151P3D4 proteins such as polypeptides having amino acid insertions, deletions and substitutions. 151P3D4 variants can be made using methods known in the art such as site-directed mutagenesis, alanine scanning, and PCR mutagenesis. Site-directed mutagenesis (Carter et al., [0178] Nucl. Acids Res., 13:4331 (1986); Zoller et al., Nucl. Acids Res., 10:6487 (1987)), cassette mutagenesis (Wells et al., Gene, 34:315 (1985)), restriction selection mutagenesis (Wells et al., Philos. Trans. R. Soc. London SerA, 317:415 (1986)) or other known techniques can be performed on the cloned DNA to produce the 151P3D4 variant DNA.
  • Scanning amino acid analysis can also be employed to identify one or more amino acids along a contiguous sequence that is involved in a specific biological activity such as a protein-protein interaction. Among the preferred scanning amino acids are relatively small, neutral amino acids. Such amino acids include alanine, glycine, serine, and cysteine. Alanine is typically a preferred scanning amino acid among this group because it eliminates the side-chain beyond the beta-carbon and is less likely to alter the main-chain conformation of the variant. Alanine is also typically preferred because it is the most common amino acid. Further, it is frequently found in both buried and exposed positions (Creighton, [0179] The Proteins, (W. H. Freeman & Co., N.Y.); Chothia, J. Mol. Biol., 150:1 (1976)). If alanine substitution does not yield adequate amounts of variant, an isosteric amino acid can be used.
  • As defined herein, 151P3D4 variants, analogs or homologs, have the distinguishing attribute of having at least one epitope that is “cross reactive” with a 151P3D4 protein having an amino acid sequence of FIG. 3. As used in this sentence, “cross reactive” means that an antibody or T cell that specifically binds to a 151P3D4 variant also specifically binds to a 151P3D4 protein having an amino acid sequence set forth in FIG. 3. A polypeptide ceases to be a variant of a protein shown in FIG. 3, when it no longer contains any epitope capable of being recognized by an antibody or T cell that specifically binds to the starting 151P3D4 protein. Those skilled in the art understand that antibodies that recognize proteins bind to epitopes of varying size, and a grouping of the order of about four or five amino acids, contiguous or not, is regarded as a typical number of amino acids in a minimal epitope. See, e.g., Nair et al., J. Immunol 2000 165(12): 6949-6955; Hebbes et al., Mol Immunol (1989) 26(9):865-73; Schwartz et al., J Immunol (1985) 135(4):259 [0180]
  • Other classes of 151P3D4-related protein variants share 70%, 75%, 80%, 85% or 90% or more similarity with an amino acid sequence of FIG. 3, or a fragment thereof. Another specific class of 151P3D4 protein variants or analogs comprise one or more of the 151P3D4 biological motifs described herein or presently known in the art. Thus, encompassed by the present invention are analogs of 151P3D4 fragments (nucleic or amino acid) that have altered functional (e.g. immunogenic) properties relative to the starting fragment. It is to be appreciated that motifs now or which become part of the art are to be applied to the nucleic or amino acid sequences of FIG. 2 or FIG. 3. [0181]
  • As discussed herein, embodiments of the claimed invention include polypeptides containing less than the full amino acid sequence of a 151P3D4 protein shown in FIG. 2 or FIG. 3. For example, representative embodiments of the invention comprise peptides/proteins having any 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 or more contiguous amino acids of a 151P3D4 protein shown in FIG. 2 or FIG. 3. [0182]
  • Moreover, representative embodiments of the invention disclosed herein include polypeptides consisting of about amino acid 1 to abqut amino acid 10 of a 151P3D4 protein shown in FIG. 2 or FIG. 3, polypeptides consisting of about amino acid 10 to about amino acid 20 of a 151P3D4 protein shown in FIG. 2 or FIG. 3, polypeptides consisting of about amino acid 20 to about amino acid 30 of a 151P3D4 protein shown in FIG. 2 or FIG. 3, polypeptides consisting of about amino acid 30 to about amino acid 40 of a 151P3D4 protein shown in FIG. 2 or FIG. 3, polypeptides consisting of about amino acid 40 to about amino acid 50 of a 151P3D4 protein shown in FIG. 2 or FIG. 3, polypeptides consisting of about amino acid 50 to about amino acid 60 of a 151P3D4 protein shown in FIG. 2 or FIG. 3, polypeptides consisting of about amino acid 60 to about amino acid 70 of a 151P3D4 protein shown in FIG. 2 or FIG. 3, polypeptides consisting of about amino acid 70 to about amino acid 80 of a 151P3D4 protein shown in FIG. 2 or FIG. 3, polypeptides consisting of about amino acid 80 to about amino acid 90 of a 151P3D4 protein shown in FIG. 2 or FIG. 3, polypeptides consisting of about amino acid 90 to about amino acid 100 of a 151P3D4 protein shown in FIG. 2 or FIG. 3, etc. throughout the entirety of a 151P3D4 amino acid sequence. Moreover, polypeptides consisting of about amino acid 1 (or 20 or 30 or 40 etc.) to about [0183] amino acid 20, (or 130, or 140 or 150 etc.) of a 151P3D4 protein shown in FIG. 2 or FIG. 3 are embodiments the invention. It is to be appreciated that the starting and stopping positions in this paragraph refer to the specified position as well as that position plus or minus 5 residues.
  • 151P3D4-related proteins are generated using standard peptide synthesis technology or using chemical cleavage methods well known in the art. Alternatively, recombinant methods can be used to generate nucleic acid molecules that encode a 151P3D4-related protein. In one embodiment, nucleic acid molecules provide a means to generate defined fragments of a 151P3D4 protein (or variants, homologs or analogs thereof). [0184]
  • III.A.) Motif-Bearing Protein Embodiments [0185]
  • Additional illustrative embodiments of the invention disclosed herein include 151P3D4 polypeptides comprising the amino acid residues of one or more of the biological motifs contained within a 151P3D4 polypeptide sequence set forth in FIG. 2 or FIG. 3. Various motifs are known in the art, and a protein can be evaluated for the presence of such motifs by a number of publicly available Internet sites (see, e.g., URL addresses: pfam.wustl.edu/; http://searchlauncher.bcm.tmc.edu/seq-search/struc-predict.html; psort.ims.u-tokyo.ac.jp/; www.cbs.dtu.dk/; www.ebi.ac.uk/interpro/scan.html; www.expasy.ch/tools/scnpsit1.html; Epimatrix™ and Epimer™, Brown University, www.brown.edu/Research/TB-HIV_Lab/epimatrix/epimatrix.html; and BIMAS, bimas.dcrt.nih.gov/.). [0186]
  • Motif bearing subsequences of all 151P3D4 variant proteins are set forth and identified in Tables V-XVIII and XXII-LII. [0187]
  • Table XIX sets forth several frequently occurring motifs based on pfam searches (see URL address pfam.wustl.edu/). The columns of Table XIX list (1) motif name abbreviation, (2) percent identity found amongst the different member of the motif family, (3) motif name or description and (4) most common function; location information is included if the motif is relevant for location. [0188]
  • Polypeptides comprising one or more of the 151P3D4 motifs discussed above are useful in elucidating the specific characteristics of a malignant phenotype in view of the observation that the 151P3D4 motifs discussed above are associated with growth dysregulation and because 151P3D4 is overexpressed in certain cancers (See, e.g., Table I). Casein kinase II, cAMP and camp-dependent protein kinase, and Protein Kinase C, for example, are enzymes known to be associated with the development of the malignant phenotype (see e.g. Chen et al., Lab Invest., 78(2): 165-174 (1998); Gaiddon et al., Endocrinology 136(10): 4331-4338 (1995); Hall et al., Nucleic Acids Research 24(6): 1119-1126 (1996); Peterziel et al. Oncogene 18(46): 6322-6329 (1999) and O'Brian, Oncol. Rep. 5(2): 305-309 (1998)). Moreover, both glycosylation and myristoylation are protein modifications also associated with cancer and cancer progression (see e.g. Dennis et al., Biochem. Biophys. Acta 1473(1):21-34 (1999); Raju et al., Exp. Cell Res. 235(1): 145-154 (1997)). Amidation is another protein modification also associated with cancer and cancer progression (see e.g. Treston et al., J. Natl. Cancer Inst. Monogr. (13): 169-175 (1992)). [0189]
  • In another embodiment, proteins of the invention comprise one or more of the immunoreactive epitopes identified in accordance with art-accepted methods, such as the peptides set forth in Tables V-XVIII and XXII-LI. CTL epitopes can be determined using specific algorithms to identify peptides within a 151P3D4 protein that are capable of optimally binding to specified HLA alleles (e.g., Table IV; Epimatrix™ and Epimer™, Brown University, URL www.brown.edu/Research/TB-HIV_Lab/epimatrix/epimatrix.html; and BIMAS, URL bimas.dcrt.nih.gov/.) Moreover, processes for identifying peptides that have sufficient binding affinity for HLA molecules and which are correlated with being immunogenic epitopes, are well known in the art, and are carried out without undue experimentation. In addition, processes for identifying peptides that are immunogenic epitopes, are well known in the art, and are carried out without undue experimentation either in vitro or in vivo. [0190]
  • Also known in the art are principles for creating analogs of such epitopes in order to modulate immunogenicity. For example, one begins with an epitope that bears a CTL or HTL motif (see, e.g., the HLA Class I and HLA Class II motifs/supermotifs of Table IV). The epitope is analoged by substituting out an amino acid at one of the specified positions, and replacing it with another amino acid specified for that position. For example, one can substitute out a deleterious residue in favor of any other residue, such as a preferred residue as defined in Table IV; substitute a less-preferred residue with a preferred residue as defined in Table IV; or substitute an originally-occurring preferred residue with another preferred residue as defined in Table IV. Substitutions can occur at primary anchor positions or at other positions in a peptide; see, e.g., Table IV. [0191]
  • A variety of references reflect the art regarding the identification and generation of epitopes in a protein of interest as well as analogs thereof. See, for example, WO 97/33602 to Chesnut et al.; Sette, Immunogenetics 1999 50(34): 201-212; Sette et al., J. Immunol. 2001 166(2): 1389-1397; Sidney et al., Hum. Immunol. 1997 58(1): 12-20; Kondo et al., Immunogenetics 1997 45(4): 249-258; Sidney et al., J. Immunol. 1996 157(8): 3480-90; and Falk et al., Nature 351: 290-6 (1991); Hunt et al., Science 255:1261-3 (1992); Parker et al., J. Immunol. 149:3580-7 (1992); Parker et al., J. Immunol. 152:163-75 (1994)) Kast et al., 1994 152(8): 3904-12; Borras-Cuesta et al., Hum. Immunol. 2000 61(3): 266-278; Alexander et al., J. Immnunol. 2000 164(3); 164(3): 1625-1633; Alexander et al., PMID: 7895164, UI: 95202582; O'Sullivan et al., J. Immunol. 1991 147(8): 2663-2669; Alexander et al, Immunity 1994 1(9): 751-761 and Alexander et al., Immunol. Res. 1998 18(2): 79-92. [0192]
  • Related embodiments of the invention include polypeptides comprising combinations of the different motifs set forth in Table XX, and/or, one or more of the predicted CTL epitopes of Tables V-XVII and XXII-XLVII, and/or, one or more of the predicted HTL epitopes of Tables XLVIII-LI, and/or, one or more of the T cell binding motifs known in the art. Preferred embodiments contain no insertions, deletions or substitutions either within the motifs or the intervening sequences of the polypeptides. In addition, embodiments which include a number of either N-terminal and/or C-terminal amino acid residues on either side of these motifs may be desirable (to, for example, include a greater portion of the polypeptide architecture in which the motif is located). Typically the number of N-terminal and/or C-terminal amino acid residues on either side of a motif is between about 1 to about 100 amino acid residues, preferably 5 to about 50 amino acid residues. [0193]
  • 151P3D4-related proteins are embodied in many forms, preferably in isolated form. A purified 151P3D4 protein molecule will be substantially free of other proteins or molecules that impair the binding of 151P3D4 to antibody, T cell or other ligand. The nature and degree of isolation and purification will depend on the intended use. Embodiments of a 151P3D4-related proteins include purified 151P3D4-related proteins and functional, soluble 151P3D4-related proteins. In one embodiment, a functional, soluble 151P3D4 protein or fragment thereof retains the ability to be bound by antibody, T cell or other ligand. [0194]
  • The invention also provides 151P3D4 proteins comprising biologically active fragments of a 151P3D4 amino acid sequence shown in FIG. 2 or FIG. 3. Such proteins exhibit properties of the starting 151P3D4 protein, such as the ability to elicit the generation of antibodies that specifically bind an epitope associated with the starting 151P3D4 protein; to be bound by such antibodies; to elicit the activation of HTL or CTL; and/or, to be recognized by HTL or CTL that also specifically bind to the starting protein. 15P3D4-related polypeptides that contain particularly interesting structures can be predicted and/or identified using various analytical techniques well known in the art, including, for example, the methods of Chou-Fasman, Garnier-Robson, Kyte-Doolittle, Eisenberg, Karplus-Schultz or Jameson-Wolf analysis, or on the basis of immunogenicity. Fragments that contain such structures are particularly useful in generating subunit-specific anti-151P3D4 antibodies, or T cells or in identifying cellular factors that bind to 151P3D4. For example, hydrophilicity profiles can be generated, and immunogenic peptide fragments identified, using the method of Hopp, T. P. and Woods, K. R., 1981, Proc. Natl. Acad. Sci. U.S.A. 78:3824-3828. Hydropathicity profiles can be generated, and immunogenic peptide fragments identified, using the method of Kyte, J. and Doolittle, R. F., 1982, J. Mol. Biol. 157:105-132. Percent (%) Accessible Residues profiles can be generated, and immunogenic peptide fragments identified, using the method of Janin J., 1979, Nature 277:491-492. Average Flexibility profiles can be generated, and immunogenic peptide fragments identified, using the method of Bhaskaran R., Ponnuswamy P. K., 1988, Int. J. Pept. Protein Res. 32:242-255. Beta-turn profiles can be generated, and immunogenic peptide fragments identified, using the method of Deleage, G., Roux B., 1987, Protein Engineering 1:289-294. [0195]
  • CTL epitopes can be determined using specific algorithms to identify peptides within a 151P3D4 protein that are capable of optimally binding to specified HLA alleles (e.g., by using the SYFPEITHI site at World Wide Web URL syfpeithi.bmi-heidelberg.com/; the listings in Table IV(A)-(E); Epimatrix™ and Epimer™, Brown University, URL (www.brown.edu/Research/TB-HIV_Lab/epimatrix/epimatrix.html); and BIMAS, URL bimas.dcrt.nih.gov/). Illustrating this, peptide epitopes from 151P3D4 that are presented in the context of human MHC Class I molecules, e.g., HLA-A1, A2, A3, A11, A24, B7 and B35 were predicted (see, e.g., Tables V-XVIII, XXII-LI). Specifically, the complete amino acid sequence of the 151P3D4 protein and relevant portions of other variants, i.e., for HLA Class I [0196] predictions 9 flanking residues on either side of a point mutation, and for HLA Class II predictions 14 flanking residues on either side of a point mutation, were entered into the HLA Peptide Motif Search algorithm found in the Bioinformatics and Molecular Analysis Section (BIMAS) web site listed above; in addition to the site SYFPEITHI, at URL syfpeithi.bmi-heidelberg.com/.
  • The HLA peptide motif search algorithm was developed by Dr. Ken Parker based on binding of specific peptide sequences in the groove of HLA Class I molecules, in particular HLA-A2 (see, e.g., Falk et al., Nature 351: 290-6 (1991); Hunt et al., Science 255:1261-3 (1992); Parker et al., J. Immunol. 149:3580-7 (1992); Parker et al., J. Immunol. 152:163-75 (1994)). This algorithm allows location and ranking of 8-mer, 9-mer, and 10-mer peptides from a complete protein sequence for predicted binding to HLA-A2 as well as numerous other HLA Class I molecules. Many HLA class I binding peptides are 8-, 9-, 10 or 11-mers. For example, for Class I HLA-A2, the epitopes preferably contain a leucine (L) or methionine (M) at [0197] position 2 and a valine (V) or leucine (L) at the C-terminus (see, e.g., Parker et al., J. Immunol. 149:3580-7 (1992)). Selected results of 151P3D4 predicted binding peptides are shown in Tables V-XVIII and XXII-LI herein. In Tables V-XVIII and XXII-XLVII, selected candidates, 9-mers and 10-mers, for each family member are shown along with their location, the amino acid sequence of each specific peptide, and an estimated binding score. In Tables XLVIII-LI, selected candidates, 15-mers, for each family member are shown along with their location, the amino acid sequence of each specific peptide, and an estimated binding score. The binding score corresponds to the estimated half time of dissociation of complexes containing the peptide at 37° C. at pH 6.5. Peptides with the highest binding score are predicted to be the most tightly bound to HLA Class I on the cell surface for the greatest period of time and thus represent the best immunogenic targets for T-cell recognition.
  • Actual binding of peptides to an HLA allele can be evaluated by stabilization of HLA expression on the antigen-processing defective cell line T2 (see, e.g., Xue et al., Prostate 30:73-8 (1997) and Peshwa et al., Prostate 36:129-38 (1998)). Immunogenicity of specific peptides can be evaluated in vitro by stimulation of CD8+ cytotoxic T lymphocytes (CTL) in the presence of antigen presenting cells such as dendritic cells. [0198]
  • It is to be appreciated that every epitope predicted by the BIMAS site, Epimer™ and Epimatrix™ sites, or specified by the HLA class I or class II motifs available in the art or which become part of the art such as set forth in Table IV (or determined using World Wide Web site URL syfpeithi.bmi-heidelberg.com/, or BIMAS, bimas.dcrt.nih.gov/) are to be “applied” to a 151P3D4 protein in accordance with the invention. As used in this context “applied” means that a 151P3D4 protein is evaluated, e.g., visually or by computer-based patterns finding methods, as appreciated by those of skill in the relevant art. Every subsequence of a 151P3D4 protein of 8, 9, 10, or 11 amino acid residues that bears an HLA Class I motif, or a subsequence of 9 or more amino acid residues that bear an HLA Class II motif are within the scope of the invention. [0199]
  • III.B.) Expression of 151P3D4-Related Proteins [0200]
  • In an embodiment described in the examples that follow, 151P3D4 can be conveniently expressed in cells (such as 293T cells) transfected with a conmmercially available expression vector such as a CMV-driven expression vector encoding 151P3D4 with a C-terminal 6XHis and MYC tag (pcDNA3.1/mycHIS, Invitrogen or TagS, GenHunter Corporation, Nashville Tenn.). The TagS vector provides an IgGK secretion signal that can be used to facilitate the production of a secreted 151P3D4 protein in transfected cells. The secreted HIS-tagged 151P3D4 in the culture media can be purified, e.g., using a nickel column using standard techniques. [0201]
  • III.C.) Modifications of 151P3D4-Related Proteins [0202]
  • Modifications of 151P3D4-related proteins such as covalent modifications are included within the scope of this invention. One type of covalent modification includes reacting targeted amino acid residues of a 151P3D4 polypeptide with an organic derivatizing agent that is capable of reacting with selected side chains or the N- or C-terminal residues of a 151P3D4 protein. Another type of covalent modification of a 151P3D4 polypeptide included within the scope of this invention comprises altering the native glycosylation pattern of a protein of the invention. Another type of covalent modification of 151P3D4 comprises linking a 151P3D4 polypeptide to one of a variety of nonproteinaceous polymers, e.g., polyethylene glycol (PEG), polypropylene glycol, or polyoxyalkylenes, in the manner set forth in U.S. Pat. Nos. 4,640,835; 4,496,689; 4,301,144; 4,670,417; 4,791,192 or 4,179,337. [0203]
  • The 151P3D4-related proteins of the present invention can also be modified to form a chimeric molecule comprising 151P3D4 fused to another, heterologous polypeptide or amino acid sequence. Such a chimeric molecule can be synthesized chemically or recombinantly. A chimeric molecule can have a protein of the invention fused to another tumor-associated antigen or fragment thereof. Alternatively, a protein in accordance with the invention can comprise a fusion of fragments of a 151P3D4 sequence (amino or nucleic acid) such that a molecule is created that is not, through its length, directly homologous to the amino or nucleic acid sequences shown in FIG. 2 or FIG. 3. Such a chimeric molecule can comprise multiples of the same subsequence of 151P3D4. A chimeric molecule can comprise a fusion of a 151P3D4-related protein with a polyhistidine epitope tag, which provides an epitope to which immobilized nickel can selectively bind, with cytokines or with growth factors. The epitope tag is generally placed at the amino- or carboxyl-terminus of a 151P3D4 protein. In an alternative embodiment, the chimeric molecule can comprise a fusion of a 151P3D4-related protein with an immunoglobulin or a particular region of an immunoglobulin. For a bivalent form of the chimeric molecule (also referred to as an “immunoadhesin”), such a fusion could be to the Fc region of an IgG molecule. The Ig fusions preferably include the substitution of a soluble (transmembrane domain deleted or inactivated) form of a 151P3D4 polypeptide in place of at least one variable region within an Ig molecule. In a preferred embodiment, the immunoglobulin fusion includes the hinge, CH2 and CH3, or the hinge, CHI, CH2 and CH3 regions of an IgGI molecule. For the production of immunoglobulin fusions see, e.g., U.S. Pat. No. 5,428,130 issued Jun. b [0204] 27, 1995.
  • III.D.) Uses of 151P3D4-Related Proteins [0205]
  • The proteins of the invention have a number of different specific uses. As 151P3D4 is highly expressed in prostate and other cancers, 151P3D4-related proteins are used in methods that assess the status of 151P3D4 gene products in normal versus cancerous tissues, thereby elucidating the malignant phenotype. Typically, polypeptides from specific regions of a 151P3D4 protein are used to assess the presence of perturbations (such as deletions, insertions, point mutations etc.) in those regions (such as regions containing one or more motifs). Exemplary assays utilize antibodies or T cells targeting 151P3D4-related proteins comprising the amino acid residues of one or more of the biological motifs contained within a 151P3D4 polypeptide sequence in order to evaluate the characteristics of this region in normal versus cancerous tissues or to elicit an immune response to the epitope. Alternatively, 151P3D4-related proteins that contain the amino acid residues of one or more of the biological motifs in a 151P3D4 protein are used to screen for factors that interact with that region of 151P3D4. [0206]
  • 151P3D4 protein fragments/subsequences are particularly useful in generating and characterizing domain-specific antibodies (e.g., antibodies recognizing an extracellular or intracellular epitope of a 151P3D4 protein), for identifying agents or cellular factors that bind to 151P3D4 or a particular structural domain thereof, and in various therapeutic and diagnostic contexts, including but not limited to diagnostic assays, cancer vaccines and methods of preparing such vaccines. [0207]
  • Proteins encoded by the 151P3D4 genes, or by analogs, homologs or fragments thereof, have a variety of uses, including but not limited to generating antibodies and in methods for identifying ligands and other agents and cellular constituents that bind to a 151P3D4 gene product. Antibodies raised against a 151P3D4 protein or fragment thereof are useful in diagnostic and prognostic assays, and imaging methodologies in the management of human cancers characterized by expression of 151P3D4 protein, such as those listed in Table I. Such antibodies can be expressed intracellularly and used in methods of treating patients with such cancers. 151P3D4-related nucleic acids or proteins are also used in generating HTL or CTL responses. [0208]
  • Various immunological assays useful for the detection of 151P3D4 proteins are used, including but not limited to various types of radioimmunoassays, enzyme-linked immunosorbent assays (ELISA), enzyme-linked immunofluorescent assays (ELIFA), immunocytochemical methods, and the like. Antibodies can be labeled and used as immunological imaging reagents capable of detecting 151P3D4-expressing cells (e.g., in radioscintigraphic imaging methods). 151P3D4 proteins are also particularly useful in generating cancer vaccines, as further described herein. [0209]
  • IV.) 151P3D4 Antibodies [0210]
  • Another aspect of the invention provides antibodies that bind to 151P3D4-related proteins. Preferred antibodies specifically bind to a 151P3D4-related protein and do not bind (or bind weakly) to peptides or proteins that are not 151P3D4-related proteins. For example, antibodies that bind 151P3D4 can bind 151P3D4-related proteins such as the homologs or analogs thereof. [0211]
  • 151P3D4 antibodies of the invention are particularly useful in cancer (see, e.g., Table I) diagnostic and prognostic assays, and imaging methodologies. Similarly, such antibodies are useful in the treatment, diagnosis, and/or prognosis of other cancers, to the extent 151P3D4 is also expressed or overexpressed in these other cancers. Moreover, intracellularly expressed antibodies (e.g., single chain antibodies) are therapeutically useful in treating cancers in which the expression of 151P3D4 is involved, such as advanced or metastatic prostate cancers. [0212]
  • The invention also provides various immunological assays useful for the detection and quantification of 151P3D4 and mutant 151P3D4-related proteins. Such assays can comprise one or more 151P3D4 antibodies capable of recognizing and binding a 151P3D4-related protein, as appropriate. These assays are performed within various immunological assay formats well known in the art, including but not limited to various types of radioimmunoassay, enzyme-linked immunosorbent assays (ELISA), enzyme-linked immunofluorescent assays (ELIFA), and the like. [0213]
  • Immunological non-antibody assays of the invention also comprise T cell immunogenicity assays (inhibitory or stimulatory) as well as major histocompatibility complex (MHC) binding assays. [0214]
  • In addition, immunological imaging methods capable of detecting prostate cancer and other cancers expressing 151P3D4 are also provided by the invention, including but not limited to radioscintigraphic imaging methods using labeled 151P3D4 antibodies. Such assays are clinically useful in the detection, monitoring, and prognosis of 151P3D4 expressing cancers such as prostate cancer. 151P3D4 antibodies are also used in methods for purifying a 151P3D4-related protein and for isolating 151P3D4 homologues and related molecules. For example, a method of purifying a 151P3D4-related protein comprises incubating a 151P3D4 antibody, which has been coupled to a solid matrix, with a lysate or other solution containing a 151P3D4-related protein under conditions that permit the 151P3D4 antibody to bind to 151P3D4-related protein; washing the solid matrix to eliminate impurities; and eluting the 151P3D4-related protein from the coupled antibody. Other uses of 151P3D4 antibodies in accordance with the invention include generating anti-idiotypic antibodies that mimic a 151P3D4 protein. [0215]
  • Various methods for the preparation of antibodies are well known in the art. For example, antibodies can be prepared by immunizing a suitable mammalian host using a 151P3D4-related protein, peptide, or fragment, in isolated or immunoconjugated form (Antibodies: A Laboratory Manual, CSH Press, Eds., Harlow, and Lane (1988); Harlow, Antibodies, Cold Spring Harbor Press, NY (1989)). In addition, fusion proteins of 151P3D4 can also be used, such as a 151P3D4 GST-fusion protein. In a particular embodiment, a GST fusion protein comprising all or most of the amino acid sequence of FIG. 2 or FIG. 3 is produced, then used as an immunogen to generate appropriate antibodies. In another embodiment, a 151P3D4-related protein is synthesized and used as an immunogen. [0216]
  • In addition, naked DNA immunization techniques known in the art are used (with or without purified 151P3D4-related protein or 151P3D4 expressing cells) to generate an immune response to the encoded immunogen (for review, see Donnelly et al., 1997, Ann. Rev. Immunol. 15: 617-648). [0217]
  • The amino acid sequence of a 151P3D4 protein as shown in FIG. 2 or FIG. 3 can be analyzed to select specific regions of the 151P3D4 protein for generating antibodies. For example, hydrophobicity and hydrophilicity analyses of a 151P3D4 amino acid sequence are used to identify hydrophilic regions in the 151P3D4 structure. Regions of a 151P3D4 protein that show immunogenic structure, as well as other region domains, can readily be identified using various other methods known in the art, such as Chou-Fasman, Garnier-Robson, Kyte-Doolittle, Eisenberg, Karplus-Schultz or Jameson-Wolf analysis. Hydrophilicity profiles can be generated using the method of Hopp, T. P. and Woods, K. R., 1981, Proc. Natl. Acad. Sci. U.S.A. 78:3824-3828. Hydropathicity profiles can be generated using the method of Kyte, J. and Doolittle, R. F., 1982, J. Mol. Biol. 157:105-132. Percent (%) Accessible Residues profiles can be generated using the method of Janin J., 1979, Nature 277:491-492. Average Flexibility profiles can be generated using the method of Bhaskaran R., Ponnuswamy P. K., 1988, Int. J. Pept. Protein Res. 32:242-255. Beta-turn profiles can be generated using the method of Deleage, G., Roux B., 1987, Protein Engineering 1:289-294. Thus, each region identified by any of these programs or methods is within the scope of the present invention. Methods for the generation of 151P3D4 antibodies are further illustrated by way of the examples provided herein. Methods for preparing a protein or polypeptide for use as an immunogen are well known in the art. Also well known in the art are methods for preparing immunogenic conjugates of a protein with a carrier, such as BSA, KLH or other carrier protein. In some circumstances, direct conjugation using, for example, carbodiimide reagents are used; in other instances linking reagents such as those supplied by Pierce Chemical Co., Rockford, Ill., are effective. Administration of a 151P3D4 immunogen is often conducted by injection over a suitable time period and with use of a suitable adjuvant, as is understood in the art. During the immunization schedule, titers of antibodies can be taken to determine adequacy of antibody formation. [0218]
  • 151P3D4 monoclonal antibodies can be produced by various means well known in the art. For example, immortalized cell lines that secrete a desired monoclonal antibody are prepared using the standard hybridoma technology of Kohler and Milstein or modifications that immortalize antibody-producing B cells, as is generally known. Immortalized cell lines that secrete the desired antibodies are screened by immunoassay in which the antigen is a 151P3D4-related protein. When the appropriate immortalized cell culture is identified, the cells can be expanded and antibodies produced either from in vitro cultures or from ascites fluid. [0219]
  • The antibodies or fragments of the invention can also be produced, by recombinant means. Regions that bind specifically to the desired regions of a 151P3D4 protein can also be produced in the context of chimeric or complementarity determining region (CDR) grafted antibodies of multiple species origin. Humanized or human 151P3D4 antibodies can also be produced, and are preferred for use in therapeutic contexts. Methods for humanizing murine and other non-human antibodies, by substituting one or more of the non-human antibody CDRs for corresponding human antibody sequences, are well known (see for example, Jones et al., 1986, Nature 321: 522-525; Riechann et al., 1988, Nature332: 323-327; Verhoeyen et al., 1988, Science 239: 1534-1536). See also, Carter et al., 1993, Proc. Natl. Acad. Sci. USA 89: 4285 and Sims et al., 1993, J. Immunol. 151: 2296. [0220]
  • Methods for producing fully human monoclonal antibodies include phage display and transgenic methods (for review, see Vaughan et a., 1998, Nature Biotechnology 16: 535-539). Fully human 151P3D4 monoclonal antibodies can be generated using cloning technologies employing large human Ig gene combinatorial libraries (i.e., phage display) (Griffiths and Hoogenboom, Building an in vitro immune system: human antibodies from phage display libraries. In: Protein Engineering of Antibody Molecules for Prophylactic and Therapeutic Applications in Man, Clark, M. (Ed.), Nottingham Academic, pp 45-64 (1993); Burton and Barbas, Human Antibodies from combinatorial libraries. Id., pp 65-82). Fully human 151P3D4 monoclonal antibodies can also be produced using transgenic mice engineered to contain human immunoglobulin gene loci as described in PCT Patent Application WO98/24893, Kucherlapati and Jakobovits et al., published Dec. 3, 1997 (see also, Jakobovits, 1998, Exp. Opin. Invest. Drugs 7(4): 607-614; U.S. Pat. Nos. 6,162,963 issued Dec. 19, 2000; 6,150,584 issued Nov. 12, 2000; and, 6,114598 issued Sep. 5, 2000). This method avoids the in vitro manipulation required with phage display technology and efficiently produces high affinity authentic human antibodies. [0221]
  • Reactivity of 151P3D4 antibodies with a 151P3D4-related protein can be established by a number of well known means, including Western blot, immunoprecipitation, ELISA, and FACS analyses using, as appropriate, 151P3D4-related proteins, 151P3D4-expressing cells or extracts thereof. A 151P3D4 antibody or fragment thereof can be labeled with a detectable marker or conjugated to a second molecule. Suitable detectable markers include, but are not limited to, a radioisotope, a fluorescent compound, a bioluminescent compound, chemiluminescent compound, a metal chelator or an enzyme. Further, bi-specific antibodies specific for two or more 151P3D4 epitopes are generated using methods generally known in the art. Homodimeric antibodies can also be generated by cross-linking techniques known in the art (e.g., Wolff et al., Cancer Res. 53: 2560-2565). [0222]
  • V.) 151P3D4 Cellular Immune Responses [0223]
  • The mechanism by which T cells recognize antigens has been delineated. Efficacious peptide epitope vaccine compositions of the invention induce a therapeutic or prophylactic immune responses in very broad segments of the world-wide population. For an understanding of the value and efficacy of compositions of the invention that induce cellular immune responses, a brief review of immunology-related technology is provided. [0224]
  • A complex of an HLA molecule and a peptidic antigen acts as the ligand recognized by HLA-restricted T cells (Buus, S. et al., [0225] Cell 47:1071, 1986; Babbitt, B. P. et al., Nature 317:359, 1985; Townsend, A. and Bodmer, H., Annu. Rev. Immunol. 7:601, 1989; Germain, R. N., Annu. Rev. Immunol. 11:403, 1993). Through the study of single amino acid substituted antigen analogs and the sequencing of endogenously bound, naturally processed peptides, critical residues that correspond to motifs required for specific binding to HLA antigen molecules have been identified and are set forth in Table IV (see also, e.g., Southwood, et al., J. Immunol. 160:3363, 1998; Rammensee, et al., Immunogenetics 41:178, 1995; Rammensee et al., SYFPEITHI, access via World Wide Web at URL syfpeithi.bmi-heidelberg.com/; Sette, A. and Sidney, J. Curr. Opin. Immunol. 10:478, 1998; Engelhard, V. H.,Curr. Opin. Immunol. 6:13, 1994; Sette, A. and Grey, H. M., Curr. Opin. Immunol. 4:79, 1992; Sinigaglia, F. and Hammer, J. Curr. Biol. 6:52, 1994; Ruppert et al., Cell 74:929-937, 1993; Kondo et al., J. Immunol. 155:4307-4312, 1995; Sidney et al., J. Immunol. 157:3480-3490, 1996; Sidney et al., Human Immunol. 45:79-93, 1996; Sette, A. and Sidney, J. Immunogenetics November 1999; 50(3-4):201-12, Review).
  • Furthermore, x-ray crystallographic analyses of HLA-peptide complexes have revealed pockets within the peptide binding cleft/groove of HLA molecules which accommodate, in an allele-specific mode, residues borne by peptide ligands; these residues in turn determine the HLA binding capacity of the peptides in which they are present. (See, e.g., Madden, D. R. [0226] Annu. Rev. Immunol. 13:587, 1995; Smith, et al., Immunity 4:203, 1996; Fremont et al., Immunity 8:305, 1998; Stern et al., Structure 2:245, 1994; Jones, E. Y. Curr. Opin. Immunol. 9:75, 1997; Brown, J. H. et al., Nature 364:33, 1993; Guo, H. C. et al., Proc. Natl. Acad. Sci. USA 90:8053, 1993; Guo, H. C. et al., Nature 360:364, 1992; Silver, M. L. et al., Nature 360:367, 1992; Matsumura, M. et al., Science 257:927, 1992; Madden et al., Cell 70:1035, 1992; Fremont, D. H. et al., Science 257:919, 1992; Saper, M. A., Bjorkman, P. J. and Wiley, D. C., J. Mol. Biol. 219:277, 1991.)
  • Accordingly, the definition of class I and class II allele-specific HLA binding motifs, or class I or class II supermotifs allows identification of regions within a protein that are correlated with binding to particular HLA antigen(s). [0227]
  • Thus, by a process of HLA motif identification, candidates for epitope-based vaccines have been identified; such candidates can be further evaluated by HLA-peptide binding assays to determine binding affinity and/or the time period of association of the epitope and its corresponding HLA molecule. Additional confirmatory work can be performed to select, amongst these vaccine candidates, epitopes with preferred characteristics in terms of population coverage, and/or immunogenicity. [0228]
  • Various strategies can be utilized to evaluate cellular immunogenicity, including: [0229]
  • 1) Evaluation of primary T cell cultures from normal individuals (see, e.g., Wentworth, P. A. et al., [0230] Mol. Immunol. 32:603, 1995; Celis, E. et al., Proc. Natl. Acad. Sci. USA 91:2105, 1994; Tsai, V. et al., J. Immunol. 158:1796, 1997; Kawashima, I. et al., Human Immunol. 59:1, 1998). This procedure involves the stimulation of peripheral blood lymphocytes (PBL) from normal subjects with a test peptide in the presence of antigen presenting cells in vitro over a period of several weeks. T cells specific for the peptide become activated during this time and are detected using, e.g., a lymphokine- or 51Cr-release assay involving peptide sensitized target cells.
  • 2) Immunization of HLA transgenic mice (see, e.g., Wentworth, P. A. et al., [0231] J. Immunol. 26:97, 1996; Wentworth, P. A. et al., Int. Immunol. 8:651, 1996; Alexander, J. et al., J. Immunol. 159:4753, 1997). For example, in such methods peptides in incomplete Freund's adjuvant are administered subcutaneously to HLA transgenic mice. Several weeks following immunization, splenocytes are removed and cultured in vitro in the presence of test peptide for approximately one week. Peptide-specific T cells are detected using, e.g., a 51Cr-release assay involving peptide sensitized target cells and target cells expressing endogenously generated antigen.
  • 3) Demonstration of recall T cell responses from immune individuals who have been either effectively vaccinated and/or from chronically ill patients (see, e.g., Rehermann, B. et al., [0232] J. Exp. Med. 181:1047, 1995; Doolan, D. L. et al., Immunity 7:97, 1997; Bertoni, R. et al., J. Clin. Invest. 100:503, 1997; Threlkeld, S. C. et al., J. Immunol. 159:1648, 1997; Diepolder, H. M. et al., J. Virol. 71:6011, 1997). Accordingly, recall responses are detected by culturing PBL from subjects that have been exposed to the antigen due to disease and thus have generated an immune response “naturally”, or from patients who were vaccinated against the antigen. PBL from subjects are cultured in vitro for 1-2 weeks in the presence of test peptide plus antigen presenting cells (APC) to allow activation of “memory” T cells, as compared to “naive” T cells. At the end of the culture period, T cell activity is detected using assays including 51Cr release involving peptide-sensitized targets, T cell proliferation, or lymphokine release.
  • VI.) 151P3D4 Transzenic Animals [0233]
  • Nucleic acids that encode a 151P3D4-related protein can also be used to generate either transgenic animals or “knock out” animals that, in turn, are useful in the development and screening of therapeutically useful reagents. In accordance with established techniques, cDNA encoding 151P3D4 can be used to clone genomic DNA that encodes 151P3D4. The cloned genomic sequences can then be used to generate transgenic animals containing cells that express DNA that encode 151P3D4. Methods for generating transgenic animals, particularly animals such as mice or rats, have become conventional in the art and are described, for example, in U.S. Pat. Nos. 4,736,866 issued Apr. 12, 1988, and 4,870,009 issued Sep. 26, 1989. Typically, particular cells would be targeted for 151P3D4 transgene incorporation with tissue-specific enhancers. [0234]
  • Transgenic animals that include a copy of a transgene encoding 151P3D4 can be used to examine the effect of increased expression of DNA that encodes 151P3D4. Such animals can be used as tester animals for reagents thought to confer protection from, for example, pathological conditions associated with its overexpression. In accordance with this aspect of the invention, an animal is treated with a reagent and a reduced incidence of a pathological condition, compared to untreated animals that bear the transgene, would indicate a potential therapeutic intervention for the pathological condition. [0235]
  • Alternatively, non-human homologues of 151P3D4 can be used to construct a 151P3D4 “knock out” animal that has a defective or altered gene encoding 151P3D4 as a result of homologous recombination between the endogenous gene encoding 151P3D4 and altered genomic DNA encoding 151P3D4 introduced into an embryonic cell of the animal. For example, cDNA that encodes 151P3D4 can be used to clone genomic DNA encoding 151P3D4 in accordance with established techniques. A portion of the genomic DNA encoding 151P3D4 can be deleted or replaced with another gene, such as a gene encoding a selectable marker that can be used to monitor integration. Typically, several kilobases of unaltered flanking DNA (both at the 5′ and 3′ ends) are included in the vector (see, e.g., Thomas and Capecchi, [0236] Cell 51:503 (1987) for a description of homologous recombination vectors). The vector is introduced into an embryonic stem cell line (e.g., by electroporation) and cells in which the introduced DNA has homologously recombined with the endogenous DNA are selected (see, e.g., Li et al., Cell, 69:915 (1992)). The selected cells are then injected into a blastocyst of an animal (e.g., a mouse or rat) to form aggregation chimeras (see, e.g., Bradley, in Teratocarcinomas and Embryonic Stem Cells: A Practical Approach, E. J. Robertson, ed. (IRL, Oxford, 1987), pp. 113-152). A chimeric embryo can then be implanted into a suitable pseudopregnant female foster animal, and the embryo brought to term to create a “knock out” animal. Progeny harboring the homologously recombined DNA in their germ cells can be identified by standard techniques and used to breed animals in which all cells of the animal contain the homologously recombined DNA. Knock out animals can be characterized, for example, for their ability to defend against certain pathological conditions or for their development of pathological conditions due to absence of a 151P3D4 polypeptide.
  • VII.) Methods for the Detection of 151P3D4 [0237]
  • Another aspect of the present invention relates to methods for detecting 151P3D4 polynucleotides and 151P3D4-related proteins, as well as methods for identifying a cell that expresses 151P3D4. The expression profile of 151P3D4 makes it a diagnostic marker for metastasized disease. Accordingly, the status of 151P3D4 gene products provides information useful for predicting a variety of factors including susceptibility to advanced stage disease, rate of progression, and/or tumor aggressiveness. As discussed in detail herein, the status of 151P3D4 gene products in patient samples can be analyzed by a variety protocols that are well known in the art including immunohistochemical analysis, the variety of Northern blotting techniques including in situ hybridization, RT-PCR analysis (for example on laser capture micro-dissected samples), Western blot analysis and tissue array analysis. [0238]
  • More particularly, the invention provides assays for the detection of 151P3D4 polynucleotides in a biological sample, such as serum, bone, prostate, and other tissues, urine, semen, cell preparations, and the like. Detectable 151P3D4 polynucleotides include, for example, a 151P3D4 gene or fragment thereof, 151P3D4 mRNA, alternative splice variant 151P3D4 mRNAs, and recombinant DNA or RNA molecules that contain a 151P3D4 polynucleotide. A number of methods for amplifying and/or detecting the presence of 151P3D4 polynucleotides are well known in the art and can be employed in the practice of this aspect of the invention. [0239]
  • In one embodiment, a method for detecting a 151P3D4 mRNA in a biological sample comprises producing cDNA from the sample by reverse transcription using at least one primer; amplifying the cDNA so produced using a 151P3D4 polynucleotides as sense and antisense primers to amplify 151P3D4 cDNAs therein; and detecting the presence of the amplified 151P3D4 cDNA. Optionally, the sequence of the amplified 151P3D4 cDNA can be determined. [0240]
  • In another embodiment, a method of detecting a 151P3D4 gene in a biological sample comprises first isolating genomic DNA from the sample; amplifying the isolated genomic DNA using 151P3D4 polynucleotides as sense and antisense primers; and detecting the presence of the amplified 151P3D4 gene. Any number of appropriate sense and antisense probe combinations can be designed from a 151P3D4 nucleotide sequence (see, e.g., FIG. 2) and used for this purpose. [0241]
  • The invention also provides assays for detecting the presence of a 151P3D4 protein in a tissue or other biological sample such as serum, semen, bone, prostate, urine, cell preparations, and the like. Methods for detecting a 151P3D4-related protein are also well known and include, for example, immunoprecipitation, immunohistochemical analysis, Western blot analysis, molecular binding assays, ELISA, ELIFA and the like. For example, a method of detecting the presence of a 151P3D4-related protein in a biological sample comprises first contacting the sample with a 151P3D4 antibody, a 151P3D4-reactive fragment thereof, or a recombinant protein containing an antigen binding region of a 151P3D4 antibody; and then detecting the binding of 151P3D4-related protein in the sample. [0242]
  • Methods for identifying a cell that expresses 151P3D4 are also within the scope of the invention. In one embodiment, an assay for identifying a cell that expresses a 151P3D4 gene comprises detecting the presence of 151P3D4 mRNA in the cell. Methods for the detection of particular mRNAs in cells are well known and include, for example, hybridization assays using complementary DNA probes (such as in situ hybridization using labeled 151P3D4 riboprobes, Northern blot and related techniques) and various nucleic acid amplification assays (such as RT-PCR using complementary primers specific for 151P3D4, and other amplification type detection methods, such as, for example, branched DNA, SISBA, TMA and the like). Alternatively, an assay for identifying a cell that expresses a 151P3D4 gene comprises detecting the presence of 151P3D4-related protein in the cell or secreted by the cell. Various methods for the detection of proteins are well known in the art and are employed for the detection of 151P3D4-related proteins and cells that express 151P3D4-related proteins. [0243]
  • 151P3D4 expression analysis is also useful as a tool for identifying and evaluating agents that modulate 151P3D4 gene expression. For example, 151P3D4 expression is significantly upregulated in prostate cancer, and is expressed in cancers of the tissues listed in Table I. Identification of a molecule or biological agent that inhibits 151P3D4 expression or over-expression in cancer cells is of therapeutic value. For example, such an agent can be identified by using a screen that quantifies 151P3D4 expression by RT-PCR, nucleic acid hybridization or antibody binding. [0244]
  • VIII.) Methods for Monitoring the Status of 151P3D4-Related Genes and Their Products [0245]
  • Oncogenesis is known to be a multistep process where cellular growth becomes progressively dysregulated and cells progress from a normal physiological state to precancerous and then cancerous states (see, e.g., Alers et al., Lab Invest. 77(5): 437-438 (1997) and Isaacs et al., Cancer Surv. 23: 19-32 (1995). In this context, examining a biological sample for evidence of dysregulated cell growth (such as aberrant 151P3D4 expression in cancers) allows for early detection of such aberrant physiology, before a pathologic state such as cancer has progressed to a stage that therapeutic options are more limited and or the prognosis is worse. In such examinations, the status of 151P3D4 in a biological sample of interest can be compared, for example, to the status of 151P3D4 in a corresponding normal sample (e.g. a sample from that individual or alternatively another individual that is not affected by a pathology). An alteration in the status of 151P3D4 in the biological sample (as compared to the normal sample) provides evidence of dysregulated cellular growth. In addition to using a biological sample that is not affected by a pathology as a normal sample, one can also use a predetermined normative value such as a predetermined normal level of mRNA expression (see, e.g., Grever et al., J. Comp. Neurol. Dec. 9, 1996; 376(2): 306-14 and U.S. Pat. No. 5,837,501) to compare 151P3D4 status in a sample. [0246]
  • The term “status” in this context is used according to its art accepted meaning and refers to the condition or state of a gene and its products. Typically, skilled artisans use a number of parameters to evaluate the condition or state of a gene and its products. These include, but are not limited to the location of expressed gene products (including the location of 151P3D4 expressing cells) as well as the level, and biological activity of expressed gene products (such as 151P3D4 mRNA, polynucleotides and polypeptides). Typically, an alteration in the status of 151P3D4 comprises a change in the location of 151P3D4 and/or 151P3D4 express increase in 151P3D4 mRNA and/or protein expression. [0247]
  • 151P3D4 status in a sample can be analyzed by a number of means well known in the art, including without limitation, immunohistochemical analysis, in situ hybridization, RT-PCR analysis on laser capture micro-dissected samples, Western blot analysis, and tissue array analysis. Typical protocols for evaluating the status of a 151P3D4 gene and gene products are found, for example in Ausubel et al. eds., 1995, Current Protocols In Molecular Biology, Units 2 (Northern Blotting), 4 (Southern Blotting), 15 (Immunoblotting) and 18 (PCR Analysis). Thus, the status of 151P3D4 in a biological sample is evaluated by various methods utilized by skilled artisans including, but not limited to genomic Southern analysis (to examine, for example perturbations in a 151P3D4 gene), Northern analysis and/or PCR analysis of 151P3D4 mRNA (to examine, for example alterations in the polynucleotide sequences or expression levels of 151P3D4 mRNAs), and, Western and/or immunohistochemical analysis (to examine, for example alterations in polypeptide sequences, alterations in polypeptide localization within a sample, alterations in expression levels of 151P3D4 proteins and/or associations of 151P3D4 proteins with polypeptide binding partners). Detectable 151P3D4 polynucleotides include, for example, a 151P3D4 gene or fragment thereof, 151P3D4 mRNA, alternative splice variants, 151P3D4 mRNAs, and recombinant DNA or RNA molecules containing a 151P3D4 polynucleotide. [0248]
  • The expression profile of 151P3D4 makes it a diagnostic marker for local and/or metastasized disease, and provides information on the growth or oncogenic potential of a biological sample. In particular, the status of 151P3D4 provides information useful for predicting susceptibility to particular disease stages, progression, and/or tumor aggressiveness. The invention provides methods and assays for determining 151P3D4 status and diagnosing cancers that express 151P3D4, such as cancers of the tissues listed in Table I. For example, because 151P3D4 mRNA is so highly expressed in prostate and other cancers relative to normal prostate tissue, assays that evaluate the levels of 151P3D4 mRNA transcripts or proteins in a biological sample can be used to diagnose a disease associated with 151P3D4 dysregulation, and can provide prognostic information useful in defining appropriate therapeutic options. [0249]
  • The expression status of 151P3D4 provides information including the presence, stage and location of dysplastic, precancerous and cancerous cells, predicting susceptibility to various stages of disease, and/or for gauging tumor aggressiveness. Moreover, the expression profile makes it useful as an imaging reagent for metastasized disease. Consequently, an aspect of the invention is directed to the various molecular prognostic and diagnostic methods for examining the status of 151P3D4 in biological samples such as those from individuals suffering from, or suspected of suffering from a pathology characterized by dysregulated cellular growth, such as cancer. [0250]
  • As described above, the status of 151P3D4 in a biological sample can be examined by a number of well-known procedures in the art. For example, the status of 151P3D4 in a biological sample taken from a specific location in the body can be examined by evaluating the sample for the presence or absence of 151P3D4 expressing cells (e.g. those that express 151P3D4 mRNAs or proteins). This examination can provide evidence of dysregulated cellular growth, for example, when 151P3D4-expressing cells are found in a biological sample that does not normally contain such cells (such as a lymph node), because such alterations in the status of 151P3D4 in a biological sample are often associated with dysregulated cellular growth. Specifically, one indicator of dysregulated cellular growth is the metastases of cancer cells from an organ of origin (such as the prostate) to a different area of the body (such as a lymph node). In this context, evidence of dysregulated cellular growth is important for example because occult lymph node metastases can be detected in a substantial proportion of patients with prostate cancer, and such metastases are associated with known predictors of disease progression (see, e.g., Murphy et al., Prostate 42(4): 315-317 (2000);Su et al., Semin. Surg. Oncol. 18(1): 17-28 (2000) and Freeman et al., J Urol August 1995 154(2 Pt 1):474-8). [0251]
  • In one aspect, the invention provides methods for monitoring 151P3D4 gene products by determining the status of 151P3D4 gene products expressed by cells from an individual suspected of having a disease associated with dysregulated cell growth (such as hyperplasia or cancer) and then comparing the status so determined to the status of 151P3D4 gene products in a corresponding normal sample. The presence of aberrant 151P3D4 gene products in the test sample relative to the normal sample provides an indication of the presence of dysregulated cell growth within the cells of the individual. [0252]
  • In another aspect, the invention provides assays useful in determining the presence of cancer in an individual, comprising detecting a significant increase in 151P3D4 mRNA or protein expression in a test cell or tissue sample relative to expression levels in the corresponding normal cell or tissue. The presence of 151P3D4 mRNA can, for example, be evaluated in tissues including but not limited to those listed in Table I. The presence of significant 151P3D4 expression in any of these tissues is useful to indicate the emergence, presence and/or severity of a cancer, since the corresponding normal tissues do not express 151P3D4 mRNA or express it at lower levels. [0253]
  • In a related embodiment, 151P3D4 status is determined at the protein level rather than at the nucleic acid level. For example, such a method comprises determining the level of 151P3D4 protein expressed by cells in a test tissue sample and comparing the level so determined to the level of 151P3D4 expressed in a corresponding normal sample. In one embodiment, the presence of 151P3D4 protein is evaluated, for example, using immunohistochemical methods. 151P3D4 antibodies or binding partners capable of detecting 151P3D4 protein, expression are used in a variety of assay formats well known in the art for this purpose. [0254]
  • In a further embodiment, one can evaluate the status of 151P3D4 nucleotide and amino acid sequences in a biological sample in order to identify perturbations in the structure of these molecules. These perturbations can include insertions, deletions, substitutions and the like. Such evaluations are useful because perturbations in the nucleotide and amino acid sequences are observed in a large number of proteins associated with a growth dysregulated phenotype (see, e.g., Marrogi et al., 1999, J. Cutan. Pathol. 26(8):369-378). For example, a mutation in the sequence of 151P3D4 may be indicative of the presence or promotion of a tumor. Such assays therefore have diagnostic and predictive value where a mutation in 151P3D4 indicates a potential loss of function or increase in tumor growth. [0255]
  • A wide variety of assays for observing perturbations in nucleotide and amino acid sequences are well known in the art. For example, the size and structure of nucleic acid or amino acid sequences of 151P3D4 gene products are observed by the Northern, Southern, Western, PCR and DNA sequencing protocols discussed herein. In addition, other methods for observing perturbations in nucleotide and amino acid sequences such as single strand conformation polymorphism analysis are well known in the art (see, e.g., U.S. Pat. Nos. 5,382,510 issued Sep. 7, 1999 and 5,952,170 issued Jan. 17, 1995). [0256]
  • Additionally, one can examine the methylation status of a 151P3D4 gene in a biological sample. Aberrant demethylation and/or hypermethylation of CpG islands in [0257] gene 5′ regulatory regions frequently occurs in immortalized and transformed cells, and can result in altered expression of various genes. For example, promoter hypermethylation of the pi-class glutathione S-transferase (a protein expressed in normal prostate but not expressed in >90% of prostate carcinomas) appears to permanently silence transcription of this gene and is the most frequently detected genomic alteration in prostate carcinomas (De Marzo et al., Am. J. Pathol. 155(6): 1985-1992 (1999)). In addition, this alteration is present in at least 70% of cases of high-grade prostatic intraepithelial neoplasia (PIN) (Brooks et al., Cancer Epidemiol. Biomarkers Prev., 1998, 7:531-536). In another example, expression of the LAGE-I tumor specific gene (which is not expressed in normal prostate but is expressed in 25-50% of prostate cancers) is induced by deoxy-azacytidine in lymphoblastoid cells, suggesting that tumoral expression is due to demethylation (Lethe et al., Int. J. Cancer 76(6): 903-908 (1998)). A variety of assays for examining methylation status of a gene are well known in the art. For example, one can utilize, in Southern hybridization approaches, methylation-sensitive restriction enzymes that cannot cleave sequences that contain methylated CpG sites to assess the methylation status of CpG islands. In addition, MSP (methylation specific PCR) can rapidly profile the methylation status of all the CpG sites present in a CpG island of a given gene. This procedure involves initial modification of DNA by sodium bisulfite (which will convert all unmethylated cytosines to uracil) followed by amplification using primers specific for methylated versus unmethylated DNA. Protocols involving methylation interference can also be found for example in Current Protocols In Molecular Biology, Unit 12, Frederick M. Ausubel et al. eds., 1995.
  • Gene amplification is an additional method for assessing the status of 151P3D4. Gene amplification is measured in a sample directly, for example, by conventional Southern blotting or Northern blotting to quantitate the transcription of mRNA (Thomas, 1980, Proc. Natl. Acad. Sci. USA, 77:5201-5205), dot blotting (DNA analysis), or in situ hybridization, using an appropriately labeled probe, based on the sequences provided herein. Alternatively, antibodies are employed that recognize specific duplexes, including DNA duplexes, RNA duplexes, and DNA-RNA hybrid duplexes or DNA-protein duplexes. The antibodies in turn are labeled and the assay carried out where the duplex is bound to a surface, so that upon the formation of duplex on the surface, the presence of antibody bound to the duplex can be detected. [0258]
  • Biopsied tissue or peripheral blood can be conveniently assayed for the presence of cancer cells using for example, Northern, dot blot or RT-PCR analysis to detect 151P3D4 expression. The presence of RT-PCR amplifiable 151P3D4 mRNA provides an indication of the presence of cancer. RT-PCR assays are well known in the art. RT-PCR detection assays for tumor cells in peripheral blood are currently being evaluated for use in the diagnosis and management of a number of human solid tumors. In the prostate cancer field, these include RT-PCR assays for the detection of cells expressing PSA and PSM (Verkaik et al., 1997, Urol. Res. 25:373-384; Ghossein et al., 1995, J. Clin. Oncol. 13:1195-2000; Heston et al., 1995, Clin. Chem 41:1687-1688). [0259]
  • A further aspect of the invention is an assessment of the susceptibility that an individual has for developing cancer. In one embodiment, a method for predicting susceptibility to cancer comprises detecting 151P3D4 mRNA or 151P3D4 protein in a tissue sample, its presence indicating susceptibility to cancer, wherein the degree of 151P3D4 mRNA expression correlates to the degree of susceptibility. In a specific embodiment, the presence of 151P3D4 in prostate or other tissue is examined, with the presence of 151P3D4 in the sample providing an indication of prostate cancer susceptibility (or the emergence or existence of a prostate tumor). Similarly, one can evaluate the integrity 151P3D4 nucleotide and amino acid sequences in a biological sample, in order to identify perturbations in the structure of these molecules such as insertions, deletions, substitutions and the like. The presence of one or more perturbations in 151P3D4 gene products in the sample is an indication of cancer susceptibility (or the emergence or existence of a tumor). [0260]
  • The invention also comprises methods for gauging tumor aggressiveness. In one embodiment, a method for gauging aggressiveness of a tumor comprises determining the level of 151P3D4 mRNA or 151P3D4 protein expressed by tumor cells, comparing the level so determined to the level of 151P3D4 mRNA or 151P3D4 protein expressed in a corresponding normal tissue taken from the same individual or a normal tissue reference sample, wherein the degree of 151P3D4 mRNA or 151P3D4 protein expression in the tumor sample relative to the normal sample indicates the degree of aggressiveness. In a specific embodiment, aggressiveness of a tumor is evaluated by determining the extent to which 151P3D4 is expressed in the tumor cells, with higher expression levels indicating more aggressive tumors. Another embodiment is the evaluation of the integrity of 151P3D4 nucleotide and amino acid sequences in a biological sample, in order to identify perturbations in the structure of these molecules such as insertions, deletions, substitutions and the like. The presence of one or more perturbations indicates more aggressive tumors. [0261]
  • Another embodiment of the invention is directed to methods for observing the progression of a malignancy in an individual over time. In one embodiment, methods for observing the progression of a malignancy in an individual over time comprise determining the level of 151P3D4 mRNA or 151P3D4 protein expressed by cells in a sample of the tumor, comparing the level so determined to the level of 151P3D4 mRNA or 151P3D4 protein expressed in an equivalent tissue sample taken from the same individual at a different time, wherein the degree of 151P3D4 mRNA or 151P3D4 protein expression in the tumor sample over time provides information on the progression of the cancer. In a specific embodiment, the progression of a cancer is evaluated by determining 151P3D4 expression in the tumor cells over time, where increased expression over time indicates a progression of the cancer. Also, one can evaluate the integrity 151P3D4 nucleotide and amino acid sequences in a biological sample in order to identify perturbations in the structure of these molecules such as insertions, deletions, substitutions and the like, where the presence of one or more perturbations indicates a progression of the cancer. [0262]
  • The above diagnostic approaches can be combined with any one of a wide variety of prognostic and diagnostic protocols known in the art. For example, another embodiment of the invention is directed to methods for observing a coincidence between the expression of 151P3D4 gene and 151P3D4 gene products (or perturbations in 151P3D4 gene and 151P3D4 gene products) and a factor that is associated with malignancy, as a means for diagnosing and prognosticating the status of a tissue sample. A wide variety of factors associated with malignancy can be utilized, such as the expression of genes associated with malignancy (e.g. PSA, PSCA and PSM expression for prostate cancer etc.) as well as gross cytological observations (see, e.g., Bocking et al., 1984, Anal. Quant. Cytol. 6(2):74-88; Epstein, 1995, Hum. Pathol. 26(2):223-9; Thorson et al., 199, Mod. Pathol. 11(6):543-51; Baisden et al., 1999, Am. J. Surg. Pathol. 23(8):918-24). Methods for observing a coincidence between the expression of 151P3D4 gene and 151P3D4 gene products (or perturbations in 151P3D4 gene and 151P3D4 gene products) and another factor that is associated with malignancy are useful, for example, because the presence of a set of specific factors that coincide with disease provides information crucial for diagnosing and prognosticating the status of a tissue sample. [0263]
  • In one embodiment, methods for observing a coincidence between the expression of 151P3D4 gene and 151P3D4 gene products (or perturbations in 151P3D4 gene and 151P3D4 gene products) and another factor associated with malignancy entails detecting the overexpression of 151P3D4 mRNA or protein in a tissue sample, detecting the overexpression of PSA mRNA or protein in a tissue sample (or PSCA or PSM expression), and observing a coincidence of 151P3D4 mRNA or protein and PSA mRNA or protein overexpression (or PSCA or PSM expression). In a specific embodiment, the expression of 151P3D4 and PSA mRNA in prostate tissue is examined, where the coincidence of 151P3D4 and PSA mRNA overexpression in the sample indicates the existence of prostate cancer, prostate cancer susceptibility or the emergence or status of a prostate tumor. [0264]
  • Methods for detecting and quantifying the expression of 151P3D4 mRNA or protein are described herein, and standard nucleic acid and protein detection and quantification technologies are well known in the art. Standard methods for the detection and quantification of 151P3D4 mRNA include in situ hybridization using labeled 151P3D4 riboprobes, Northern blot and related techniques using 151P3D4 polynucleotide probes, RT-PCR analysis using primers specific for 151P3D4, and other amplification type detection methods, such as, for example, branched DNA, SISBA, TMA and the like. In a specific embodiment, semi-quantitative RT-PCR is used to detect and quantify 151P3D4 mRNA expression. Any number of primers capable of amplifying 151P3D4 can be used for this purpose, including but not limited to the various primer sets specifically described herein. In a specific embodiment, polyclonal or monoclonal antibodies specifically reactive with the wild-type 151P3D4 protein can be used in an immunohistochemical assay of biopsied tissue. [0265]
  • IX.) Identification of Molecules that Interact with 151P3D4 [0266]
  • The 151P3D4 protein and nucleic acid sequences disclosed herein allow a skilled artisan to identify proteins, small molecules and other agents that interact with 151P3D4, as well as pathways activated by 151P3D4 via any one of a variety of art accepted protocols. For example, one can utilize one of the so-called interaction trap systems (also referred to as the “two-hybrid assay”). In such systems, molecules interact and reconstitute a transcription factor which directs expression of a reporter gene, whereupon the expression of the reporter gene is assayed. Other systems identify protein-protein interactions in vivo through reconstitution of a eukaryotic transcriptional activator, see, e.g., U.S. Pat. Nos. 5,955,280 issued Sep. 21, 1999, 5,925,523 issued Jul. 20, 1999, 5,846,722 issued Dec. 8, 1998 and 6,004,746 issued Dec. 21, 1999. Algorithms are also available in the art for genome-based predictions of protein function (see, e.g., Marcotte, et al., Nature 402: Nov. 4, 1999, 83-86). [0267]
  • Alternatively one can screen peptide libraries to identify molecules that interact with 151P3D4 protein sequences. In such methods, peptides that bind to 151P3D4 are identified by screening libraries that encode a random or controlled collection of amino acids. Peptides encoded by the libraries are expressed as fusion proteins of bacteriophage coat proteins, the bacteriophage particles are then screened against the 151P3D4 protein(s). [0268]
  • Accordingly, peptides having a wide variety of uses, such as therapeutic, prognostic or diagnostic reagents, are thus identified without any prior information on the structure of the expected ligand or receptor molecule. Typical peptide libraries and screening methods that can be used to identify molecules that interact with 151P3D4 protein sequences are disclosed for example in U.S. Pat. Nos. 5,723,286 issued Mar. 3, 1998 and 5,733,731 issued Mar. 31, 1998. [0269]
  • Alternatively, cell lines that express 151P3D4 are used to identify protein-protein interactions mediated by 151P3D4. Such interactions can be examined using immunoprecipitation techniques (see, e.g., Hamilton B. J., et al. Biochem. Biophys. Res. Commun. 1999, 261:646-51). 151P3D4 protein can be immunoprecipitated from 151P3D4-expressing cell lines using anti-151P3D4 antibodies. Alternatively, antibodies against His-tag can be used in a cell line engineered to express fusions of 151P3D4 and a His-tag (vectors mentioned above). The immunoprecipitated complex can be examined for protein association by procedures such as Western blotting, [0270] 35S-methionine labeling of proteins, protein microsequencing, silver staining and two-dimensional gel electrophoresis.
  • Small molecules and ligands that interact with 151P3D4 can be identified through related embodiments of such screening assays. For example, small molecules can be identified that interfere with protein function, including molecules that interfere with 151P3D4's ability to mediate phosphorylation and de-phosphorylation, interaction with DNA or RNA molecules as an indication of regulation of cell cycles, second messenger signaling or tumorigenesis. Similarly, small molecules that modulate 151P3D4-related ion channel, protein pump, or cell communication functions are identified and used to treat patients that have a cancer that expresses 151P3D4 (see, e.g., Hille, B., Ionic Channels of [0271] Excitable Membranes 2nd Ed., Sinauer Assoc., Sunderland, Mass., 1992). Moreover, ligands that regulate 151P3D4 function can be identified based on their ability to bind 151P3D4 and activate a reporter construct. Typical methods are discussed for example in U.S. Pat. No. 5,928,868 issued Jul. 27, 1999, and include methods for forming hybrid ligands in which at least one ligand is a small molecule. In an illustrative embodiment, cells engineered to express a fusion protein of 151P3D4 and a DNA-binding protein are used to co-express a fusion protein of a hybrid ligand/small molecule and a cDNA library transcriptional activator protein. The cells further contain a reporter gene, the expression of which is conditioned on the proximity of the first and second fusion proteins to each other, an event that occurs only if the hybrid ligand binds to target sites on both hybrid proteins. Those cells that express the reporter gene are selected and the unknown small molecule or the unknown ligand is identified. This method provides a means of identifying modulators which activate or inhibit 151P3D4.
  • An embodiment of this invention comprises a method of screening for a molecule that interacts with a 151P3D4 amino acid sequence shown in FIG. 2 or FIG. 3, comprising the steps of contacting a population of molecules with a 151P3D4 amino acid sequence, allowing the population of molecules and the 151P3D4 amino acid sequence to interact under conditions that facilitate an interaction, determining the presence of a molecule that interacts with the 151P3D4 amino acid sequence, and then separating molecules that do not interact with the 151P3D4 amino acid sequence from molecules that do. In a specific. embodiment, the method further comprises purifying, characterizing and identifying a molecule that interacts with the 151P3D4 amino acid sequence. The identified molecule can be used to modulate a function performed by 151P3D4. In a preferred embodiment, the 151P3D4 amino acid sequence is contacted with a library of peptides. [0272]
  • X.) Therapeutic Methods and Compositions [0273]
  • The identification of 151P3D4 as a protein that is normally expressed in a restricted set of tissues, but which is also expressed in prostate and other cancers, opens a number of therapeutic approaches to the treatment of such cancers. As contemplated herein, 151P3D4 functions as a transcription factor involved in activating tumor-promoting genes or repressing genes that block tumorigenesis. [0274]
  • Accordingly, therapeutic approaches that inhibit the activity of a 151P3D4 protein are useful for patients suffering from a cancer that expresses 151P3D4. These therapeutic approaches generally fall into two classes. One class comprises various methods for inhibiting the binding or association of a 151P3D4 protein with its binding partner or with other proteins. Another class comprises a variety of methods for inhibiting the transcription of a 151P3D4 gene or translation of 151P3D4 mRNA. [0275]
  • X.A.) Anti-Cancer Vaccines [0276]
  • The invention provides cancer vaccines comprising a 151P3D4-related protein or 151P3D4-related nucleic acid. In view of the expression of 151P3D4, cancer vaccines prevent and/or treat 151P3D4-expressing cancers with minimal or no effects on non-target tissues. The use of a tumor antigen in a vaccine that generates humoral and/or cell-mediated immune responses as anti-cancer therapy is well known in the art and has been employed in prostate cancer using human PSMA and rodent PAP immunogens (Hodge et al., 1995, Int. J. Cancer 63:231-237; Fong et al., 1997, J. Immunol. 159:3113-3117). [0277]
  • Such methods can be readily practiced by employing a 151P3D4-related protein, or a 151P3D4-encoding nucleic acid molecule and recombinant vectors capable of expressing and presenting the 151P3D4 immunogen (which typically comprises a number of antibody or T cell epitopes). Skilled artisans understand that a wide variety of vaccine systems for delivery of immunoreactive epitopes are known in the art (see, e.g., Heryln et al., Ann Med February 1999 31(1):66-78; Maruyama et al., Cancer Immunol Immunother June 2000 49(3):123-32) Briefly, such methods of generating an immune response (e.g. humoral and/or cell-mediated) in a mammal, comprise the steps of: exposing the mammal's immune system to an immunoreactive epitope (e.g. an epitope present in a 151P3D4 protein shown in FIG. 3 or analog or homolog thereof) so that the mammal generates an immune response that is specific for that epitope (e.g. generates antibodies that specifically recognize that epitope). In a preferred method, a 151P3D4 immunogen contains a biological motif, see e.g., Tables V-XVIII and XXII-LI, or a peptide of a size range from 151P3D4 indicated in FIG. 5, FIG. 6, FIG. 7, FIG. 8, and FIG. 9. [0278]
  • The entire 151P3D4 protein, immunogenic regions or epitopes thereof can be combined and delivered by various means. Such vaccine compositions can include, for example, lipopeptides (e.g., Vitiello, A. et al., [0279] J. Clin. Invest. 95:341, 1995), peptide compositions encapsulated in poly(DL-lactide-co-glycolide) (“PLG”) microspheres (see, e.g., Eldridge, et al., Molec. Immunol. 28:287-294, 1991: Alonso et al., Vaccine 12:299-306, 1994; Jones et al., Vaccine 13:675-681, 1995), peptide compositions contained in immune stimulating complexes (ISCOMS) (see, e.g., Takahashi et al., Nature 344:873-875, 1990; Hu et al., Clin Exp Immunol. 113:235-243, 1998), multiple antigen peptide systems (MAPs) (see e.g., Tam, J. P., Proc. Natl. Acad. Sci. U.S.A. 85:5409-5413, 1988; Tam, J. P., J. Immunol. Methods 196:17-32, 1996), peptides formulated as multivalent peptides; peptides for use in ballistic delivery systems, typically crystallized peptides, viral delivery vectors (Perkus, M. E. et al., In: Concepts in vaccine development, Kaufmann, S. H. E., ed., p. 379, 1996; Chakrabarti, S. et al., Nature 320:535, 1986; Hu, S. L. et al., Nature 320:537, 1986; Kieny, M.-P. et al., AIDS Bio/Technology 4:790, 1986; Top, F. H. et al., J. Infect. Dis. 124:148, 1971; Chanda, P. K. et al., Virology 175:535, 1990), particles of viral or synthetic origin (e.g., Kofler, N. et al., J. Immunol. Methods. 192:25, 1996; Eldridge, J. H. et al., Sem. Hematol. 30:16, 1993; Falo, L. D., Jr. et al., Nature Med. 7:649, 1995), adjuvants (Warren, H. S., Vogel, F. R., and Chedid, L. A. Annu. Rev. Immunol. 4:369, 1986; Gupta, R. K. et al., Vaccine 11:293, 1993), liposomes (Reddy, R. et al., J. Immunol. 148:1585, 1992; Rock, K. L., Immunol. Today 17:131, 1996), or, naked or particle absorbed cDNA (Ulmer, J. B. et al., Science 259:1745, 1993; Robinson, H. L., Hunt, L. A., and Webster, R. G., Vaccine 11:957, 1993; Shiver, J. W. et al., In: Concepts in vaccine development, Kaufmann, S. H. E., ed., p. 423, 1996; Cease, K. B., and Berzofsky, J. A., Annu. Rev. Immunol. 12:923, 1994 and Eldridge, J. H. et al., Sem. Hematol. 30:16, 1993). Toxin-targeted delivery technologies, also known as receptor mediated targeting, such as those of Avant Immunotherapeutics, Inc. (Needham, Mass.) may also be used.
  • In patients with 151P3D4-associated cancer, the vaccine compositions of the invention can also be used in conjunction with other treatments used for cancer, e.g., surgery, chemotherapy, drug therapies, radiation therapies, etc. including use in combination with immune adjuvants such as IL-2, IL-12, GM-CSF, and the like. [0280]
  • Cellular Vaccines: [0281]
  • CTL epitopes can be determined using specific algorithms to identify peptides within 151P3D4 protein that bind corresponding HLA alleles (see e.g., Table IV; Epimer™ and Epimatrix™, Brown University (URL www.brown.edu/Research/TB-HIV_Lab/epimatrix/epimatrix.html); and, BIMAS, (URL bimas.dcrt.nih.gov/; SYFPEITHI at URL syfpeithi.bmi-heidelberg.com/). In a preferred embodiment, a 151P3D4 immunogen contains one or more amino acid sequences identified using techniques well known in the art, such as the sequences shown in Tables V-XVIII and XXII-LI or a peptide of 8, 9, 10 or 11 amino acids specified by an HLA Class I motig/supermotif (e.g., Table IV (A), Table IV (D), or Table IV (E)) and/or a peptide of at least 9 amino acids that comprises an HLA Class II motif/supermotif (e.g., Table IV (B) or Table IV (C)). As is appreciated in the art, the HLA Class I binding groove is essentially closed ended so that peptides of only a particular size range can fit into the groove and be bound, generally HLA Class I epitopes are 8, 9, 10, or 11 amino acids long. In contrast, the HLA Class II binding groove is essentially open ended; therefore a peptide of about 9 or more amino acids can be bound by an HLA Class II molecule. Due to the binding groove differences between HLA Class I and II, HLA Class I motifs are length specific, i.e., position two of a Class I motif is the second amino acid in an amino to carboxyl direction of the peptide. The amino acid positions in a Class II motif are relative only to each other, not the overall peptide, i.e., additional amino acids can be attached to the amino and/or carboxyl termini of a motif-bearing sequence. HLA Class II epitopes are often 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, or 25 amino acids long, or longer than 25 amino acids. [0282]
  • Antibody-Based Vaccines [0283]
  • A wide variety of methods for generating an immune response in a mammal are known in the art (for example as the first step in the generation of hybridomas). Methods of generating an immune response in a mammal comprise exposing the mammal's immune system to an immunogenic epitope on a protein (e.g. a 151P3D4 protein) so that an immune response is generated. A typical embodiment consists of a method for generating an immune response to 151P3D4 in a host, by contacting the host with a sufficient amount of at least one 151P3D4 B cell or cytotoxic T-cell epitope or analog thereof; and at least one periodic interval thereafter re-contacting the host with the 151P3D4 B cell or cytotoxic T-cell epitope or analog thereof. A specific embodiment consists of a method of generating an immune response against a 151P3D4-related protein or a man-made multiepitopic peptide comprising: administering 151P3D4 immunogen (e.g. a 151P3D4 protein or a peptide fragment thereof, a 151P3D4 fusion protein or analog etc.) in a vaccine preparation to a human or another mammal. Typically, such vaccine preparations further contain a suitable adjuvant (see, e.g., U.S. Pat. No. 6,146,635) or a universal helper epitope such as a PADRE™ peptide (Epimmune Inc., San Diego, Calif; see, e.g., Alexander et al., J. Immunol. 2000 164(3); 164(3): 1625-1633; Alexander et al., Immunity 1994 1(9): 751-761 and Alexander et al., Immunol. Res. 1998 18(2): 79-92). An alternative method comprises generating an immune response in an individual against a 151P3D4 immunogen by: administering in vivo to muscle or skin of the individual's body a DNA molecule that comprises a DNA sequence that encodes a 151P3D4 immunogen, the DNA sequence operatively linked to regulatory sequences which control the expression of the DNA sequence; wherein the DNA molecule is taken up by cells, the DNA sequence is expressed in the cells and an immune response is generated against the immunogen (see, e.g., U.S. Pat. No. 5,962,428). Optionally a genetic vaccine facilitator such as anionic lipids; saponins; lectins; estrogenic compounds; hydroxylated lower alkyls; dimethyl sulfoxide; and urea is also administered. In addition, an antiidiotypic antibody can be administered that mimics 151P3D4, in order to generate a response to the target antigen. [0284]
  • Nucleic Acid Vaccines: [0285]
  • Vaccine compositions of the invention include nucleic acid-mediated modalities. DNA or RNA that encode protein(s) of the invention can be administered to a patient. Genetic immunization methods can be employed to generate prophylactic or therapeutic humoral and cellular immune responses directed against cancer cells expressing 151P3D4. Constructs comprising DNA encoding a 151P3D4-related protein/immunogen and appropriate regulatory sequences can be injected directly into muscle or skin of an individual, such that the cells of the muscle or skin take-up the construct and express the encoded 151P3D4 protein/immunogen. Alternatively, a vaccine comprises a 151P3D4-related protein. Expression of the 151P3D4-related protein immunogen results in the generation of prophylactic or therapeutic humoral and cellular immunity against cells that bear a 151P3D4 protein. Various prophylactic and therapeutic genetic immunization techniques known in the art can be used (for review, see information and references published at Internet address www.genweb.com). Nucleic acid-based delivery is described, for instance, in Wolff et. al., [0286] Science 247:1465 (1990) as well as U.S. Pat. Nos. 5,580,859; 5,589,466; 5,804,566; 5,739,118; 5,736,524; 5,679,647; WO 98/04720. Examples of DNA-based delivery technologies include “naked DNA”, facilitated (bupivicaine, polymers, peptide-mediated) delivery, cationic lipid complexes, and particle-mediated (“gene gun”) or pressure-mediated delivery (see, e.g., U.S. Pat. No. 5,922,687).
  • For therapeutic or prophylactic immunization purposes, proteins of the invention can be expressed via viral or bacterial vectors. Various viral gene delivery systems that can be used in the practice of the invention include, but are not limited to, vaccinia, fowlpox, canarypox, adenovirus, influenza, poliovirus, adeno-associated virus, lentivirus, and sindbis virus (see, e.g., Restifo, 1996, Curr. Opin. Immunol. 8:658-663; Tsang et al. [0287] J. Natl. Cancer Inst. 87:982-990 (1995)). Non-viral delivery systems can also be employed by introducing naked DNA encoding a 151P3D4-related protein into the patient (e.g., intramuscularly or intradermally) to induce an anti-tumor response.
  • Vaccinia virus is used, for example, as a vector to express nucleotide sequences that encode the peptides of the invention. Upon introduction into a host, the recombinant vaccinia virus expresses the protein immunogenic peptide, and thereby elicits a host immune response. Vaccinia vectors and methods useful in immunization protocols are described in, e.g., U.S. Pat. No. 4,722,848. Another vector is BCG (Bacille Calmette Guerin). BCG vectors are described in Stover et al., [0288] Nature 351:456-460(1991). A wide variety of other vectors useful for therapeutic administration or immunization of the peptides of the invention, e.g. adeno and adeno-associated virus vectors, retroviral vectors, Salmonella typhi vectors, detoxified anthrax toxin vectors, and the like, will be apparent to those skilled in the art from the description herein.
  • Thus, gene delivery systems are used to deliver a 151P3D4-related nucleic acid molecule. In one embodiment, the full-length human 151P3D4 cDNA is employed. In another embodiment, 151P3D4 nucleic acid molecules encoding specific cytotoxic T lymphocyte (CTL) and/or antibody epitopes are employed. [0289]
  • Ex Vivo Vaccines [0290]
  • Various ex vivo strategies can also be employed to generate an immune response. One approach involves the use of antigen presenting cells (APCs) such as dendritic cells (DC) to present 151P3D4 antigen to a patient's immune system. Dendritic cells express MHC class I and II molecules, B7 co-stimulator, and IL-12, and are thus highly specialized antigen presenting cells. In prostate cancer, autologous dendritic cells pulsed with peptides of the prostate-specific membrane antigen (PSMA) are being used in a Phase I clinical trial to stimulate prostate cancer patients' immune systems (Tjoa et al., 1996, Prostate 28:65-69; Murphy et al., 1996, Prostate 29:371-380). Thus, dendritic cells can be used to present 151P3D4 peptides to T cells in the context. of MHC class I or II molecules. In one embodiment, autologous dendritic cells are pulsed with 151P3D4 peptides capable of binding to MHC class I and/or class II molecules. In another embodiment, dendritic cells are pulsed with the complete 151P3D4 protein. Yet another embodiment involves engineering the overexpression of a 151P3D4 gene in dendritic cells using various implementing vectors known in the art, such as adenovirus (Arthur et al., 1997, Cancer Gene Ther. 4:17-25), retrovirus (Henderson et al., 1996, Cancer Res. 56:3763-3770), lentivirus, adeno-associated virus, DNA transfection (Ribas et al., 1997, Cancer Res. 57:2865-2869), or tumor-derived RNA transfection (Ashley et al., 1997, J. Exp. Med. 186:1177-1182). Cells that express 151P3D4 can also be engineered to express immune modulators, such as GM-CSF, and used as immunizing agents. [0291]
  • X.B.) 151P3D4 as a Target for Antibody-Based Therapy [0292]
  • 151P3D4 is an attractive target for antibody-based therapeutic strategies. A number of antibody strategies are known in the art for targeting both extracellular and intracellular molecules (see, e.g., complement and ADCC mediated killing as well as the use of intrabodies). Because 151P3D4 is expressed by cancer cells of various lineages relative to corresponding normal cells, systemic administration of 151P3D4-immunoreactive compositions are prepared that exhibit excellent sensitivity without toxic, non-specific and/or non-target effects caused by binding of the immunoreactive composition to non-target organs and tissues. Antibodies specifically reactive with domains of 151P3D4 are useful to treat 151P3D4-expressing cancers systemically, either as conjugates with a toxin or therapeutic agent, or as naked antibodies capable of inhibiting cell proliferation or function. [0293]
  • 151P3D4 antibodies can be introduced into a patient such that the antibody binds to 151P3D4 and modulates a function, such as an interaction with a binding partner, and consequently mediates destruction of the tumor cells and/or inhibits the growth of the tumor cells. Mechanisms by which such antibodies exert a therapeutic effect can include complement-mediated cytolysis, antibody-dependent cellular cytotoxicity, modulation of the physiological function of 151P3D4, inhibition of ligand binding or signal transduction pathways, modulation of tumor cell differentiation, alteration of tumor angiogenesis factor profiles, and/or apoptosis. [0294]
  • Those skilled in the art understand that antibodies can be used to specifically target and bind immunogenic molecules such as an immunogenic region of a 151P3D4 sequence shown in FIG. 2 or FIG. 3. In addition, skilled artisans understand that it is routine to conjugate antibodies to cytotoxic agents (see, e.g., Slevers et al. [0295] Blood 93:11 3678-3684 (Jun. 1, 1999)). When cytotoxic and/or therapeutic agents are delivered directly to cells, such as by conjugating them to antibodies specific for a molecule expressed by that cell (e.g. 151P3D4), the cytotoxic agent will exert its known biological effect (i.e. cytotoxicity) on those cells.
  • A wide variety of compositions and methods for using antibody-cytotoxic agent conjugates to kill cells are known in the art. In the context of cancers, typical methods entail administering to an animal having a tumor a biologically effective amount of a conjugate comprising a selected cytotoxic and/or therapeutic agent linked to a targeting agent (e.g. an anti-151P3D4 antibody) that binds to a marker (e.g. 151P3D4) expressed, accessible to binding or localized on the cell surfaces. A typical embodiment is a method of delivering a cytotoxic and/or therapeutic agent to a cell expressing 151P3D4, comprising conjugating the cytotoxic agent to an antibody that immunospecifically binds to a 151P3D4 epitope, and, exposing the cell to the antibody-agent conjugate. Another illustrative embodiment is a method of treating an individual suspected of suffering from metastasized cancer, comprising a step of administering parenterally to said individual a pharmaceutical composition comprising a therapeutically effective amount of an antibody conjugated to a cytotoxic and/or therapeutic agent. [0296]
  • Cancer immunotherapy using anti-151P3D4 antibodies can be done in accordance with various approaches that have been successfully employed in the treatment of other types of cancer, including but not limited to colon cancer (Arlen et al., 1998, Crit. Rev. Immunol. 18:133-138), multiple myeloma (Ozaki et al., 1997, Blood 90:3179-3186, Tsunenari et al., 1997, Blood 90:2437-2444), gastric cancer (Kasprzyk et al., 1992, Cancer Res. 52:2771-2776), B-cell lymphoma (Funakoshi et al., 1996, J. Immunother. Emphasis Tumor Immunol. 19:93-101), leukemia (Zhong et al., 1996, Leuk. Res. 20:581-589), colorectal cancer (Moun et al., 1994, Cancer Res. 54:6160-6166; Velders et al., 1995, Cancer Res. 55:4398-4403), and breast cancer (Shepard et al., 1991, J. Clin. Immunol. 11:117-127). Some therapeutic approaches involve conjugation of naked antibody to a toxin or radioisotope, such as the conjugation of Y[0297] 91 or I131 to anti-CD20 antibodies (e.g., Zevalin™, IDEC Pharmaceuticals Corp. or Bexxar™, Coulter Pharmaceuticals), while others involve co-administration of antibodies and other therapeutic agents, such as Herceptin™ (trastuzumab) with paclitaxel (Genentech, Inc.). The antibodies can be conjugated to a therapeutic agent. To treat prostate cancer, for example, 151P3D4 antibodies can be administered in conjunction with radiation, chemotherapy or hormone ablation. Also, antibodies can be conjugated to a toxin such as calicheamicin (e.g., Mylotarg™, Wyeth-Ayerst, Madison, N.J., a recombinant humanized IgG4 kappa antibody conjugated to antitumor antibiotic calicheamicin) or a maytansinoid (e.g., taxane-based Tumor-Activated Prodrug, TAP, platform, ImmunoGen, Cambridge, Mass., also see e.g., U.S. Pat. No. 5,416,064).
  • Although 151P3D4 antibody therapy is useful for all stages of cancer, antibody therapy can be particularly appropriate in advanced or metastatic cancers. Treatment with the antibody therapy of the invention is indicated for patients who have received one or more rounds of chemotherapy. Alternatively, antibody therapy of the invention is combined with a chemotherapeutic or radiation regimen for patients who have not received chemotherapeutic treatment. Additionally, antibody therapy can enable the use of reduced dosages of concomitant chemotherapy, particularly for patients who do not tolerate the toxicity of the chemotherapeutic agent very well. Fan et al. (Cancer Res. 53:4637-4642, 1993), Prewett et al. (International J. of Onco. 9:217-224, 1996), and Hancock et al. (Cancer Res. 51:4575-4580, 1991) describe the use of various antibodies together with chemotherapeutic agents. [0298]
  • Although 151P3D4 antibody therapy is useful for all stages of cancer, antibody therapy can be particularly appropriate in advanced or metastatic cancers. Treatment with the antibody therapy of the invention is indicated for patients who have received one or more rounds of chemotherapy. Alternatively, antibody therapy of the invention is combined with a chemotherapeutic or radiation regimen for patients who have not received chemotherapeutic treatment. Additionally, antibody therapy can enable the use of reduced dosages of concomitant chemotherapy, particularly for patients who do not tolerate the toxicity of the chemotherapeutic agent very well. [0299]
  • Cancer patients can be evaluated for the presence and level of 151P3D4 expression, preferably using immunohistochemical assessments of tumor tissue, quantitative 151P3D4 imaging, or other techniques that reliably indicate the presence and degree of 151P3D4 expression. Immunohistochemical analysis of tumor biopsies or surgical specimens is preferred for this purpose. Methods for immunohistochemical analysis of tumor tissues are well known in the art. [0300]
  • Anti-151P3D4 monoclonal antibodies that treat prostate and other cancers include those that initiate a potent immune response against the tumor or those that are directly cytotoxic. In this regard, anti-151P3D4 monoclonal antibodies (mAbs) can elicit tumor cell lysis by either complement-mediated or antibody-dependent cell cytotoxicity (ADCC) mechanisms, both of which require an intact Fc portion of the immunoglobulin molecule for interaction with effector cell Fc receptor sites on complement proteins. In addition, anti-151P3D4 mAbs that exert a direct biological effect on tumor growth are useful to treat cancers that express 151P3D4. Mechanisms by which directly cytotoxic mAbs act include: inhibition of cell growth, modulation of cellular differentiation, modulation of tumor angiogenesis factor profiles, and the induction of apoptosis. The mechanism(s) by which a particular anti-151P3D4 mAb exerts an anti-tumor effect is evaluated using any number of in vitro assays that evaluate cell death such as ADCC, ADMMC, complement-mediated cell lysis, and so forth, as is generally known in the art. [0301]
  • In some patients, the use of murine or other non-human monoclonal antibodies, or human/mouse chimeric mAbs can induce moderate to strong immune responses against the non-human antibody. This can result in clearance of the antibody from circulation and reduced efficacy. In the most severe cases, such an immune response can lead to the extensive formation of immune complexes which, potentially, can cause renal failure. Accordingly, preferred monoclonal antibodies used in the therapeutic methods of the invention are those that are either fully human or humanized and that bind specifically to the target 151P3D4 antigen with high affinity but exhibit low or no antigenicity in the patient. [0302]
  • Therapeutic methods of the invention contemplate the administration of single anti-151P3D4 mAbs as well as combinations, or cocktails, of different mAbs. Such mAb cocktails can have certain advantages inasmuch as they contain mAbs that target different epitopes, exploit different effector mechanisms or combine directly cytotoxic mAbs with mAbs that rely on immune effector functionality. Such mAbs in combination can exhibit synergistic therapeutic effects. In addition, anti-151P3D4 mAbs can be administered concomitantly with other therapeutic modalities, including but not limited to various chemotherapeutic agents, androgen-blockers, immune modulators (e.g., IL-2, GM-CSF), surgery or radiation. The anti-151P3D4 mAbs are administered in their “naked” or unconjugated form, or can have a therapeutic agent(s) conjugated to them. [0303]
  • Anti-151P3D4 antibody formulations are administered via any route capable of delivering the antibodies to a tumor cell. Routes of administration include, but are not limited to, intravenous, intraperitoneal, intramuscular, intratumor, intradermal, and the like. Treatment generally involves repeated administration of the anti-151P3D4 antibody preparation, via an acceptable route of administration such as intravenous injection (IV), typically at a dose in the range of about 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 15, 20, or 25 mg/kg body weight. In general, doses in the range of 10-1000 mg mAb per week are effective and well tolerated. [0304]
  • Based on clinical experience with the Herceptin™ mAb in the treatment of metastatic breast cancer, an initial loading dose of approximately 4 mg/kg patient body weight IV, followed by weekly doses of about 2 mg/kg IV of the anti-151P3D4 mAb preparation represents an acceptable dosing regimen. Preferably, the initial loading dose is administered as a 90 minute or longer infusion. The periodic maintenance dose is administered as a 30 minute or longer infusion, provided the initial dose was well tolerated. As appreciated by those of skill in the art, various factors can influence the ideal dose regimen in a particular case. Such factors include, for example, the binding affinity and half life of the Ab or mAbs used, the degree of 151P3D4 expression in the patient, the extent of circulating shed 151P3D4 antigen, the desired steady-state antibody concentration level, frequency of treatment, and the influence of chemotherapeutic or other agents used in combination with the treatment method of the invention, as well as the health status of a particular patient. [0305]
  • Optionally, patients should be evaluated for the levels of 151P3D4 in a given sample (e.g. the levels of circulating 151P3D4 antigen and/or 151P3D4 expressing cells) in order to assist in the determination of the most effective dosing regimen, etc. Such evaluations are also used for monitoring purposes throughout therapy, and are useful to gauge therapeutic success in combination with the evaluation of other parameters (for example, urine cytology and/or ImmunoCyt levels in bladder cancer therapy, or by analogy, serum PSA levels in prostate cancer therapy). [0306]
  • Anti-idiotypic anti-151P3D4 antibodies can also be used in anti-cancer therapy as a vaccine for inducing an immune response to cells expressing a 151P3D4-related protein. In particular, the generation of anti-idiotypic antibodies is well known in the art; this methodology can readily be adapted to generate anti-idiotypic anti-151P3D4 antibodies that mimic an epitope on a 151P3D4-related protein (see, for example, Wagner et al., 1997, Hybridoma 16: 33-40; Foon et al., 1995, J. Clin. Invest. 96:334-342; Herlyn et al., 1996, Cancer Immunol. Immunother. 43:65-76). Such an anti-idiotypic antibody can be used in cancer vaccine strategies. [0307]
  • X.C.) 151P3D4 as a Target for Cellular Immune Responses [0308]
  • Vaccines and methods of preparing vaccines that contain an immunogenically effective amount of one or more HLA-binding peptides as described herein are further embodiments of the invention. Furthermore, vaccines in accordance with the invention encompass compositions of one or more of the claimed peptides. A peptide can be present in a vaccine individually. Alternatively, the peptide can exist as a homopolymer comprising multiple copies of the same peptide, or as a heteropolymer of various peptides. Polymers have the advantage of increased immunological reaction and, where different peptide epitopes are used to make up the polymer, the additional ability to induce antibodies and/or CTLs that react with different antigenic determinants of the pathogenic organism or tumor-related peptide targeted for an immune response. The composition can be a naturally occurring region of an antigen or can be prepared, e.g., recombinantly or by chemical synthesis. [0309]
  • Carriers that can be used with vaccines of the invention are well known in the art, and include, e.g., thyroglobulin, albumins such as human serum albumin, tetanus toxoid, polyamino acids such as poly L-lysine, poly L-glutamic acid, influenza, hepatitis B virus core protein, and the like. The vaccines can contain a physiologically tolerable (i.e., acceptable) diluent such as water, or saline, preferably phosphate buffered saline. The vaccines also typically include an adjuvant. Adjuvants such as incomplete Freund's adjuvant, aluminum phosphate, aluminum hydroxide, or alum are examples of materials well known in the art. Additionally, as disclosed herein, CTL responses can be primed by conjugating peptides of the invention to lipids, such as tripalmitoyl-S-glycerylcysteinlyseryl-serine (P[0310] 3CSS). Moreover, an adjuvant such as a synthetic cytosine-phosphorothiolated-guanine-containing (CpG) oligonucleotides has been found to increase CTL responses 10- to 100-fold. (see, e.g. Davila and Celis, J. Immunol. 165:539-547 (2000))
  • Upon immunization with a peptide composition in accordance with the invention, via injection, aerosol, oral, transdermal, transmucosal, intrapleural, intrathecal, or other suitable routes, the immune system of the host responds to the vaccine by producing large amounts of CTLs and/or HTLs specific for the desired antigen. Consequently, the host becomes at least partially immune to later development of cells that express or overexpress 151P3D4 antigen, or derives at least some therapeutic benefit when the antigen was tumor-associated. [0311]
  • In some embodiments, it may be desirable to combine the class I peptide components with components that induce or facilitate neutralizing antibody and or helper T cell responses directed to the target antigen. A preferred embodiment of such a composition comprises class I and class II epitopes in accordance with the invention. An alternative embodiment of such a composition comprises a class I and/or class II epitope in accordance with the invention, along with a cross reactive HTL epitope such as PADRE™ (Epimmune, San Diego, Calif.) molecule (described eg., in U.S. Pat. No. 5,736,142). [0312]
  • A vaccine of the invention can also include antigen-presenting cells (APC), such as dendritic cells (DC), as a vehicle to present peptides of the invention. Vaccine compositions can be created in vitro, following dendritic cell mobilization and harvesting, whereby loading of dendritic cells occurs in vitro. For example, dendritic cells are transfected, e.g., with a minigene in accordance with the invention, or are pulsed with peptides. The dendritic cell can then be administered to a patient to elicit immune responses in vivo. Vaccine compositions, either DNA- or peptide-based, can also be administered in vivo in combination with dendritic cell mobilization whereby loading of dendritic cells occurs in vivo. [0313]
  • Preferably, the following principles are utilized when selecting an array of epitopes for inclusion in a polyepitopic composition for use in a vaccine, or for selecting discrete epitopes to be included in a vaccine and/or to be encoded by nucleic acids such as a minigene. It is preferred that each of the following principles be balanced in order to make the selection. The multiple epitopes to be incorporated in a given vaccine composition may be, but need not be, contiguous in sequence in the native antigen from which the epitopes are derived. [0314]
  • 1.) Epitopes are selected which, upon administration, mimic immune responses that have been observed to be correlated with tumor clearance. For HLA Class I this includes 3-4 epitopes that come from at least one tumor associated antigen (TAA). For HLA Class II a similar rationale is employed; again 3-4 epitopes are selected from at least one TAA (see, e.g., Rosenberg et al., [0315] Science 278:1447-1450). Epitopes from one TAA may be used in combination with epitopes from one or more additional TAAs to produce a vaccine that targets tumors with varying expression patterns of frequently-expressed TAAs.
  • 2.) Epitopes are selected that have the requisite binding affinity established to be correlated with immunogenicity: for HLA Class I an IC[0316] 50 of 500 nM or less, often 200 nM or less; and for Class II an IC50 of 1000 nM or less.
  • 3.) Sufficient supermotif bearing-peptides, or a sufficient array of allele-specific motif-bearing peptides, are selected to give broad population coverage. For example, it is preferable to have at least 80% population coverage. A Monte Carlo analysis, a statistical evaluation known in the art, can be employed to assess the breadth, or redundancy of, population coverage. [0317]
  • 4.) When selecting epitopes from cancer-related antigens it is often useful to select analogs because the patient may have developed tolerance to the native epitope. [0318]
  • 5.) Of particular relevance are epitopes referred to as “nested epitopes.” Nested epitopes occur where at least two epitopes overlap in a given peptide sequence. A nested peptide sequence can comprise B cell, HLA class I and/or HLA class II epitopes. When providing nested epitopes, a general objective is to provide the greatest number of epitopes per sequence. Thus, an aspect is to avoid providing a peptide that is any longer than the amino terminus of the amino terminal epitope and the carboxyl terminus of the carboxyl terminal epitope in the peptide. When providing a multi-epitopic sequence, such as a sequence comprising nested epitopes, it is generally important to screen the sequence in order to insure that it does not have pathological or other deleterious biological properties. [0319]
  • 6.) If a polyepitopic protein is created, or when creating a minigene, an objective is to generate the smallest peptide that encompasses the epitopes of interest. This principle is similar, if not the same as that employed when selecting a peptide comprising nested epitopes. However, with an artificial polyepitopic peptide, the size minimization objective is balanced against the need to integrate any spacer sequences between epitopes in the polyepitopic protein. Spacer amino acid residues can, for example, be introduced to avoid junctional epitopes (an epitope recognized by the immune system, not present in the target antigen, and only created by the man-made juxtaposition of epitopes), or to facilitate cleavage between epitopes and thereby enhance epitope presentation. Junctional epitopes are generally to be avoided because the recipient may generate an immune response to that non-native epitope. Of particular concern is a junctional epitope that is a “dominant epitope.” A dominant epitope may lead to such a zealous response that immune responses to other epitopes are diminished or suppressed. [0320]
  • 7.) Where the sequences of multiple variants of the same target protein are present, potential peptide epitopes can also be selected on the basis of their conservancy. For example, a criterion for conservancy may define that the entire sequence of an HLA class I binding peptide or the entire 9-mer core of a class II binding peptide be conserved in a designated percentage of the sequences evaluated for a specific protein antigen. [0321]
  • X.C.1. Minigene Vaccines [0322]
  • A number of different approaches are available which allow simultaneous delivery of multiple epitopes. Nucleic acids encoding the peptides of the invention are a particularly useful embodiment of the invention. Epitopes for inclusion in a minigene are preferably selected according to the guidelines set forth in the previous section. A preferred means of administering nucleic acids encoding the peptides of the invention uses minigene constructs encoding a peptide comprising one or multiple epitopes of the invention. [0323]
  • The use of multi-epitope minigenes is described below and in, Ishioka et al., [0324] J. Immunol. 162:3915-3925, 1999; An, L. and Whitton, J. L., J. Virol. 71:2292, 1997; Thomson, S. A. et al., J. Immunol. 157:822, 1996; Whitton, J. L. et al., J. Virol. 67:348, 1993; Hanke, R. et al., Vaccine 16:426, 1998. For example, a multi-epitope DNA plasmid encoding supermotif- and/or motif-bearing epitopes derived 151P3D4, the PADRE® universal helper T cell epitope or multiple HTL epitopes from 151P3D4 (see e.g., Tables V-XVIII and XXII to LI), and an endoplasmic reticulum-translocating signal sequence can be engineered. A vaccine may also comprise epitopes that are derived from other TAAs.
  • The immunogenicity of a multi-epitopic minigene can be confirmed in transgenic mice to evaluate the magnitude of CTL induction responses against the epitopes tested. Further, the immunogenicity of DNA-encoded epitopes in vivo can be correlated with the in vitro responses of specific CTL lines against target cells transfected with the DNA plasmid. Thus, these experiments can show that the minigene serves to both: 1.) generate a CTL response and 2.) that the induced CTLs recognized cells expressing the encoded epitopes. [0325]
  • For example, to create a DNA sequence encoding the selected epitopes (minigene) for expression in human cells, the amino acid sequences of the epitopes may be reverse translated. A human codon usage table can be used to guide the codon choice for each amino acid. These epitope-encoding DNA sequences may be directly adjoined, so that when translated, a continuous polypeptide sequence is created. To optimize expression and/or immunogenicity, additional elements can be incorporated into the minigene design. Examples of amino acid sequences that can be reverse translated and included in the minigene sequence include: HLA class I epitopes, HLA class II epitopes, antibody epitopes, a ubiquitination signal sequence, and/or an endoplasmic reticulum targeting signal. In addition, HLA presentation of CTL and HTL epitopes may be improved by including synthetic (e.g. poly-alanine) or naturally-occurring flanking sequences adjacent to the CTL or HTL epitopes; these larger peptides comprising the epitope(s) are within the scope of the invention. [0326]
  • The minigene sequence may be converted to DNA by assembling oligonucleotides that encode the plus and minus strands of the minigene. Overlapping oligonucleotides (30-100 bases long) may be synthesized, phosphorylated, purified and annealed under appropriate conditions using well known techniques. The ends of the oligonucleotides can be joined, for example, using T4 DNA ligase. This synthetic minigene, encoding the epitope polypeptide, can then be cloned into a desired expression vector. [0327]
  • Standard regulatory sequences well known to those of skill in the art are preferably included in the vector to ensure expression in the target cells. Several vector elements are desirable: a promoter with a downstream cloning site for minigene insertion; a polyadenylation signal for efficient transcription termination; an [0328] E. coli origin of replication; and an E. coli selectable marker (e.g. ampicillin or kanamycin resistance). Numerous promoters can be used for this purpose, e.g., the human cytomegalovirus (hCMV) promoter. See, e.g., U.S. Pat. Nos. 5,580,859 and 5,589,466 for other suitable promoter sequences.
  • Additional vector modifications may be desired to optimize minigene expression and immunogenicity. In some cases, introns are required for efficient gene expression, and one or more synthetic or naturally-occurring introns could be incorporated into the transcribed region of the minigene. The inclusion of mRNA stabilization sequences and sequences for replication in mammalian cells may also be considered for increasing minigene expression. [0329]
  • Once an expression vector is selected, the minigene is cloned into the polylinker region downstream of the promoter. This plasmid is transformed into an appropriate [0330] E. coli strain, and DNA is prepared using standard techniques. The orientation and DNA sequence of the minigene, as well as all other elements included in the vector, are confirmed using restriction mapping and DNA sequence analysis. Bacterial cells harboring the correct plasmid can be stored as a master cell bank and a working cell bank.
  • In addition, immunostimulatory sequences (ISSs or CpGs) appear to play a role in the immunogenicity of DNA vaccines. These sequences may be included in the vector, outside the minigene coding sequence, if desired to enhance immunogenicity. [0331]
  • In some embodiments, a bi-cistronic expression vector which allows production of both the minigene-encoded epitopes and a second protein (included to enhance or decrease immunogenicity) can be used. Examples of proteins or polypeptides that could beneficially enhance the immune response if co-expressed include cytokines (e.g., IL-2, IL-12, GM-CSF), cytokine-inducing molecules (e.g., LeIF), costimulatory molecules, or for HTL responses, pan-DR binding proteins (PADRE™, Epimmune, San Diego, Calif.). Helper (HTL) epitopes can be joined to intracellular targeting signals and expressed separately from expressed CTL epitopes; this allows direction of the HTL epitopes to a cell compartment different than that of the CTL epitopes. If required, this could facilitate more efficient entry of HTL epitopes into the HLA class II pathway, thereby improving HTL induction. In contrast to HTL or CTL induction, specifically decreasing the immune response by co-expression of immunosuppressive molecules (e.g. TGFβ,) may be beneficial in certain diseases. [0332]
  • Therapeutic quantities of plasmid DNA can be produced for example, by fermentation in [0333] E. coli, followed by purification. Aliquots from the working cell bank are used to inoculate growth medium, and grown to. saturation in shaker flasks or a bioreactor according to well-known techniques. Plasmid DNA can be purified using standard bioseparation technologies such as solid phase anion-exchange resins supplied by QIAGEN, Inc. (Valencia, Calif.). If required, supercoiled DNA can be isolated from the open circular and linear forms using gel electrophoresis or other methods.
  • Purified plasmid DNA can be prepared for injection using a variety of formulations. The simplest of these is reconstitution of lyophilized DNA in sterile phosphate-buffer saline (PBS). This approach, known as “naked DNA,” is currently being used for intramuscular (IM) administration in clinical trials. To maximize the immunotherapeutic effects of minigene DNA vaccines, an alternative method for formulating purified plasmid DNA may be desirable. A variety of methods have been described, and new techniques may become available. Cationic lipids, glycolipids, and fusogenic liposomes can also be used in the formulation (see, e.g., as described by WO 93/24640; Mannino & Gould-Fogerite, [0334] BioTechniques 6(7): 682 (1988); U.S. Pat No. 5,279,833; WO 91/06309; and Felgner, et al., Proc. Nat'l Acad. Sci. USA 84:7413 (1987). In addition, peptides and compounds referred to collectively as protective, interactive, non-condensing compounds (PINC) could also be complexed to purified plasmid DNA to influence variables such as stability, intramuscular dispersion, or trafficking to specific organs or cell types.
  • Target cell sensitization can be used as a functional assay for expression and HLA class I presentation of minigene-encoded CTL epitopes. For example, the plasmid DNA is introduced into a mammalian cell line that is suitable as a target for standard CTL chromium release assays. The transfection method used will be dependent on the final formulation. Electroporation can be used for “naked” DNA, whereas cationic lipids allow direct in vitro transfection. A plasmid expressing green fluorescent protein (GFP) can be co-transfected to allow enrichment of transfected cells using fluorescence activated cell sorting (FACS). These cells are then chromium-51 ([0335] 51Cr) labeled and used as target cells for epitope-specific CTL lines; cytolysis, detected by 51Cr release, indicates both production of, and HLA presentation of, minigene-encoded CTL epitopes. Expression of HTL epitopes may be evaluated in an analogous manner using assays to assess HTL activity.
  • In vivo immunogenicity is a second approach for functional testing of minigene DNA formulations. Transgenic mice expressing appropriate human HLA proteins are immunized with the DNA product. The dose and route of administration are formulation dependent (e.g., IM for DNA in PBS, intraperitoneal (i.p.) for lipid-complexed DNA). Twenty-one days after immunization, splenocytes are harvested and restimulated for one week in the presence of peptides encoding each epitope being tested. Thereafter, for CTL effector cells, assays are conducted for cytolysis of peptide-loaded, [0336] 51Cr-labeled target cells using standard techniques. Lysis of target cells that were sensitized by HLA loaded with peptide epitopes, corresponding to minigene-encoded epitopes, demonstrates DNA vaccine function for in vivo induction of CTLs. Immunogenicity of HTL epitopes is confirmed in transgenic mice in an analogous manner.
  • Alternatively, the nucleic acids can be administered using ballistic delivery as described, for instance, in U.S. Pat. No. 5,204,253. Using this technique, particles comprised solely of DNA are administered. In a further alternative embodiment, DNA can be adhered to particles, such as gold particles. [0337]
  • Minigenes can also be delivered using other bacterial or viral delivery systems well known in the art, e.g., an expression construct encoding epitopes of the invention can be incorporated into a viral vector such as vaccinia. [0338]
  • X.C.2. Combinations of CTL Peptides with Helper Peptides [0339]
  • Vaccine compositions comprising CTL peptides of the invention can be modified, e.g., analoged, to provide desired attributes, such as improved serum half life, broadened population coverage or enhanced immunogenicity. [0340]
  • For instance, the ability of a peptide to induce CTL activity can be enhanced by linking the peptide to a sequence which contains at least one epitope that is capable of inducing a T helper cell response. Although a CTL peptide can be directly linked to a T helper peptide, often CTL epitope/HTL epitope conjugates are linked by a spacer molecule. The spacer is typically comprised of relatively small, neutral molecules, such as amino acids or amino acid mimetics, which are substantially uncharged under physiological conditions. The spacers are typically selected from, e.g., Ala, Gly, or other neutral spacers of nonpolar amino acids or neutral polar amino acids. It will be understood that the optionally present spacer need not be comprised of the same residues and thus may be a hetero- or homo-oligomer. When present, the spacer will usually be at least one or two residues, more usually three to six residues and sometimes 10 or more residues. The CTL peptide epitope can be linked to the T helper peptide epitope either directly or via a spacer either at the amino or carboxy terminus of the CTL peptide. The amino terminus of either the immunogenic peptide or the T helper peptide may be acylated. [0341]
  • In certain embodiments, the T helper peptide is one that is recognized by T helper cells present in a majority of a genetically diverse population. This can be accomplished by selecting peptides that bind to many, most, or all of the HLA class II molecules. Examples of such amino acid bind many HLA Class II molecules include sequences from antigens such as tetanus toxoid at positions 830-843 (QYIKANSKFIGITE; SEQ ID NO:______), [0342] Plasmodium falciparum circumsporozoite (CS) protein at positions 378-398 (DIEKKIAKMEKASSVFNVVNS; SEQ ID NO:______), and Streptococcus 18kD protein at positions 116-131 (GAVDSILGGVATYGAA; SEQ ID NO:______). Other examples include peptides bearing a DR 1-4-7 supermotif, or either of the DR3 motifs.
  • Alternatively, it is possible to prepare synthetic peptides capable of stimulating T helper lymphocytes, in a loosely HLA-restricted fashion, using amino acid sequences not found in nature (see, e.g., PCT publication WO 95/07707). These synthetic compounds called Pan-DR-binding epitopes (e.g., PADRE™, Epimmune, Inc., San Diego, Calif.) are designed to most preferably bind most HLA-DR (human HLA class II) molecules. For instance, a pan-DR-binding epitope peptide having the formula: aKXVAAWTLKAAa (SEQ ID NO:______), where “X” is either cyclohexylalanine, phenylalanine, or tyrosine, and a is either D-alanine or L-alanine, has been found to bind to most HLA-DR alleles, and to stimulate the response of T helper lymphocytes from most individuals, regardless of their HLA type. An alternative of a pan-DR binding epitope comprises all “L” natural amino acids and can be provided in the form of nucleic acids that encode the epitope. [0343]
  • HTL peptide epitopes can also be modified to alter their biological properties. For example, they can be modified to include D-amino acids to increase their resistance to proteases and thus extend their serum half life, or they can be conjugated to other molecules such as lipids, proteins, carbohydrates, and the like to increase their biological activity. For example, a T helper peptide can be conjugated to one or more palmitic acid chains at either the amino or carboxyl termini. [0344]
  • X.C.3. Combinations of CTL Peptides with T Cell Priming Agents [0345]
  • In some embodiments it may be desirable to include in the pharmaceutical compositions of the invention at least one component which primes B lymphocytes or T lymphocytes. Lipids have been identified as agents capable of priming CTL in vivo. For example, palmitic acid residues can be attached to the ε- and α-amino groups of a lysine residue and then linked, e.g., via one or more linking residues such as Gly, Gly-Gly-, Ser, Ser-Ser, or the like, to an immunogenic peptide. The lipidated peptide can then be administered either directly in a micelle or particle, incorporated into a liposome, or emulsified in an adjuvant, e.g., incomplete Freund's adjuvant. In a preferred embodiment, a particularly effective immunogenic composition comprises palmitic acid attached to ε- and α-amino groups of Lys, which is attached via linkage, e.g., Ser-Ser, to the amino terminus of the immunogenic peptide. [0346]
  • As another example of lipid priming of CTL responses, [0347] E. coli lipoproteins, such as tripalmitoyl-S-glycerylcysteinlyseryl-serine (P3CSS) can be used to prime virus specific CTL when covalently attached to an appropriate peptide (see, e.g., Deres, et al., Nature 342:561, 1989). Peptides of the invention can be coupled to P3CSS, for example, and the lipopeptide administered to an individual to specifically prime an immune response to the target antigen. Moreover, because the induction of neutralizing antibodies can also be primed with P3CSS-conjugated epitopes, two such compositions can be combined to more effectively elicit both humoral and cell-mediated responses.
  • X.C.4. Vaccine Compositions Comprising DC Pulsed with CTL and/or HTL Peptides [0348]
  • An embodiment of a vaccine composition in accordance with the invention comprises ex vivo administration of a cocktail of epitope-bearing peptides to PBMC, or isolated DC therefrom, from the patient's blood. A pharmaceutical to facilitate harvesting of DC can be used, such as Progenipoietin™ (Pharmacia-Monsanto, St. Louis, Mo.) or GM-CSF/IL-4. After pulsing the DC with peptides and prior to reinfusion into patients, the DC are washed to remove unbound peptides. In this embodiment, a vaccine comprises peptide-pulsed DCs which present the pulsed peptide epitopes complexed with HLA molecules on their surfaces. [0349]
  • The DC can be pulsed ex vivo with a cocktail of peptides, some of which stimulate CTL responses to 151P3D4. Optionally, a helper T cell (HTL) peptide, such as a natural or artificial loosely restricted HLA Class II peptide, can be included to facilitate the CTL response. Thus, a vaccine in accordance with the invention is used to treat a cancer which expresses or overexpresses 151P3D4. [0350]
  • X.D. Adoptive Immunotherapy [0351]
  • Antigenic 151P3D4-related peptides are used to elicit a CTL and/or HTL response ex vivo, as well. The resulting CTL or HTL cells, can be used to treat tumors in patients that do not respond to other conventional forms of therapy, or will not respond to a therapeutic vaccine peptide or nucleic acid in accordance with the invention. Ex vivo CTL or HTL responses to a particular antigen are induced by incubating in tissue culture the patient's, or genetically compatible, CTL or HTL precursor cells together with a source of antigen-presenting cells (APC), such as dendritic cells, and the appropriate immunogenic peptide. After an appropriate incubation time (typically about 7-28 days), in which the precursor cells are activated and expanded into effector cells, the cells are infused back into the patient, where they will destroy (CTL) or facilitate destruction (HTL) of their specific target cell (e.g., a tumor cell). Transfected dendritic cells may also be used as antigen presenting cells. [0352]
  • X.E. Administration of Vaccines for Therapeutic or Prophylactic Purposes [0353]
  • Pharmaceutical and vaccine compositions of the invention are typically used to treat and/or prevent a cancer that expresses or overexpresses 151P3D4. In therapeutic applications, peptide and/or nucleic acid compositions are administered to a patient in an amount sufficient to elicit an effective B cell, CTL and/or HTL response to the antigen and to cure or at least partially arrest or slow symptoms and/or complications. An amount adequate to accomplish this is defined as “therapeutically effective dose.” Amounts effective for this use will depend on, e.g., the particular composition administered, the manner of administration, the stage and severity of the disease being treated, the weight and general state of health of the patient, and the judgment of the prescribing physician. [0354]
  • For pharmaceutical compositions, the immunogenic peptides of the invention, or DNA encoding them, are generally administered to an individual already bearing a tumor that expresses 151P3D4. The peptides or DNA encoding them can be administered individually or as fusions of one or more peptide sequences. Patients can be treated with the immunogenic peptides separately or in conjunction with other treatments, such as surgery, as appropriate. [0355]
  • For therapeutic use, administration should generally begin at the first diagnosis of 151P3D4-associated cancer. This is followed by boosting doses until at least symptoms are substantially abated and for a period thereafter. The embodiment of the vaccine composition (ie., including, but not limited to embodiments such as peptide cocktails, polyepitopic polypeptides, minigenes, or TAA-specific CTLs or pulsed dendritic cells) delivered to the patient may vary according to the stage of the disease or the patient's health status. For example, in a patient with a tumor that expresses 151P3D4, a vaccine comprising 151P3D4-specific CTL may be more efficacious in killing tumor cells in patient with advanced disease than alternative embodiments. [0356]
  • It is generally important to provide an amount of the peptide epitope delivered by a mode of administration sufficient to effectively stimulate a cytotoxic T cell response; compositions which stimulate helper T cell responses can also be given in accordance with this embodiment of the invention. [0357]
  • The dosage for an initial therapeutic immunization generally occurs in a unit dosage range where the lower value is about 1, 5, 50, 500, or 1,000 μg and the higher value is about 10,000; 20,000; 30,000; or 50,000 μg. Dosage values for a human typically range from about 500 μg to about 50,000 μg per 70 kilogram patient. Boosting dosages of between about 1.0 μg to about 50,000 μg of peptide pursuant to a boosting regimen over weeks to months may be administered depending upon the patient's response and condition as determined by measuring the specific activity of CTL and HTL obtained from the patient's blood. Administration should continue until at least clinical symptoms or laboratory tests indicate that the neoplasia, has been eliminated or reduced and for a period thereafter. The dosages, routes of administration, and dose schedules are adjusted in accordance with methodologies known in the art. [0358]
  • In certain embodiments, the peptides and compositions of the present invention are employed in serious disease states, that is, life-threatening or potentially life threatening situations. In such cases, as a result of the minimal amounts of extraneous substances and the relative nontoxic nature of the peptides in preferred compositions of the invention, it is possible and may be felt desirable by the treating physician to administer substantial excesses of these peptide compositions relative to these stated dosage amounts. [0359]
  • The vaccine compositions of the invention can also be used purely as prophylactic agents. Generally the dosage for an initial prophylactic immunization generally occurs in a unit dosage range where the lower value is about 1, 5, 50, 500, or 1000 μg and the higher value is about 10,000; 20,000; 30,000; or 50,000 μg. Dosage values for a human typically range from about 500 μg to about 50,000 μg per 70 kilogram patient. This is followed by boosting dosages of between about 1.0 μg to about 50,000 μg of peptide administered at defined intervals from about four weeks to six months after the initial administration of vaccine. The immunogenicity of the vaccine can be assessed by measuring the specific activity of CTL and HTL obtained from a sample of the patient's blood. [0360]
  • The pharmaceutical compositions for therapeutic treatment are intended for parenteral, topical, oral, nasal, intrathecal, or local (e.g. as a cream or topical ointment) administration. Preferably, the pharmaceutical compositions are administered parentally, e.g., intravenously, subcutaneously, intradermally, or intramuscularly. Thus, the invention provides compositions for parenteral administration which comprise a solution of the immunogenic peptides dissolved or suspended in an acceptable carrier, preferably an aqueous carrier. [0361]
  • A variety of aqueous carriers may be used, e.g., water, buffered water, 0.8% saline, 0.3% glycine, hyaluronic acid and the like. These compositions may be sterilized by conventional, well-known sterilization techniques, or may be sterile filtered. The resulting aqueous solutions may be packaged for use as is, or lyophilized, the lyophilized preparation being combined with a sterile solution prior to administration. [0362]
  • The compositions may contain pharmaceutically acceptable auxiliary substances as required to approximate physiological conditions, such as pH-adjusting and buffering agents, tonicity adjusting agents, wetting agents, preservatives, and the like, for example, sodium acetate, sodium lactate, sodium chloride, potassium chloride, calcium chloride, sorbitan monolaurate, triethanolarnine oleate, etc. [0363]
  • The concentration of peptides of the invention in the pharmaceutical formulations can vary widely, i.e., from less than about 0.1%, usually at or at least about 2% to as much as 20% to 50% or more by weight, and will be selected primarily by fluid volumes, viscosities, etc., in accordance with the particular mode of administration selected. [0364]
  • A human unit dose form of a composition is typically included in a pharmaceutical composition that comprises a human unit dose of an acceptable carrier, in one embodiment an aqueous carrier, and is administered in a volume/quantity that is known by those of skill in the art to be used for administration of such compositions to humans (see, e.g., Remington's Pharmaceutical Sciences, 17[0365] th Edition, A. Gennaro, Editor, Mack Publishing Co., Easton, Pa., 1985). For example a peptide dose for initial immunization can be from about 1 to about 50,000 μg, generally 100-5,000 μg, for a 70 kg patient. For example, for nucleic acids an initial immunization may be performed using an expression vector in the form of naked nucleic acid administered IM (or SC or ID) in the amounts of 0.5-5 mg at multiple sites. The nucleic acid (0.1 to 1000 μg) can also be administered using a gene gun. Following an incubation period of 34 weeks, a booster dose is then administered. The booster can be recombinant fowlpox virus administered at a dose of 5-107 to 5×109 pfu.
  • For antibodies, a treatment generally involves repeated administration of the anti-151P3D4 antibody preparation, via an acceptable route of administration such as intravenous injection (IV), typically at a dose in the range of about 0.1 to about 10 mg/kg body weight. In general, doses in the range of 10-500 mg mAb per week are effective and well tolerated. Moreover, an initial loading dose of approximately 4 mg/kg patient body weight IV, followed by weekly doses of about 2 mg/kg IV of the anti-151P3D4 mAb preparation represents an acceptable dosing regimen. As appreciated by those of skill in the art, various factors can influence the ideal dose in a particular case. Such factors include, for example, half life of a composition, the binding affinity of an Ab, the immunogenicity of a substance, the degree of 151P3D4 expression in the patient, the extent of circulating shed 151P3D4 antigen, the desired steady-state concentration level, frequency of treatment, and the influence of chemotherapeutic or other agents used in combination with the treatment method of the invention, as well as the health status of a particular patient. Non-limiting preferred human unit doses are, for example, 500 μg-1 mg, 1 mg-50 mg, 50 mg-100 mg, 100 mg-200 mg, 200 mg-300 mg, 400 mg-500 mg, 500 mg-600 mg, 600 mg-700 mg, 700 mg-800 mg, 800 mg-900 mg, 900 mg-1 g, or 1 mg-700 mg. In certain embodiments, the dose is in a range of 2-5 mg/kg body weight, e.g., with follow on weekly doses of 1-3 mg/kg; 0.5 mg, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 mg/kg body weight followed, e.g., in two, three or four weeks by weekly doses; 0.5-10 mg/kg body weight, e.g., followed in two, three or four weeks by weekly doses; 225, 250, 275, 300, 325, 350, 375, 400 mg m[0366] 2 of body area weekly; 1-600 mg m2 of body area weekly; 225-400 mg m2 of body area weekly; these does can be followed by weekly doses for 2, 3, 4, 5, 6, 7, 8, 9, 19, 11, 12 or more weeks.
  • In one embodiment, human unit dose forms of polynucleotides comprise a suitable dosage range or effective amount that provides any therapeutic effect. As appreciated by one of ordinary skill in the art a therapeutic effect depends on a number of factors, including the sequence of the polynucleotide, molecular weight of the polynucleotide and route of administration. Dosages are generally selected by the physician or other health care professional in accordance with a variety of parameters known in the art, such as severity of symptoms, history of the patient and the like. Generally, for a polynucleotide of about 20 bases, a dosage range may be selected from, for example, an independently selected lower limit such as about 0.1, 0.25, 0.5, 1, 2, 5, 10, 20, 30, 40, 50, 60, 70, 80, 90, 100, 200, 300, 400 or 500 mg/kg up to an independently selected upper limit, greater than the lower limit, of about 60, 80, 100, 200, 300, 400, 500, 750, 1000, 1500, 2000, 3000, 4000, 5000, 6000, 7000, 8000, 9000 or 10,000 mg/kg. For example, a dose may be about any of the following: 0.1 to 100 mg/kg, 0.1 to 50 mg/kg, 0.1 to 25 mg/kg, 0.1 to 10 mg/kg, 1 to 500 mg/kg, 100 to 400 mg/kg, 200 to 300 mg/kg, 1 to 100 mg/kg, 100 to 200 mg/kg, 300 to 400 mg/kg, 400 to 500 mg/kg, 500 to 1000 mg/kg, 500 to 5000 mg/kg, or 500 to 10,000 mg/kg. Generally, parenteral routes of administration may require higher doses of polynucleotide compared to more direct application to the nucleotide to diseased tissue, as do polynucleotides of increasing length. [0367]
  • In one embodiment, human unit dose forms of T-cells comprise a suitable dosage range or effective amount that provides any therapeutic effect. As appreciated by one of ordinary skill in the art, a therapeutic effect depends on a number of factors. Dosages are generally selected by the physician or other health care professional in accordance with a variety of parameters known in the art, such as severity of symptoms, history of the patient and the like. A dose may be about 10[0368] 4 cells to about 106 cells, about 106 cells to about 108 cells, about 108 to about 1011 cells, or about 108 to about 5×1010 cells. A dose may also about 106 cells/m2 to about 1010 cells/m2, or about 106 cells/m2 to about 108 cells/m2.
  • Proteins(s) of the invention, and/or nucleic acids encoding the protein(s), can also be administered via liposomes, which may also serve to: 1) target the proteins(s) to a particular tissue, such as lymphoid tissue; 2) to target selectively to diseases cells; or, 3) to increase the half-life of the peptide composition. Liposomes include emulsions, foams, micelles, insoluble monolayers, liquid crystals, phospholipid dispersions, lamellar layers and the like. In these preparations, the peptide to be delivered is incorporated as part of a liposome, alone or in conjunction with a molecule which binds to a receptor prevalent among lymphoid cells, such as monoclonal antibodies which bind to the CD45 antigen, or with other therapeutic or immunogenic compositions. Thus, liposomes either filled or decorated with a desired peptide of the invention can be directed to the site of lymphoid cells, where the liposomes then deliver the peptide compositions. Liposomes for use in accordance with the invention are formed from standard vesicle-forming lipids, which generally include neutral and negatively charged phospholipids and a sterol, such as cholesterol. The selection of lipids is generally guided by consideration of, e.g., liposome size, acid lability and stability of the liposomes in the blood stream. A variety of methods are available for preparing liposomes, as described in, e.g., Szoka, et al., [0369] Ann. Rev. Biophys. Bioeng. 9:467 (1980), and U.S. Pat. Nos. 4,235,871, 4,501,728, 4,837,028, and 5,019,369.
  • For targeting cells of the immune system, a ligand to be incorporated into the liposome can include, e.g., antibodies or fragments thereof specific for cell surface determinants of the desired immune system cells. A liposome suspension containing a peptide may be administered intravenously, locally, topically, etc. in a dose which varies according to, inter alia, the manner of administration, the peptide being delivered, and the stage of the disease being treated. [0370]
  • For solid compositions, conventional nontoxic solid carriers may be used which include, for example, pharmaceutical grades of mannitol, lactose, starch, magnesium stearate, sodium saccharin, talcum, cellulose, glucose, sucrose, magnesium carbonate, and the like. For oral administration, a pharmaceutically acceptable nontoxic composition is formed by incorporating any of the normally employed excipients, such as those carriers previously listed, and generally 10-95% of active ingredient, that is, one or more peptides of the invention, and more preferably at a concentration of 25%-75%. [0371]
  • For aerosol administration, immunogenic peptides are preferably supplied in finely divided form along with a surfactant and propellant. Typical percentages of peptides are about 0.01%-20% by weight, preferably about 1%-10%. The surfactant must, of course, be nontoxic, and preferably soluble in the propellant. Representative of such agents are the esters or partial esters of fatty acids containing from about 6 to 22 carbon atoms, such as caproic, octanoic, lauric, palmitic, stearic, linoleic, linolenic, olesteric and oleic acids with an aliphatic polyhydric alcohol or its cyclic anhydride. Mixed esters, such as mixed or natural glycerides may be employed. The surfactant may constitute about 0.1%-20% by weight of the composition, preferably about 0.25-5%. The balance of the composition is ordinarily propellant. A carrier can also be included, as desired, as with, e.g., lecithin for intranasal delivery. [0372]
  • XI.) Diagnostic and Prognostic Embodiments of 151P3D4. [0373]
  • As disclosed herein, 151P3D4 polynucleotides, polypeptides, reactive cytotoxic T cells (CTL), reactive helper T cells (HTL) and anti-polypeptide antibodies are used in well known diagnostic, prognostic and therapeutic assays that examine conditions associated with dysregulated cell growth such as cancer, in particular the cancers listed in Table I (see, e.g., both its specific pattern of tissue expression as well as its overexpression in certain cancers as described for example in the Example entitled “Expression analysis of 151P3D4 in normal tissues, and patient specimens”). [0374]
  • 151P3D4 can be analogized to a prostate associated antigen PSA, the archetypal marker that has been used by medical practitioners for years to identify and monitor the presence of prostate cancer (see, e.g., Merrill et al., J. Urol. 163(2): 503-5120 (2000); Polascik et al., J. Urol. August; 162(2):293-306 (1999) and Fortier et al., J. Nat. Cancer Inst. 91(19): 1635-1640(1999)). A variety of other diagnostic markers are also used in similar contexts including p53 and K-ras (see, e.g., Tulchinsky et al., Int J Mol Med Jul. 4, 1999 (1):99-102 and Minimoto et al., Cancer Detect Prev 2000;24(1):1-12). Therefore, this disclosure of 151P3D4 polynucleotides and polypeptides (as well as 151P3D4 polynucleotide probes and anti-151P3D4 antibodies used to identify the presence of these molecules) and their properties allows skilled artisans to utilize these molecules in methods that are analogous to those used, for example, in a variety of diagnostic assays directed to examining conditions associated with cancer. [0375]
  • Typical embodiments of diagnostic methods which utilize the 151P3D4 polynucleotides, polypeptides, reactive T cells and antibodies are analogous to those methods from well-established diagnostic assays which employ, e.g., PSA polynucleotides, polypeptides, reactive T cells and antibodies. For example, just as PSA polynucleotides are used as probes (for example in Northern analysis, see, e.g., Sharief et al., Biochem. Mol. Biol. Int. 33(3):567-74(1994)) and primers (for example in PCR analysis, see, e.g., Okegawa et al., J. Urol. 163(4): 1189-1190 (2000)) to observe the presence and/or the level of PSA mRNAs in methods of monitoring PSA overexpression or the metastasis of prostate cancers, the 151P3D4 polynucleotides described herein can be utilized in the same way to detect 151P3D4 overexpression or the metastasis of prostate and other cancers expressing this gene. Alternatively, just as PSA polypeptides are used to generate antibodies specific for PSA which can then be used to observe the presence and/or the level of PSA proteins in methods to monitor PSA protein overexpression (see, e.g., Stephan et al., Urology 55(4):560-3 (2000)) or the metastasis of prostate cells (see, e.g., Alanen et al., Pathol. Res. Pract. 192(3):233-7 (1996)), the 151P3D4 polypeptides described herein can be utilized to generate antibodies for use in detecting 151P3D4 overexpression or the metastasis of prostate cells and cells of other cancers expressing this gene. [0376]
  • Specifically, because metastases involves the movement of cancer cells from an organ of origin (such as the lung or prostate gland etc.) to a different area of the body (such as a lymph node), assays which examine a biological sample for the presence of cells expressing 151P3D4 polynucleotides and/or polypeptides can be used to provide evidence of metastasis. For example, when a biological sample from tissue that does not normally contain 151P3D4-expressing cells (lymph node) is found to contain 151P3D4-expressing cells such as the 151P3D4 expression seen in LAPC4 and LAPC9, xenografts isolated from lymph node and bone metastasis, respectively, this finding is indicative of metastasis. [0377]
  • Alternatively 151P3D4 polynucleotides and/or polypeptides can be used to provide evidence of cancer, for example, when cells in a biological sample that do not normally express 151P3D4 or express 151P3D4 at a different level are found to express 151P3D4 or have an increased expression of 151P3D4 (see, e.g., the 151P3D4 expression in the cancers listed in Table I and in patient samples etc. shown in the accompanying Figures). In such assays, artisans may further wish to generate supplementary evidence of metastasis by testing the biological sample for the presence of a second tissue restricted marker (in addition to 151P3D4) such as PSA, PSCA etc. (see, e.g., Alanen et al., Pathol. Res. Pract. 192(3): 233-237 (1999)). [0378]
  • Just as PSA polynucleotide fragments and polynucleotide variants are employed by skilled artisans for use in methods of monitoring PSA, 151P3D4 polynucleotide fragments and polynucleotide variants are used in an analogous manner. In particular, typical PSA polynucleotides used in methods of monitoring PSA are probes or primers which consist of fragments of the PSA cDNA sequence. Illustrating this, primers used to PCR amplify a PSA polynucleotide must include less than the whole PSA sequence to function in the polymerase chain reaction. In the context of such PCR reactions, skilled artisans generally create a variety of different polynucleotide fragments that can be used as primers in order to amplify different portions of a polynucleotide of interest or to optimize amplification reactions (see, e.g., Caetano-Anolles, G. Biotechniques 25(3): 472-476, 478-480 (1998); Robertson et al., Methods Mol. Biol. 98:121-154 (1998)). An additional illustration of the use of such fragments is provided in the Example entitled “Expression analysis of 151P3D4 in normal tissues, and patient specimens,” where a 151P3D4 polynucleotide fragment is used as a probe to show the expression of 151P3D4 RNAs in cancer cells. In addition, variant polynucleotide sequences are typically used as primers and probes for the corresponding mRNAs in PCR and Northern analyses (see, e.g., Sawai et al., Fetal Diagn. Ther. Nov.-Dec. 11, 1996(6):407-13 and Current Protocols In Molecular Biology, [0379] Volume 2, Unit 2, Frederick M. Ausubel et al., eds., 1995)). Polynucleotide fragments and variants are useful in this context where they are capable of binding to a target polynucleotide sequence (e.g., a 151P3D4 polynucleotide shown in FIG. 2 or variant thereof) under conditions of high stringency.
  • Furthermore, PSA polypeptides which contain an epitope that can be recognized by an antibody or T cell that specifically binds to that epitope are used in methods of monitoring PSA. 151P3D4 polypeptide fragments and polypeptide analogs or variants can also be used in an analogous manner. This practice of using polypeptide fragments or polypeptide variants to generate antibodies (such as anti-PSA antibodies or T cells) is typical in the art with a wide variety of systems such as fusion proteins being used by practitioners (see, e.g., Current Protocols In Molecular Biology, [0380] Volume 2, Unit 16, Frederick M. Ausubel et al. eds., 1995). In this context, each epitope(s) functions to provide the architecture with which an antibody or T cell is reactive. Typically, skilled artisans create a variety of different polypeptide fragments that can be used in order to generate immune responses specific for different portions of a polypeptide of interest (see, e.g., U.S. Pat. No. 5,840,501 and U S. Pat. No. 5,939,533). For example it may be preferable to utilize a polypeptide comprising one of the 151P3D4 biological motifs discussed herein or a motif-bearing subsequence which is readily identified by one of skill in the art based on motifs available in the art. Polypeptide fragments, variants or analogs are typically useful in this context as long as they comprise an epitope capable of generating an antibody or T cell specific for a target polypeptide sequence (e.g. a 151P3D4 polypeptide shown in FIG. 3).
  • As shown herein, the 151P3D4 polynucleotides and polypeptides (as well as the 151P3D4 polynucleotide probes and anti-151P3D4 antibodies or T cells used to identify the presence of these molecules) exhibit specific properties that make them useful in diagnosing cancers such as those listed in Table I. Diagnostic assays that measure the presence of 151P3D4 gene products, in order to evaluate the presence or onset of a disease condition described herein, such as prostate cancer, are used to identify patients for preventive measures or further monitoring, as has been done so successfully with PSA. Moreover, these materials satisfy a need in the art for molecules having similar or complementary characteristics to PSA in situations where, for example, a definite diagnosis of metastasis of prostatic origin cannot be made on the basis of a test for PSA alone (see, e.g., Alanen et al., Pathol. Res. Pract. 192(3): 233-237 (1996)), and consequently, materials such as 151P3D4 polynucleotides and polypeptides (as well as the 151P3D4 polynucleotide probes and anti-151P3D4 antibodies used to identify the presence of these molecules) need to be employed to confirm a metastases of prostatic origin. [0381]
  • Finally, in addition to their use in diagnostic assays, the 151P3D4 polynucleotides disclosed herein have a number of other utilities such as their use in the identification of oncogenetic associated chromosomal abnormalities in the chromosomal region to which the 151P3D4 gene maps (see the Example entitled “Chromosomal Mapping of 151P3D4” below). Moreover, in addition to their use in diagnostic assays, the 151P3D4-related proteins and polynucleotides disclosed herein have other utilities such as their use in the forensic analysis of tissues of unknown origin (see, e.g., Takahama K Forensic Sci Int Jun. 28, 1996; 80(1-2): 63-9). [0382]
  • Additionally, 151P3D4-related proteins or polynucleotides of the invention can be used to treat a pathologic condition characterized by the over-expression of 151P3D4. For example, the amino acid or nucleic acid sequence of FIG. 2 or FIG. 3, or fragments of either, can be used to generate an immune response to a 151P3D4 antigen. Antibodies or other molecules that react with 151P3D4 can be used to modulate the function of this molecule, and thereby provide a therapeutic benefit. [0383]
  • XII.) Inhibition of 151P3D4 Protein Function [0384]
  • The invention includes various methods and compositions for inhibiting the binding of 151P3D4 to its binding partner or its association with other protein(s) as well as methods for inhibiting 151P3D4 function. [0385]
  • XII.A.) Inhibition of 151P3D4 with Intracellular Antibodies [0386]
  • In one approach, a recombinant vector that encodes single chain antibodies that specifically bind to 151P3D4 are introduced into 151P3D4 expressing cells via gene transfer technologies. Accordingly, the encoded single chain anti-151P3D4 antibody is expressed intracellularly, binds to 151P3D4 protein, and thereby inhibits its function. Methods for engineering such intracellular single chain antibodies are well known. Such intracellular antibodies, also known as “intrabodies”, are specifically targeted to a particular compartment within the cell, providing control over where the inhibitory activity of the treatment is focused. This technology has been successfully applied in the art (for review, see Richardson and Marasco, 1995, TIBTECH vol. 13). Intrabodies have been shown to virtually eliminate the expression of otherwise abundant cell surface receptors (see, e.g., Richardson et al., 1995, Proc. Natl. Acad. Sci. USA 92: 3137-3141; Beerli et al., 1994, J. Biol. Chem. 289: 23931-23936; Deshane et al., 1994, Gene Ther. 1: 332-337). [0387]
  • Single chain antibodies comprise the variable domains of the heavy and light chain joined by a flexible linker polypeptide, and are expressed as a single polypeptide. Optionally, single chain antibodies are expressed as a single chain variable region fragment joined to the light chain constant region. Well-known intracellular trafficking signals are engineered into recombinant polynucleotide vectors encoding such single chain antibodies in order to precisely target the intrabody to the desired intracellular compartment. For example, intrabodies targeted to the endoplasmic reticulum (ER) are engineered to incorporate a leader peptide and, optionally, a C-terminal ER retention signal, such as the KDEL amino acid motif Intrabodies intended to exert activity in the nucleus are engineered to include a nuclear localization signal. Lipid moieties are joined to intrabodies in order to tether the intrabody to the cytosolic side of the plasma membrane. Intrabodies can also be targeted to exert function in the cytosol. For example, cytosolic intrabodies are used to sequester factors within the cytosol, thereby preventing them from being transported to their natural cellular destination. [0388]
  • In one embodiment, intrabodies are used to capture 151P3D4 in the nucleus, thereby preventing its activity within the nucleus. Nuclear targeting signals are engineered into such 151P3D4 intrabodies in order to achieve the desired targeting. Such 151P3D4 intrabodies are designed to bind specifically to a particular 151P3D4 domain. In another embodiment, cytosolic intrabodies that specifically bind to a 151P3D4 protein are used to prevent 151P3D4 from gaining access to the nucleus, thereby preventing it from exerting any biological activity within the nucleus (e.g., preventing 151P3D4 from forming transcription complexes with other factors). [0389]
  • In order to specifically direct the expression of such intrabodies to particular cells, the transcription of the intrabody is placed under the regulatory control of an appropriate tumor-specific promoter and/or enhancer. In order to target intrabody expression specifically to prostate, for example, the PSA promoter and/or promoter/enhancer can be utilized (See, for example, U.S. Pat. No. 5,919,652 issued Jul. 6, 1999). [0390]
  • XII.B.) Inhibition of 151P3D4 with Recombinant Proteins [0391]
  • In another approach, recombinant molecules bind to 151P3D4 and thereby inhibit 151P3D4 function. For example, these recombinant molecules prevent or inhibit 151P3D4 from accessing/binding to its binding partner(s) or associating with other protein(s). Such recombinant molecules can, for example, contain the reactive part(s) of a 151P3D4 specific antibody molecule. In a particular embodiment, the 151P3D4 binding domain of a 151P3D4 binding partner is engineered into a dimeric fusion protein, whereby the fusion protein comprises two 151P3D4 ligand binding domains linked to the Fc portion of a human IgG, such as human IgG1. Such IgG portion can contain, for example, the [0392] C H2 and C H3 domains and the hinge region, but not the C H1 domain. Such dirneric fusion proteins are administered in soluble form to patients suffering from a cancer associated with the expression of 151P3D4, whereby the dimeric fusion protein specifically binds to 151P3D4 and blocks 151P3D4 interaction with a binding partner. Such dimeric fusion proteins are further combined into multimeric proteins using known antibody linking technologies.
  • XII.C.) Inhibition of 151P3D4 Transcription or Translation [0393]
  • The present invention also comprises various methods and compositions for inhibiting the transcription of the 151P3D4 gene. Similarly, the invention also provides methods and compositions for inhibiting the translation of 151P3D4 mRNA into protein. [0394]
  • In one approach, a method of inhibiting the transcription of the 151P3D4 gene comprises contacting the 151P3D4 gene with a 151P3D4 antisense polynucleotide. In another approach, a method of inhibiting 151P3D4 mRNA translation comprises contacting a 151P3D4 mRNA with an antisense polynucleotide. In another approach, a 151P3D4 specific ribozyme is used to cleave a 151P3D4 message, thereby inhibiting translation. Such antisense and ribozyme based methods can also be directed to the regulatory regions of the 15P3D4 gene, such as 151P3D4 promoter and/or enhancer elements. Similarly, proteins capable of inhibiting a 151P3D4 gene transcription factor are used to inhibit 151P3D4 mRNA transcription. The various polynucleotides and compositions useful in the aforementioned methods have been described above. The use of antisense and ribozyme molecules to inhibit transcription and translation is well known in the art. [0395]
  • Other factors that inhibit the transcription of 151P3D4 by interfering with 151P3D4 transcriptional activation are also useful to treat cancers expressing 151P3D4. Similarly, factors that interfere with 151P3D4 processing are useful to treat cancers that express 151P3D4. Cancer treatment methods utilizing such factors are also within the scope of the invention. [0396]
  • XII.D.) General Considerations for Therapeutic Strategies [0397]
  • Gene transfer and gene therapy technologies can be used to deliver therapeutic polynucleotide molecules to tumor cells synthesizing 151P3D4 (i.e., antisense, ribozyme, polynucleotides encoding intrabodies and other 151P3D4 inhibitory molecules). A number of gene therapy approaches are known in the art. Recombinant vectors encoding 151P3D4 antisense polynucleotides, ribozymes, factors capable of interfering with 151P3D4 transcription, and so forth, can be delivered to target tumor cells using such gene therapy approaches. [0398]
  • The above therapeutic approaches can be combined with any one of a wide variety of surgical, chemotherapy or radiation therapy regimens. The therapeutic approaches of the invention can enable the use of reduced dosages of chemotherapy (or other therapies) and/or less frequent administration, an advantage for all patients and particularly for those that do not tolerate the toxicity of the chemotherapeutic agent well. [0399]
  • The anti-tumor activity of a particular composition (e.g., antisense, ribozyme, intrabody), or a combination of such compositions, can be evaluated using various in vitro and in vivo assay systems. In vitro assays that evaluate therapeutic activity include cell growth assays, soft agar assays and other assays indicative of tumor promoting activity, binding assays capable of determining the extent to which a therapeutic composition will inhibit the binding of 151P3D4 to a binding partner, etc. [0400]
  • In vivo, the effect of a 151P3D4 therapeutic composition can be evaluated in a suitable animal model. For example, xenogenic prostate cancer models can be used, wherein human prostate cancer explants or passaged xenograft tissues are introduced into immune compromised animals, such as nude or SCID mice (Klein et al., 1997, Nature Medicine 3: 402-408). For example, PCT Patent Application WO98/16628 and U.S. Pat. No. 6,107,540 describe various xenograft models of human prostate cancer capable of recapitulating the development of primary tumors, micrometastasis, and the formation of osteoblastic metastases characteristic of late stage disease. Efficacy can be predicted using assays that measure inhibition of tumor formation, tumor regression or metastasis, and the like. [0401]
  • In vivo assays that evaluate the promotion of apoptosis are useful in evaluating therapeutic compositions. In one embodiment, xenografts from tumor bearing mice treated with the therapeutic composition can be examined for the presence of apoptotic foci and compared to untreated control xenograft-bearing mice. The extent to which apoptotic foci are found in the tumors of the treated mice provides an indication of the therapeutic efficacy of the composition. [0402]
  • The therapeutic compositions used in the practice of the foregoing methods can be formulated into pharmaceutical compositions comprising a carrier suitable for the desired delivery method. Suitable carriers include any material that when combined with the therapeutic composition retains the anti-tumor function of the therapeutic composition and is generally non-reactive with the patient's immune system. Examples include, but are not limited to, any of a number of standard pharmaceutical carriers such as sterile phosphate buffered saline solutions, bacteriostatic water, and the like (see, generally, Remington's [0403] Pharmaceutical Sciences 16th Edition, A. Osal., Ed., 1980).
  • Therapeutic formulations can be solubilized and administered via any route capable of delivering the therapeutic composition to the tumor site. Potentially effective routes of administration include, but are not limited to, intravenous, parenteral, intraperitoneal, intramuscular, intratumor, intradermal, intraorgan, orthotopic, and the like. A preferred formulation for intravenous injection comprises the therapeutic composition in a solution of preserved bacteriostatic water, sterile unpreserved water, and/or diluted in polyvinylchloride or polyethylene bags containing 0.9% sterile Sodium Chloride for Injection, USP. Therapeutic protein preparations can be lyophilized and stored as sterile powders, preferably under vacuum, and then reconstituted in bacteriostatic water (containing for example, benzyl alcohol preservative) or in sterile water prior to injection. [0404]
  • Dosages and administration protocols for the treatment of cancers using the foregoing methods will vary with the method and the target cancer, and will generally depend on a number of other factors appreciated in the art. [0405]
  • XIII.) Kits [0406]
  • For use in the diagnostic and therapeutic applications described herein, kits are also within the scope of the invention. Such kits can comprise a carrier, package or container that is compartmentalized to receive one or more containers such as vials, tubes, and the like, each of the container(s) comprising one of the separate elements to be used in the method. For example, the container(s) can comprise a probe that is or can be detectably labeled. Such probe can be an antibody or polynucleotide specific for a 151P3D4-related protein or a 151P3D4 gene or message, respectively. Where the method utilizes nucleic acid hybridization to detect the target nucleic acid, the kit can also have containers containing nucleotide(s) for amplification of the target nucleic acid sequence and/or a container comprising a reporter-means, such as a biotin-binding protein, such as avidin or streptavidin, bound to a reporter molecule, such as an enzymatic, florescent, or radioisotope label. The kit can include all or part of the amino acid sequence of FIG. 2 or FIG. 3 or analogs thereof, or a nucleic acid molecules that encodes such amino acid sequences. [0407]
  • The kit of the invention will typically comprise the container described above and one or more other containers comprising materials desirable from a commercial and user standpoint, including buffers, diluents, filters, needles, syringes, and package inserts with instructions for use. [0408]
  • A label can be present on the container to indicate that the composition is used for a specific therapy or non-therapeutic application, and can also indicate directions for either in vivo or in vitro use, such as those described above. Directions and or other information can also be included on an insert which is included with the kit. [0409]
    • EXAMPLES
  • Various aspects of the invention are further described and illustrated by way of the several examples that follow, none of which are intended to limit the scope of the invention. [0410]
    • Example 1
  • SSH-Generated Isolation of a cDNA Fragment of the 151P3D4 Gene [0411]
  • To isolate genes that are over-expressed in bladder cancer we used the Suppression Subtractive Hybridization (SSH) procedure using cDNA derived from the LNCaP prostate cancer cell line. [0412]
  • The 151P3D4 SSH cDNA sequence was derived from a subtraction consisting of two different populations of LNCaP cells. The 151P3D4 SSH cDNA sequence of417 bp is listed in FIG. 1. [0413]
  • The full-length 151P3D4 v.1 clone 1-placenta was cloned from normal placenta cDNA, revealing an ORF of 354 amino acids (FIG. 2 and FIG. 3). Other variants of 151P3D4 were also identified and these are listed in FIGS. 2 and 3. [0414]
  • Materials and Methods [0415]
  • Human Tissues: [0416]
  • The patient cancer and normal tissues were purchased from different sources such as the NDRI (Philadelphia, Pa.). mRNA for some normal tissues were purchased from Clontech, Palo Alto, Calif. [0417]
  • RNA Isolation: [0418]
  • Tissues were homogenized in Trizol reagent (Life Technologies, Gibco BRL) using 10 ml/g tissue isolate total RNA. Poly A RNA was purified from total RNA using Qiagen's Oligotex mRNA Mini and Midi kits. Total and mRNA were quantified by spectrophotometric analysis (O.D. 260/280 nm) and analyzed by gel electrophoresis. [0419]
  • Oligonucleotides: [0420]
  • The following HPLC purified oligonucleotides were used. [0421]
    DPNCDN (cDNA synthesis primer):
    (SEQ ID NO:——)
    5′TTTTGATCAAGCTT 303′
    Adaptor 1:
    (SEQ ID NO:——)
    5′CTAATACGACTCACTATAGGGCTCGAGCGGCCGCCCGGGCAG3′
    (SEQ ID NO:——)
    3′GGCCCGTCCTAG5′
    Adaptor 2:
    (SEQ ID NO:——)
    5′GTAATACGACTCACTATAGGGCAGCGTGGTCGCGGCCGAG3′
    (SEQ ID NO:——)
    3′CGGCTCCTAG5′
    PCR primer 1:
    (SEQ ID NO:——)
    5′CTAATACGACTCACTATAGGGC3′
    Nested primer (NP)1:
    (SEQ ID NO:——)
    5′TCGAGCGGCCGCCCGGGCAGGA3′
    Nested primer (NP)2:
    (SEQ ID NO:——)
    5′AGCGTGGTCGCGGCCGAGGA3′
  • Suppression Subtractive Hybridization: [0422]
  • Suppression Subtractive Hybridization (SSH) was used to identify cDNAs corresponding to genes that may be differentially expressed in prostate cancer. The SSH reaction utilized cDNA from two different clones of LNCaP cells. [0423]
  • The gene 151P3D4 was derived from one population of LNCaP cells minus another population of LNCaP cells cDNA subtraction. The 151P3D4 SSH DNA sequence (FIG. 1) was identified. [0424]
  • The cDNA derived from one population of LNCaP cells was used as the source of the “driver” cDNA, while the cDNA from another population of LNCaP cells was used as the source of the “tester” cDNA. Double stranded cDNAs corresponding to tester and driver cDNAs were synthesized from 2 μg of poly(A)[0425] + RNA isolated from the relevant tissue, as described above, using CLONTECH's PCR-Select cDNA Subtraction Kit and 1 ng of oligonucleotide DPNCDN as primer. First- and second-strand synthesis were carried out as described in the Kit's user manual protocol (CLONTECH Protocol No. PT1117-1, Catalog No. K1804-1). The resulting cDNA was digested with Dpn II for 3 hrs at 37° C. Digested cDNA was extracted with phenolchloroform (1:1) and ethanol precipitated.
  • Driver cDNA was generated by combining in a 1:1 ratio Dpn II digested cDNA from the relevant source (see above). Tester cDNA was generated by diluting 1 μl of Dpn II digested cDNA from the relevant source (see above) (400 ng) in 5 μl of water. The diluted cDNA (2 μl, 160 ng) was then ligated to 2 μl of [0426] Adaptor 1 and Adaptor 2 (10 μM), in separate ligation reactions, in a total volume of 10 μl at 16° C. overnight, using 400 u of T4 DNA ligase (CLONTECH). Ligation was terminated with 1 μl of 0.2 M EDTA and heating at 72° C. for 5 min.
  • The first hybridization was performed by adding 1.5 μl (600 ng) of driver cDNA to each of two tubes containing 1.5 μl (20 ng) Adaptor 1- and Adaptor 2-ligated tester cDNA. In a final volume of 4 μl, the samples were overlaid with mineral oil, denatured in an MJ Research thermal cycler at 98° C. for 1.5 minutes, and then were allowed to hybridize for 8 hrs at 68° C. The two hybridizations were then mixed together with an additional 1 μl of fresh denatured driver cDNA and were allowed to hybridize overnight at 68° C. The second hybridization was then diluted in 200 μl of 20 mM Hepes, pH 8.3, 50 mM NaCl, 0.2 mM EDTA, heated at 70° C. for 7 min. and stored at −20° C. [0427]
  • PCR Amplification Cloning and Sequencing of Gene Fragments Generated from SSH: [0428]
  • To amplify gene fragments resulting from SSH reactions, two PCR amplifications were performed. In the [0429] primary PCR reaction 1 μl of the diluted final hybridization mix was added to 1 μl of PCR primer 1 (10 μM), 0.5 μl dNTP mix (10 μM), 2.5 μl 10× reaction buffer (CLONTECH) and 0.5 μl 50× Advantage cDNA polymerase Mix (CLONTECH) in a final volume of 25 μl. PCR 1 was conducted using the following conditions: 75° C. for 5 min., 94° C. for 25 sec., then 27 cycles of 94° C. for 10 sec, 66° C. for 30 sec, 72° C. for 1.5 min. Five separate primary PCR reactions were performed for each experiment. The products were pooled and diluted 1:10 with water. For the secondary PCR reaction, 1 μl from the pooled and diluted primary PCR reaction was added to the same reaction mix as used for PCR 1, except that primers NP1 and NP2 (10 μM) were used instead of PCR primer 1. PCR 2 was performed using 10-12 cycles of 94° C. for 10 sec, 68° C. for 30 sec, and 72° C. for 1.5 minutes. The PCR products were analyzed using 2% agarose gel electrophoresis.
  • The PCR products were inserted into pCR2.1 using the T/A vector cloning kit (Invitrogen). Transformed [0430] E. coli were subjected to blue/white and ampicillin selection. White colonies were picked and arrayed into 96 well plates and were grown in liquid culture overnight. To identify inserts, PCR amplification was performed on 1 ml of bacterial culture using the conditions of PCR1 and NP1 and NP2 as primers. PCR products were analyzed using 2% agarose gel electrophoresis.
  • Bacterial clones were stored in 20% glycerol in a 96 well format. Plasmid DNA was prepared, sequenced, and subjected to nucleic acid homology searches of the GenBank, dBest, and NCI-CGAP databases. [0431]
  • RT-PCR Expression Analysis: [0432]
  • First strand cDNAs can be generated from 1 μg of mRNA with oligo (dT)12-18 priming using the Gibco-BRL Superscript Preamplification system. The manufacturer's protocol was used which included an incubation for 50 min at 42° C. with reverse transcriptase followed by RNAse H treatment at 37° C. for 20 min. After completing the reaction, the volume can be increased to 200 μl with water prior to normalization. First strand cDNAs from 16 different normal human tissues can be obtained from Clontech. [0433]
  • Normalization of the first strand cDNAs from multiple tissues was performed by using the [0434] primers 5′atatcgccgcgctcgtcgtcgacaa3′ (SEQ ID NO: ______) and 5′agccacacgcagctcattgtagaagg 3′ (SEQ ID NO: _____) to amplify β-actin. First strand cDNA (5 μl) were amplified in a total volume of 50 μl containing 0.4 μM primers, 0.2 μM each dNTPs, 1XPCR buffer (Clontech, 10 mM Tris-HCL, 1.5 mM MgCl2, 50 mM KCl, pH8.3) and 1X Klentaq DNA polymerse (Clontech). Five μl of the PCR reaction can be removed at 18, 20, and 22 cycles and used for agarose gel electrophoresis. PCR was performed using an MJ Research thermal cycler under the following conditions: initial denaturation can be at 94° C. for 15 sec, followed by a 18, 20, and 22 cycles of 94° C. for 15, 65° C. for 2 min, 72° C. for 5 sec. A final extension at 72° C. was carried out for 2 min. After agarose gel electrophoresis, the band intensities of the 283 b.p. β-actin bands from multiple tissues were compared by visual inspection. Dilution factors for the first strand cDNAs were calculated to result in equal β-actin band intensities in all tissues after 22 cycles of PCR. Three rounds of normalization can be required to achieve equal band intensities in all tissues after 22 cycles of PCR.
  • To determine expression levels of the 151P3D4 gene, 5 μl of normalized first strand cDNA were analyzed by PCR using 26, and 30 cycles of amplification. Semi-quantitative expression analysis can be achieved by comparing the PCR products at cycle numbers that give light band intensities. The primers used for RT-PCR were designed using the 151P3D4 SSH sequence and are listed below: [0435]
    151P3D4.1
    5′-CCCACCAAACTGACCTATGATGAA-3′ (SEQ ID NO: )
    151P3D4.2
    5′-TGTATGCTCTGAAGCAGTAGACACC-3′ (SEQ ID NO: )
  • A typical RT-PCR expression study is shown in FIG. 14. First strand cDNA was prepared from vital pool 1 (liver, lung and kidney), vital pool 2 (pancreas, colon and stomach), bladder cancer pool, kidney cancer pool, colon cancer pool, lung cancer pool, ovary cancer pool, breast cancer pool, and cancer metastasis pool. Normalization was performed by PCR using primers to actin and GAPDH. Semi-quantitative PCR, using primers to 151P3D4, was performed at 26 and 30 cycles of amplification. Results show strong expression of 151P3D4 in ovary cancer pool. Expression of 151P3D4 was also detected in bladder cancer pool, kidney cancer pool, colon cancer pool, lung cancer pool, breast cancer pool, cancer metastasis pool, [0436] vital pool 2, but not in vital pool 1.
  • Example 2 [0437]
  • Full Length Cloning of 151P3D4 [0438]
  • To isolate genes that are expressed in prostate cancer, we used the Suppression Subtractive Hybridization (SSH) procedure using cDNA derived from two different populations of LNCaP cells. [0439]
  • The 151P3D4 SSH cDNA sequence was derived from a subtraction consisting of one population of LNCaP cells minus another population of LNCaP cells. The 151P3D4 SSH cDNA sequence of417 bp is listed in FIG. 1. [0440]
  • The full-length 151P3D4 v.1 (151P3D4 clone 1-placenta) was cloned from normal placenta cDNA, revealing an ORF of 354 amino acids (FIG. 2 and FIG. 3). 151P3D4 v.1 showed 99% identity over 1492 nucleotides with the human mRNA for cartilage link protein (gi463246) (FIG. 4A). 151P3D4 v.1 protein showed 100% identity over 354 amino acids with the human cartilage link protein (FIG. 4B). Also, 151P3D4 v.1 was 96% identical over 355 amino acids with the mouse link protein (gi4218976) (FIG. 4C) [0441]
  • Other variants of 151P3D4 were also identified and these are listed in FIGS. 2 and 3. 151P3D4 v.2 codes for a novel protein that contains sequences not present in 151P3D4 v.1. These are from [0442] amino acids 1 to 400. Amino acids 401 to 721 of 151P3D4 v.2 align with 151P3D4 v.1 at positions 34 to 354 (FIG. 4D). A small portion of 151P3D4 v.2 demonstrates homology to the hypothetical protein XP094318 (FIG. 4E). The two proteins show 99% identity over 168 amino acids. The other variants 151P3D4 v.3 through v.11 each differ from 151P3D4 v.1 by one nucleotide (FIG. 10).
  • Example 3 [0443]
  • Chromosomal Mapping of 151P3D4 [0444]
  • Chromosomal localization can implicate genes in disease pathogenesis. Several chromosome mapping approaches are available including fluorescent in situ hybridization (FISH), human/hamster radiation hybrid (RH) panels (Walter et al., 1994; Nature Genetics 7:22; Research Genetics, Huntsville Ala.), human-rodent somatic cell hybrid panels such as is available from the Coriell Institute (Camden, N.J.), and genomic viewers utilizing BLAST homologies to sequenced and mapped genomic clones (NCBI, Bethesda, Md.). [0445]
  • 151P3D4 maps to chromosome 5q13-q14.1 using 151P3D4 sequence and the NCBI BLAST tool: (http://www.ncbi.nlm.nih.gov/genome/seq/page.cgi?F=HsBlast.html&&ORG=Hs). [0446]
    • Example 4
  • Expression Analysis of 151P3D4 in Normal Tissues and Patient Specimens [0447]
  • Expression analysis by RT-PCR demonstrated that 151P3D4 is strongly expressed in cancer patient specimens (FIG. 14). First strand cDNA was prepared from vital pool 1 (liver, lung and kidney), vital pool 2 (pancreas, colon and stomach), bladder cancer pool, kidney cancer pool, colon cancer pool, lung cancer pool, ovary cancer pool, breast cancer pool, and cancer metastasis pool. Normalization was performed by PCR using primers to actin and GAPDH. Semi-quantitative PCR, using primers to 151P3D4, was performed at 26 and 30 cycles of amplification. Results show strong expression of 151P3D4 in ovary cancer pool. Expression of 151P3D4 was also detected in bladder cancer pool, kidney cancer pool, colon cancer pool, lung cancer pool, breast cancer pool, cancer metastasis pool, [0448] vital pool 2, but not in vital pool 1.
  • Extensive northern blot analysis of 151P3D4 in multiple human normal tissues is shown in FIG. 15. Two multiple tissue northern blots (Clontech) both with 2 μg of mRNA/lane were probed with the 151P3D4 SSH sequence. Size standards in kilobases (kb) are indicated on the side. Results show expression of 151P3D4 in small intestine and placenta. Lower level expression was also detected in heart and colon, but not in the other normal tissues tested. [0449]
  • Expression of 151P3D4 in patient bladder cancer specimens is shown in FIG. 16. RNA was extracted from normal bladder (NB), bladder cancer cell lines (CL; UM-UC-3, J82, SCaBER), bladder cancer patient tumors (T) and normal adjacent tissue (NAT). Northern blots with 10 μg of total RNA were probed with the 151P3D4 SSH sequence. Size standards in kilobases are indicated on the side. Results show expression of 151P3D4 in patient bladder cancer tissues, and in UM-UC-3 bladder cancer cell lines, but not in normal bladder nor in the other bladder cancer cell lines tested. [0450]
  • FIG. 17 shows that 151P3D4 was expressed in kidney cancer patient specimens. RNA was extracted from kidney cancer cell lines (CL: 769-P, A498, SW839), normal kidney (NK), kidney cancer patient tumors (T) and their normal adjacent tissues (NAT). Northern blots with 10 μg of total RNA were probed with the 151P3D4 SSH sequence. Size standards in kilobases are on the side. Results show expression of 151P3D4 in patient kidney tumor tissues, but not in normal kidney, nor in the cell lines tested. [0451]
  • Expression of 151P3D4 was also detected in ovary cancer patient specimen (FIG. 18). RNA was extracted from ovary and cervical cancer cell lines (CL), normal ovary (N), and ovary cancer patient tumor (T). Northern blots with 10 μg of total RNA were probed with the 151P3D4 SSH sequence. Size standards in kilobases are on the side. Results show strong expression of 151P3D4 in patient ovary cancer tissues, but not in normal ovary nor in the ovary and cervical cancer cell lines. [0452]
  • FIG. 19 shows that 151P3D4 was also expressed in stomach cancers and in uterus cancers. Expression of 151P3D4 was assayed in a panel of human stomach and uterus cancers (T) and their respective matched normal tissues (N) on RNA dot blots. 151P3D4 expression was seen in both stomach and uterus cancers. [0453]
  • The restricted expression of 151P3D4 in normal tissues and the expression detected in human cancers suggest that 151P3D4 is a potential therapeutic target and a diagnostic marker for human cancers. [0454]
    • Example 5
  • Transcript Variants of 151P3D4 [0455]
  • Transcript variants are variants of matured mRNA from the same gene by alternative transcription or alternative splicing. Alternative transcripts are transcripts from the same gene but start transcription at different points. Splice variants are mRNA variants spliced differently from the same transcript. In eukaryotes, when a multi-exon gene is transcribed from genomic DNA, the initial RNA is spliced to produce functional mRNA, which has only exons and is used for translation into an amino acid sequence. Accordingly, a given gene can have zero to many alternative transcripts and each transcript can have zero to many splice variants. Each transcript variant has a unique exon makeup, and can have different coding and/or non-coding (5′ or 3′ end) portions, from the original transcript. Transcript variants can code for similar or different proteins with the same or a similar function or may encode proteins with different functions, and may be expressed in the same tissue at the same time, or at different tissue, or at different times, proteins encoded by transcript variants can have similar or different cellular or extracellular localizations, i.e., be secreted. [0456]
  • Transcript variants are identified by a variety of art-accepted methods. For example, alternative transcripts and splice variants are identified in a full-length cloning experiment, or by use of full-length transcript and EST sequences. First, all human ESTs were grouped into clusters which show direct or indirect identity with each other. Second, ESTs in the same cluster were further grouped into sub-clusters and assembled into a consensus sequence. The original gene sequence is compared to the consensus sequence(s) or other full-length sequences. Each consensus sequence is a potential splice variant for that gene (see, e.g., http://www.doubletwist.com/products/c11_agentsOverview.jhtml). Even when a variant is identified that is not a full-length clone, that portion of the variant is very useful for antigen generation and for further cloning of the full-length splice variant, using techniques known in the art. [0457]
  • Moreover, computer programs are available in the art that identify transcript variants based on genomic sequences. Genomic-based transcript variant identification programs include FgenesH (A. Salamov and V. Solovyev, “Ab initio gene finding in Drosophila genomic DNA,” Genome Research. April 2000; 10(4):516-22); Grail (http://compbio.ornl.gov/Grail-bin/EmptyGrailForm) and GenScan (http://genes.mit.edu/GENSCAN.html). For a general discussion of splice variant identification protocols see., e.g., Southan, C., A genomic perspective on human proteases, FEBS Lett. Jun. 8, 2001; 498(2-3):214-8; de Souza, S. J., et al., Identification of [0458] human chromosome 22 transcribed sequences with ORF expressed sequence tags, Proc. Natl Acad Sci USA. Nov. 7, 2000; 97(23): 12690-3.
  • To further confirm the parameters of a transcript variant, a variety of techniques are available in the art, such as full-length cloning, proteomic validation, PCR-based validation, and 5′ RACE validation, etc. (see e.g., Proteomic Validation: Brennan, S. O., et al., Albumin banks peninsula: a new termination variant characterized by electrospray mass spectrometry, Biochem Biophys Acta. Aug. 17, 1999; 1433(1-2):321-6; Ferranti P, et al., Differential splicing of pre-messenger RNA produces multiple forms of mature caprine alpha(s1)-casein, Eur J Biochem. Oct. 1, 1997; 249(1): 1-7. For PCR-based Validation: Wellmann S, et al., Specific reverse transcription-PCR quantification of vascular endothelial growth factor (VEGF) splice variants by LightCycler technology, Clin Chem. April 2001; 47(4):654-60; Jia, H. P., et al., Discovery of new human beta-defensins using a genomics-based approach, Gene. Jan. 24, 2001; 263(1-2):211-8. For PCR-based and 5′ RACE Validation: Brigle, K. E., et al., Organization of the murine reduced folate carrier gene and identification of variant splice forms, Biochem Biophys Acta. Aug. 7, 1997; 1353(2): 191-8). [0459]
  • It is known in the art that genomic regions are modulated in cancers. When the genomic region to which a gene maps is modulated in a particular cancer, the alternative transcripts or splice variants of the gene are modulated as well. Disclosed herein is that 151P3D4 has a particular expression profile. Alternative transcripts and splice variants of 151P3D4 that are structurally and/or functionally similar to 151P3D4 share this expression pattern, thus serving as tumor associated markers/antigens. [0460]
  • The exon composition of the original transcript, designated as 151P3D4 v.1, is shown in Table LII (A). Using the full-length gene and EST sequences, one alternative transcript was identified, designated as 151P3D4 v.2. Compared with 151P3D4 v.1, transcript variant 151P3D4 v.2 has 10 exons, as shown in Table LII (B) and FIG. 12. Exons 8 and 9 are the same as [0461] exons 3 and 4 of 151P3D4 v.1, and exon 10 is the coding portion of exon 5 of 151P3D4 v.1. Each different combination of exons in spatial order, e.g. exons 2 and 3, is a potential splice variant. FIG. 12 shows the schematic alignment of exons of the two transcript variants.
  • Table LIII shows nucleotide sequence of the transcript variant, 151P3D4 v.2 (see also FIG. 2B). Table LIV shows the alignment of the transcript variant 151P3D4 v.2 with nucleic acid sequence of 151P3D4 v.1. FIG. 3B provides the amino acid translation of the transcript variant 151P3D4 v.2 for the identified reading frame orientation. Table LV displays alignments of the amino acid sequence encoded by the transcript variant 151P3D4 v.2 with that of 151P3D4 v.1. [0462]
    • Example 6
  • Single Nucleotide Polymorphisms of 151P3D4 [0463]
  • Single Nucleotide Polymorphism (SNP) is a single base pair variation in nucleotide sequences. At a specific point of the genome, there are four possible nucleotide base pairs: A/T, C/G, G/C and T/A. Genotype refers to the base pair make-up of one or more spots in the genome of an individual, while haplotype refers to base pair make-up of more than one varied spots on the same DNA molecule (chromosome in higher organism). SNPs that occur on a cDNA are called cSNPs. These cSNPs may change amino acids of the protein encoded by the gene and thus change the functions of the protein. Some SNPs cause inherited diseases and some others contribute to quantitative variations in phenotype and reactions to environmental factors including diet and drugs among individuals. Therefore, SNPs and/or combinations of alleles (called haplotypes) have many applications including diagnosis of inherited diseases, determination of drug reactions and dosage, identification of genes responsible for disearses and discovery of genetic relationship between individuals (P. Nowotny, J. M. Kwon and A. M. Goate, “SNP analysis to dissect human traits,” Curr. Opin. Neurobiol. October 2001; 11(5):637-641; M. Pirmohamed and B. K. Park, “Genetic susceptibility to adverse drug reactions,” Trends Pharmacol. Sci. June 2001; 22(6):298-305; J. H. Riley, C. J. Allan, E. Lai and A. Roses, “The use of single nucleotide polymorphisms in the isolation of common disease genes,” Pharmacogenomics. February 2000; 1(1):39-47; R. Judson, J. C. Stephens and A. Windemuth, “The predictive power of haplotypes in clinical response,” Pharmacogenomics. February 2000; 1(1):15-26). [0464]
  • SNPs are identified by a variety of art-accepted methods (P. Bean, “The promising voyage of SNP target discovery,” Am. Clin. Lab. October-November; 2001; 20(9): 18-20; K. M. Weiss, “In search of human variation,” Genome Res. July 1998; 8(7):691-697; M. M. She, “Enabling large-scale pharmacogenetic studies by high-throughput mutation detection and genotyping technologies,” Clin. Chem. February 2001; 47(2): 164-172). For example, SNPs are identified by sequencing DNA fragments that show polymorphism by gel-based methods such as restriction fragment length polymorphism (RFLP) and denaturing gradient gel electrophoresis (DGGE). They can also be discovered by direct sequencing of DNA samples pooled from different individuals or by comparing sequences from different DNA samples. With the rapid accumulation of sequence data in public and private databases, one can discover SNPs by comparing sequences using computer programs (Z. Gu, L. Hillier and P. Y. Kwok, “Single nucleotide polymorphism hunting in cyberspace,” Hum. Mutat. 1998; 12(4):221-225). SNPs can be verified and genotype or haplotype of an individual can be determined by a variety of methods including direct sequencing and high throughput microarrays (P. Y. Kwok, “Methods for genotyping single nucleotide polymorphisms,” Annu. Rev. Genomics Hum. Genet. 2001; 2:235-258; M. Kokoris, K. Dix, K. Moynihan, J. Mathis, B. Erwin, P. Grass, B. Hines and A. Duesterhoeft, “High-throughput SNP genotyping with the Masscode system,” Mol. Diagn. December 2000; 5(4):329-340). [0465]
  • Using the methods described above, nine SNPs were identified in the original transcript, 151P3D4 v.1, at positions 154 (A/G), 218 (C/G), 219 (G/C), 999 (C/G), 1326 (C/T), 1399 (T/C), 1400 (C/T), 1653 (T/C) and 1726 (A/G). The transcripts or proteins with alternative alleles were designated as variants 151P3D4 v.3, v.4, v.5, v.6, v.7, v.8, v.9, v.10 and v.11. FIGS. 10 and 12 show the schematic alignment of the nucleotide variants. FIG. 11 shows the schematic alignment of protein variants, corresponding to nucleotide variants. Nucleotide variants that code for the same amino acid sequence as [0466] variant 1 are not shown in FIG. 11. These alleles of the SNPs, though shown separately here, can occur in different combinations (haplotypes) and in any one of the transcript variants that contains the sequence context of the SNPs, e.g., 151P3D4 v.7.
    • Example 7
  • Production of Recombinant 151P3D4 in Prokaryotic Systems [0467]
  • To express recombinant 151P3D4 and 151P3D4 variants in prokaryotic cells, the full or partial length 151P3D4 and 151P3D4 variant cDNA sequences are cloned into any one of a variety of expression vectors known in the art. One or more of the following regions of 151P3D4 variants are expressed: the full length sequence presented in FIGS. 2 and 3, or any 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30 or more contiguous amino acids from 151P3D4, variants, or analogs thereof. [0468]
  • A. In vitro Transcription and Translation Constructs: [0469]
  • pCRII: To generate 151P3D4 sense and anti-sense RNA probes for RNA in situ investigations, pCRII constructs (Invitrogen, Carlsbad Calif.) are generated encoding either all or fragments of the 151P3D4 cDNA. The pCRII vector has Sp6 and T7 promoters flanking the insert to drive the transcription of 151P3D4 RNA for use as probes in RNA in situ hybridization experiments. These probes are used to analyze the cell and tissue expression of 151P3D4 at the RNA level. Transcribed 151P3D4 RNA representing the cDNA amino acid coding region of the 151P3D4 gene is used in in vitro translation systems such as the TnT™ Coupled Reticulolysate System (Promega, Corp., Madison, Wis.) to synthesize 151P3D4 protein. [0470]
  • B. Bacterial Constructs: [0471]
  • PGEX Constructs: To generate recombinant 151P3D4 proteins in bacteria that are fused to the Glutathione S-transferase (GST) protein, all or parts of the 151P3D4 cDNA protein coding sequence are cloned into the pGEX family of GST-fusion vectors (Amersham Pharmacia Biotech, Piscataway, N.J.). These constructs allow controlled expression of recombinant 151P3D4 protein sequences with GST fused at the amino-terminus and a six histidine epitope (6X His) at the carboxyl-terminus. The GST and 6X His tags permit purification of the recombinant fusion protein from induced bacteria with the appropriate affinity matrix and allow recognition of the fusion protein with anti-GST and anti-His antibodies. The 6X His tag is generated by adding 6 histidine codons to the cloning primer at the 3′ end, e.g., of the open reading frame (ORF). A proteolytic cleavage site, such as the PreScission™ recognition site in pGEX-6P-1, may be employed such that it permits cleavage of the GST tag from 151P3D4-related protein. The ampicillin resistance gene and pBR322 origin permits selection and maintenance of the pGEX plasmids in [0472] E. coli.
  • pMAL Constructs: To generate, in bacteria, recombinant 151P3D4 proteins that are fused to maltose-binding protein (MBP), all or parts of the 151P3D4 cDNA protein coding sequence are fused to the MBP gene by cloning into the pMAL-c2X and pMAL-p2X vectors (New England Biolabs, Beverly, Mass.). These constructs allow controlled expression of recombinant 151P3D4 protein sequences with MBP fused at the amino-terminus and a 6X His epitope tag at the carboxyl-terminus. The MBP and 6X His tags permit purification of the recombinant protein from induced bacteria with the appropriate affinity matrix and allow recognition of the fusion protein with anti-MBP and anti-His antibodies. The 6X His epitope tag is generated by adding 6 histidine codons to the 3′ cloning primer. A Factor Xa recognition site permits cleavage of the pMAL tag from 151P3D4. The pMAL-c2X and pMAL-p2X vectors are optimized to express the recombinant protein in the cytoplasm or periplasm respectively. Periplasm expression enhances folding of proteins with disulfide bonds. [0473]
  • pET Constructs: To express 151P3D4 in bacterial cells, all or parts of the 151P3D4 cDNA protein coding sequence are cloned into the pET family of vectors (Novagen, Madison, Wis.). These vectors allow tightly controlled expression of recombinant 151P3D4 protein in bacteria with and without fusion to proteins that enhance solubility, such as NusA and thioredoxin (Trx), and epitope tags, such as 6X His and S-Tag™ that aid purification and detection of the recombinant protein. For example, constructs are made utilizing pET NusA fusion system 43.1 such that regions of the 151P3D4 protein are expressed as amino-terminal fusions to NusA. [0474]
  • C. Yeast Constructs: [0475]
  • pESC Constructs: To express 151P3D4 in the yeast species [0476] Saccharomyces cerevisiae for generation of recombinant protein and functional studies, all or parts of the 151P3D4 cDNA protein coding sequence are cloned into the pESC family of vectors each of which contain 1 of 4 selectable markers, HIS3, TRP1, LEU2, and URA3 (Stratagene, La Jolla, Calif.). These vectors allow controlled expression from the same plasmid of up to 2 different genes or cloned sequences containing either Flag™ or Myc epitope tags in the same yeast cell. This system is useful to confirm protein-protein interactions of 151P3D4. In addition, expression in yeast yields similar post-translational modifications, such as glycosylations and phosphorylations, that are found when expressed in eukaryotic cells.
  • pESP Constructs: To express 151P3D4 in the yeast species [0477] Saccharomyces pombe, all or parts of the 151P3D4 cDNA protein coding sequence are cloned into the pESP family of vectors. These vectors allow controlled high level of expression of a 151P3D4 protein sequence that is fused at either the amino terminus or at the carboxyl terminus to GST which aids purification of the recombinant protein. A Flag™ epitope tag allows detection of the recombinant protein with anti-Flag™ antibody.
    • Example 8
  • Production of Recombinant 151P3D4 in Eukaryotic Systems [0478]
  • A. Mammalian Constructs: [0479]
  • To express recombinant 151P3D4 in eukaryotic cells, the full or partial length 151P3D4 cDNA sequences can be cloned into any one of a variety of expression vectors known in the art. One or more of the following regions of 151P3D4 are expressed in these constructs, [0480] amino acids 1 to 354 of 151P3D4 v.1, amino acids 1 to 721 of 151P3D4v.2, or any 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50 or more contiguous amino acids from 151P3D4, variants, or analogs thereof. In certain embodiments a region of a specific variant of 151P3D4 is expressed that encodes an amino acid at a specific position which differs from the amino acid of any other variant found at that position. In other embodiments, a region of a variant of 151P3D4 is expressed that lies partly or entirely within a sequence that is unique to that variant.
  • The constructs can be transfected into any one of a wide variety of mammalian cells such as 293T cells. Transfected 293T cell lysates can be probed with the anti-151P3D4 polyclonal serum, described herein. [0481]
  • pcDNA4/HisMax Constructs: To express 151P3D4 in mammalian cells, a 151P3D4 ORF, or portions thereof, of 151P3D4 are cloned into pcDNA4/HisMax Version A (Invitrogen, Carlsbad, Calif.). Protein expression is driven from the cytomegalovirus (CMV) promoter and the SP16 translational enhancer. The recombinant protein has Xpress™ and six histidine (6X His) epitopes fused to the amino-terminus. The pcDNA4/HisMax vector also contains the bovine growth hormone (BGH) polyadenylation signal and transcription termination sequence to enhance mRNA stability along with the SV40 origin for episomal replication and simple vector rescue in cell lines expressing the large T antigen. The Zeocin resistance gene allows for selection of mammalian cells expressing the protein and the ampicillin resistance gene and ColE1 origin permits selection and maintenance of the plasmid in [0482] E. coli.
  • DcDNA3.1/MycHis Constructs: To express 151P3D4 in mammalian cells, a 151P3D4 ORF, or portions thereof, of 151P3D4 with a consensus Kozak translation initiation site was cloned into pcDNA3.1/MycHis Version A (Invitrogen, Carlsbad, Calif.). Protein expression is driven from the cytomegalovirus (CMV) promoter. The recombinant protein has the myc epitope and 6X His epitope fused to the carboxyl-terminus. The pcDNA3.1/MycHis vector also contains the bovine growth hormone (BGH) polyadenylation signal and transcription termination sequence to enhance mRNA stability, along with the SV40 origin for episomal replication and simple vector rescue in cell lines expressing the large T antigen. The Neomycin resistance gene was used, as it allows for selection of mammalian cells expressing the protein and the ampicillin resistance gene and ColEI origin permits selection and maintenance of the plasmid in [0483] E. coli. Results of expression from 151P3D4.pcDNA3.1/MycHis construct are shown in FIG. 20.
  • PcDNA3.1/CT-GFP-TOPO Construct: To express 151P3D4 in mammalian cells and to allow detection of the recombinant proteins using fluorescence, a 151P3D4 ORF, or portions thereof, with a consensus Kozak translation initiation site are cloned into pcDNA3.1/CT-GFP-TOPO (Invitrogen, Calif.). Protein expression is driven from the cytomegalovirus (CMV) promoter. The recombinant proteins have the Green Fluorescent Protein (GFP) fused to the carboxyl-terminus facilitating non-invasive, in vivo detection and cell biology studies. The pcDNA3.1CT-GFP-TOPO vector also contains the bovine growth hormone (BGH) polyadenylation signal and transcription termination sequence to enhance mRNA stability along with the SV40 origin for episomal replication and simple vector rescue in cell lines expressing the large T antigen. The Neomycin resistance gene allows for selection of mammalian cells that express the protein, and the ampicillin resistance gene and ColE1 origin permits selection and maintenance of the plasmid in [0484] E. coli. Additional constructs with an amino-terminal GFP fusion are made in pcDNA3.1/NT-GFP-TOPO spanning the entire length of a 151P3D4 protein.
  • PAPtag: A 151P3D4 ORF, or portions thereof, is cloned into pAPtag-5 (GenHunter Corp. Nashville, Tenn.). This construct generates an alkaline phosphatase fusion at the carboxyl-terminus of a 151P3D4 protein while fusing the IgGκ signal sequence to the amino-terminus. Constructs are also generated in which alkaline phosphatase with an amino-terminal IgGκ signal sequence is fused to the amino-terminus of a 151P3D4 protein. The resulting recombinant 151P3D4 proteins are optimized for secretion into the media of transfected mammalian cells and can be used to identify proteins such as ligands or receptors that interact with 151P3D4 proteins. Protein expression is driven from the CMV promoter and the recombinant proteins also contain myc and 6X His epitopes fused at the carboxyl-terminus that facilitates detection and purification. The Zeocin resistance gene present in the vector allows for selection of mammalian cells expressing the recombinant protein and the ampicillin resistance gene permits selection of the plasmid in [0485] E. coli.
  • ptag5: A 151P3D4 ORF, or portions thereof, is cloned into pTag-5. This vector is similar to pAPtag but without the alkaline phosphatase fusion. This construct generates 151P3D4 protein with an amino-terminal IgGκ signal sequence and myc and 6X His epitope tags at the carboxyl-terminus that facilitate detection and affinity purification. The resulting recombinant 151P3D4 protein is optimized for secretion into the media of transfected mammalian cells, and is used as immunogen or ligand to identify proteins such as ligands or receptors that interact with the 151P3D4 proteins. Protein expression is driven from the CMV promoter. The Zeocin resistance gene present in the vector allows for selection of mammalian cells expressing the protein, and the ampicillin resistance gene permits selection of the plasmid in [0486] E. coli.
  • PsecFc: A 151P3D4 ORF, or portions thereof, is also cloned into psecFc. The psecFc vector was assembled by cloning the human immunoglobulin G1 (IgG) Fc (hinge, CH2, CH3 regions) into pSecTag2 (Invitrogen, Calif.). This construct generates an IgG1 Fc fusion at the carboxyl-terminus of the 151P3D4 proteins, while fusing the IgGK signal sequence to N-terminus. 151P3D4 fusions utilizing the murine IgG1 Fc region are also used. The resulting recombinant 151P3D4 proteins are optimized for secretion into the media of transfected mammalian cells, and can be used as immunogens or to identify proteins such as ligands or receptors that interact with 151P3D4 protein. Protein expression is driven from the CMV promoter. The hygromycin resistance gene present in the vector allows for selection of mammalian cells that express the recombinant protein, and the ampicillin resistance gene permits selection of the plasmid in [0487] E. coli.
  • pSRα Constructs: To generate mammalian cell lines that express 151P3D4 constitutively, 151P3D4 ORF, or portions thereof, of 151P3D4 are cloned into pSRα constructs. Amphotropic and ecotropic retroviruses are generated by transfection of pSRα constructs into the 293T-10A1 packaging line or co-transfection of pSRα and a helper plasmid (containing deleted packaging sequences) into the 293 cells, respectively. The retrovirus is used to infect a variety of mammalian cell lines, resulting in the integration of the cloned gene, 151P3D4, into the host cell-lines. Protein expression is driven from a long terminal repeat (LTR). The Neomycin resistance gene present in the vector allows for selection of mammalian cells that express the protein, and the ampicillin resistance gene and ColE1 origin permit selection and maintenance of the plasmid in [0488] E. coli. The retroviral vectors can thereafter be used for infection and generation of various cell lines using, for example, PC3, NIH 3T3, TsuPr1, 293 or rat-1 cells.
  • Additional pSRα constructs are made that fuse an epitope tag such as the FLAG™ tag to the carboxyl-terminus of 151P3D4 sequences to allow detection using anti-Flag antibodies. For example, the [0489] FLAG™ sequence 5′ gat tac aag gat gac gac gat aag 3′ (SEQ ID NO:______) is added to cloning primer at the 3′ end of the ORF. Additional pSRα constructs are made to produce both amino-terminal and carboxyl-terminal GFP and myc/6X His fusion proteins of the full-length 151P3D4 proteins.
  • Additional Viral Vectors: Additional constructs are made for viral-mediated delivery and expression of 151P3D4. High virus titer leading to high level expression of 151P3D4 is achieved in viral delivery systems such as adenoviral vectors and herpes amplicon vectors. A 151P3D4 coding sequences or fragments thereof are amplified by PCR and subcloned into the AdEasy shuttle vector (Stratagene). Recombination and virus packaging are performed according to the manufacturer's instructions to generate adenoviral vectors. Alternatively, 151P3D4 coding sequences or fragments thereof are cloned into the HSV-1 vector (Imgenex) to generate herpes viral vectors. The viral vectors are thereafter used for infection of various cell lines such as PC3, NIH 3T3, 293 or rat-1 cells. [0490]
  • Regulated Expression Systems: To control expression of 151P3D4 in mammalian cells, coding sequences of 151P3D4, or portions thereof, are cloned into regulated mammalian expression systems such as the T-Rex System (Invitrogen), the GeneSwitch System (Invitrogen) and the tightly-regulated Ecdysone System (Sratagene). These systems allow the study of the temporal and concentration dependent effects of recombinant 151P3D4. These vectors are thereafter used to control expression of 151P3D4 in various cell lines such as PC3, NIH 3T3, 293 or rat-1 cells. [0491]
  • B. Baculovirus Expression Systems [0492]
  • To generate recombinant 151P3D4 proteins in a baculovirus expression system, 151P3D4 ORF, or portions thereof, are cloned into the baculovirus transfer vector pBlueBac 4.5 (Invitrogen), which provides a His-tag at the N-terminus. Specifically, pBlueBac-151P3D4 is co-transfected with helper plasmid pBac-N-Blue (Invitrogen) into SF9 ([0493] Spodoptera frugiperda) insect cells to generate recombinant baculovirus (see Invitrogen instruction manual for details). Baculovirus is then collected from cell supernatant and purified by plaque assay.
  • Recombinant 151P3D4 protein is then generated by infection of HighFive insect cells (Invitrogen) with purified baculovirus. Recombinant 151P3D4 protein can be detected using anti-151P3D4 or anti-His-tag antibody. 151P3D4 protein can be purified and used in various cell-based assays or as immunogen to generate polyclonal and monoclonal antibodies specific for 151P3D4. [0494]
    • Example 9
  • Antigenicity Profiles and Secondary Structure [0495]
  • FIGS. [0496] 5(A & B), FIGS. 6(A & B), FIGS. 7(A & B), FIGS. 8(A & B), and FIGS. 9(A & B) depict graphically five amino acid profiles of 151P3D4 variants 1 and 2, each assessment available by accessing the ProtScale website (URL www.expasy.ch/cgi-bin/protscale.pl) on the ExPasy molecular biology server.
  • These profiles: FIG. 5, Hydrophilicity, (Hopp T. P., Woods K. R., 1981. Proc. Natl. Acad. Sci. U.S.A. 78:3824-3828); FIG. 6, Hydropathicity, (Kyte J., Doolittle R. F., 1982. J. Mol. Biol. 157:105-132); FIG. 7, Percentage Accessible Residues (Janin J., 1979 Nature 277:491-492); FIG. 8, Average Flexibility, (Bhaskaran R., and Ponnuswamy P. K., 1988. Int. J. Pept. Protein Res. 32:242-255); FIG. 9, Beta-turn (Deleage, G., Roux B. 1987 Protein Engineering 1:289-294); and optionally others available in the art, such as on the ProtScale website, were used to identify antigenic regions of the 151P3D4 protein. Each of the above amino acid profiles of 151P3D4 were generated using the following ProtScale parameters for analysis: 1) A window size of 9; 2) 100% weight of the window edges compared to the window center; and, 3) amino acid profile values normalized to lie between 0 and 1. [0497]
  • Hydrophilicity (FIG. 5), Hydropathicity (FIG. 6) and Percentage Accessible Residues (FIG. 7) profiles were used to determine stretches of hydrophilic amino acids (i.e., values greater than 0.5 on the Hydrophilicity and Percentage Accessible Residues profile, and values less than 0.5 on the Hydropathicity profile). Such regions are likely to be exposed to the aqueous environment, be present on the surface of the protein, and thus available for immune recognition, such as by antibodies. [0498]
  • Average Flexibility (FIG. 8) and Beta-turn (FIG. 9) profiles determine stretches of amino acids (i.e., values greater than 0.5 on the Beta-turn profile and the Average Flexibility profile) that are not constrained in secondary structures such as beta sheets and alpha helices. Such regions are also more likely to be exposed on the protein and thus accessible to immune recognition, such as by antibodies. [0499]
  • Antigenic sequences of the 151P3D4 variant proteins indicated, e.g., by the profiles set forth in FIGS. [0500] 5(A & B), FIGS. 6(A & B), FIGS. 7(A & B), FIGS. 8(A & B), and/or FIGS. 9(A & B) are used to prepare immunogens, either peptides or nucleic acids that encode them, to generate therapeutic and diagnostic anti-151P3D4 antibodies. The immunogen can be any 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 30, 35, 40, 45, 50 or more than 50 contiguous amino acids, or the corresponding nucleic acids that encode them, from the 151P3D4 protein variants 1 and 2 listed in FIGS. 2 and 3. In particular, peptide immunogens of the invention can comprise, a peptide region of at least 5 amino acids of FIGS. 2 and 3 in any whole number increment that includes an amino acid position having a value greater than 0.5 in the Hydrophilicity profiles of FIG. 5; a peptide region of at least 5 amino acids of FIGS. 2 and 3 in any whole number increment that includes an amino acid position having a value less than 0.5 in the Hydropathicity profile of FIG. 6; a peptide region of at least 5 amino acids of FIGS. 2 and 3 in any whole number increment that includes an amino acid position having a value greater than 0.5 in the Percent Accessible Residues profiles of FIG. 7; a peptide region of at least 5 amino acids of FIGS. 2 and 3 in any whole number increment that includes an amino acid position having a value greater than 0.5 in the Average Flexibility profiles on FIG. 8; and, a peptide region of at least 5 amino acids of FIGS. 2 and 3 in any whole number increment that includes an amino acid position having a value greater than 0.5 in the Beta-turn profile of FIGS. 9. Peptide immunogens of the invention can also comprise nucleic acids that encode any of the forgoing.
  • All immunogens of the invention, peptide or nucleic acid, can be embodied in human unit dose form, or comprised by a composition that includes a pharmaceutical excipient compatible with human physiology. [0501]
  • The secondary structure of [0502] 151P3D4 protein variants 1 and 2, namely the predicted presence and location of alpha helices, extended strands, and random coils, is predicted from the primary amino acid sequence using the HNN—Hierarchical Neural Network method (Guermeur, 1997, http://pbil.ibcp.fr/cgi-bin/npsa_automat.pl 1?page=npsa_nn.html), accessed from the ExPasy molecular biology server (http://www.expasy.ch/tools/). The analysis indicates that 151P3D4 variant 1 is composed of 25.71% alpha helix, 21.47% extended strand, and 52.82% random coil (FIG. 13A). Variant 2 is composed of 25.80% alpha helix, 16.64% extended strand, and 57.56% random coil (FIG. 13B).
  • Analysis for the potential presence of transmembrane domains in the 151P3D4 variant proteins was carried out using a variety of transmembrane prediction algorithms accessed from the ExPasy molecular biology server (http://www.expasy.ch/tools/). The programs do not predict the presence of transmembrane domains in the 151P3D4 protein variants, suggesting that they are soluble proteins. [0503]
    • Example 10
  • Generation of 151P3D4 Polyclonal Antibodies [0504]
  • Polyclonal antibodies can be raised in a mammal, for example, by one or more injections of an immunizing agent and, if desired, an adjuvant. Typically, the immunizing agent and/or adjuvant will be injected in the mammal by multiple subcutaneous or intraperitoneal injections. In addition to immunizing with a full length 151P3D4 protein variant, computer algorithms are employed in design of immunogens that, based on amino acid sequence analysis contain characteristics of being antigenic and available for recognition by the immune system of the immunized host (see the Example entitled “Antigenicity Profiles”). Such regions would be predicted to be hydrophilic, flexible, in beta-turn conformations, and be exposed on the surface of the protein (see, e.g., FIGS. [0505] 5(A & B), FIGS. 6(A & B), FIGS. 7(A & B), FIGS. 8(A & B), or FIGS. 9(A & B) for amino acid profiles that indicate such regions of 151P3D4 protein variants).
  • For example, recombinant bacterial fusion proteins or peptides containing hydrophilic, flexible, beta-turn regions of 151P3D4 protein variants are used as antigens to generate polyclonal antibodies in New Zealand White rabbits. For example, in [0506] 151P3D4 variant 1, such regions include, but are not limited to, amino acids 99-151, amino acids 218-249, and amino acids 311-332. In sequence specific for variant 2, such regions include, but are not limited to, amino acids 16-38, amino acids 76-90, amino acids 182-230, and amino acids 383-400. It is useful to conjugate the immunizing agent to a protein known to be immunogenic in the mammal being immunized. Examples of such immunogenic proteins include, but are not limited to, keyhole limpet hemocyanin (KLH), serum albumin, bovine thyroglobulin, and soybean trypsin inhibitor. In one embodiment, a peptide encoding amino acids 311-332 of 151P3D4 variant 1 is conjugated to KLH and used to immunize the rabbit. Alternatively the immunizing agent may include all or portions of the 151P3D4 variant proteins, analogs or fusion proteins thereof. For example, the 151P3D4 variant 1 amino acid sequence can be fused using recombinant DNA techniques to any one of a variety of fusion protein partners that are well known in the art, such as glutathione-S-transferase (GST) and HIS tagged fusion proteins. Such fusion proteins are purified from induced bacteria using the appropriate affinity matrix.
  • In one embodiment, a GST-fusion protein encoding the N-terminal region of [0507] 151P3D4 variant 1, amino acids 16-150, minus the first 15 amino acids that likely encodes a cleavable signal peptide, is produced and purified and used as immunogen. Other recombinant bacterial fusion proteins that may be employed include maltose binding protein, LacZ, thioredoxin, NusA, or an immunoglobulin constant region (see the section entitled “Production of 151P3D4 in Prokaryotic Systems” and Current Protocols In Molecular Biology, Volume 2, Unit 16, Frederick M. Ausubul et al. eds., 1995; Linsley, P. S., Brady, W., Urnes, M., Grosmaire, L., Damle, N., and Ledbetter, L.(1991) J.Exp. Med. 174, 561-566).
  • In addition to bacterial derived fusion proteins, mammalian expressed protein antigens are also used. These antigens are expressed from mammalian expression vectors such as the Tag5 and Fc-fusion vectors (see the section entitled “Production of Recombinant 151P3D4 in Eukaryotic Systems”), and retain post-translational modifications such as glycosylations found in native protein. In one embodiment, amino acids 16-354 of [0508] variant 1, minus the endogenous signal peptide, is cloned into the Tag5 mammalian secretion vector. The recombinant protein is purified by metal chelate chromatography from tissue culture supernatants of 293T cells stably expressing the recombinant vector. The purified Tag5 151P3D4 protein is then used as immunogen.
  • During the immunization protocol, it is useful to mix or emulsify the antigen in adjuvants that enhance the immune response of the host animal. Examples of adjuvants include, but are not limited to, complete Freund's adjuvant (CFA) and MPL-TDM adjuvant (monophosphoryl Lipid A, synthetic trehalose dicorynomycolate). [0509]
  • In a typical protocol, rabbits are initially immunized subcutaneously with up to 200 μg, typically 100-200 μg, of fusion protein or peptide conjugated to KLH mixed in complete Freund's adjuvant (CFA). Rabbits are then injected subcutaneously every two weeks with up to 200 μg, typically 100-200 μg, of the immunogen in incomplete Freund's adjuvant (IFA). Test bleeds are taken approximately 7-10 days following each immunization and used to monitor the titer of the antiserum by ELISA. [0510]
  • To test reactivity and specificity of immune serum, such as the rabbit serum derived from immunization with the Tag5-[0511] 151P3D4 variant 1 protein, the full-length 151P3D4 variant 1 cDNA is cloned into pCDNA 3.1 myc-his expression vector (Invitrogen, see the Example entitled “Production of Recombinant 151P3D4 in Eukaryotic Systems”). After transfection of the constructs into 293T cells, cell lysates are probed with the anti-151P3D4 serum and with anti-His antibody (Santa Cruz Biotechnologies, Santa Cruz, Calif.) to determine specific reactivity to denatured 151P3D4 protein using the Western blot technique (FIG. 20) shows expression of Myc His epitope tagged 151P3D4 variant 1 protein in 293T cells as detected by an anti-His antibody. In addition, the immune serum is tested by fluorescence microscopy, flow cytometry and immunoprecipitation against 293T and other recombinant 151P3D4-expressing cells to determine specific recognition of native protein. Western blot, immunoprecipitation, fluorescent microscopy, and flow cytometric techniques using cells that endogenously express 151P3D4 are also carried out to test reactivity and specificity.
  • Anti-serum from rabbits immunized with 151P3D4 variant fusion proteins, such as GST and MBP fusion proteins, are purified by depletion of antibodies reactive to the fusion partner sequence by passage over an affinity column containing the fusion partner either alone or in the context of an irrelevant fusion protein. For example, antiserum derived from a GST-[0512] 151P3D4 variant 1 fusion protein encoding amino acids 16-150 is first purified by passage over a column of GST protein covalently coupled to AffiGel matrix (BioRad, Hercules, Calif.). The antiserum is then affinity purified by passage over a column composed of a MBP-fusion protein also encoding amino acids 16-150 covalently coupled to AffiGel matrix. The serum is then further purified by protein G affinity chromatography to isolate the IgG fraction. Sera from other His-tagged antigens and peptide immunized rabbits as well as fusion partner depleted sera are affinity purified by passage over a column matrix composed of the original protein immunogen or free peptide.
    • Example 11
  • Generation of 151P3D4 Monoclonal Antibodies (mAbs) [0513]
  • In one embodiment, therapeutic mAbs to 151P3D4 variants comprise those that react with epitopes specific for each variant protein or specific to sequences in common between the variants that would disrupt or modulate the biological function of the 151P3D4 variants, for example those that would disrupt the interaction with ligands and binding partners. Immunogens for generation of such mAbs include those designed to encode or contain the entire 151P3D4 protein variant sequence, regions of the 151P3D4 protein variants predicted to be antigenic from computer analysis of the amino acid sequence (see, e.g., FIGS. [0514] 5(A & B), FIGS. 6(A & B), FIGS. 7(A & B), FIGS. 8(A & B), or FIGS. 9(A & B), and the Example entitled “Antigenicity Profiles”). Immunogens include peptides, recombinant bacterial proteins, and mammalian expressed Tag 5 proteins and human and murine IgG FC fusion proteins. In addition, cells engineered to express high levels of a respective 151P3D4 variant, such as 293T-151P3D4 variant 1 or 300.19-151P3D4 variant lmurine Pre-B cells, are used to immunize mice.
  • To generate mAbs to a 151P3D4 variant, mice are first immunized intraperitoneally (IP) with, typically, 10-50 μg of protein immunogen or 10[0515] 7 151P3D4-expressing cells mixed in complete Freund's adjuvant. Mice are then subsequently immunized IP every 2-4 weeks with, typically, 10-50 μg of protein immunogen or 107 cells mixed in incomplete Freund's adjuvant. Alternatively, MPL-TDM adjuvant is used in immunizations. In addition to the above protein and cell-based immunization strategies, a DNA-based immunization protocol is employed in which a mammalian expression vector encoding a 151P3D4 variant sequence is used to immunize mice by direct injection of the plasmid DNA. For example, amino acids 16-354 is cloned into the Tag5 mammalian secretion vector and the recombinant vector is used as immunogen. In another example the same amino acids are cloned into an Fc-fusion secretion vector in which the 151P3D4 variant 1 sequence is fused at the amino-terminus to an IgK leader sequence and at the carboxyl-terminus to the coding sequence of the human or murine IgG Fc region. This recombinant vector is then used as immunogen. The plasmid immunization protocols are used in combination with purified proteins expressed from the same vector and with cells expressing the respective 151P3D4 variant.
  • During the immunization protocol, test bleeds are taken 7-10 days following an injection to monitor titer and specificity of the immune response. Once appropriate reactivity and specificity is obtained as determined by ELISA, Western blotting, immunoprecipitation, fluorescence microscopy, and flow cytometric analyses, fusion and hybridoma generation is then carried out with established procedures well known in the art (see, e.g., Harlow and Lane, 1988). [0516]
  • In one embodiment for generating 151P3D4 monoclonal antibodies, a Tag5-[0517] 151P3D4 variant 1 antigen encoding amino acids 16-354, is expressed and purified from stably transfected 293T cells. Balb C mice are initially immunized intraperitoneally with 25 μg of the Tag5-151P3D4 variant 1 protein mixed in complete Freund's adjuvant. Mice are subsequently immunized every two weeks with 25 μg of the antigen mixed in incomplete Freund's adjuvant for a total of three immunizations. ELISA using the Tag5 antigen determines the titer of serum from immunized mice. Reactivity and specificity of serum to full length 151P3D4 variant 1 protein is monitored by Western blotting, immunoprecipitation and flow cytometry using 293T cells transfected with an expression vector encoding the 151P3D4 variant 1 cDNA (see e.g., the Example entitled “Production of Recombinant 151P3D4 in Eukaryotic Systems” and FIG. 20. Other recombinant 151P3D4 variant 1-expressing cells or cells endogenously expressing 151P3D4 variant 1 are also used. Mice showing the strongest reactivity are rested and given a final injection of Tag5 antigen in PBS and then sacrificed four days later. The spleens of the sacrificed mice are harvested and fused to SPO/2 myeloma cells using standard procedures (Harlow and Lane, 1988). Supernatants from HAT selected growth wells are screened by ELISA, Western blot, immunoprecipitation, fluorescent microscopy, and flow cytometry to identify 151P3D4 specific antibody-producing clones.
  • In another embodiment, a Tag5 antigen encoding amino acids 1-400 of [0518] variant 2 is produced, purified and used as immunogen to derive monoclonal antibodies specific to 151P3D4 variant 2. Hybridoma supernatants are then screened on both 151P3D4 variant 2- and 151P3D4 variant 1-expressing cells to identify specific anti-151P3D4 variant 2 monoclonal antibodies.
  • The binding affinity of a 151P3D4 monoclonal antibody is determined using standard technologies. Affinity measurements quantify the strength of antibody to epitope binding and are used to help define which 151P3D4 monoclonal antibodies preferred for diagnostic or therapeutic use, as appreciated by one of skill in the art. The BIAcore system (Uppsala, Sweden) is a preferred method for determining binding affinity. The BIAcore system uses surface plasmon resonance (SPR, Welford K. 1991, Opt. Quant. Elect. 23:1; Morton and Myszka, 1998, Methods in Enzymology 295: 268) to monitor biomolecular interactions in real time. BIAcore analysis conveniently generates association rate constants, dissociation rate constants, equilibrium dissociation constants, and affinity constants. [0519]
    • Example 12
  • HLA Class I and Class II Binding Assays [0520]
  • HLA class I and class II binding assays using purified HLA molecules are performed in accordance with disclosed protocols (e.g., PCT publications WO 94/20127 and WO 94/03205; Sidney et al., [0521] Current Protocols in Immunology 18.3.1 (1998); Sidney, et al., J. Immunol. 154:247 (1995); Sette, et al., Mol. Immunol. 31:813 (1994)). Briefly, purified MHC molecules (5 to 500 nM) are incubated with various unlabeled peptide inhibitors and 1-10 nM 125I-radiolabeled probe peptides as described. Following incubation, MHC-peptide complexes are separated from free peptide by gel filtration and the fraction of peptide bound is determined. Typically, in preliminary experiments, each MHC preparation is titered in the presence of fixed amounts of radiolabeled peptides to determine the concentration of HLA molecules necessary to bind 10-20% of the total radioactivity. All subsequent inhibition and direct binding assays are performed using these HLA concentrations.
  • Since under these conditions [label]<[HLA] and IC[0522] 50≧[HLA], the measured IC50 values are reasonable approximations of the true KD values. Peptide inhibitors are typically tested at concentrations ranging from 120 μg/ml to 1.2 ng/ml, and are tested in two to four completely independent experiments. To allow comparison of the data obtained in different experiments, a relative binding figure is calculated for each peptide by dividing the IC50 of a positive control for inhibition by the IC50 for each tested peptide (typically unlabeled versions of the radiolabeled probe peptide). For database purposes, and inter-experiment comparisons, relative binding values are compiled. These values can subsequently be converted back into IC50 nM values by dividing the IC50 nM of the positive controls for inhibition by the relative binding of the peptide of interest. This method of data compilation is accurate and consistent for comparing peptides that have been tested on different days, or with different lots of purified MHC.
  • Binding assays as outlined above may be used to analyze HLA supermotif and/or HLA motif-bearing peptides (see Table IV). [0523]
    • Example 13
  • Identification of HLA Supermotif- and Motif-Bearing CTL Candidate Epitopes [0524]
  • HLA vaccine compositions of the invention can include multiple epitopes. The multiple epitopes can comprise multiple HLA supermotifs or motifs to achieve broad population coverage. This example illustrates the identification and confirmation of supermotif- and motif-bearing epitopes for the inclusion in such a vaccine composition. Calculation of population coverage is performed using the strategy described below. [0525]
  • Computer Searches and Algorithms for Identification of Supermotif and/or Motif-Bearing Epitopes [0526]
  • The searches performed to identify the motif-bearing peptide sequences in the Example entitled “Antigenicity Profiles” and Tables V-XVIII and XXII-LI employ the protein sequence data from the gene product of 151P3D4 set forth in FIGS. 2 and 3. [0527]
  • Computer searches for epitopes bearing HLA Class I or Class II supermotifs or motifs are performed as follows. All translated 151P3D4 protein sequences are analyzed using a-text string search software program to identify potential peptide sequences containing appropriate HLA binding motifs; such programs are readily produced in accordance with information in the art in view of known motif/supermotif disclosures. Furthermore, such calculations can be made mentally. [0528]
  • Identified A2-, A3-, and DR-supermotif sequences are scored using polynomial algorithms to predict their capacity to bind to specific HLA-Class I or Class II molecules. These polynomial algorithms account for the impact of different amino acids at different positions, and are essentially based on the premise that the overall affinity (or ΔG) of peptide-HLA molecule interactions can be approximated as a linear polynomial function of the type:[0529]
  • ΔG”=a 1i ×a 2i ×a 3i . . . ×a ni
  • where a[0530] ji is a coefficient which represents the effect of the presence of a given amino acid (j) at a given position (i) along the sequence of a peptide of n amino acids. The crucial assumption of this method is that the effects at each position are essentially independent of each other (i.e., independent binding of individual side-chains). When residue j occurs at position i in the peptide, it is assumed to contribute a constant amount ji to the free energy of binding of the peptide irrespective of the sequence of the rest of the peptide.
  • The method of derivation of specific algorithm coefficients has been described in Gulukota et al., [0531] J. Mol. Biol. 267:1258-126, 1997; (see also Sidney et al., Human Immunol. 45:79-93, 1996; and Southwood et al., J. Immunol. 160:3363-3373, 1998). Briefly, for all i positions, anchor and non-anchor alike, the geometric mean of the average relative binding (ARB) of all peptides carrying j is calculated relative to the remainder of the group, and used as the estimate of ji. For Class II peptides, if multiple alignments are possible, only the highest scoring alignment is utilized, following an iterative procedure. To calculate an algorithm score of a given peptide in a test set, the ARB values corresponding to the sequence of the peptide are multiplied. If this product exceeds a chosen threshold, the peptide is predicted to bind. Appropriate thresholds are chosen as a function of the degree of stringency of prediction desired.
  • Selection of HLA-A2 Supertype Cross-Reactive Peptides [0532]
  • Protein sequences from 151P3D4 are scanned utilizing motif identification software, to identify 8-, 9- 10- and 11-mer sequences containing the HLA-A2-supermotif main anchor specificity. Typically, these sequences are then scored using the protocol described above and the peptides corresponding to the positive-scoring sequences are synthesized and tested for their capacity to bind purified HLA-A*0201 molecules in vitro (HLA-A*0201 is considered a prototype A2 supertype molecule). [0533]
  • These peptides are then tested for the capacity to bind to additional A2-supertype molecules (A*0202, A*0203, A*0206, and A*6802). Peptides that bind to at least three of the five A2-supertype alleles tested are typically deemed A2-supertype cross-reactive binders. Preferred peptides bind at an affinity equal to or less than 500 nM to three or more HLA-A2 supertype molecules. [0534]
  • Selection of HLA-A3 Supermotif-Bearing Epitopes [0535]
  • The 151P3D4 protein sequence(s) scanned above is also examined for the presence of peptides with the HLA-A3-supermotif primary anchors. Peptides corresponding to the HLA A3 supermotif-bearing sequences are then synthesized and tested for binding to HLA-A*0301 and HLA-A*1101 molecules, the molecules encoded by the two most prevalent A3-supertype alleles. The peptides that bind at least one of the two alleles with binding affinities of ≦500 nM, often ≦200 nM, are then tested for binding cross-reactivity to the other common A3-supertype alleles (e.g., A*3101, A*3301, and A*6801) to identify those that can bind at least three of the five HLA-A3-supertype molecules tested. [0536]
  • Selection of HLA-B7 Supermotif Bearing Epitopes [0537]
  • The 151P3D4 protein(s) scanned above is also analyzed for the presence of 8-, 9- 10-, or 11-mer peptides with the HLA-B7-supermotif. Corresponding peptides are synthesized and tested for binding to HLA-B*0702, the molecule encoded by the most common B7-supertype allele (i.e., the prototype B7 supertype allele). Peptides binding B*0702 with IC[0538] 50 of ≦500 nM are identified using standard methods. These peptides are then tested for binding to other common B7-supertype molecules (e.g., B*3501, B*5101, B*5301, and B*5401). Peptides capable of binding to three or more of the five B7-supertype alleles tested are thereby identified.
  • Selection of A1 and A24 Motif-Bearing Epitopes [0539]
  • To further increase population coverage, HLA-[0540] A 1 and -A24 epitopes can also be incorporated into vaccine compositions. An analysis of the 151P3D4 protein can also be performed to identify HLA-A1- and A24-motif-containing sequences.
  • High affinity and/or cross-reactive binding epitopes that bear other motif and/or supermotifs are identified using analogous methodology. [0541]
    • Example 14
  • Confirmation of Immunogenicity [0542]
  • Cross-reactive candidate CTL A2-supermotif-bearing peptides that are identified as described herein are selected to confirm in vitro immunogenicity. Confirmation is performed using the following methodology: [0543]
  • Target Cell Lines for Cellular Screening: [0544]
  • The .221A2.1 cell line, produced by transferring the HLA-A2.1 gene into the HLA-A, -B, -C null mutant human B-lymphoblastoid cell line 721.221, is used as the peptide-loaded target to measure activity of HLA-A2.1-restricted CTL. This cell line is grown in RPMI-1640 medium supplemented with antibiotics, sodium pyruvate, nonessential amino acids and 10% (v/v) heat inactivated FCS. Cells that express an antigen of interest, or transfectants comprising the gene encoding the antigen of interest, can be used as target cells to confirm the ability of peptide-specific CTLs to recognize endogenous antigen. [0545]
  • Primary CTL Induction Cultures: [0546]
  • Generation of Dendritic Cells (DC): PBMCs are thawed in RPMI with 30 μg/ml DNAse, washed twice and resuspended in complete medium (RPMI-1640 plus 5% AB human serum, non-essential amino acids, sodium pyruvate, L-glutamine and penicillin/streptomycin). The monocytes are purified by plating 10×10[0547] 6 PBMC/well in a 6-well plate. After 2 hours at 37° C., the non-adherent cells are removed by gently shaking the plates and aspirating the supernatants. The wells are washed a total of three times with 3 ml RPMI to remove most of the non-adherent and loosely adherent cells. Three ml of complete medium containing 50 ng/ml of GM-CSF and 1,000 U/ml of IL-4 are then added to each well. TNFα is added to the DCs on day 6 at 75 ng/ml and the cells are used for CTL induction cultures on day 7.
  • Induction of CTL with DC and Peptide: CD8+ T-cells are isolated by positive selection with Dynal immunomagnetic beads (Dynabeads® M-450) and the detacha-bead® reagent. Typically about 200-250×10[0548] 6 PBMC are processed to obtain 24×106 CD8+ T-cells (enough for a 48-well plate culture). Briefly, the PBMCs are thawed in RPMI with 30 μg/ml DNAse, washed once with PBS containing 1% human AB serum and resuspended in PBS/1% AB serum at a concentration of 20×106cells/ml. The magnetic beads are washed 3 times with PBS/AB serum, added to the cells (140 μl beads/20×106 cells) and incubated for 1 hour at 4° C. with continuous mixing. The beads and cells are washed 4× with PBS/AB serum to remove the nonadherent cells and resuspended at 100×106 cells/ml (based on the original cell number) in PBS/AB serum containing 100 μl/ml detacha-bead® reagent and 30 μg/ml DNAse. The mixture is incubated for 1 hour at room temperature with continuous mixing. The beads are washed again with PBS/AB/DNAse to collect the CD8+ T-cells. The DC are collected and centrifuged at 1300 rpm for 5-7 minutes, washed once with PBS with 1% BSA, counted and pulsed with 40 μg/ml of peptide at a cell concentration of 1-2×106/ml in the presence of 3 μg/ml β2-microglobulin for 4 hours at 20° C. The DC are then irradiated (4,200 rads), washed 1 time with medium and counted again.
  • Setting up induction cultures: 0.25 ml cytokine-generated DC (at ×10[0549] 5 cells/ml) are co-cultured with 0.25 ml of CD8+ T-cells (at 2×106 cell/ml) in each well of a 48-well plate in the presence of 10 ng/ml of IL-7. Recombinant human IL-10 is added the next day at a final concentration of 10 ng/ml and rhuman IL-2 is added 48 hours later at 10 IU/ml.
  • Restimulation of the induction cultures with peptide-pulsed adherent cells: Seven and fourteen days after the primary induction, the cells are restimulated with peptide-pulsed adherent cells. The PBMCs are thawed and washed twice with RPMI and DNAse. The cells are resuspended at 5×10[0550] 6 cells/ml and irradiated at ˜4200 rads. The PBMCs are plated at 2×106 in 0.5 ml complete medium per well and incubated for 2 hours at 37° C. The plates are washed twice with RPMI by tapping the plate gently to remove the nonadherent cells and the adherent cells pulsed with 10 μg/ml of peptide in the presence of 3 μg/ml β2 microglobulin in 0.25 ml RPMI/5% AB per well for 2 hours at 37° C. Peptide solution from each well is aspirated and the wells are washed once with RPMI. Most of the media is aspirated from the induction cultures (CD8+ cells) and brought to 0.5 ml with fresh media. The cells are then transferred to the wells containing the peptide-pulsed adherent cells. Twenty four hours later recombinant human IL-10 is added at a final concentration of 10 ng/ml and recombinant human IL2 is added the next day and again 2-3 days later at 50 IU/ml (Tsai et al., Critical Reviews in Immunology 18(1-2):65-75, 1998). Seven days later, the cultures are assayed for CTL activity in a 51Cr release assay. In some experiments the cultures are assayed for peptide-specific recognition in the in situ IFNγ ELISA at the time of the second restimulation followed by assay of endogenous recognition 7 days later. After expansion, activity is measured in both assays for a side-by-side comparison.
  • Measurement of CTL Lytic Activity by [0551] 51Cr release.
  • Seven days after the second restimulation, cytotoxicity is determined in a standard (5 hr) [0552] 51Cr release assay by assaying individual wells at a single E:T. Peptide-pulsed targets are prepared by incubating the cells with 10 μg/ml peptide overnight at 37° C.
  • Adherent target cells are removed from culture flasks with trypsin-EDTA. Target cells are labeled with 200 μCi of [0553] 51Cr sodium chromate (Dupont, Wilmington, Del.) for1 hour at 37° C. Labeled target cells are resuspended at 106 per ml and diluted 1:10 with K562 cells at a concentration of 3.3×106/ml (an NK-sensitive erythroblastoma cell line used to reduce non-specific lysis). Target cells (100 μl) and effectors (1001 μl) are plated in 96 well round-bottom plates and incubated for 5 hours at 37° C. At that time, 100 μl of supernatant are collected from each well and percent lysis is determined according to the formula:
  • [(cpm of the test sample−cpm of the spontaneous 51Cr release sample)/(cpm of the maximal 51Cr release sample−cpm of the spontaneous 51Cr release sample)]×100.
  • Maximum and spontaneous release are determined by incubating the labeled targets with 1% Triton X-100 and media alone, respectively. A positive culture is defined as one in which the specific lysis (sample-background) is 10% or higher in the case of individual wells and is 15% or more at the two highest E:T ratios when expanded cultures are assayed. [0554]
  • In situ Measurement of Human IFNγ Production as an Indicator of Peptide-Specific and Endogenous Recognition [0555]
  • [0556] Immulon 2 plates are coated with mouse anti-human IFNγ monoclonal antibody (4 μg/ml 0.1M NaHCO3, pH8.2) overnight at 4° C. The plates are washed with Ca2+, Mg2+-free PBS/0.05% Tween 20 and blocked with PBS/10% FCS for two hours, after which the CTLs (100 μl/well) and targets (100 μl/well) are added to each well, leaving empty wells for the standards and blanks (which received media only). The target cells, either peptide-pulsed or endogenous targets, are used at a concentration of 1×106 cells/ml. The plates are incubated for 48 hours at 37° C. with 5% CO2.
  • Recombinant human IFN-gamma is added to the standard wells starting at 400 pg or 120 pg/100 microliter/well and the plate incubated for two hours at 37° C. The plates are washed and 100 μl of biotinylated mouse anti-human IFN-gamma monoclonal antibody (2 microgram/ml in PBS/3% FCS/0.05% Tween 20) are added and incubated for 2 hours at room temperature. After washing again, 100 microliter HRP-streptavidin (1:4000) are added and the plates incubated for one hour at room temperature. The plates are then washed 6× with wash buffer, 100 microliter/well developing solution (TMB 1:1) are added, and the plates allowed to develop for 5-15 minutes. The reaction is stopped with 50 microliter/well 1M H[0557] 3PO4 and read at OD450. A culture is considered positive if it measured at least 50 pg of IFN-gamma/well above background and is twice the background level of expression.
  • CTL Expansion. [0558]
  • Those cultures that demonstrate specific lytic activity against peptide-pulsed targets and/or tumor targets are expanded over a two week period with anti-CD3. Briefly, 5×10[0559] 4 CD8+ cells are added to a T25 flask containing the following: 1×106 irradiated (4,200 rad) PBMC (autologous or allogeneic) per ml, 2×105 irradiated (8,000 rad) EBV-transformed cells per ml, and OKT3 (anti-CD3) at 30 ng per ml in RPMI-1640 containing 10% (v/v) human AB serum, non-essential amino acids, sodium pyruvate, 25 μM 2-mercaptoethanol, L-glutamine and penicillin/streptomycin. Recombinant human IL2 is added 24 hours later at a final concentration of 200 IU/ml and every three days thereafter with fresh media at 50 IU/ml. The cells are split if the cell concentration exceeds 1×106/ml and the cultures are assayed between days 13 and 15 at E:T ratios of 30, 10, 3 and 1:1 in the 51Cr release assay or at 1×106/ml in the in situ IFNγ assay using the same targets as before the expansion.
  • Cultures are expanded in the absence of anti-CD3[0560] + as follows. Those cultures that demonstrate specific lytic activity against peptide and endogenous targets are selected and 5×104 CD8+ cells are added to a T25 flask containing the following: 1×106 autologous PBMC per ml which have been peptide-pulsed with 10 μg/ml peptide for two hours at 37° C. and irradiated (4,200 rad); 2×105 irradiated (8,000 rad) EBV-transformed cells per ml RPMI-1640 containing 10% (v/v) human AB serum, non-essential AA, sodium pyruvate, 25 mM 2-ME, L-glutamine and gentamicin.
  • Immunogenicity of A2 Supermotif-Bearing Peptides [0561]
  • A2-supermotif cross-reactive binding peptides are tested in the cellular assay for the ability to induce peptide-specific CTL in normal individuals. In this analysis, a peptide is typically considered to be an epitope if it induces peptide-specific CTLs in at least individuals, and preferably, also recognizes the endogenously expressed peptide. [0562]
  • Immunogenicity can also be confirmed using PBMCs isolated from patients bearing a tumor that expresses 151P3D4. Briefly, PBMCs are isolated from patients, re-stimulated with peptide-pulsed monocytes and assayed for the ability to recognize peptide-pulsed target cells as well as transfected cells endogenously expressing the antigen. [0563]
  • Evaluation of A*03/A11 Immunogenicity [0564]
  • HLA-A3 supermotif-bearing cross-reactive binding peptides are also evaluated for immunogenicity using methodology analogous for that used to evaluate the immunogenicity of the HLA-A2 supermotif peptides. [0565]
  • Evaluation of B7 Immunogenicity [0566]
  • Immunogenicity screening of the B7-supertype cross-reactive binding peptides identified as set forth herein are confirmed in a manner analogous to the confirmation of A2-and A3-supermotif-bearing peptides. [0567]
  • Peptides bearing other supermotifs/motifs, e.g., HLA-A1, HLA-A24 etc. are also confirmed using similar methodology [0568]
    • Example 15
  • Implementation of the Extended Supermotif to Improve the Binding Capacity of Native Epitopes by Creating Analogs [0569]
  • HLA motifs and supermotifs (comprising primary and/or secondary residues) are useful in the identification and preparation of highly cross-reactive native peptides, as demonstrated herein. Moreover, the definition of HLA motifs and supermotifs also allows one to engineer highly cross-reactive epitopes by identifying residues within a native peptide sequence which can be analoged to confer upon the peptide certain characteristics, e.g. greater cross-reactivity within the group of HLA molecules that comprise a supertype, and/or greater binding affinity for some or all of those HLA molecules. Examples of analoging peptides to exhibit modulated binding affinity are set forth in this example. [0570]
  • Analoging at Primary Anchor Residues [0571]
  • Peptide engineering strategies are implemented to further increase the cross-reactivity of the epitopes. For example, the main anchors of A2-supermotif-bearing peptides are altered, for example, to introduce a preferred L, I, V, or M at [0572] position 2, and I or V at the C-terminus.
  • To analyze the cross-reactivity of the analog peptides, each engineered analog is initially tested for binding to the prototype A2 supertype allele A*0201, then, if A*0201 binding capacity is maintained, for A2-supertype cross-reactivity. [0573]
  • Alternatively, a peptide is confirmed as binding one or all supertype members and then analoged to modulate binding affinity to any one (or more) of the supertype members to add population coverage. [0574]
  • The selection of analogs for immunogenicity in a cellular screening analysis is typically further restricted by the capacity of the parent wild type (WT) peptide to bind at least weakly, i.e., bind at an IC[0575] 50 of 5000 nM or less, to three of more A2 supertype alleles. The rationale for this requirement is that the WT peptides must be present endogenously in sufficient quantity to be biologically relevant. Analoged peptides have been shown to have increased immunogenicity and cross-reactivity by T cells specific for the parent epitope (see, e.g., Parkhurst et al., J. Immunol. 157:2539, 1996; and Pogue et al., Proc. Natl. Acad. Sci. USA 92:8166, 1995).
  • In the cellular screening of these peptide analogs, it is important to confirm that analog-specific CTLs are also able to recognize the wild-type peptide and, when possible, target cells that endogenously express the epitope. [0576]
  • Analoging of HLA-A3 and B7-Supermotif-Bearing Peptides [0577]
  • Analogs of HLA-A3 supermotif-bearing epitopes are generated using strategies similar to those employed in analoging HLA-A2 supermotif-bearing peptides. For example, peptides binding to 3/5 of the A3-supertype molecules are engineered at primary anchor residues to possess a preferred residue (V, S, M, or A) at [0578] position 2.
  • The analog peptides are then tested for the ability to bind A*03 and A*11 (prototype A3 supertype alleles). Those peptides that demonstrate ≦500 nM binding capacity are then confirmed as having A3-supertype cross-reactivity. [0579]
  • Similarly to the A2- and A3-motif bearing peptides, peptides binding 3 or more B7-supertype alleles can be improved, where possible, to achieve increased cross-reactive binding or greater binding affinity or binding half life. B7 supermotif-bearing peptides are, for example, engineered to possess a preferred residue (V, I, L, or F) at the C-terminal primary anchor position, as demonstrated by Sidney et al. ([0580] J. Immunol. 157:3480-3490, 1996).
  • Analoging at primary anchor residues of other motif and/or supermotif-bearing epitopes is performed in a like manner. [0581]
  • The analog peptides are then be confirmed for immunogenicity, typically in a cellular screening assay. Again, it is generally important to demonstrate that analog-specific CTLs are also able to recognize the wild-type peptide and, when possible, targets that endogenously express the epitope. [0582]
  • Analoging at Secondary Anchor Residues [0583]
  • Moreover, HLA supermotifs are of value in engineering highly cross-reactive peptides and/or peptides that bind HLA molecules with increased affinity by identifying particular residues at secondary anchor positions that are associated with such properties. For example, the binding capacity of a B7 supermotif-bearing peptide with an F residue at [0584] position 1 is analyzed. The peptide is then analoged to, for example, substitute L for F at position 1. The analoged peptide is evaluated for increased binding affinity, binding half life and/or increased cross-reactivity. Such a procedure identifies analoged peptides with enhanced properties.
  • Engineered analogs with sufficiently improved binding capacity or cross-reactivity can also be tested for immunogenicity in HLA-B7-transgenic mice, following for example, IFA immunization or lipopeptide immunization. Analoged peptides are additionally tested for the ability to stimulate a recall response using PBMC from patients with 151P3D4-expressing tumors. [0585]
  • Other Analoging Strategies [0586]
  • Another form of peptide analoging, unrelated to anchor positions, involves the substitution of a cysteine with α-amino butyric acid. Due to its chemical nature, cysteine has the propensity to form disulfide bridges and sufficiently alter the peptide structurally so as to reduce binding capacity. Substitution of α-amino butyric acid for cysteine not only alleviates this problem, but has been shown to improve binding and crossbinding capabilities in some instances (see, e.g., the review by Sette et al., In: Persistent Viral Infections, Eds. R. Ahmed and I. Chen, John Wiley & Sons, England, 1999). [0587]
  • Thus, by the use of single amino acid substitutions, the binding properties and/or cross-reactivity of peptide ligands for HLA supertype molecules can be modulated. [0588]
    • Example 16
  • Identification and Confirmation of 151P3D4-derived Sequences with HLA-DR Binding Motifs [0589]
  • Peptide epitopes bearing an HLA class II supermotif or motif are identified and confirmed as outlined below using methodology similar to that described for HLA Class I peptides. [0590]
  • Selection of HLA-DR-Supermotif-Bearing Epitopes. [0591]
  • To identify 151P3D4-derived, HLA class II HTL epitopes, a 151P3D4 antigen is analyzed for the presence of sequences bearing an HLA-DR-motif or supermotif. Specifically, 15-mer sequences are selected comprising a DR-supermotif, comprising a 9-mer core, and three-residue N- and C-terminal flanking regions (15 amino acids total). [0592]
  • Protocols for predicting peptide binding to DR molecules have been developed (Southwood et al., [0593] J. Immunol. 160:3363-3373, 1998). These protocols, specific for individual DR molecules, allow the scoring, and ranking, of 9-mer core regions. Each protocol not only scores peptide sequences for the presence of DR-supermotif primary anchors (i.e., at position 1 and position 6) within a 9-mer core, but additionally evaluates sequences for the presence of secondary anchors. Using allele-specific selection tables (see, e.g., Southwood et al., ibid.), it has been found that these protocols efficiently select peptide sequences with a high probability of binding a particular DR molecule. Additionally, it has been found that performing these protocols in tandem, specifically those for DR1, DR4w4, and DR7, can efficiently select DR cross-reactive peptides.
  • The 151P3D4-derived peptides identified above are tested for their binding capacity for various common HLA-DR molecules. All peptides are initially tested for binding to the DR molecules in the primary panel: DR1, DR4w4, and DR7. Peptides binding at least two of these three DR molecules are then tested for binding to DR2w2 β1, DR2w2 β2, DR6w19, and DR9 molecules in secondary assays. Finally, peptides binding at least two of the four secondary panel DR molecules, and thus cumulatively at least four of seven different DR molecules, are screened for binding to DR4w15, DR5w11, and DR8w2 molecules in tertiary assays. Peptides binding at least seven of the ten DR molecules comprising the primary, secondary, and tertiary screening assays are considered cross-reactive DR binders. 151P3D4-derived peptides found to bind common HLA-DR alleles are of particular interest. [0594]
  • Selection of DR3 Motif Peptides [0595]
  • Because HLA-DR3 is an allele that is prevalent in Caucasian, Black, and Hispanic populations, DR3 binding capacity is a relevant criterion in the selection of HTL epitopes. Thus, peptides shown to be candidates may also be assayed for their DR3 binding capacity. However, in view of the binding specificity of the DR3 motif, peptides binding only to DR3 can also be considered as candidates for inclusion in a vaccine formulation. [0596]
  • To efficiently identify peptides that bind DR3, target 151P3D4 antigens are analyzed for sequences carrying one of the two DR3-specific binding motifs reported by Geluk et al. ([0597] J. Immunol. 152:5742-5748, 1994). The corresponding peptides are then synthesized and confirmed as having the ability to bind DR3 with an affinity of 1 μM or better, i.e., less than 1 μM. Peptides are found that meet this binding criterion and qualify as HLA class II high affinity binders.
  • DR3 binding epitopes identified in this manner are included in vaccine compositions with DR supermotif-bearing peptide epitopes. [0598]
  • Similarly to the case of HLA class I motif-bearing peptides, the class II motif-bearing peptides are analoged to improve affinity or cross-reactivity. For example, aspartic acid at [0599] position 4 of the 9-mer core sequence is an optimal residue for DR3 binding, and substitution for that residue often improves DR 3 binding.
    • Example 17
  • Immunogenicity of 151P3D4-Derived HTL Epitopes [0600]
  • This example determines immunogenic DR supermotif- and DR3 motif-bearing epitopes among those identified using the methodology set forth herein. [0601]
  • Immunogenicity of HTL epitopes are confirmed in a manner analogous to the determination of immunogenicity of CTL epitopes, by assessing the ability to stimulate HTL responses and/or by using appropriate transgenic mouse models. Immunogenicity is determined by screening for: 1.) in vitro primary induction using normal PBMC or 2.) recall responses from patients who have 151P3D4-expressing tumors. [0602]
    • Example 18
  • Calculation of Phenotypic Frequencies of HLA-Supertypes in Various Ethnic Backgrounds to Determine Breadth of Population Coverage [0603]
  • This example illustrates the assessment of the breadth of population coverage of a vaccine composition comprised of multiple epitopes comprising multiple supermotifs and/or motifs. [0604]
  • In order to analyze population coverage, gene frequencies of HLA alleles are determined. Gene frequencies for each HLA allele are calculated from antigen or allele frequencies utilizing the binomial distribution formulae gf=1-(SQRT(1-af)) (see, e.g., Sidney et al., [0605] Human Immunol. 45:79-93, 1996). To obtain overall phenotypic frequencies, cumulative gene frequencies are calculated, and the cumulative antigen frequencies derived by the use of the inverse formula [af=1-(1-Cgf)2].
  • Where frequency data is not available at the level of DNA typing, correspondence to the serologically defined antigen frequencies is assumed. To obtain total potential supertype population coverage no linkage disequilibrium is assumed, and only alleles confirmed to belong to each of the supertypes are included (minimal estimates). Estimates of total potential coverage achieved by inter-loci combinations are made by adding to the A coverage the proportion of the non-A covered population that could be expected to be covered by the B alleles considered (e.g., total=A+B*(1−A)). Confirmed members of the A3-like supertype are A3, A11, A31, A*3301, and A*6801. Although the A3-like supertype may also include A34, A66, and A*7401, these alleles were not included in overall frequency calculations. Likewise, confirmed members of the A2-like supertype family are A*0201, A*0202, A*0203, A*0204, A*0205, A*0206, A*0207, A*6802, and A*6901. Finally, the B7-like supertype-confirmed alleles are: B7, B*3501-03, B51, B*5301, B*5401, B*5501-2, B*5601, B*6701, and B*7801 (potentially also B*1401, B*3504-06, B*4201, and B*5602). [0606]
  • Population coverage achieved by combining the A2-, A3- and B7-supertypes is approximately 86% in five major ethnic groups. Coverage may be extended by including peptides bearing the A1 and A24 motifs. On average, A1 is present in 12% and A24 in 29% of the population across five different major ethnic groups (Caucasian, North American Black, Chinese, Japanese, and Hispanic). Together, these alleles are represented with an average frequency of 39% in these same ethnic populations. The total coverage across the major ethnicities when A1 and A24 are combined with the coverage of the A2-, A3- and B7-supertype alleles is >95%. An analogous approach can be used to estimate population coverage achieved with combinations of class II motif-bearing epitopes. [0607]
  • Immunogenicity studies in humans (e.g., Bertoni et al., [0608] J. Clin. Invest. 100:503, 1997; Doolan et al., Immunity 7:97, 1997; and Threlkeld et al., J. Immunol. 159:1648, 1997) have shown that highly cross-reactive binding peptides are almost always recognized as epitopes. The use of highly cross-reactive binding peptides is an important selection criterion in identifying candidate epitopes for inclusion in a vaccine that is immunogenic in a diverse population.
  • With a sufficient number of epitopes (as disclosed herein and from the art), an average population coverage is predicted to be greater than 95% in each of five major ethnic populations. The game theory Monte Carlo simulation analysis, which is known in the art (see e.g., Osborne, M. J. and Rubinstein, A. “A course in game theory” MIT Press, 1994), can be used to estimate what percentage of the individuals in a population comprised of the Caucasian, North American Black, Japanese, Chinese, and Hispanic ethnic groups would recognize the vaccine epitopes described herein. A preferred percentage is 90%. A more preferred percentage is 95%. [0609]
    • Example 19
  • CTL Recognition of Endogenously Processed Antigens after Priming [0610]
  • This example confirms that CTL induced by native or analoged peptide epitopes identified and selected as described herein recognize endogenously synthesized, i.e., native antigens. [0611]
  • Effector cells isolated from transgenic mice that are immunized with peptide epitopes, for example HLA-A2 supermotif-bearing epitopes, are re-stimulated in vitro using peptide-coated stimulator cells. Six days later, effector cells are assayed for cytotoxicity and the cell lines that contain peptide-specific cytotoxic activity are further re-stimulated. An additional six days later, these cell lines are tested for cytotoxic activity on [0612] 51Cr labeled Jurkat-A2.1/Kb target cells in the absence or presence of peptide, and also tested on 51Cr labeled target cells bearing the endogenously synthesized antigen, i.e. cells that are stably transfected with 151P3D4 expression vectors.
  • The results demonstrate that CTL lines obtained from animals primed with peptide epitope recognize endogenously synthesized 151P3D4 antigen. The choice of transgenic mouse model to be used for such an analysis depends upon the epitope(s) that are being evaluated. In addition to HLA-A*0201/K[0613] b transgenic mice, several other transgenic mouse models including mice with human A11, which may also be used to evaluate A3 epitopes, and B7 alleles have been characterized and others (e.g., transgenic mice for HLA-A1 and A24) are being developed. HLA-DR1 and HLA-DR3 mouse models have also been developed, which may be used to evaluate HTL epitopes.
    • Example 20
  • Activity of CTL-HTL Conjugated Epitopes in Transgenic Mice [0614]
  • This example illustrates the induction of CTLs and HTLs in transgenic mice, by use of a 151P3D4-derived CTL and HTL peptide vaccine compositions. The vaccine composition used herein comprise peptides to be administered to a patient with a 151P3D4-expressing tumor. The peptide composition can comprise multiple CTL and/or HTL epitopes. The epitopes are identified using methodology as described herein. This example also illustrates that enhanced immunogenicity can be achieved by inclusion of one or more HTL epitopes in a CTL vaccine composition; such a peptide composition can comprise an HTL epitope conjugated to a CTL epitope. The CTL epitope can be one that binds to multiple HLA family members at an affinity of 500 nM or less, or analogs of that epitope. The peptides may be lipidated, if desired. [0615]
  • Immunization procedures: Immunization of transgenic mice is performed as described (Alexander et al., [0616] J. Immunol. 159:4753-4761, 1997). For example, A2/Kb mice, which are transgenic for the human HLA A2.1 allele and are used to confirm the immunogenicity of HLA-A*0201 motif- or HLA-A2 supermotif-bearing epitopes, and are primed subcutaneously (base of the tail) with a 0.1 ml of peptide in Incomplete Freund's Adjuvant, or if the peptide composition is a lipidated CTL/HTL conjugate, in DMSO/saline, or if the peptide composition is a polypeptide, in PBS or Incomplete Freund's Adjuvant. Seven days after priming, splenocytes obtained from these animals are restimulated with syngenic irradiated LPS-activated lymphoblasts coated with peptide.
  • Cell lines: Target cells for peptide-specific cytotoxicity assays are Jurkat cells transfected with the HLA-A2.1/K[0617] b chimeric gene (e.g., Vitiello et al., J. Exp. Med. 173:1007, 1991)
  • In vitro CTL activation: One week after priming, spleen cells (30×10[0618] 6 cells/flask) are co-cultured at 37° C. with syngeneic, irradiated (3000 rads), peptide coated lymphoblasts (10×106 cells/flask) in 10 ml of culture medium/T25 flask. After six days, effector cells are harvested and assayed for cytotoxic activity.
  • Assay for cytotoxic activity: Target cells (1.0 to 1.5×10[0619] 6) are incubated at 37° C. in the presence of 200 μl of 51Cr. After 60 minutes, cells are washed three times and resuspended in R10 medium. Peptide is added where required at a concentration of 1 μg/ml. For the assay, 104 51Cr-labeled target cells are added to different concentrations of effector cells (final volume of 200 μl) in U-bottom 96-well plates. After a six hour incubation period at 37° C., a 0.1 ml aliquot of supernatant is removed from each well and radioactivity is determined in a Micromedic automatic gamma counter. The percent specific lysis is determined by the formula: percent specific release=100×(experimental release−spontaneous release)/(maximum release−spontaneous release). To facilitate comparison between separate CTL assays run under the same conditions, % 51Cr release data is expressed as lytic units/106 cells. One lytic unit is arbitrarily defined as the number of effector cells required to achieve 30% lysis of 10,000 target cells in a six hour 51Cr release assay. To obtain specific lytic units/106, the lytic units/106 obtained in the absence of peptide is subtracted from the lytic units/106 obtained in the presence of peptide. For example, if 30% 51Cr release is obtained at the effector (E): target (T) ratio of 50:1 (i.e., 5×105 effector cells for 10,000 targets) in the absence of peptide and 5:1 (i.e., 5×104 effector cells for 10,000 targets) in the presence of peptide, the specific lytic units would be: [(1/50,000)−(1/500,000)]×10 6=18 LU.
  • The results are analyzed to assess the magnitude of the CTL responses of animals injected with the immunogenic CTL/HTL conjugate vaccine preparation and are compared to the magnitude of the CTL response achieved using, for example, CTL epitopes as outlined above in the Example entitled “Confirmation of Immunogenicity.” Analyses similar to this may be performed to confirm the immunogenicity of peptide conjugates containing multiple CTL epitopes and/or multiple HTL epitopes. In accordance with these procedures, it is found that a CTL response is induced, and concomitantly that an HTL response is induced upon administration of such compositions. [0620]
    • Example 21
  • Selection of CTL and HTL Epitopes for Inclusion in a 151P3D4-Specific Vaccine. [0621]
  • This example illustrates a procedure for selecting peptide epitopes for vaccine compositions of the invention. The peptides in the composition can be in the form of a nucleic acid sequence, either single or one or more sequences (i.e., minigene) that encodes peptide(s), or can be single and/or polyepitopic peptides. [0622]
  • The following principles are utilized when selecting a plurality of epitopes for inclusion in a vaccine composition. Each of the following principles is balanced in order to make the selection. [0623]
  • Epitopes are selected which, upon administration, mimic immune responses that are correlated with 151P3D4 clearance. The number of epitopes used depends on observations of patients who spontaneously clear 151P3D4. For example, if it has been observed that patients who spontaneously clear 151P3D4-expressing cells generate an immune response to at least three (3) epitopes from 151P3D4 antigen, then at least three epitopes should be included for HLA class I. A similar rationale is used to determine HLA class II epitopes. [0624]
  • Epitopes are often selected that have a binding affinity of an IC[0625] 50 of 500 nM or less for an HLA class I molecule, or for class II, an IC50 of 1000 nM or less; or HLA Class I peptides with high binding scores from the BIMAS web site, at URL bimas.dcrt.nih.gov/.
  • In order to achieve broad coverage of the vaccine through out a diverse population, sufficient supermotif bearing peptides, or a sufficient array of allele-specific motif bearing peptides, are selected to give broad population coverage. In one embodiment, epitopes are selected to provide at least 80% population coverage. A Monte Carlo analysis, a statistical evaluation known in the art, can be employed to assess breadth, or redundancy, of population coverage. [0626]
  • When creating polyepitopic compositions, or a minigene that encodes same, it is typically desirable to generate the smallest peptide possible that encompasses the epitopes of interest. The principles employed are similar, if not the same, as those employed when selecting a peptide comprising nested epitopes. For example, a protein sequence for the vaccine composition is selected because it has maximal number of epitopes contained within the sequence, i.e., it has a high concentration of epitopes. Epitopes may be nested or overlapping (i.e., frame shifted relative to one another). For example, with overlapping epitopes, two 9-mer epitopes and one 10-mer epitope can be present in a 10 amino acid peptide. Each epitope can be exposed and bound by an HLA molecule upon administration of such a peptide. A multi-epitopic, peptide can be generated synthetically, recombinantly, or via cleavage from the native source. Alternatively, an analog can be made of this native sequence, whereby one or more of the epitopes comprise substitutions that alter the cross-reactivity and/or binding affinity properties of the polyepitopic peptide. Such a vaccine composition is administered for therapeutic or prophylactic purposes. This embodiment provides for the possibility that an as yet undiscovered aspect of immune system processing will apply to the native nested sequence and thereby facilitate the production of therapeutic or prophylactic immune response-inducing vaccine compositions. Additionally such an embodiment provides for the possibility of motif-bearing epitopes for an HLA makeup that is presently unknown. Furthermore, this embodiment (absent the creating of any analogs) directs the immune response to multiple peptide sequences that are actually present in 151P3D4, thus avoiding the need to evaluate any junctional epitopes. Lastly, the embodiment provides an economy of scale when producing nucleic acid vaccine compositions. Related to this embodiment, computer programs can be derived in accordance with principles in the art, which identify in a target sequence, the greatest number of epitopes per sequence length. [0627]
  • A vaccine composition comprised of selected peptides, when administered, is safe, efficacious, and elicits an immune response similar in magnitude to an immune response that controls or clears cells that bear or overexpress 151P3D4. [0628]
    • Example 22
  • Construction of “Minigene” Multi-Enitope DNA Plasmids [0629]
  • This example discusses the construction of a minigene expression plasmid. Minigene plasmids may, of course, contain various configurations of B cell, CTL and/or HTL epitopes or epitope analogs as described herein. [0630]
  • A minigene expression plasmid typically includes multiple CTL and HTL peptide epitopes. In the present example, HLA-A2, -A3, -B7 supermotif-bearing peptide epitopes and HLA-A1 and -A24 motif-bearing peptide epitopes are used in conjunction with DR supermotif-bearing epitopes and/or DR3 epitopes. HLA class I supermotif or motif-bearing peptide epitopes derived 151P3D4, are selected such that multiple supermotifs/motifs are represented to ensure broad population coverage. Similarly, HLA class II epitopes are selected from 151P3D4 to provide broad population coverage, i.e. both HLA DR-1-4-7 supermotif-bearing epitopes and HLA DR-3 motif-bearing epitopes are selected for inclusion in the minigene construct. The selected CTL and HTL epitopes are then incorporated into a minigene for expression in an expression vector. [0631]
  • Such a construct may additionally include sequences that direct the HTL epitopes to the endoplasmic reticulum. For example, the Ii protein may be fused to one or more HTL epitopes as described in the art, wherein the CLIP sequence of the Ii protein is removed and replaced with an HLA class II epitope sequence so that HLA class II epitope is directed to the endoplasmic reticulum, where the epitope binds to an HLA class II molecules. [0632]
  • This example illustrates the methods to be used for construction of a minigene-bearing expression plasmid. Other expression vectors that may be used for ninigene compositions are available and known to those of skill in the art. [0633]
  • The minigene DNA plasmid of this example contains a consensus Kozak sequence and a consensus murine kappa Ig-light chain signal sequence followed by CTL and/or HTL epitopes selected in accordance with principles disclosed herein. The sequence encodes an open reading frame fused to the Myc and His antibody epitope tag coded for by the pcDNA 3.1 Myc-His vector. [0634]
  • Overlapping oligonucleotides that can, for example, average about 70 nucleotides in length with 15 nucleotide overlaps, are synthesized and HPLC-purified. The oligonucleotides encode the selected peptide epitopes as well as appropriate linker nucleotides, Kozak sequence, and signal sequence. The final multiepitope minigene is assembled by extending the overlapping oligonucleotides in three sets of reactions using PCR. A Perkin/Elmer 9600 PCR machine is used and a total of 30 cycles are performed using the following conditions: 95° C. for 15 sec, annealing temperature (5° below the lowest calculated Tm of each primer pair) for 30 sec, and 72° C. for 1 min. [0635]
  • For example, a minigene is prepared as follows. For a first PCR reaction, 5 μg of each of two oligonucleotides are annealed and extended: In an example using eight oligonucleotides, i.e., four pairs of primers, [0636] oligonucleotides 1+2, 3+4, 5+6, and 7+8 are combined in 100 μl reactions contain Pfu polymerase buffer (1×=10 mM KCL, 10 mM (NH4)2SO4, 20 mM Tris-chloride, pH 8.75, 2 mM MgSO4, 0.1% Triton X-100, 100 μg/ml BSA), 0.25 mM each dNTP, and 2.5 U of Pfu polymerase. The full-length dimer products are gel-purified, and two reactions containing the product of 1+2 and 3+4, and the product of 5+6 and 7+8 are mixed, annealed, and extended for 10 cycles. Half of the two reactions are then mixed, and cycles of annealing and extension carried out before flanking primers are added to amplify the full length product. The full-length product is gel-purified and cloned into pCR-blunt (Invitrogen) and individual clones are screened by sequencing.
    • Example 23
  • The Plasmid Construct and the Degree to Which It Induces Immunogenicity. [0637]
  • The degree to which a plasmid construct, for example a plasmid constructed in accordance with the previous Example, is able to induce immunogenicity is confirmed in vitro by determining epitope presentation by APC following transduction or transfection of the APC with an epitope-expressing nucleic acid construct. Such a study determines “antigenicity” and allows the use of human APC. The assay determines the ability of the epitope to be presented by the APC in a context that is recognized by a T cell by quantifying the density of epitope-HLA class I complexes on the cell surface. Quantitation can be performed by directly measuring the amount of peptide eluted from the APC (see, e.g., Sijts et al., [0638] J. Immunol. 156:683-692, 1996; Demotz et al., Nature 342:682-684, 1989); or the number of peptide-HLA class I complexes can be estimated by measuring the amount of lysis or lymphokine release induced by diseased or transfected target cells, and then determining the concentration of peptide necessary to obtain equivalent levels of lysis or lymphokine release (see, e.g., Kageyama et al., J. Immunol. 154:567-576, 1995).
  • Alternatively, immunogenicity is confirmed through in vivo injections into mice and subsequent in vitro assessment of CTL and HTL activity, which are analyzed using cytotoxicity and proliferation assays, respectively, as detailed e.g., in Alexander et al., [0639] Immunity 1:751-761, 1994.
  • For example, to confirm the capacity of a DNA minigene construct containing at least one HLA-A2 supermotif peptide to induce CTLs in vivo, HLA-A2.1/K[0640] b transgenic mice, for example, are immunized intramuscularly with 100 μg of naked cDNA. As a means of comparing the level of CTLs induced by cDNA immunization, a control group of animals is also immunized with an actual peptide composition that comprises multiple epitopes synthesized as a single polypeptide as they would be encoded by the minigene.
  • Splenocytes from immunized animals are stimulated twice with each of the respective compositions (peptide epitopes encoded in the minigene or the polyepitopic peptide), then assayed for peptide-specific cytotoxic activity in a [0641] 51Cr release assay. The results indicate the magnitude of the CTL response directed against the A2-restricted epitope, thus indicating the in vivo immunogenicity of the minigene vaccine and polyepitopic vaccine.
  • It is, therefore, found that the minigene elicits immune responses directed toward the HLA-A2 supermotif peptide epitopes as does the polyepitopic peptide vaccine. A similar analysis is also performed using other HLA-A3 and HLA-B7 transgenic mouse models to assess CTL induction by HLA-A3 and HLA-B7 motif or supermotif epitopes, whereby it is also found that the minigene elicits appropriate immune responses directed toward the provided epitopes. [0642]
  • To confirm the capacity of a class II epitope-encoding minigene to induce HTLs in vivo, DR transgenic mice, or for those epitopes that cross react with the appropriate mouse MHC molecule, I-A[0643] b-restricted mice, for example, are immunized intramuscularly with 100 μg of plasmid DNA. As a means of comparing the level of HTLs induced by DNA immunization, a group of control animals is also immunized with an actual peptide composition emulsified in complete Freund's adjuvant. CD4+ T cells, i.e. HTLs, are purified from splenocytes of immunized animals and stimulated with each of the respective compositions (peptides encoded in the minigene). The HTL response is measured using a 3H-thymidine incorporation proliferation assay, (see, e.g., Alexander et al. Immunity 1:751-761, 1994). The results indicate the magnitude of the HTL response, thus demonstrating the in vivo immunogenicity of the minigene.
  • DNA minigenes, constructed as described in the previous Example, can also be confirmed as a vaccine in combination with a boosting agent using a prime boost protocol. The boosting agent can consist of recombinant protein (e.g., Barnett et al., [0644] Aids Res. and Human Retroviruses 14, Supplement 3:S299-S309, 1998) or recombinant vaccinia, for example, expressing a minigene or DNA encoding the complete protein of interest (see, e.g., Hanke et al., Vaccine 16:439-445, 1998; Sedegah et al., Proc. Natl. Acad. Sci USA 95:7648-53, 1998; Hanke and McMichael, Immunol. Letters 66:177-181, 1999; and Robinson et al., Nature Med. 5:526-34, 1999).
  • For example, the efficacy of the DNA minigene used in a prime boost protocol is initially evaluated in transgenic mice. In this example, A2.1/K[0645] b transgenic mice are immunized IM with 100 μg of a DNA minigene encoding the immunogenic peptides including at least one HLA-A2 supermotif-bearing peptide. After an incubation period (ranging from 3-9 weeks), the mice are boosted IP with 107 pfu/mouse of a recombinant vaccinia virus expressing the same sequence encoded by the DNA minigene. Control mice are immunized with 100 μg of DNA or recombinant vaccinia without the minigene sequence, or with DNA encoding the minigene, but without the vaccinia boost. After an additional incubation period of two weeks, splenocytes from the mice are immediately assayed for peptide-specific activity in an ELISPOT assay. Additionally, splenocytes are stimulated in vitro with the A2-restricted peptide epitopes encoded in the minigene and recombinant vaccinia, then assayed for peptide-specific activity in an alpha, beta and/or gamma IFN ELISA.
  • It is found that the minigene utilized in a prime-boost protocol elicits greater immune responses toward the HLA-A2 supermotif peptides than with DNA alone. Such an analysis can also be performed using HLA-A11 or HLA-B7 transgenic mouse models to assess CTL induction by HLA-A3 or HLA-B7 motif or supermotif epitopes. The use of prime boost protocols in humans is described below in the Example entitled “Induction of CTL Responses Using a Prime Boost Protocol.”[0646]
    • Example 24
  • Peptide Compositions for Prophylactic Uses [0647]
  • Vaccine compositions of the present invention can be used to prevent 151P3D4 expression in persons who are at risk for tumors that bear this antigen. For example, a polyepitopic peptide epitope composition (or a nucleic acid comprising the same) containing multiple CTL and HTL epitopes such as those selected in the above Examples, which are also selected to target greater than 80% of the population, is administered to individuals at risk for a 151P3D4-associated tumor. [0648]
  • For example, a peptide-based composition is provided as a single polypeptide that encompasses multiple epitopes. The vaccine is typically administered in a physiological solution that comprises an adjuvant, such as Incomplete Freunds Adjuvant. The dose of peptide for the initial immunization is from about 1 to about 50,000 μg, generally 100-5,000 μg, for a 70 kg patient. The initial administration of vaccine is followed by booster dosages at 4 weeks followed by evaluation of the magnitude of the immune response in the patient, by techniques that determine the presence of epitope-specific CTL populations in a PBMC sample. Additional booster doses are administered as required. The composition is found to be both safe and efficacious as a prophylaxis against 151P3D4-associated disease. [0649]
  • Alternatively, a composition typically comprising transfecting agents is used for the administration of a nucleic acid-based vaccine in accordance with methodologies known in the art and disclosed herein. [0650]
    • Example 25
  • Polyepitopic Vaccine Compositions Derived from Native 151P3D4 Sequences [0651]
  • A native 151P3D4 polyprotein sequence is analyzed, preferably using computer algorithms defined for each class I and/or class II supermotif or motif, to identify “relatively short” regions of the polyprotein that comprise multiple epitopes. The “relatively short” regions are preferably less in length than an entire native antigen. This relatively short sequence that contains multiple distinct or overlapping, “nested” epitopes can be used to generate a minigene construct. The construct is engineered to express the peptide, which corresponds to the native protein sequence. The “relatively short” peptide is generally less than 250 amino acids in length, often less than 100 amino acids in length, preferably less than 75 amino acids in length, and more preferably less than 50 amino acids in length. The protein sequence of the vaccine composition is selected because it has maximal number of epitopes contained within the sequence, i.e., it has a high concentration of epitopes. As noted herein, epitope motifs may be nested or overlapping (i.e., frame shifted relative to one another). For example, with overlapping epitopes, two 9-mer epitopes and one 10-mer epitope can be present in a 10 amino acid peptide. Such a vaccine composition is administered for therapeutic or prophylactic purposes. [0652]
  • The vaccine composition will include, for example, multiple CTL epitopes from 151P3D4 antigen and at least one HTL epitope. This polyepitopic native sequence is administered either as a peptide or as a nucleic acid sequence which encodes the peptide. Alternatively, an analog can be made of this native sequence, whereby one or more of the epitopes comprise substitutions that alter the cross-reactivity and/or binding affinity properties of the polyepitopic peptide. [0653]
  • The embodiment of this example provides for the possibility that an as yet undiscovered aspect of immune system processing will apply to the native nested sequence and thereby facilitate the production of therapeutic or prophylactic immune response-inducing vaccine compositions. Additionally, such an embodiment provides for the possibility of motif-bearing epitopes for an HLA makeup(s) that is presently unknown. Furthermore, this embodiment (excluding an analoged embodiment) directs the immune response to multiple peptide sequences that are actually present in native 151P3D4, thus avoiding the need to evaluate any junctional epitopes. Lastly, the embodiment provides an economy of scale when producing peptide or nucleic acid vaccine compositions. [0654]
  • Related to this embodiment, computer programs are available in the art which can be used to identify in a target sequence, the greatest number of epitopes per sequence length. [0655]
    • Example 26
  • Polyepitopic Vaccine Compositions from Multiple Antigens [0656]
  • The 151P3D4 peptide epitopes of the present invention are used in conjunction with epitopes from other target tumor-associated antigens, to create a vaccine composition that is useful for the prevention or treatment of cancer that expresses 151P3D4 and such other antigens. For example, a vaccine composition can be provided as a single polypeptide that incorporates multiple epitopes from 151P3D4 as well as tumor-associated antigens that are often expressed with a target cancer associated with 151P3D4 expression, or can be administered as a composition comprising a cocktail of one or more discrete epitopes. Alternatively, the vaccine can be administered as a minigene construct or as dendritic cells which have been loaded with the peptide epitopes in vitro. [0657]
    • Example 27
  • Use of Peptides to Evaluate an Immune Response [0658]
  • Peptides of the invention may be used to analyze an immune response for the presence of specific antibodies, CTL or HTL directed to 151P3D4. Such an analysis can be performed in a manner described by Ogg et al., [0659] Science 279:2103-2106, 1998. In this Example, peptides in accordance with the invention are used as a reagent for diagnostic or prognostic purposes, not as an immunogen.
  • In this example highly sensitive human leukocyte antigen tetrameric complexes (“tetramers”) are used for a cross-sectional analysis of, for example, 151P3D4 HLA-A*0201-specific CTL frequencies from HLA A*0201-positive individuals at different stages of disease or following immunization comprising a 151P3D4 peptide containing an A*0201 motif Tetrameric complexes are synthesized as described (Musey et al., [0660] N. Engl. J. Med. 337:1267, 1997). Briefly, purified HLA heavy chain (A*0201 in this example) and β2-microglobulin are synthesized by means of a prokaryotic expression system. The heavy chain is modified by deletion of the transmembrane-cytosolic tail and COOH-terminal addition of a sequence containing a BirA enzymatic biotinylation site. The heavy chain, β2-microglobulin, and peptide are refolded by dilution. The 45-kD refolded product is isolated by fast protein liquid chromatography and then biotinylated by BirA in the presence of biotin (Sigma, St. Louis, Mo.), adenosine 5′ triphosphate and magnesium. Streptavidin-phycoerythrin conjugate is added in a 1:4 molar ratio, and the tetrameric product is concentrated to 1 mg/ml. The resulting product is referred to as tetramer-phycoerythrin.
  • For the analysis of patient blood samples, approximately one million PBMCs are centrifuged at 300 g for 5 minutes and resuspended in 50 μl of cold phosphate-buffered saline. Tri-color analysis is performed with the tetramer-phycoerythrin, along with anti-CD8-Tricolor, and anti-CD38. The PBMCs are incubated with tetramer and antibodies on ice for 30 to 60 min and then washed twice before formaldehyde fixation. Gates are applied to contain >99.98% of control samples. Controls for the tetramers include both A*0201-negative individuals and A*0201-positive non-diseased donors. The percentage of cells stained with the tetramer is then determined by flow cytometry. The results indicate the number of cells in the PBMC sample that contain epitope-restricted CTLs, thereby readily indicating the extent of immune response to the 151P3D4 epitope, and thus the status of exposure to 151P3D4, or exposure to a vaccine that elicits a protective or therapeutic response. [0661]
    • Example 28
  • Use of Peptide Epitopes to Evaluate Recall Responses [0662]
  • The peptide epitopes of the invention are used as reagents to evaluate T cell responses, such as acute or recall responses, in patients. Such an analysis may be performed on patients who have recovered from 151P3D4-associated disease or who have been vaccinated with a 151P3D4 vaccine. [0663]
  • For example, the class I restricted CTL response of persons who have been vaccinated may be analyzed. The vaccine may be any 151P3D4 vaccine. PBMC are collected from vaccinated individuals and HLA typed. Appropriate peptide epitopes of the invention that, optimally, bear supermotifs to provide cross-reactivity with multiple HLA supertype family members, are then used for analysis of samples derived from individuals who bear that HLA type. [0664]
  • PBMC from vaccinated individuals are separated on Ficoll-Histopaque density gradients (Sigma Chemical Co., St. Louis, Mo.), washed three times in HBSS (GIBCO Laboratories), resuspended in RPMI-1640 (GIBCO Laboratories) supplemented with L-glutamine (2 mM), penicillin (50 U/ml), streptomycin (50 μg/ml), and Hepes (10 mM) containing 10% heat-inactivated human AB serum (complete RPMI) and plated using microculture formats. A synthetic peptide comprising an epitope of the invention is added at 10 μg/ml to each well and HBV core 128-140 epitope is added at 1 μg/ml to each well as a source of T cell help during the first week of stimulation. [0665]
  • In the microculture format, 4×10[0666] 5 PBMC are stimulated with peptide in 8 replicate cultures in 96-well round bottom plate in 100 μl/well of complete RPMI. On days 3 and 10, 100 μl of complete RPMI and 20 U/ml final concentration of rIL-2 are added to each well. On day 7 the cultures are transferred into a 96-well flat-bottom plate and restimulated with peptide, rIL-2 and 105 irradiated (3,000 rad) autologous feeder cells. The cultures are tested for cytotoxic activity on day 14. A positive CTL response requires two or more of the eight replicate cultures to display greater than 10% specific 51Cr release, based on comparison with non-diseased control subjects as previously described (Rehermann, et al., Nature Med. 2:1104,1108, 1996; Rehermann et al., J. Clin. Invest. 97:1655-1665, 1996; and Rehermann et al. J. Clin. Invest. 98:1432-1440, 1996).
  • Target cell lines are autologous and allogeneic EBV-transformed B-LCL that are either purchased from the American Society for Histocompatibility and Immunogenetics (ASHI, Boston, Mass.) or established from the pool of patients as described (Guilhot, et al. [0667] J. Virol. 66:2670-2678, 1992).
  • Cytotoxicity assays are performed in the following manner. Target cells consist of either allogeneic HLA-matched or autologous EBV-transformed B lymphoblastoid cell line that are incubated overnight with the synthetic peptide epitope of the invention at 10 μM, and labeled with 100 μCi of [0668] 51Cr (Amersham Corp., Arlington Heights, Ill.) for 1 hour after which they are washed four times with HBSS.
  • Cytolytic activity is determined in a standard 4-h, split well [0669] 51Cr release assay using U-bottomed 96 well plates containing 3,000 targets/well. Stimulated PBMC are tested at effector/target (E/T) ratios of 20-50:1 on day 14. Percent cytotoxicity is determined from the formula: 100×[(experimental release-spontaneous release)/maximum release-spontaneous release)]. Maximum release is determined by lysis of targets by detergent (2% Triton X-100; Sigma Chemical Co., St. Louis, Mo.). Spontaneous release is <25% of maximum release for all experiments.
  • The results of such an analysis indicate the extent to which HLA-restricted CTL populations have been stimulated by previous exposure to 151P3D4 or a 151P3D4 vaccine. [0670]
  • Similarly, Class II restricted HTL responses may also be analyzed. Purified PBMC are cultured in a 96-well flat bottom plate at a density of 1.5×10[0671] 5 cells/well and are stimulated with 10 μg/ml synthetic peptide of the invention, whole 151P3D4 antigen, or PHA. Cells are routinely plated in replicates of 4-6 wells for each condition. After seven days of culture, the medium is removed and replaced with fresh medium containing 10 U/ml IL-2. Two days later, 1 μCi 3H-thymidine is added to each well and incubation is continued for an additional 18 hours. Cellular DNA is then harvested on glass fiber mats and analyzed for 3H-thymidine incorporation. Antigen-specific T cell proliferation is calculated as the ratio of 3H-thymidine incorporation in the presence of antigen divided by the 3H-thymidine incorporation in the absence of antigen.
    • Example 29
  • Induction of Specific CTL Response in Humans [0672]
  • A human clinical trial for an immunogenic composition comprising CTL and HTL epitopes of the invention is set up as an IND Phase I, dose escalation study and carried out as a randomized, double-blind, placebo-controlled trial. Such a trial is designed, for example, as follows: [0673]
  • A total of about 27 individuals are enrolled and divided into 3 groups: [0674]
  • Group I: 3 subjects are injected with placebo and 6 subjects are injected with 5 μg of peptide composition; [0675]
  • Group II: 3 subjects are injected with placebo and 6 subjects are injected with 50 μg peptide composition; [0676]
  • Group III: 3 subjects are injected with placebo and 6 subjects are injected with 500 μg of peptide composition. [0677]
  • After 4 weeks following the first injection, all subjects receive a booster inoculation at the same dosage. [0678]
  • The endpoints measured in this study relate to the safety and tolerability of the peptide composition as well as its immunogenicity. Cellular immune responses to the peptide composition are an index of the intrinsic activity of this the peptide composition, and can therefore be viewed as a measure of biological efficacy. The following summarize the clinical and laboratory data that relate to safety and efficacy endpoints. [0679]
  • Safety: The incidence of adverse events is monitored in the placebo and drug treatment group and assessed in terms of degree and reversibility. [0680]
  • Evaluation of Vaccine Efficacy: For evaluation of vaccine efficacy, subjects are bled before and after injection. Peripheral blood mononuclear cells are isolated from fresh heparinized blood by Ficoll-Hypaque density gradient centrifugation, aliquoted in freezing media and stored frozen. Samples are assayed for CTL and HTL activity. [0681]
  • The vaccine is found to be both safe and efficacious. [0682]
    • Example 30
  • Phase II Trials in Patients Expressing 151P3D4 [0683]
  • Phase II trials are performed to study the effect of administering the CTL-HTL peptide compositions to patients having cancer that expresses 151P3D4. The main objectives of the trial are to determine an effective dose and regimen for inducing CTLs in cancer patients that express 151P3D4, to establish the safety of inducing a CTL and HTL response in these patients, and to see to what extent activation of CTLs improves the clinical picture of these patients, as manifested, e.g., by the reduction and/or shrinking of lesions. Such a study is designed, for example, as follows: [0684]
  • The studies are performed in multiple centers. The trial design is an open-label, uncontrolled, dose escalation protocol wherein the peptide composition is administered as a single dose followed six weeks later by a single booster shot of the same dose. The dosages are 50, 500 and 5,000 micrograms per injection. Drug-associated adverse effects (severity and reversibility) are recorded. [0685]
  • There are three patient groupings. The first group is injected with 50 micrograms of the peptide composition and the second and third groups with 500 and 5,000 micrograms of peptide composition, respectively. The patients within each group range in age from 21-65 and represent diverse ethnic backgrounds. All of them have a tumor that expresses 151P3D4. [0686]
  • Clinical manifestations or antigen-specific T-cell responses are monitored to assess the effects of administering the peptide compositions. The vaccine composition is found to be both safe and efficacious in the treatment of 151P3D4-associated disease. [0687]
    • Example 31
  • Induction of CTL Responses Using a Prime Boost Protocol [0688]
  • A prime boost protocol similar in its underlying principle to that used to confirm the efficacy of a DNA vaccine in transgenic mice, such as described above in the Example entitled “The Plasmid Construct and the Degree to Which It Induces Immunogenicity,” can also be used for the administration of the vaccine to humans. Such a vaccine regimen can include an initial administration of, for example, naked DNA followed by a boost using recombinant virus encoding the vaccine, or recombinant protein/polypeptide or a peptide mixture administered in an adjuvant. [0689]
  • For example, the initial immunization may be performed using an expression vector, such as that constructed in the Example entitled “Construction of “Minigene” Multi-Epitope DNA Plasmids” in the form of naked nucleic acid administered IM (or SC or ID) in the amounts of 0.5-5 mg at multiple sites. The nucleic acid (0.1 to 1000 μg) can also be administered using a gene gun. Following an incubation period of 3-4 weeks, a booster dose is then administered. The booster can be recombinant fowlpox virus administered at a dose of 5-10[0690] 7 to 5×109 pfu. An alternative recombinant virus, such as an MVA, canarypox, adenovirus, or adeno-associated virus, can also be used for the booster, or the polyepitopic protein or a mixture of the peptides can be administered. For evaluation of vaccine efficacy, patient blood samples are obtained before immunization as well as at intervals following administration of the initial vaccine and booster doses of the vaccine. Peripheral blood mononuclear cells are isolated from fresh heparinized blood by Ficoll-Hypaque density gradient centrifugation, aliquoted in freezing media and stored frozen. Samples are assayed for CTL and HTL activity.
  • Analysis of the results indicates that a magnitude of response sufficient to achieve a therapeutic or protective immunity against 151P3D4 is generated. [0691]
    • Example 32
  • Administration of Vaccine Compositions Using Dendritic Cells (DC) [0692]
  • Vaccines comprising peptide epitopes of the invention can be administered using APCs, or “professional” APCs such as DC. In this example, peptide-pulsed DC are administered to a patient to stimulate a CTL response in vivo. In this method, dendritic cells are isolated, expanded, and pulsed with a vaccine comprising peptide CTL and HTL epitopes of the invention. The dendritic cells are infused back into the patient to elicit CTL and HTL responses in vivo. The induced CTL and HTL then destroy or facilitate destruction, respectively, of the target cells that bear the 151P3D4 protein from which the epitopes in the vaccine are derived. [0693]
  • For example, a cocktail of epitope-comprising peptides is administered ex vivo to PBMC, or isolated DC therefrom. A pharmaceutical to facilitate harvesting of DC can be used, such as Progenipoietin™ (Monsanto, St. Louis, Mo.) or GM-CSF/IL-4. After pulsing the DC with peptides, and prior to reinfusion into patients, the DC are washed to remove unbound peptides. [0694]
  • As appreciated clinically, and readily determined by one of skill based on clinical outcomes, the number of DC reinfused into the patient can vary (see, e.g., [0695] Nature Med. 4:328, 1998; Nature Med. 2:52, 1996 and Prostate 32:272, 1997). Although 2-50×106 DC per patient are typically administered, larger number of DC, such as 107 or 108 can also be provided. Such cell populations typically contain between 50-90% DC.
  • In some embodiments, peptide-loaded PBMC are injected into patients without purification of the DC. For example, PBMC generated after treatment with an agent such as Progenipoietin™ are injected into patients without purification of the DC. The total number of PBMC that are administered often ranges from 10[0696] 8 to 1010. Generally, the cell doses injected into patients is based on the percentage of DC in the blood of each patient, as determined, for example, by immunofluorescence analysis with specific anti-DC antibodies. Thus, for example, if Progenipoietin™ mobilizes 2% DC in the peripheral blood of a given patient, and that patient is to receive 5×106 DC, then the patient will be injected with a total of 2.5×108 peptide-loaded PBMC. The percent DC mobilized by an agent such as Progenipoietin™ is typically estimated to be between 2-10%, but can vary as appreciated by one of skill in the art.
  • Ex vivo activation of CTL/HTL responses [0697]
  • Alternatively, ex vivo CTL or HTL responses to 151P3D4 antigens can be induced by incubating, in tissue culture, the patient's, or genetically compatible, CTL or HTL precursor cells together with a source of APC, such as DC, and immunogenic peptides. After an appropriate incubation time (typically about 7-28 days), in which the precursor cells are activated and expanded into effector cells, the cells are infused into the patient, where they will destroy (CTL) or facilitate destruction (HTL) of their specific target cells, i.e., tumor cells. [0698]
    • Example 33
  • An Alternative Method of Identifying and Confirming Motif-Bearing Peptides [0699]
  • Another method of identifying and confirming motif-bearing peptides is to elute them from cells bearing defined MHC molecules. For example, EBV transformed B cell lines used for tissue typing have been extensively characterized to determine which HLA molecules they express. In certain cases these cells express only a single type of HLA molecule. These cells can be transfected with nucleic acids that express the antigen of interest, e.g. 151P3D4. Peptides produced by endogenous antigen processing of peptides produced as a result of transfection will then bind to HLA molecules within the cell and be transported and displayed on the cell's surface. Peptides are then eluted from the HLA molecules by exposure to mild acid conditions and their amino acid sequence determined, e.g., by mass spectral analysis (e.g., Kubo et al., [0700] J. Immunol. 152:3913, 1994). Because the majority of peptides that bind a particular HLA molecule are motif-bearing, this is an alternative modality for obtaining the motif-bearing peptides correlated with the particular HLA molecule expressed on the cell.
  • Alternatively, cell lines that do not express endogenous HLA molecules can be transfected with an expression construct encoding a single HLA allele. These cells can then be used as described, i.e., they can then be transfected with nucleic acids that encode 151P3D4 to isolate peptides corresponding to 151P3D4 that have been presented on the cell surface. Peptides obtained from such an analysis will bear motif(s) that correspond to binding to the single HLA allele that is expressed in the cell. [0701]
  • As appreciated by one in the art, one can perform a similar analysis on a cell bearing more than one HLA allele and subsequently determine peptides specific for each HLA allele expressed. Moreover, one of skill would also recognize that means other than transfection, such as loading with a protein antigen, can be used to provide a source of antigen to the cell. [0702]
    • Example 34
  • Complementary Polynucleotides [0703]
  • Sequences complementary to the 151P3D4-encoding sequences, or any parts thereof, are used to detect, decrease, or inhibit expression of naturally occurring 151P3D4. Although use of oligonucleotides comprising from about 15 to 30 base pairs is described, essentially the same procedure is used with smaller or with larger sequence fragments. Appropriate oligonucleotides are designed using, e.g., OLIGO 4.06 software (National Biosciences) and the coding sequence of 151P3D4. To inhibit transcription, a complementary oligonucleotide is designed from the most unique 5′ sequence and used to prevent promoter binding to the coding sequence. To inhibit translation, a complementary oligonucleotide is designed to prevent ribosomal binding to a 151P3D4-encoding transcript. [0704]
    • Example 35
  • Purification of Naturally-Occurring or Recombinant 151P3D4 Using 151P3D4-Specific Antibodies [0705]
  • Naturally occurring or recombinant 151P3D4 is substantially purified by immunoaffinity chromatography using antibodies specific for 151P3D4. An immunoaffinity column is constructed by covalently coupling anti-151P3D4 antibody to an activated chromatographic resin, such as CNBr-activated SEPHAROSE (Amersham Pharmacia Biotech). After the coupling, the resin is blocked and washed according to the manufacturer's instructions. [0706]
  • Media containing 151P3D4 are passed over the immunoaffinity column, and the column is washed under conditions that allow the preferential absorbance of 151P3D4 (e.g., high ionic strength buffers in the presence of detergent). The column is eluted under conditions that disrupt antibody/151P3D4 binding (e.g., a buffer of [0707] pH 2 to pH 3, or a high concentration of a chaotrope, such as urea or thiocyanate ion), and GCR.P is collected.
    • Example 36
  • Identification of Molecules Which Interact with 151P3D4 [0708]
  • 151P3D4, or biologically active fragments thereof, are labeled with 121 1 Bolton-Hunter reagent. (See, e.g., Bolton et al. (1973) Biochem. J. 133:529.) Candidate molecules previously arrayed in the wells of a multi-well plate are incubated with the labeled 151P3D4, washed, and any wells with labeled 151P3D4 complex are assayed. Data obtained using different concentrations of 151P3D4 are used to calculate values for the number, affinity, and association of 151P3D4 with the candidate molecules. [0709]
    • Example 37
  • In vivo Assay for 151P3D4 Tumor Growth Promotion [0710]
  • The effect of the 151P3D4 protein on tumor cell growth is evaluated in vivo by evaluating tumor development and growth of cells expressing or lacking 151P3D4. For example, SCID mice are injected subcutaneously on each flank with 1×10[0711] 6 of either 3T3, bladder, kidney or ovary cancer cell lines (e.g. SCABER, J82, PA-1, CaOv3, A498 or 769P cells) containing tkNeo empty vector or 151P3D4. At least two strategies may be used: (1) Constitutive 151P3D4 expression under regulation of a promoter such as a constitutive promoter obtained from the genomes of viruses such as polyoma virus, fowlpox virus (UK 2,211,504 published Jul. 5, 1989), adenovirus (such as Adenovirus 2), bovine papilloma virus, avian sarcoma virus, cytomegalovirus, a retrovirus, hepatitis-B virus and Simian Virus 40 (SV40), or from heterologous mammalian promoters, e.g., the actin promoter or an immunoglobulin promoter, provided such promoters are compatible with the host cell systems, and (2) Regulated expression under control of an inducible vector system, such as ecdysone, tetracycline, etc., provided such promoters are compatible with the host cell systems. Tumor volume is then monitored by caliper measurement at the appearance of palpable tumors and followed over time to determine if 151P3D4-expressing cells grow at a faster rate and whether tumors produced by 151P3D4-expressing cells demonstrate characteristics of altered aggressiveness (e.g. enhanced metastasis, vascularization, reduced responsiveness to chemotherapeutic drugs).
  • Additionally, mice can be implanted with 1×10[0712] 5 of the same cells orthotopically to determine if 151P3D4 has an effect on local growth in the bladder, kidney or ovary, and whether 151P3D4 affects the ability of the cells to metastasize, specifically to lymph nodes, adrenal, liver and bone (Miki T et al, Oncol Res. 2001;12:209; Fu X et al, Int J Cancer. 1991, 49:938; Kiguchi Ket al, Clin Exp Metastasis. 1998, 16:751).
  • The assay is also useful to determine the 151P3D4 inhibitory effect of candidate therapeutic compositions, such as for example, 151P3D4 intrabodies, 151P3D4 antisense molecules and ribozymes. [0713]
    • Example 38
  • 151P3D4 Monoclonal Antibody-Mediated Inhibition of Bladder, Kidney and Ovarian Tumors In Vivo [0714]
  • The significant expression of 151P3D4 in cancer tissues, together with its restrictive expression in normal tissues makes 151P3D4 a good target for antibody therapy. Similarly, 151P3D4 is a target for T cell-based immunotherapy. Thus, the therapeutic efficacy of anti-151P3D4 mAbs in human bladder cancer xenograft mouse models is evaluated by using recombinant cell lines such as SCABER-151P3D4, J82-151P3D4, and 3T3-151P3D4 (see, e.g., Kaighn, M. E., et al., Invest Urol, 1979. 17(1): p. 16-23). Similarly anti-151P3D4 mAbs are evaluated in human kidney and ovarian cancer xenograft models using recombinant cell lines such as A498-151P3D4 and PA1-151P3D4. [0715]
  • Antibody efficacy on tumor growth and metastasis formation is studied, e.g., in a mouse orthotopic bladder cancer xenograft model, a mouse kidney cancer xenograft model and a mouse ovarian cancer xenograft model. The antibodies can be unconjugated, as discussed in this Example, or can be conjugated to a therapeutic modality, as appreciated in the art. Anti-151P3D4 mAbs inhibit formation of kidney, ovarian and bladder xenografts. Anti-151P3D4 mAbs also retard the growth of established orthotopic tumors and prolonged survival of tumor-bearing nice. These results indicate the utility of anti-151P3D4 mAbs in the treatment of local and advanced stages of ovarian, kidney and bladder cancer. (See, e.g., Saffran, D., et al., PNAS 10:1073-1078 or www.pnas.org/cgi/doi/10.1073/pnas.051624698). [0716]
  • Administration of the anti-151P3D4 mAbs led to retardation of established orthotopic tumor growth and inhibition of metastasis to distant sites, resulting in a significant prolongation in the survival of tumor-bearing mice. These studies indicate that 151P3D4 as an attractive target for immunotherapy and demonstrate the therapeutic potential of anti-151P3D4 mAbs for the treatment of local and metastatic cancer. This example demonstrates that unconjugated 151P3D4 monoclonal antibodies are effective to inhibit the growth of human bladder, kidney and ovarian tumor xenografts grown in SCID mice; accordingly a combination of such efficacious monoclonal antibodies is also effective. [0717]
  • Tumor Inhibition Using Multiple Unconjugated 151P3D4 mAbs [0718]
  • Materials and Methods [0719]
  • 151P3D4 Monoclonal Antibodies: [0720]
  • Monoclonal antibodies are raised against 151P3D4 as described in the Example entitled “Generation of 151P3D4 Monoclonal Antibodies (mAbs).” The antibodies are characterized by ELISA, Western blot, FACS, and immunoprecipitation for their capacity to bind 151P3D4. Epitope mapping data for the anti-151P3D4 mAbs, as determined by ELISA and Western analysis, recognize epitopes on the 151P3D4 protein. Immunohistochemical analysis of prostate cancer tissues and cells with these antibodies is performed. [0721]
  • The monoclonal antibodies are purified from ascites or hybridoma tissue culture supernatants by Protein-G Sepharose chromatography, dialyzed against PBS, filter sterilized, and stored at −20° C. Protein determinations are performed by a Bradford assay (Bio-Rad, Hercules, Calif.). A therapeutic monoclonal antibody or a cocktail comprising a mixture of individual monoclonal antibodies is prepared and used for the treatment of mice receiving subcutaneous or orthotopic injections of SCABER, J82, A498, 769P, CaOv1 or PA1 tumor xenografts. [0722]
  • Cell Lines [0723]
  • The bladder, kidney and ovary carcinoma cell lines, SCABER, J82, A498, 769P, CaOv1 and PA1 as well as the fibroblast line NIH 3T3 (American Type Culture Collection) are maintained in DMEM supplemented with L-glutamine and 10% FBS. [0724]
  • A SCABER-151P3D4, J82-151P3D4, A498-151P3D4, 769P-151P3D4, CaOv1-151P3D4, PA1-151P3D4 and 3T3-151P3D4 cell populations are generated by retroviral gene transfer as described in Hubert, R. S., et al., Proc Natl Acad Sci USA, 1999. 96(25): 14523. [0725]
  • Xenograft Mouse Models. [0726]
  • Subcutaneous (s.c.) tumors are generated by injection of 1×10[0727] 6 cancer cells mixed at a 1:1 dilution with Matrigel (Collaborative Research) in the right flank of male SCID mice. To test antibody efficacy on tumor formation, i.p. antibody injections are started on the same day as tumor-cell injections. As a control, mice are injected with either purified mouse IgG (ICN) or PBS; or a purified monoclonal antibody that recognizes an irrelevant antigen not expressed in human cells. Tumor sizes are determined by caliper measurements, and the tumor volume is calculated as: Length×Width×Height. Mice with s.c. tumors greater than 1.5 cm in diameter are sacrificed.
  • Orthotopic injections are performed under anesthesia by using ketamine/xylazine. For bladder orthotopic studies, an incision is made through the abdomen to expose the bladder, and tumor cells (5×10[0728] 5) mixed with Matrigel are injected into the bladder wall in a 10-μl volume. To monitor tumor growth, mice are palpated and blood is collected on a weekly basis to measure BTA levels. For kidney and ovary orthopotic models, an incision is made through the abdominal muscles to expose the kidney or the ovary. Tumor cells mixed with Matrigel are injected under the kidney capsule or into the ovary in a 10-μl volume (Yoshida Y et al, Anticancer Res. 1998, 18:327; Ahn et al, Tumour Biol. 2001, 22:146). To monitor tumor growth, blood is collected on a weekly basis measuring G250 and SM047 levels. The mice are segregated into groups for the appropriate treatments, with anti-151P3D4 or control mAbs being injected i.p.
  • Anti-151P3D4 mAbs Inhibit Growth of 151P3D4-Expressing Xenograft-Cancer Tumors [0729]
  • The effect of anti-151P3D4 mAbs on tumor formation is tested on the growth and progression of bladder, kidney and ovarian cancer xenografts using UC3-151P3D4, J82-151P3D4, A498-151P3D4, 769P-151P3D4, CaOv1-151P3D4 and PA1-151P3D4 orthotopic models. As compared with the s.c. tumor model, the orthotopic model, which requires injection of tumor cells directly in the mouse bladder, kidney and ovary, respectively, results in a local tumor growth, development of metastasis in distal sites, deterioration of mouse health, and subsequent death (Saffran, D., et al., PNAS supra; Fu, X., et al., Int J Cancer, 1992. 52(6): p. 987-90; Kubota, T., J Cell Biochem, 1994. 56(1): p. 4-8). The features make the orthotopic model more representative of human disease progression and allowed us to follow the therapeutic effect of mAbs on clinically relevant end points. [0730]
  • Accordingly, tumor cells are injected into the mouse bladder, kidney or ovary, and 2 days later, the mice are segregated into two groups and treated with either: a) 200-500 μg, of anti-151P3D4 Ab, or b) PBS three times per week for two to five weeks. [0731]
  • A major advantage of the orthotopic cancer models is the ability to study the development of metastases. Formation of metastasis in mice bearing established orthotopic tumors is studies by IHC analysis on lung sections using an antibody against a tumor-specific cell-surface protein such as anti-CK20 for bladder cancer, anti-G250 for kidney cancer and SM047 antibody for ovarian cancer models (Lin S et al, Cancer Detect Prev. 2001;25:202; McCluggage W et al, Histopathol 2001, 38:542). [0732]
  • Mice bearing established orthotopic tumors are administered 1000 μg injections of either anti-151P3D4 mAb or PBS over a 4-week period. Mice in both groups are allowed to establish a high tumor burden, to ensure a high frequency of metastasis formation in mouse lungs. Mice then are killed and their bladders, livers, bone and lungs are analyzed for the presence of tumor cells by IHC analysis. [0733]
  • These studies demonstrate a broad anti-tumor efficacy of anti-151P3D4 antibodies on initiation and progression of prostate and kidney cancer in xenograft mouse models. Anti-151P3D4 antibodies inhibit tumor formation of tumors as well as retarding the growth of already established tumors and prolong the survival of treated mice. Moreover, anti-151P3D4 mAbs demonstrate a dramatic inhibitory effect on the spread of local bladder, kidney and ovarian tumor to distal sites, even in the presence of a large tumor burden. Thus, anti-151P3D4 mAbs are efficacious on major clinically relevant end points (tumor growth), prolongation of survival, and health. [0734]
    • Example 39
  • Therapeutic and Diagnostic Use of Anti-151P3D4 Antibodies in Humans. [0735]
  • Anti-151P3D4 monoclonal antibodies are safely and effectively used for diagnostic, prophylactic, prognostic and/or therapeutic purposes in humans. Western blot and immunohistochemical analysis of cancer tissues and cancer xenografts with anti-151P3D4 mAb show strong extensive staining in carcinoma but significantly lower or undetectable levels in normal tissues. Detection of 151P3D4 in carcinoma and in metastatic disease demonstrates the usefulness of the mAb as a diagnostic and/or prognostic indicator. Anti-151P3D4 antibodies are therefore used in diagnostic applications such as immunohistochemistry of kidney biopsy specimens to detect cancer from suspect patients. [0736]
  • As determined by flow cytometry, anti-151P3D4 mAb specifically binds to carcinoma cells. Thus, anti-151P3D4 antibodies are used in diagnostic whole body imaging applications, such as radioimmunoscintigraphy and radioimmunotherapy, (see, e.g., Potamianos S., et. al. Anticancer Res 20(2A):925-948 (2000)) for the detection of localized and metastatic cancers that exhibit expression of 151P3D4. Shedding or release of an extracellular domain of 151P3D4 into the extracellular milieu, such as that seen for alkaline phosphodiesterase B10 (Meerson, N. R., Hepatology 27:563-568 (1998)), allows diagnostic detection of 151P3D4 by anti-151P3D4 antibodies in serum and/or urine samples from suspect patients. [0737]
  • Anti-151P3D4 antibodies that specifically bind 151P3D4 are used in therapeutic applications for the treatment of cancers that express 151P3D4. Anti-151P3D4 antibodies are used as an unconjugated modality and as conjugated form in which the antibodies are attached to one of various therapeutic or imaging modalities well known in the art, such as a prodrugs, enzymes or radioisotopes. In preclinical studies, unconjugated and conjugated anti-151P3D4 antibodies are tested for efficacy of tumor prevention and growth inhibition in the SCID mouse cancer xenograft models, e.g., kidney cancer models AGS-K3 and AGS-K6, (see, e.g., the Example entitled “151P3D4 Monoclonal Antibody-mediated Inhibition of Bladder and Lung Tumors In Vivo”). Conjugated and unconjugated anti-151P3D4 antibodies are used as a therapeutic modality in human clinical trials either alone or in combination with other treatments as described in following Examples. [0738]
    • Example 40
  • Human Clinical Trials for the Treatment and Diagnosis of Human Carcinomas Through Use of Human Anti-151P3D4 Antibodies In Vivo [0739]
  • Antibodies are used in accordance with the present invention which recognize an epitope on 151P3D4, and are used in the treatment of certain tumors such as those listed in Table I. Based upon a number of factors, including 151P3D4 expression levels, tumors such as those listed in Table I are presently preferred indications. In connection with each of these indications, three clinical approaches are successfully pursued. [0740]
  • I.) Adjunctive therapy: In adjunctive therapy, patients are treated with anti-151P3D4 antibodies in combination with a chemotherapeutic or antineoplastic agent and/or radiation therapy. Primary cancer targets, such as those listed in Table I, are treated under standard protocols by the addition anti-151P3D4 antibodies to standard first and second line therapy. Protocol designs address effectiveness as assessed by reduction in tumor mass as well as the ability to reduce usual doses of standard chemotherapy. These dosage reductions allow additional and/or prolonged therapy by reducing dose-related toxicity of the chemotherapeutic agent. Anti-151P3D4 antibodies are utilized in several adjunctive clinical trials in combination with the chemotherapeutic or antineoplastic agents adriamycin (advanced prostrate carcinoma), cisplatin (advanced head and neck and lung carcinomas), taxol (breast cancer), and doxorubicin (preclinical). [0741]
  • II.) Monotherapy: In connection with the use of the anti-151P3D4 antibodies in monotherapy of tumors, the antibodies are administered to patients without a chemotherapeutic or antineoplastic agent. In one embodiment, monotherapy is conducted clinically in end stage cancer patients with extensive metastatic disease. Patients show some disease stabilization. Trials demonstrate an effect in refractory patients with cancerous tumors. [0742]
  • III.) Imaging Agent: Through binding a radionuclide (e.g., iodine or yttrium (I[0743] 131, Y90) to anti-151P3D4 antibodies, the radiolabeled antibodies are utilized as a diagnostic and/or imaging agent. In such a role, the labeled antibodies localize to both solid tumors, as well as, metastatic lesions of cells expressing 151P3D4. In connection with the use of the anti-151P3D4 antibodies as imaging agents, the antibodies are used as an adjunct to surgical treatment of solid tumors, as both a pre-surgical screen as well as a post-operative follow-up to determine what tumor remains and/or returns. In one embodiment, a (111 In)-151P3D4 antibody is used as an imaging agent in a Phase I human clinical trial in patients having a carcinoma that expresses 151P3D4 (by analogy see, e.g., Divgi et al. J. Natl. Cancer Inst. 83:97-104 (1991)). Patients are followed with standard anterior and posterior gamma camera. The results indicate that primary lesions and metastatic lesions are identified
  • Dose and Route of Administration [0744]
  • As appreciated by those of ordinary skill in the art, dosing considerations can be determined through comparison with the analogous products that are in the clinic. Thus, anti-151P3D4 antibodies can be administered with doses in the range of 5 to 400 mg/m[0745] 2, with the lower doses used, e.g., in connection with safety studies. The affinity of anti-151P3D4 antibodies relative to the affinity of a known antibody for its target is one parameter used by those of skill in the art for determining analogous dose regimens. Further, anti-151P3D4 antibodies that are fully human antibodies, as compared to the chimeric antibody, have slower clearance; accordingly, dosing in patients with such fully human anti-151P3D4 antibodies can be lower, perhaps in the range of 50 to 300 mg/m2, and still remain efficacious. Dosing in mg/m2, as opposed to the conventional measurement of dose in mg/kg, is a measurement based on surface area and is a convenient dosing measurement that is designed to include patients of all sizes from infants to adults.
  • Three distinct delivery approaches are useful for delivery of anti-151P3D4 antibodies. Conventional intravenous delivery is one standard delivery technique for many tumors. However, in connection with tumors in the peritoneal cavity, such as tumors of the ovaries, biliary duct, other ducts, and the like, intraperitoneal administration may prove favorable for obtaining high dose of antibody at the tumor and to also minimize antibody clearance. In a similar manner, certain solid tumors possess vasculature that is appropriate for regional perfusion. Regional perfusion allows for a high dose of antibody at the site of a tumor and minimizes short term clearance of the antibody. [0746]
  • Clinical Development Plan (CDP) [0747]
  • Overview: The CDP follows and develops treatments of anti-151P3D4 antibodies in connection with adjunctive therapy, monotherapy, and as an imaging agent. Trials initially demonstrate safety and thereafter confirm efficacy in repeat doses. Trails are open label comparing standard chemotherapy with standard therapy plus anti-151P3D4 antibodies. As will be appreciated, one criteria that can be utilized in connection with enrollment of patients is 151P3D4 expression levels in their tumors as determined by biopsy. [0748]
  • As with any protein or antibody infusion-based therapeutic, safety concerns are related primarily to (i) cytokine release syndrome, i.e., hypotension, fever, shaking, chills; (ii) the development of an immunogenic response to the material (i.e., development of human antibodies by the patient to the antibody therapeutic, or HAHA response); and, (iii) toxicity to normal cells that express 151P3D4. Standard tests and follow-up are utilized to monitor each of these safety concerns. Anti-151P3D4 antibodies are found to be safe upon human administration. [0749]
    • Example 41
  • Human Clinical Trial Adjunctive Therapy with Human Anti-151P3D4 Antibody and Chemotherapeutic Agent [0750]
  • A phase I human clinical trial is initiated to assess the safety of six intravenous doses of a human anti-151P3D4 antibody in connection with the treatment of a solid tumor, e.g., a cancer of a tissue listed in Table I. In the study, the safety of single doses of anti-151P3D4 antibodies when utilized as an adjunctive therapy to an antineoplastic or chemotherapeutic agent, such as cisplatin, topotecan, doxorubicin, adriamycin, taxol, or the like, is assessed. The trial design includes delivery of six single doses of an anti-151P3D4 antibody with dosage of antibody escalating from approximately about 25 mg/m[0751] 2 to about 275 mg/m2 over the course of the treatment in accordance with the following schedule:
    Day 0 Day 7 Day 14 Day 21 Day 28 Day 35
    mAb Dose 25 mg/m 2 75 mg/m2 125 mg/m2 175 mg/m2 225 mg/m2 275 mg/m2
    Chemotherapy + + + + + +
    (standard dose)
  • Patients are closely followed for one-week following each administration of antibody and chemotherapy. In particular, patients are assessed for the safety concerns mentioned above: (i) cytokine release syndrome, i.e., hypotension, fever, shaking, chills; (ii) the development of an immunogenic response to the material (i.e., development of human antibodies by the patient to the human antibody therapeutic, or HAHA response); and, (iii) toxicity to normal cells that express 151P3D4. Standard tests and follow-up are utilized to monitor each of these safety concerns. Patients are also assessed for clinical outcome, and particularly reduction in tumor mass as evidenced by MRI or other imaging. [0752]
  • The anti-151P3D4 antibodies are demonstrated to be safe and efficacious, Phase II trials confirm the efficacy and refine optimum dosing. [0753]
    • Example 42
  • Human Clinical Trial: Monotherapy with Human Anti-151P3D4 Antibody [0754]
  • Anti-151P3D4 antibodies are safe in connection with the above-discussed adjunctive trial, a Phase II human clinical trial confirms the efficacy and optimum dosing for monotherapy. Such trial is accomplished, and entails the same safety and outcome analyses, to the above-described adjunctive trial with the exception being that patients do not receive chemotherapy concurrently with the receipt of doses of anti-151P3D4 antibodies. [0755]
    • Example 43
  • Human Clinical Trial: Diagnostic Imaging with Anti-151P3D4 Antibody [0756]
  • Once again, as the adjunctive therapy discussed above is safe within the safety criteria discussed above, a human clinical trial is conducted concerning the use of anti-151P3D4 antibodies as a diagnostic imaging agent. The protocol is designed in a substantially similar manner to those described in the art, such as in Divgi et al. [0757] J. Natl. Cancer Inst. 83:97-104 (1991). The antibodies are found to be both safe and efficacious when used as a diagnostic modality.
    • Example 44
  • Homology Comparison of 151P3D4 to Known Sequences [0758]
  • Two variants of 151P3D4 have been identified, 151P3D4 v.1 and [0759] v 2. The 151P3D4 v.1 gene exhibits strong homology to a previously cloned gene, namely the human cartilage linking protein 1 (gi 4503053), and shows 100% identity to that gene over the entire length of the protein (FIG. 4B). In addition, the 151P3D4 v.1 protein shows homology to the bovine and rat homologs of the human cartilage linking protein (gi 1709660 and gi 9506519) (FIGS. 4F and 4G). 151P3D4 v.1 is a 354 aa protein which localizes primarily to the extracellular compartment (see Table XXI). The second variant, 151P3D4 v.2, is a 721 aa protein, that shares identity with 151P3D4 v.1 over 200 amino acids (Table LV and FIG. 4D). The 151P3D4 v.2 gene also exhibits homology to the human cartilage link protein-1 (gi 4503053), showing 99% identity and 99% homology to that protein (FIG. 4H). However, this homology between variant 2 and cartilage link protein does not extend over the entire length of variant 2, but is limited to the last 400 aa of that protein. The first 400 aa of 151P3D4 v.2 show homology to human ribosomal protein L13a of the 60S subunit (gi. 18574549) (see Table XXI). Besides the addition of 400 aa at its N-terminus, 151P3D4 v.2 also differs from variant 1 in its localization profile. 151P3D4 v.2 localizes to the cytosol, with potential localization to the nucleus (see Table XXI). Motif analysis revealed the presence of link motif as well as immunoglobulin domain in both 151P3D4 variants (see Table XXI).
  • Cartilage link protein-1, a protein with a known link motif, has been shown to regulate tissue remodeling, bone resorption and protein interaction (Chen Q et al. Dev Biol. 1995, 172:293). The importance of [0760] cartilage link protein 1 is illustrated in engineered mice lacking cartilage link protein (Watanabe H, Yamada Y. Nat Genet. 1999, 21:225). These mutant mice demonstrate defects in cartilage and bone development. The cartilage link protein, via its link motif, mediates cell adhesion of fibroblasts and other cells to extracellular matrix (Yang B et al, Matrix Biol. 1998, 16:541). The link motif is a binding domain for hyaluronic acid (Kohda D et al, Cell. 1996, 86:767), with a structure very similar to type C-lectin. It plays a role in the assembly of extracellular matrix, cell adhesion, and migration (Kohda D et al, Cell. 1996, 86:767). The immunoglobulin domain is a 100 aa long motif which includes a conserved intra-domain disulfide bond. Immunoglobulin-like domains participate in protein interactions (Wang J, Springer T A. Immunol Rev. 1998, 163:197).
  • The presence of an immunoglobulin motif and a link motif indicate that 151P3D4 regulates protein interactions and participates in the process of cell adhesion, cell migration, tumor formation and progression. By way of its protein interaction domain, 151P3D4 functions in regulating signal transduction in mammalian cells, thereby regulating gene expression and cellular outcomes, including cell proliferation, survival, invasion, motility, etc, all of which have a direct effect on tumor growth and progression. [0761]
  • Accordingly, when 151P3D4 functions as a regulator of protein interactions, cell adhesion, tumor formation, invasion or cell signaling, 151P3D4 is used for therapeutic, diagnostic, prognostic and/or preventative purposes. In addition, when a variant of 151P3D4 is expressed in cancerous tissues, such as those listed in Table I, they are used for therapeutic, diagnostic, prognostic and/or preventative purposes. [0762]
    • Example 45
  • Regulation of Transcription [0763]
  • The localization of 151P3D4 coupled to the presence of protein interaction domains within its sequence, indicate that 151P3D4 modulates the transcriptional regulation of eukaryotic genes. Regulation of gene expression is confirmed, e.g., by studying gene expression in cells expressing or lacking 151P3D4. For this purpose, two types of experiments are performed. [0764]
  • In the first set of experiments, RNA from parental and 151P3D4-expressing cells are extracted and hybridized to commercially available gene arrays (Clontech) (Smid-Koopman E et al. Br J Cancer. 2000. 83:246). Resting cells as well as cells treated with FBS, androgen or growth factors are compared. Differentially expressed genes are identified in accordance with procedures known in the art. The differentially expressed genes are then mapped to biological pathways (Chen K et al. Thyroid. 2001. 11:41.). [0765]
  • In the second set of experiments, specific transcriptional pathway activation is evaluated using commercially available (Stratagene) luciferase reporter constructs including: NFkB-luc, SRE-luc, ELK1-luc, ARE-luc, p53-luc, and CRE-luc. These transcriptional reporters contain consensus binding sites for known transcription factors that lie downstream of well-characterized signal transduction pathways, and represent a good tool to ascertain pathway activation and screen for positive and negative modulators of pathway activation. [0766]
  • Thus, 151P3D4 plays a role in gene regulation, and it is used as a target for diagnostic, prognostic, preventative and/or therapeutic purposes. [0767]
    • Example 46
  • Identification and Confirmation of Potential Signal Transduction Pathways [0768]
  • Many mammalian proteins have been reported to interact with signaling molecules and to participate in regulating signaling pathways. (J Neurochem. 2001; 76:217-223). In particular, protein interaction motifs have been instrumental in inducing kinase activation, recruitment of proteins and complex formation (Samelson L. Annu Rev Immunol. 2002;20:371). Based on the presence of a protein interacton motif, 151P3D4 regulates signaling pathways important for cell growth and invasion. In addition, the 151P3D4 protein contains several phosphorylation sites (see Table XX) indicating an association with specific signaling cascades. Using immunoprecipitation and Western blotting techniques, proteins are identified that associate with 151P3D4 and mediate signaling events. Several pathways known to play a role in cancer biology can be regulated by 151P3D4, including phospholipid pathways such as PI3K, AKT, etc, adhesion and migration pathways, including FAK, Rho, Rac-1, β-catenin, etc, as well as mitogenic/survival cascades such as ERK, p38, etc (Cell Growth Differ. 2000,11:279; J Biol Chem. 1999, 274:801; Oncogene. 2000, 19:3003, J. Cell Biol. 1997, 138:913.). [0769]
  • To confirm that 151P3D4 directly or indirectly activates known signal transduction pathways in cells, luciferase (luc) based transcriptional reporter assays are carried out in cells expressing individual genes. These transcriptional reporters contain consensus-binding sites for known transcription factors that lie downstream of well-characterized signal transduction pathways. The reporters and examples of these associated transcription factors, signal transduction pathways, and activation stimuli are listed below. [0770]
  • 1. NFkB-luc, NFkB/Re1; Ik-kinase/SAPK; growth/apoptosis/stress [0771]
  • 2. SRE-luc, SRF/TCF/ELK1; MAPK/SAPK; growth/differentiation [0772]
  • 3. AP-1-luc, FOS/JUN; MAPK/SAPK/PKC; growth/apoptosis/stress [0773]
  • 4. ARE-luc, androgen receptor; steroids/MAPK; growth/differentiation/apoptosis [0774]
  • 5. p53-luc, p53; SAPK; growth/differentiation/apoptosis [0775]
  • 6. CRE-luc, CREB/ATF2; PKA/p38; growth/apoptosis/stress [0776]
  • 7. TCF-luc, TCF/Lef; β-catenin, Adhesion/invasion [0777]
  • Gene-mediated effects can be assayed in cells showing mRNA expression. Luciferase reporter plasmids can be introduced by lipid-mediated transfection (TFX-50, Promega). Luciferase activity, an indicator of relative transcriptional activity, is measured by incubation of cell extracts with luciferin substrate and luminescence of the reaction is monitored in a luminometer. [0778]
  • Signaling pathways activated by 151P3D4 are mapped and used for the identification and validation of therapeutic targets. When 151P3D4 is involved in cell signaling, it is used as target for diagnostic, prognostic, preventative and/or therapeutic purposes. [0779]
    • Example 47
  • Involvement in Tumor Progression [0780]
  • Based on the role of link motif in cell adhesion, cell migration and tumor formation, the 151P3D4 gene can contribute to tumor initiation and progression. The role of 151P3D4 in tumor growth is confirmed in a variety of primary and transfected cell lines including bladder, kidney and ovary cell lines, as well as NIH 3T3 cells engineered to stably express 151P3D4. Parental cells lacking 151P3D4 and cells expressing 151P3D4 are evaluated for cell growth using a well-documented proliferation assay (Fraser S P, Grimes J A, Djamgoz M B. Prostate. 2000;44:61, Johnson D E, Ochieng J, Evans S L. Anticancer Drugs. 1996, 7:288). [0781]
  • To confirm the role of 151P3D4 in the transformation process, its effect in colony forming assays is investigated. Parental NIH-3T3 cells lacking 151P3D4 are compared to NIH-3T3 cells expressing 151P3D4, using a soft agar assay under stringent and more permissive conditions (Song Z. et al. Cancer Res. 2000;60:6730). [0782]
  • To confirm the role of 151P3D4 in invasion and metastasis of cancer cells, a well-established assay is used, e.g., a Transwell Insert System assay (Becton Dickinson) (Cancer Res. 1999; 59:6010). Control cells, including bladder, ovary and kidney cell lines lacking 151P3D4 are compared to cells expressing 151P3D4. Cells are loaded with the fluorescent dye, calcein, and plated in the top well of the Transwell insert coated with a basement membrane analog. Invasion is determined by fluorescence of cells in the lower chamber relative to the fluorescence of the entire cell population. [0783]
  • 151P3D4 can also play a role in cell cycle and apoptosis. Parental cells and cells expressing 151P3D4 are compared for differences in cell cycle regulation using a well-established BrdU assay (Abdel-Malek Z A. J Cell Physiol. 1988, 136:247). In short, cells are grown under both optimal (full serum) and limiting (low serum) conditions are labeled with BrdU and stained with anti-BrdU Ab and propidium iodide. Cells are analyzed for entry into the G1, S, and G2M phases of the cell cycle. Alternatively, the effect of stress on apoptosis is evaluated in control parental cells and cells expressing 151P3D4, including normal and tumor bladder, kidney and ovary cells. Engineered and parental cells are treated with various chemotherapeutic agents, such as etoposide, taxol, etc, and protein synthesis inhibitors, such as cycloheximide. Cells are stained with annexin V-FITC and cell death is measured by FACS analysis. The modulation of cell death by 151P3D4 can play a critical role in regulating tumor progression and tumor load. [0784]
  • When 151P3D4 plays a role in cell growth, transformation, invasion or apoptosis, it is used as a target for diagnostic, prognostic, preventative and/or therapeutic purposes. [0785]
    • Example 48
  • Involvement in Angiogenesis [0786]
  • Angiogenesis or new capillary blood vessel formation is necessary for tumor growth (Hanahan D, Folkman J. Cell. 1996, 86:353; Folkman J. Endocrinology. 1998 139:441). Based on the effect of phsophodieseterase inhibitors on endothelial cells, 151P3D4 plays a role in angiogenesis (DeFouw L et al, Microvasc Res 2001, 62:263). Several assays have been developed to measure angiogenesis in vitro and in vivo, such as the tissue culture assays endothelial cell tube formation and endothelial cell proliferation. Using these assays as well as in vitro neo-vascularization, the role of 151P3D4 in angiogenesis, enhancement or inhibition, is confirmed. [0787]
  • For example, endothelial cells engineered to express 151P3D4 are evaluated using tube formation and proliferation assays. The effect of 151P3D4 is also confirmed in animal models in vivo. For example, cells either expressing or lacking 151P3D4 are implanted subcutaneously in immunocompromised mice. Endothelial cell migration and angiogenesis are evaluated 5-15 days later using immunohistochemistry techniques. 151P3D4 affects angiogenesis, and it is used as a target for diagnostic, prognostic, preventative and/or therapeutic purposes [0788]
    • Example 49
  • Involvement in Protein-Protein Interactions [0789]
  • Link as well as immunoglobulin motifs have been shown to mediate interaction with other proteins, resulting in the formation of a multi-protein complex ( ). Using immunoprecipitation techniques as well as two yeast hybrid systems, proteins are identified that associate with 151P3D4. Immunoprecipitates from cells expressing 151P3D4 and cells lacking 151P3D4 are compared for specific protein-protein associations. [0790]
  • Studies are performed to confirm the extent of association of 151P3D4 with effector molecules, such as nuclear proteins, transcription factors, kinases, phsophates etc. Studies comparing 151P3D4 positive and 151P3D4 negative cells as well as studies comparing unstimulated/resting cells and cells treated with epithelial cell activators, such as cytokines, growth factors and anti-integrin Ab reveal unique interactions. [0791]
  • In addition, protein-protein interactions are confirmed using two yeast hybrid methodology (Curr Opin Chem Biol. 1999, 3:64). A vector carrying a library of proteins fused to the activation domain of a transcription factor is introduced into yeast expressing a 151P3D4-DNA-binding domain fusion protein and a reporter construct. Protein-protein interaction is detected by calorimetric reporter activity. Specific association with effector molecules and transcription factors directs one of skill to the mode of action of 151P3D4, and thus identifies therapeutic, prognostic, preventative and/or diagnostic targets for cancer. This and similar assays are also used to identify and screen for small molecules that interact with 151P3D4. [0792]
  • Thus it is found that 151P3D4 associates with proteins and small molecules. Accordingly, 151P3D4 and these proteins and small molecules are used for diagnostic, prognostic, preventative and/or therapeutic purposes. [0793]
    • Example 50
  • Involvement in Adhesion [0794]
  • Cell adhesion plays a critical role in tissue colonization and metastasis. The presence of link motif in 151P3D4 is indicative of its role in cell adhesion. To confirm that 151P3D4 plays a role in cell adhes control cells lacking 151P3D4 are compared to cells expressing 151P3D4, using techniques previously described (see, e.g., Haier et al, Br. J. Cancer. 1999, 80:1867; Lehr and Pienta, J. Natl. Cancer Inst. 1998, 90:118). Briefly, in one embodiment, cells labeled with a fluorescent indicator, such as calcein, are incubated on tissue culture wells coated with media alone or with matrix proteins. Adherent cells are detected by fluorimetric analysis and percent adhesion is calculated. This experimental system can be used to identify proteins, antibodies and/or small molecules that modulate cell adhesion to extracellular matrix and cell-cell interaction. Since cell adhesion plays a critical role in tumor growth, progression, and, colonization, the gene involved in this process can serves as a diagnostic, preventative and therapeutic modality. [0795]
  • Throughout this application, various website data content, publications, patent applications and patents are referenced. (Websites are referenced by their Uniform Resource Locator, or URL, addresses on the World Wide Web.) The disclosures of each of these references are hereby incorporated by reference herein in their entireties. [0796]
  • The present invention is not to be limited in scope by the embodiments disclosed herein, which are intended as single illustrations of individual aspects of the invention, and any that are functionally equivalent are within the scope of the invention. Various modifications to the models and methods of the invention, in addition to those described herein, will become apparent to those skilled in the art from the foregoing description and teachings, and are similarly intended to fall within the scope of the invention. Such modifications or other embodiments can be practiced without departing from the true scope and spirit of the invention. [0797]
    TABLE I
    Tissues that Express 151P3D4 When Malignant
    Bladder
    Kidney
    Colon
    Lung
    Ovary
    Breast
    Stomach
    Uterus
  • [0798]
    TABLE II
    Amino Acid Abbreviations
    SINGLE LETTER THREE LETTER FULL NAME
    F Phe phenylalanine
    L Leu leucine
    S Ser serine
    Y Tyr tyrosine
    C Cys cysteine
    W Trp tryptophan
    P Pro proline
    H His histidine
    Q Gln glutamine
    R Arg arginine
    I Ile isoleucine
    M Met methionine
    T Thr threonine
    N Asn asparagine
    K Lys lysine
    V Val valine
    A Ala alanine
    D Asp aspartic acid
    E Glu glutamic acid
    G Gly glycine
  • [0799]
    TABLE III
    Amino Acid Substitution Matrix
    A C D E F G H I K L M N P Q R S T V W Y .
    4 0 −2 −1 −2 0 −2 −1 −1 −1 −1 −2 −1 −1 −1 1 0 0 −3 −2 A
    9 −3 −4 −2 −3 −3 −1 −3 −1 −1 −3 −3 −3 −3 −1 −1 −1 −2 −2 C
    6 2 −3 −1 −1 −3 −1 −4 −3 1 −1 0 −2 0 −1 −3 −4 −3 D
    5 −3 −2 0 −3 1 −3 −2 0 −1 2 0 0 −1 −2 −3 −2 E
    6 −3 −1 0 −3 0 0 −3 −4 −3 −3 −2 −2 −1 1 3 F
    6 −2 −4 −2 −4 −3 0 −2 −2 −2 0 −2 −3 −2 −3 G
    8 −3 −1 −3 −2 1 −2 0 0 −1 −2 −3 −2 2 H
    4 −3 2 1 −3 −3 −3 −3 −2 −1 3 −3 −1 I
    5 −2 −1 0 −1 1 2 0 −1 −2 −3 −2 K
    4 2 −3 −3 −2 −2 −2 −1 1 −2 −1 L
    5 −2 −2 0 −1 −1 −1 1 −1 −1 M
    6 −2 0 0 1 0 −3 −4 −2 N
    7 −1 −2 −1 −1 −2 −4 −3 P
    5 1 0 −1 −2 −2 −1 Q
    5 −1 −1 −3 −3 −2 R
    4 1 −2 −3 −2 S
    5 0 −2 −2 T
    4 −3 −1 V
    11 2 W
    7 Y
  • [0800]
    TABLE IV (A)
    HLA Class I Supermotifs/Motifs
    POSITION POSITION
    POSITION 3 (Primary C Terminus (Primary
    2 (Primary Anchor) Anchor) Anchor)
    SUPER-
    MOTIFS
    A1 TI LVMS FWY
    A2 LIVM ATQ IV MATL
    A3 VSMA TLI RK
    A24 YF WIVLMT FI YWLM
    B7 P VILF MWYA
    B27 RHK FYL WMIVA
    B44 E D FWYLIMVA
    B58 ATS FWY LIVMA
    B62 QL IVMP FWYMIVLA
    MOTIFS
    A1 TSM Y
    A1 DE AS Y
    A2.1 LM VQIAT V LIMAT
    A3 LMVISATF CGD KYR HFA
    A11 VTMLISAGN CDF K RYH
    A24 YF WM FLIW
    A*3101 MVT ALIS R K
    A*3301 MVALF IST RK
    A*6801 AVT MSLI RK
    B*0702 P LMF WYAIV
    B*3501 P LMFWY IVA
    B51 P LIVF WYAM
    B*5301 P IMFWY ALV
    B*5401 P ATIV LMFWY
  • [0801]
    TABLE IV (B)
    HLA Class II Supermotif
    1 6 9
    W, F, Y, V, .I, L A, V, I, L, P, C, S, T A, V, I, L, C, S, T, M, Y
  • [0802]
    TABLE IV (C)
    HLA Class II Motifs
    MOTIFS
    anchor 1 2 3 4 5 anchor 6 7 8 9
    DR4 preferred FMYLIVW M T I VSTCPALIM MH MH
    deleterious W R WDE
    DR1 preferred MFLIVWY PAMQ VMATSPLIC M AVM
    deleterious C CH FD CWD GDE D
    DR7 preferred MFLIVWY M W A IVMSACTPL M IV
    deleterious C G GRD N G
    DR3 MOTIFS
    anchor 1 2 3 anchor 4 5 anchor 6
    motif LIVMFY D
    a preferred
    motif LIVMFAY DNQEST KRH
    b preferred
    DR MFLIVWY VMSTACPLI
    Supermotif
  • [0803]
    TABLE IV (D)
    HLA Class I Supermotifs
    SUPER-
    MOTIFS POSITION: 1 2 3 4 5 6 7 8 C-terminus
    A1
    1 ° Anchor TILVMS
    Figure US20040062761A1-20040401-M00001
         		1 ° Anchor FWY
    Figure US20040062761A1-20040401-M00002
    A2
    1 ° Anchor LIVMATQ
    Figure US20040062761A1-20040401-M00003
         		1 ° Anchor LIVMAT
    Figure US20040062761A1-20040401-M00004
    A3 preferred 1 ° Anchor VSMATLI
    Figure US20040062761A1-20040401-M00005
         		YFW (4/5) YFW (3/5) YFW (4/5) P (4/5) 1 ° Anchor RK
    Figure US20040062761A1-20040401-M00006
    deleterious DE (3/5); DE
    P (5/5) (4/5)
    A24 1 ° Anchor YFWIVLMT
    Figure US20040062761A1-20040401-M00007
         		1 ° Anchor FIYWLM
    Figure US20040062761A1-20040401-M00008
    B7 preferred FWY (5/5) LIVM (3/5) 1 ° Anchor P
    Figure US20040062761A1-20040401-M00009
         		FWY (4/5) FWY (3/5) 1 ° Anchor VILFMWYA
    Figure US20040062761A1-20040401-M00010
    deleterious DE (3/5); DE G QN DE
    P(5/5); (3/5) (4/5) (4/5) (4/5)
    G(4/5);
    A(3/5);
    QN(3/5)
    B27 1 ° Anchor RHK
    Figure US20040062761A1-20040401-M00011
         		1 ° Anchor FYLWMIVA
    Figure US20040062761A1-20040401-M00012
    B44 1 ° Anchor ED
    Figure US20040062761A1-20040401-M00013
         		1 ° Anchor FWYLIMVA
    Figure US20040062761A1-20040401-M00014
    B58 1 ° Anchor ATS
    Figure US20040062761A1-20040401-M00015
         		1 ° Anchor FWYLIVMA
    Figure US20040062761A1-20040401-M00016
    B62 1 ° Anchor QLIVMP
    Figure US20040062761A1-20040401-M00017
         		1 ° Anchor FWYMIVLA
    Figure US20040062761A1-20040401-M00018
  • [0804]
    TABLE IV
    (E): HLA Class I Motifs
    POSITION: 1 2 3 4 5 6 7 8 9 C-terminus
    A1 9-mer preferred deleterious GFYW DE
    Figure US20040062761A1-20040401-C00001
         		DEA RHKLIVMP YFW A G P A DEQN YFW
    Figure US20040062761A1-20040401-C00002
    A1 9-mer preferred deleterious GRHK A ASTCLIVM RHKDEPYFW
    Figure US20040062761A1-20040401-C00003
         		GSTC DE PQN ASTC RHK LIVM PG DE GP
    Figure US20040062761A1-20040401-C00004
    A1 10-mer preferred deleterious YFW GP
    Figure US20040062761A1-20040401-C00005
         		DEAQN RHKGLIVM A DE YFWQN RHK QNA PASTC RHKYFW GDE RHK P A
    Figure US20040062761A1-20040401-C00006
    A1 10-mer preferred deleterious YFW RHK STCLIVM RHKDEPYFW
    Figure US20040062761A1-20040401-C00007
         		A YFW P G PG G PRHK YFW QN
    Figure US20040062761A1-20040401-C00008
    A2.1 9-mer preferred deleterious YFW DEP
    Figure US20040062761A1-20040401-C00009
         		YFW DERKH STC YFW RKH A DERKH P
    Figure US20040062761A1-20040401-C00010
    A2.1 10-mer preferred deleterious AYFW DEP
    Figure US20040062761A1-20040401-C00011
         		LVIM DE G RKHA P G RKH FYWLVIM DERKH RKH
    Figure US20040062761A1-20040401-C00012
    A3 preferred deleterious RHK DEP
    Figure US20040062761A1-20040401-C00013
         		YFW DE PRHKYFW A YFW P
    Figure US20040062761A1-20040401-C00014
    A11 preferred deleterious A DEP
    Figure US20040062761A1-20040401-C00015
         		YFW YFW A YFW YFW A P G
    Figure US20040062761A1-20040401-C00016
    A24 9-mer preferred deleterious YFWRHK DEG
    Figure US20040062761A1-20040401-C00017
         		DE STC G QNP DERHK YFW G YFW AQN
    Figure US20040062761A1-20040401-C00018
    A24 10-mer preferred deleterious
    Figure US20040062761A1-20040401-C00019
         		GDE P QN YFWP RHK DE P A QN DEA
    Figure US20040062761A1-20040401-C00020
    A3101 preferred deleterious RHK DEP
    Figure US20040062761A1-20040401-C00021
         		YFW DE P ADE YFW DE YFW DE AP DE
    Figure US20040062761A1-20040401-C00022
    A3301 preferred deleterious GP
    Figure US20040062761A1-20040401-C00023
         		YFW DE AYFW
    Figure US20040062761A1-20040401-C00024
    A6801 preferred deleterious YFWSTC GP
    Figure US20040062761A1-20040401-C00025
         		DEG YFWLIVM RHK YFW P A
    Figure US20040062761A1-20040401-C00026
    B0702 preferred deleterious RHKFWY DEQNP
    Figure US20040062761A1-20040401-C00027
         		RHK DEP DE RHK DE RHK GDE RHK QN PA DE
    Figure US20040062761A1-20040401-C00028
    B3501 preferred deleterious FWYLIVM AGP
    Figure US20040062761A1-20040401-C00029
         		FWY G G FWY
    Figure US20040062761A1-20040401-C00030
    B51 preferred deleterious LIVMFWY AGPDERHKSTC
    Figure US20040062761A1-20040401-C00031
         		FWY STC FWY DE G G DEQN FWY GDE
    Figure US20040062761A1-20040401-C00032
    B5301 preferred deleterious LIVMFWY AGPQN
    Figure US20040062761A1-20040401-C00033
         		FWY STC FWY G LIVMFWY RHKQN FWY DE
    Figure US20040062761A1-20040401-C00034
    B5401 preferred deleterious FWY GPQNDE
    Figure US20040062761A1-20040401-C00035
         		FWYLIVM GDESTC LIVM RHKDE DE ALIVM QNDGE FWYAP DE
    Figure US20040062761A1-20040401-C00036
  • [0805]
    TABLE V
    Pos 1 2 3 4 5 6 7 8 9 Score SeqID
    v.1-A1-9mers: 151P3D4
    126 I T D L T L E D Y 62.500
    264 L I H P T K L T Y 25.000
    14 W A D H L S D N Y 25.000
    130 T L E D Y G R Y K 18.000
    57 V T L P C K F Y R 12.500
    280 L N D G A Q I A K 12.500
    230 N T V P G V R N Y 12.500
    153 A L D L Q G V V F 10.000
    18 L S D N Y T L D H 3.750
    293 F A A W K I L G Y 2.500
    155 D L Q G V V F P Y 2.500
    144 G L E D D T V V V 1.800
    43 E A E Q A K V F S 1.800
    41 L V E A E Q A K V 1.800
    213 G S V Q Y P I T K 1.500
    183 D Q D A V I A S F 1.500
    119 D S D A S L V I T 1.500
    64 Y R D P T A F G S 1.250
    129 L T L E D Y G R Y 1.250
    201 G L D W C N A G W 1.000
    181 C L D Q D A V I A 1.000
    23 T L D H D R A I H 1.000
    209 W L S D G S V Q Y 1.000
    308 W L A D G S V R Y 1.000
    68 T A F G S G I H K 1.000
    33 Q A E N G P H L L 0.900
    141 V I E G L E D D T 0.900
    254 T S N F N G R F Y 0.750
    117 G S D S D A S L V 0.750
    255 S N F N G R F Y Y 0.625
    337 F P D K K H K L Y 0.625
    56 N V T L P C K F Y 0.500
    335 V G F P D K K H K 0.500
    187 V I A S F D Q L Y 0.500
    158 G V V F P Y F P R 0.500
    91 E V D V F V S M G 0.500
    325 C S P T E A A V R 0.300
    253 F T S N F N G R F 0.250
    103 K T Y G G Y Q G R 0.250
    303 R C D A G W L A D 0.250
    97 S M G Y H K K T Y 0.250
    327 P T E A A V R F V 0.225
    89 L K E V D V F V S 0.225
    159 V V F P Y F P R L 0.200
    95 F V S M G Y H K K 0.200
    128 D L T L E D Y G R 0.200
    324 R C S P T E A A V 0.200
    40 L L V E A E Q A K 0.200
    329 E A A V R F V G F 0.200
    215 V Q Y P I T K P R 0.150
    240 F W D K D K S R Y 0.125
    92 V D V F V S M G Y 0.125
    161 F P Y F P R L G R 0.125
    247 R Y D V F C F T S 0.125
    148 D T V V V A L D L 0.125
    345 Y G V Y C F R A Y 0.125
    343 K L Y G V Y C F R 0.100
    54 G G N V T L P C K 0.100
    249 D V F C F T S N F 0.100
    289 V G Q I F A A W K 0.100
    272 Y D E A V Q A C L 0.090
    174 F H E A Q Q A C L 0.090
    138 K C E V I E G L E 0.090
    312 G S V R Y P I S R 0.075
    245 K S R Y D V F C F 0.075
    210 L S D G S V Q Y P 0.075
    71 G S G I H K I R I 0.075
    85 T S D Y L K E V D 0.075
    314 V R Y P I S R P R 0.050
    219 I T K P R E P C G 0.050
    4 L L L L V L I S I 0.050
    309 L A D G S V R Y P 0.050
    185 D A V I A S F D Q 0.050
    176 E A Q Q A C L D Q 0.050
    146 E D D T V V V A L 0.050
    270 L T Y D E A V Q A 0.050
    166 R L G R Y N L N F 0.050
    150 V V V A L D L Q G 0.050
    107 G Y Q G R V F L K 0.050
    6 L L V L I S I C W 0.050
    3 S L L L L V L I S 0.050
    326 S P T E A A V R F 0.050
    72 S G I H K I R I K 0.050
    123 S L V I T D L T L 0.050
    145 L E D D T V V V A 0.050
    251 F C F T S N F N G 0.050
    232 V P G V R N Y G F 0.050
    131 L E D Y G R Y K C 0.050
    222 P R E P C G G Q N 0.045
    156 L Q G V V F P Y F 0.030
    189 A S F D Q L Y D A 0.030
    2 K S L L L L V L I 0.030
    162 P Y F P R L G R Y 0.025
    316 Y P I S R P R R R 0.025
    55 G N V T L P C K F 0.025
    190 S F D Q L Y D A W 0.025
    105 Y G G Y Q G R V F 0.025
    70 F G S G I H K I R 0.025
    271 T Y D E A V Q A C 0.025
    194 L Y D A W R G G L 0.025
    v.2-A1-9mers: 151P3D4
    34 K V D L L V P T K 20.000
    385 S L E E G L G G K 18.000
    183 T L E E K R K E K 18.000
    123 N T N P S R R P Y 12.500
    1 M L E H T T K T F 9.000
    97 S C E G I N I S G 4.500
    59 F V G S Y K L A Y 2.500
    367 P A D L A G S G Y 2.500
    220 Y T E S P G G G S 2.250
    238 T I A P L A A T R 2.000
    208 Q A E K N M K K K 1.800
    157 A S E A Y K K V C 1.350
    354 K S E N N S W Y V 1.350
    226 G G S P R G L G F 1.250
    302 S T Y D S L S P Y 1.250
    188 R K E K A E I H Y 1.125
    400 K A E N G P H L L 0.900
    191 K A E I H Y R K N 0.900
    17 V V E S I R D H S 0.900
    382 A I E S L E E G L 0.900
    51 A K D F G H V Q F 0.500
    7 K T F P L R A L H 0.500
    134 Q V P S R I F W R 0.500
    296 S C P T S S S T Y 0.500
    70 D G E H W T V Y Q 0.450
    105 G S F C R N K L K 0.300
    103 I S G S F C R N K 0.300
    373 S G Y C G A L W K 0.250
    180 V T A T L E E K R 0.250
    37 L L V P T K V T G 0.200
    389 G L G G K Q K D K 0.200
    168 G A P H E V G W K 0.200
    181 T A T L E E K R K 0.200
    179 A V T A T L E E K 0.200
    56 H V Q F V G S Y K 0.200
    306 S L S P Y G P R N 0.200
    361 Y V E N G R P A D 0.180
    323 P S G G G G L K K 0.150
    207 K Q A E K N M K K 0.150
    222 E S P G G G S P R 0.150
    295 S S C P T S S S T 0.150
    305 D S L S P Y G P R 0.150
    83 R K D K V L L G R 0.125
    68 S N D G E H W T V 0.125
    101 I N I S G S F C R 0.125
    169 A P H E V G W K Y 0.125
    46 I I T Q G A K D F 0.100
    150 S C C P Q G H A S 0.100
    154 Q G H A S E A Y K 0.100
    75 T V Y Q D E K Q R 0.100
    78 Q D E K Q R K D K 0.090
    384 E S L E E G L G G 0.075
    133 F Q V P S R I F W 0.075
    279 A S P A A W L P L 0.075
    4 H T T K T F P L R 0.050
    145 K A D G G S C C P 0.050
    95 V V S C E G I N I 0.050
    280 S P A A W L P L R 0.050
    346 R G K P Q R K P K 0.050
    265 H R P P A L S A R 0.050
    377 G A L W K A I E S 0.050
    44 T G I I T Q G A K 0.050
    326 G G G L K K P A R 0.050
    288 R T P W T R P S S 0.050
    322 S P S G G G G L K 0.050
    237 K T I A P L A A T 0.050
    167 S G A P H E V G W 0.050
    112 L K Y L A F L H K 0.050
    121 R M N T N P S R R 0.050
    303 T Y D S L S P Y G 0.050
    199 N K Q L M R L Q K 0.050
    386 L E E G L G G K Q 0.045
    372 G S G Y C G A L W 0.030
    261 G S S A H R P P A 0.030
    262 S S A H R P P A L 0.030
    69 N D G E H W T V Y 0.025
    74 W T V Y Q D E K Q 0.025
    21 I R D H S G Q K M 0.025
    314 N P L P N P R H S 0.025
    291 W T R P S S C P T 0.025
    99 E G I N I S G S F 0.025
    43 V T G I I T Q G A 0.025
    316 L P N P R H S P S 0.025
    47 I T Q G A K D F G 0.025
    55 G H V Q F V G S Y 0.025
    274 A P V P A A S P A 0.025
    211 K N M K K K I D K 0.025
    284 W L P L R T P W T 0.020
    241 P L A A T R A T R 0.020
    190 E K A E I H Y R K 0.020
    344 L A R G K P Q R K 0.020
    20 S I R D H S G Q K 0.020
    163 K V C L S G A P H 0.020
    155 G H A S E A Y K K 0.020
    369 D L A G S G Y C G 0.020
    87 V L L G R K A V V 0.020
    343 V L A R G K P Q R 0.020
    12 R A L H I V V E S 0.020
    203 M R L Q K Q A E K 0.020
    358 N S W Y V E N G R 0.015
  • [0806]
    TABLE VI
    Pos
    1 2 3 4 5 6 7 8 9 0 Score SeqID
    v.1-A1-10mers: 151P3D4
    91 E V D V F V S M G Y 125.000
    41 L V E A E Q A K V F 9.000
    33 Q A E N G P H L L V 4.500
    43 E A E Q A K V F S H 4.500
    254 T S N F N G R F Y Y 3.750
    117 G S D S D A S L V I 3.750
    181 C L D Q D A V I A S 2.500
    23 T L D H D R A I H I 2.500
    263 Y L I H P T K L T Y 2.500
    324 R C S P T E A A V R 2.000
    130 T L E D Y G R Y K C 1.800
    144 G L E D D T V V V A 1.800
    85 T S D Y L K E V D V 1.500
    210 L S D G S V Q Y P I 1.500
    126 I T D L T L E D Y G 1.250
    253 F T S N F N G R F Y 1.250
    327 P T E A A V R F V G 1.125
    303 R C D A G W L A D G 1.000
    279 C L N D G A Q I A K 1.000
    309 L A D G S V R Y P I 1.000
    141 V I E G L E D D T V 0.900
    96 V S M G Y H K K T Y 0.750
    190 S F D Q L Y D A W R 0.500
    125 V I T D L T L E D Y 0.500
    201 G L D W C N A G W L 0.500
    56 N V T L P C K F Y R 0.500
    128 D L T L E D Y G R Y 0.500
    14 W A D H L S D N Y T 0.500
    129 L T L E D Y G R Y K 0.500
    186 A V I A S F D Q L Y 0.500
    138 K C E V I E G L E D 0.450
    93 D V F V S M G Y H K 0.400
    288 K V G Q I F A A W K 0.400
    119 D S D A S L V I T D 0.375
    71 G S G I H K I R I K 0.300
    325 C S P T E A A V R F 0.300
    106 G G Y Q G R V F L K 0.250
    64 Y R D P T A F G S G 0.250
    67 P T A F G S G I H K 0.250
    280 L N D G A Q I A K V 0.250
    230 N T V P G V R N Y G 0.250
    212 D G S V Q Y P I T K 0.250
    39 H L L V E A E Q A K 0.200
    155 D L Q G V V F P Y F 0.200
    334 F V G F P D K K H K 0.200
    231 T V P G V R N Y G F 0.200
    152 V A L D L Q G V V F 0.200
    154 L D L Q G V V F P Y 0.125
    292 I F A A W K I L G Y 0.125
    161 F P Y F P R L G R Y 0.125
    55 G N V T L P C K F Y 0.125
    157 Q G V V F P Y F P R 0.125
    229 Q N T V P G V R N Y 0.125
    311 D G S V R Y P I S R 0.125
    81 W T K L T S D Y L K 0.100
    53 R G G N V T L P C K 0.100
    314 V R Y P I S R P R R 0.100
    214 S V Q Y P I T K P R 0.100
    251 F C F T S N F N G R 0.100
    159 V V F P Y F P R L G 0.100
    153 A L D L Q G V V F P 0.100
    89 L K E V D V F V S M 0.090
    18 L S D N Y T L D H D 0.075
    2 K S L L L L V L I S 0.075
    122 A S L V I T D L T L 0.075
    337 F P D K K H K L Y G 0.062
    291 Q I F A A W K I L G 0.050
    22 Y T L D H D R A I H 0.050
    236 R N Y G F W D K D K 0.050
    145 L E D D T V V V A L 0.050
    149 T V V V A L D L Q G 0.050
    35 E N G P H L L V E A 0.050
    57 V T L P C K F Y R D 0.050
    343 K L Y G V Y C F R A 0.050
    208 G W L S D G S V Q Y 0.050
    3 S L L L L V L I S I 0.050
    17 H L S D N Y T L D H 0.050
    271 T Y D E A V Q A C L 0.050
    307 G W L A D G S V R Y 0.050
    5 L L L V L I S I C W 0.050
    222 P R E P C G G Q N T 0.045
    272 Y D E A V Q A C L N 0.045
    331 A V R F V G F P D K 0.040
    247 R Y D V F C F T S N 0.025
    13 C W A D H L S D N Y 0.025
    242 D K D K S R Y D V F 0.025
    219 I T K P R E P C G G 0.025
    160 V F P Y F P R L G R 0.025
    238 Y G F W D K D K S R 0.025
    103 K T Y G G Y Q G R V 0.025
    344 L Y G V Y C F R A Y 0.025
    335 V G F P D K K H K L 0.025
    270 L T Y D E A V Q A C 0.025
    54 G G N V T L P C K F 0.025
    148 D T V V V A L D L Q 0.025
    336 G F P D K K H K L Y 0.025
    227 G G Q N T V P G V R 0.025
    31 H I Q A E N G P H L 0.020
    40 L L V E A E Q A K V 0.020
    269 K L T Y D E A V Q A 0.020
    v.2-A1-10mers: 151P3D4
    191 K A E I H Y R K N K 18.000
    295 S S C P T S S S T Y 7.500
    68 S N D G E H W T V Y 6.250
    400 K A E N G P H L L V 4.500
    105 G S F C R N K L K Y 3.750
    157 A S E A Y K K V C L 2.700
    361 Y V E N G R P A D L 1.800
    77 Y Q D E K Q R K D K 1.500
    372 G S G Y C G A L W K 1.500
    7 K T F P L R A L H I 1.250
    382 A I E S L E E G L G 0.900
    385 S L E E G L G G K Q 0.900
    386 L E E G L G G K Q K 0.900
    183 T L E E K R K E K A 0.900
    17 V V E S I R D H S G 0.900
    97 S C E G I N I S G S 0.900
    133 F Q V P S R I F W R 0.750
    301 S S T Y D S L S P Y 0.750
    145 K A D G G S C C P Q 0.500
    123 N T N P S R R P Y H 0.500
    182 A T L E E K R K E K 0.500
    43 V T G I I T Q G A K 0.500
    168 G A P H E V G W K Y 0.500
    34 K V D L L V P T K V 0.500
    278 A A S P A A W L P L 0.500
    100 G I N I S G S F C R 0.500
    237 K T I A P L A A T R 0.500
    167 S G A P H E V G W K 0.500
    21 I R D H S G Q K M K 0.500
    180 V T A T L E E K R K 0.500
    24 H S G Q K M K Q D K 0.300
    321 H S P S G G G G L K 0.300
    384 E S L E E G L G G K 0.300
    279 A S P A A W L P L R 0.300
    354 K S E N N S W Y V E 0.270
    74 W T V Y Q D E K Q R 0.250
    322 S P S G G G G L K K 0.250
    250 I G H P G G R T P R 0.250
    220 Y T E S P G G G S P 0.225
    102 N I S G S F C R N K 0.200
    75 T V Y Q D E K Q R K 0.200
    342 N V L A R G K P Q R 0.200
    178 Q A V T A T L E E K 0.200
    47 I T Q G A K D F G H 0.125
    152 C P Q G H A S E A Y 0.125
    122 M N T N P S R R P Y 0.125
    58 Q F V G S Y K L A Y 0.125
    366 R P A D L A G S G Y 0.125
    225 G G G S P R G L G F 0.125
    54 F G H V Q F V G S Y 0.125
    238 T I A P L A A T R A 0.100
    154 Q G H A S E A Y K K 0.100
    284 W L P L R T P W T R 0.100
    45 G I I T Q G A K D F 0.100
    13 A L H I V V E S I R 0.100
    179 A V T A T L E E K R 0.100
    37 L L V P T K V T G I 0.100
    111 K L K Y L A F L H K 0.100
    1 M L E H T T K T F P 0.090
    208 Q A E K N M K K K I 0.090
    227 G S P R G L G F I F 0.075
    96 V S C E G I N I S G 0.075
    240 A P L A A T R A T R 0.050
    115 L A F L H K R M N T 0.050
    104 S G S F C R N K L K 0.050
    367 P A D L A G S G Y C 0.050
    206 Q K Q A E K N M K K 0.050
    302 S T Y D S L S P Y G 0.050
    221 T E S P G G G S P R 0.050
    129 R P Y H F Q V P S R 0.050
    94 V V V S C E G I N I 0.050
    291 W T R P S S C P T S 0.050
    83 R K D K V L L G R K 0.050
    274 A P V P A A S P A A 0.050
    216 K I D K Y T E S P G 0.050
    388 E G L G G K Q K D K 0.050
    325 G G G G L K K P A R 0.050
    124 T N P S R R P Y H F 0.050
    316 L P N P R H S P S G 0.050
    210 E K N M K K K I D K 0.050
    70 D G E H W T V Y Q D 0.045
    188 R K E K A E I H Y R 0.045
    30 K Q D K K V D L L V 0.037
    19 E S I R D H S G Q K 0.030
    305 D S L S P Y G P R N 0.030
    261 G S S A H R P P A L 0.030
    262 S S A H R P P A L S 0.030
    222 E S P G G G S P R G 0.030
    207 K Q A E K N M K K K 0.030
    166 L S G A P H E V G W 0.030
    288 R T P W T R P S S C 0.025
    198 K N K Q L M R L Q K 0.025
    228 S P R G L G F I F K 0.025
    357 N N S W Y V E N G R 0.025
    226 G G S P R G L G F I 0.025
    51 A K D F G H V Q F V 0.025
    247 A T R I G H P G G R 0.025
    202 L M R L Q K Q A E K 0.020
    59 F V G S Y K L A Y S 0.020
    33 K K V D L L V P T K 0.020
  • [0807]
    TABLE VII
    Pos 1 2 3 4 5 6 7 8 9 Score SeqID
    v.1-A2-9mers: 151P3D4
    88 Y L K E V D V F V 252.512
    4 L L L L V L I S I 150.931
    7 L V L I S I C W A 34.588
    263 Y L I H P T K L T 34.279
    5 L L L V L I S I C 29.468
    151 V V A L D L Q G V 23.795
    159 V V F P Y F P R L 22.339
    123 S L V I T D L T L 21.362
    84 L T S D Y L K E V 15.486
    32 I Q A E N G P H L 15.096
    298 I L G Y D R C D A 8.446
    279 C L N D G A Q I A 8.351
    290 G Q I F A A W K I 7.933
    291 Q I F A A W K I L 7.575
    144 G L E D D T V V V 7.483
    90 K E V D V F V S M 2.634
    106 G G Y Q G R V F L 2.454
    2 K S L L L L V L I 2.028
    22 Y T L D H D R A I 2.022
    257 F N G R F Y Y L I 1.786
    186 A V I A S F D Q L 1.740
    270 L T Y D E A V Q A 1.539
    209 W L S D G S V Q Y 1.405
    308 W L A D G S V R Y 1.405
    343 K L Y G V Y C F R 1.377
    34 A E N G P H L L V 1.352
    76 K I R I K W T K L 1.328
    152 V A L D L Q G V V 1.328
    189 A S F D Q L Y D A 1.132
    142 I E G L E D D T V 1.127
    227 G G Q N T V P G V 1.044
    181 C L D Q D A V I A 0.815
    41 L V E A E Q A K V 0.662
    137 Y K C E V I E G L 0.631
    116 G G S D S D A S L 0.572
    178 Q Q A C L D Q D A 0.504
    306 A G W L A D G S V 0.490
    207 A G W L S D G S V 0.490
    179 Q A C L D Q D A V 0.473
    324 R C S P T E A A V 0.454
    346 G V Y C F R A Y N 0.436
    180 A C L D Q D A V I 0.424
    276 V Q A C L N D G A 0.420
    193 Q L Y D A W R G G 0.332
    284 A Q I A K V G Q I 0.316
    86 S D Y L K E V D V 0.309
    39 H L L V E A E Q A 0.306
    96 V S M G Y H K K T 0.306
    202 L D W C N A G W L 0.299
    3 S L L L L V L I S 0.260
    145 L E D D T V V V A 0.254
    278 A C L N D G A Q I 0.252
    281 N D G A Q I A K V 0.222
    143 E G L E D D T V V 0.212
    172 L N F H E A Q Q A 0.204
    8 V L I S I C W A D 0.190
    117 G S D S D A S L V 0.182
    268 T K L T Y D E A V 0.175
    256 N F N G R F Y Y L 0.155
    223 R E P C G G Q N T 0.145
    246 S R Y D V F C F T 0.142
    156 L Q G V V F P Y F 0.134
    81 W T K L T S D Y L 0.129
    6 L L V L I S I C W 0.127
    10 I S I C W A D H L 0.116
    40 L L V E A E Q A K 0.104
    24 L D H D R A I H I 0.101
    287 A K V G Q I F A A 0.092
    50 F S H R G G N V T 0.092
    122 A S L V I T D L T 0.088
    83 K L T S D Y L K E 0.078
    36 N G P H L L V E A 0.075
    155 D L Q G V V F P Y 0.075
    166 R L G R Y N L N F 0.075
    71 G S G I H K I R I 0.068
    187 V I A S F D Q L Y 0.066
    108 Y Q G R V F L K G 0.066
    131 L E D Y G R Y K C 0.066
    336 G F P D K K H K L 0.061
    255 S N F N G R F Y Y 0.057
    15 A D H L S D N Y T 0.057
    199 R G G L D W C N A 0.055
    141 V I E G L E D D T 0.055
    97 S M G Y H K K T Y 0.054
    121 D A S L V I T D L 0.051
    262 Y Y L I H P T K L 0.050
    164 F P R L G R Y N L 0.049
    251 F C F T S N F N G 0.048
    1 M K S L L L L V L 0.048
    288 K V G Q I F A A W 0.043
    57 V T L P C K F Y R 0.042
    260 R F Y Y L I H P T 0.038
    56 N V T L P C K F Y 0.036
    231 T V P G V R N Y G 0.036
    224 E P C G G Q N T V 0.034
    53 R G G N V T L P C 0.032
    334 F V G F P D K K H 0.030
    201 G L D W C N A G W 0.030
    9 L I S I C W A D H 0.030
    58 T L P C K F Y R D 0.028
    v.2-A2-9mers: 151P3D4
    378 A L W K A I E S L 199.826
    284 W L P L R T P W T 188.536
    87 V L L G R K A V V 179.368
    234 F I F K T I A P L 114.985
    86 K V L L G R K A V 78.811
    165 C L S G A P H E V 69.552
    88 L L G R K A V V V 48.478
    114 Y L A F L H K R M 22.853
    231 G L G F I F K T I 19.822
    201 Q L M R L Q K Q A 18.382
    52 K D F G H V Q F V 15.825
    57 V Q F V G S Y K L 13.624
    13 A L H I V V E S I 11.758
    230 R G L G F I F K T 9.124
    9 F P L R A L H I V 7.287
    67 Y S N D G E H W T 5.046
    354 K S E N N S W Y V 4.195
    100 G I N I S G S F C 3.757
    38 L V P T K V T G I 3.569
    30 K Q D K K V D L L 3.417
    95 V V S C E G I N I 1.552
    110 N K L K Y L A F L 1.389
    68 S N D G E H W T V 1.362
    138 R I F W R Q E K A 1.238
    336 C Q G Q K H N V L 0.888
    36 D L L V P T K V T 0.848
    237 K T I A P L A A T 0.833
    117 F L H K R M N T N 0.788
    362 V E N G R P A D L 0.706
    172 E V G W K Y Q A V 0.685
    107 F C R N K L K Y L 0.617
    35 V D L L V P T K V 0.608
    81 K Q R K D K V L L 0.576
    375 Y C G A L W K A I 0.533
    93 A V V V S C E G I 0.447
    308 S P Y G P R N P L 0.446
    158 S E A Y K K V C L 0.415
    27 Q K M K Q D K K V 0.357
    175 W K Y Q A V T A T 0.350
    33 K K V D L L V P T 0.342
    232 L G F I F K T I A 0.318
    173 V G W K Y Q A V T 0.281
    289 T P W T R P S S C 0.269
    242 L A A T R A T R I 0.246
    279 A S P A A W L P L 0.237
    29 M K Q D K K V D L 0.207
    156 H A S E A Y K K V 0.202
    133 F Q V P S R I F W 0.191
    370 L A G S G Y C G A 0.176
    262 S S A H R P P A L 0.139
    104 S G S F C R N K L 0.139
    249 R I G H P G G R T 0.133
    37 L L V P T K V T G 0.127
    131 Y H F Q V P S R I 0.123
    399 R K A E N G P H L 0.122
    239 I A P L A A T R A 0.117
    43 V T G I I T Q G A 0.117
    49 Q G A K D F G H V 0.112
    227 G S P R G L G F I 0.112
    299 T S S S T Y D S L 0.102
    134 Q V P S R I F W R 0.096
    382 A I E S L E E G L 0.092
    194 I H Y R K N K Q L 0.081
    268 P A L S A R A P V 0.079
    306 S L S P Y G P R N 0.075
    256 R T P R A G S S A 0.069
    197 R K N K Q L M R L 0.068
    400 K A E N G P H L L 0.066
    270 L S A R A P V P A 0.055
    111 K L K Y L A F L H 0.053
    42 K V T G I I T Q G 0.052
    393 K Q K D K E R K A 0.051
    295 S S C P T S S S T 0.049
    10 P L R A L H I V V 0.048
    200 K Q L M R L Q K Q 0.045
    48 T Q G A K D F G H 0.044
    204 R L Q K Q A E K N 0.037
    291 W T R P S S C P T 0.036
    240 A P L A A T R A T 0.036
    277 P A A S P A A W L 0.036
    328 G L K K P A R H C 0.035
    261 G S S A H R P P A 0.032
    337 Q G Q K H N V L A 0.032
    152 C P Q G H A S E A 0.032
    325 G G G G L K K P A 0.032
    274 A P V P A A S P A 0.032
    266 R P P A L S A R A 0.032
    236 F K T I A P L A A 0.032
    302 S T Y D S L S P Y 0.031
    59 F V G S Y K L A Y 0.030
    205 L Q K Q A E K N M 0.030
    64 K L A Y S N D G E 0.026
    343 V L A R G K P Q R 0.025
    163 K V C L S G A P H 0.023
    207 K Q A E K N M K K 0.022
    16 I V V E S I R D H 0.021
    102 N I S G S F C R N 0.019
    116 A F L H K R M N T 0.019
    368 A D L A G S G Y C 0.018
    371 A G S G Y C G A L 0.018
  • [0808]
    TABLE VIII
    Pos 1 2 3 4 5 6 7 8 9 0 Score SeqID
    v.1-A2-10mers: 151P3D4
    83 K L T S D Y L K E V 559.894
    40 L L V E A E Q A K V 484.777
    343 K L Y G V Y C F R A 322.721
    6 L L V L I S I C W A 106.837
    3 S L L L L V L I S I 88.783
    193 Q L Y D A W R G G L 36.436
    4 L L L L V L I S I C 29.468
    150 V V V A L D L Q G V 23.795
    269 K L T Y D E A V Q A 17.388
    32 I Q A E N G P H L L 15.096
    73 G I H K I R I K W T 12.962
    48 K V F S H R G G N V 10.245
    297 K I L G Y D R C D A 8.846
    201 G L D W C N A G W L 6.110
    255 S N F N G R F Y Y L 5.392
    171 N L N F H E A Q Q A 4.968
    326 S P T E A A V R F V 4.710
    23 T L D H D R A I H I 4.173
    285 Q I A K V G Q I F A 3.757
    209 W L S D G S V Q Y P 3.556
    158 G V V F P Y F P R L 3.551
    270 L T Y D E A V Q A C 3.540
    105 Y G G Y Q G R V F L 3.528
    178 Q Q A C L D Q D A V 3.455
    95 F V S M G Y H K K T 2.999
    145 L E D D T V V V A L 2.664
    9 L I S I C W A D H L 2.447
    116 G G S D S D A S L V 1.861
    290 G Q I F A A W K I L 1.510
    103 K T Y G G Y Q G R V 1.406
    223 R E P C G G Q N T V 1.352
    130 T L E D Y G R Y K C 1.304
    68 T A F G S G I H K I 1.233
    144 G L E D D T V V V A 1.229
    14 W A D H L S D N Y T 1.047
    226 C G G Q N T V P G V 1.044
    166 R L G R Y N L N F H 0.943
    142 I E G L E D D T V V 0.943
    335 V G F P D K K H K L 0.877
    289 V G Q I F A A W K I 0.868
    113 F L K G G S D S D A 0.800
    308 W L A D G S V R Y P 0.711
    280 L N D G A Q I A K V 0.710
    50 F S H R G G N V T L 0.641
    151 V V L A D L Q G V V 0.551
    122 A S L V I T D L T L 0.516
    141 V I E G L E D D T V 0.510
    177 A Q Q A C L D Q D A 0.504
    115 K G G S D S D A S L 0.488
    5 L L L V L I S I C W 0.469
    263 Y L I H P T K L T Y 0.343
    70 F G S G I H K I R I 0.313
    108 Y Q G R V F L K G G 0.304
    97 S M G Y H K K T Y G 0.296
    76 K I R I K W T K L T 0.273
    188 I A S F D Q L Y D A 0.270
    88 Y L K E V D V F V S 0.269
    196 D A W R G G L D W C 0.266
    8 V L I S I C W A D H 0.215
    275 A V Q A C L N D G A 0.213
    143 E G L E D D T V V V 0.212
    172 L N F H E A Q Q A C 0.204
    180 A C L D Q D A V I A 0.202
    90 K E V D V F V S M G 0.182
    85 T S D Y L K E V D V 0.182
    277 Q A C L N D G A Q I 0.145
    245 K S R Y D V F C F T 0.135
    340 K K H K L Y G V Y C 0.133
    206 N A G W L S D G S V 0.126
    31 H I Q A E N G P H L 0.100
    309 L A D G S V R Y P I 0.099
    140 E V I E G L E D D T 0.098
    288 K V G Q I F A A W K 0.095
    125 V I T D L T L E D Y 0.080
    153 A L D L Q G V V F P 0.075
    217 Y P I T K P R E P C 0.073
    181 C L D Q D A V I A S 0.069
    120 S D A S L V I T D L 0.068
    163 Y F P R L G R Y N L 0.068
    241 W D K D K S R Y D V 0.064
    298 I L G Y D R C D A G 0.062
    33 Q A E N G P H L L V 0.062
    7 L V L I S I C W A D 0.062
    279 C L N D G A Q I A K 0.061
    173 N F H E A Q Q A C L 0.061
    179 Q A C L D Q D A V I 0.059
    155 D L Q G V V F P Y F 0.058
    1 M K S L L L L V L I 0.057
    42 V E A E Q A K V F S 0.056
    65 R D P T A F G S G I 0.055
    286 I A K V G Q I F A A 0.055
    156 L Q G V V F P Y F P 0.054
    278 A C L N D G A Q I A 0.049
    345 Y G V Y C F R A Y N 0.047
    210 L S D G S V Q Y P I 0.046
    264 L I H P T K L T Y D 0.044
    261 F Y Y L I H P T K L 0.044
    283 G A Q I A K V G Q I 0.043
    56 N V T L P C K F Y R 0.042
    256 N F N G R F Y Y L I 0.041
    v.2-A2-10mers: 151P3D4
    87 V L L G R K A V V V 179.368
    67 Y S N D G E H W T V 64.221
    37 L L V P T K V T G I 40.792
    86 K V L L G R K A V V 32.313
    234 F I F K T I A P L A 11.626
    30 K Q D K K V D L L V 9.873
    34 K V D L L V P T K V 8.520
    231 G L G F I F K T I A 7.740
    200 K Q L M R L Q K Q A 6.523
    204 R L Q K Q A E K N M 4.968
    269 A L S A R A P V P A 4.968
    57 V Q F V G S Y K L A 4.752
    2 L E H T T K T F P L 4.096
    9 F P L R A L H I V V 3.168
    164 V C L S G A P H E V 2.856
    381 K A I E S L E E G L 2.086
    28 K M K Q D K K V D L 1.890
    7 K T F P L R A L H I 1.876
    373 S G Y C G A L W K A 1.790
    48 T Q G A K D F G H V 1.742
    94 V V V S C E G I N I 1.552
    42 K V T G I I T Q G A 1.521
    276 V P A A S P A A W L 1.304
    377 G A L W K A I E S L 1.237
    212 N M K K K I D K Y T 1.036
    238 T I A P L A A T R A 0.683
    115 L A F L H K R M N T 0.651
    183 T L E E K R K E K A 0.639
    12 R A L H I V V E S I 0.604
    369 D L A G S G Y C G A 0.559
    361 Y V E N G R P A D L 0.550
    284 W L P L R T P W T R 0.514
    133 F Q V P S R I F W R 0.510
    278 A A S P A A W L P L 0.504
    336 C Q G Q K H N V L A 0.504
    51 A K D F G H V Q F V 0.489
    230 R G L G F I F K T I 0.479
    173 V G W K Y Q A V T A 0.458
    175 W K Y Q A V T A T L 0.437
    59 F V G S Y K L A Y S 0.379
    353 P K S E N N S W Y V 0.359
    92 K A V V V S C E G I 0.249
    26 G Q K M K Q D K K V 0.247
    103 I S G S F C R N K L 0.237
    307 L S P Y G P R N P L 0.237
    29 M K Q D K K V D L L 0.233
    241 P L A A T R A T R I 0.230
    193 E I H Y R K N K Q L 0.220
    400 K A E N G P H L L V 0.216
    20 S I R D H S G Q K M 0.213
    106 S F C R N K L K Y L 0.188
    261 G S S A H R P P A L 0.139
    270 L S A R A P V P A A 0.127
    378 A L W K A I E S L E 0.124
    399 R K A E N G P H L L 0.122
    88 L L G R K A V V V S 0.119
    226 G G S P R G L G F I 0.112
    236 F K T I A P L A A T 0.110
    38 L V P T K V T G I I 0.083
    362 V E N G R P A D L A 0.080
    302 S T Y D S L S P Y G 0.075
    155 G H A S E A Y K K V 0.072
    273 R A P V P A A S P A 0.069
    288 R T P W T R P S S C 0.069
    263 S A H R P P A L S A 0.069
    171 H E V G W K Y Q A V 0.069
    117 F L H K R M N T N P 0.069
    114 Y L A F L H K R M N 0.069
    370 L A G S G Y C G A L 0.066
    56 H V Q F V G S Y K L 0.064
    109 K N K L K Y L A F L 0.062
    201 Q L M R L Q K Q A E 0.055
    207 K Q A E K N M K K K 0.050
    280 S P A A W L P L R T 0.049
    334 R H C Q G Q K H N V 0.048
    46 I I T Q G A K D F G 0.047
    8 T F P L R A L H I V 0.046
    239 I A P L A A T R A T 0.035
    233 G F I F K T I A P L 0.034
    64 K L A Y S N D G E H 0.034
    39 V P T K V T G I I T 0.034
    151 C C P Q G H A S E A 0.032
    260 A G S S A H R P P A 0.032
    324 S G G G G L K K P A 0.032
    274 A P V P A A S P A A 0.032
    223 S P G G G S P R G L 0.028
    35 V D L L V P T K V T 0.027
    343 V L A R G K P Q R K 0.025
    327 G G L K K P A R H C 0.024
    16 I V V E S I R D H S 0.022
    283 A W L P L R T P W T 0.021
    36 D L L V P T K V T G 0.021
    172 E V G W K Y Q A V T 0.020
    194 I H Y R K N K Q L M 0.019
    134 Q V P S R I F W R Q 0.019
    165 C L S G A P H E V G 0.015
    216 K I D K Y T E S P G 0.014
    99 E G I N I S G S F C 0.013
    100 G I N I S G S F C R 0.012
    77 Y Q D E K Q R K D K 0.011
  • [0809]
    TABLE IX
    Pos 1 2 3 4 5 6 7 8 9 Score SeqID
    v.1-A3-9mers: 151P3D4
    343 K L Y G V Y C F R 135.000
    40 L L V E A E Q A K 45.000
    155 D L Q G V V F P Y 24.300
    166 R L G R Y N L N F 12.000
    158 G V V F P Y F P R 8.100
    130 T L E D Y G R Y K 6.000
    103 K T Y G G Y Q G R 4.500
    159 V V F P Y F P R L 4.050
    4 L L L L V L I S I 4.050
    308 W L A D G S V R Y 4.000
    209 W L S D G S V Q Y 4.000
    128 D L T L E D Y G R 3.600
    68 T A F G S G I H K 3.000
    213 G S V Q Y P I T K 2.700
    153 A L D L Q G V V F 2.000
    95 F V S M G Y H K K 2.000
    97 S M G Y H K K T Y 2.000
    123 S L V I T D L T L 1.800
    57 V T L P C K F Y R 1.350
    187 V I A S F D Q L Y 1.200
    264 L I H P T K L T Y 1.200
    249 D V F C F T S N F 0.900
    6 L L V L I S I C W 0.900
    107 G Y Q G R V F L K 0.810
    215 V Q Y P I T K P R 0.675
    144 G L E D D T V V V 0.600
    201 G L D W C N A G W 0.600
    161 F P Y F P R L G R 0.600
    312 G S V R Y P I S R 0.540
    88 Y L K E V D V F V 0.450
    5 L L L V L I S I C 0.450
    3 S L L L L V L I S 0.360
    56 N V T L P C K F Y 0.300
    39 H L L V E A E Q A 0.300
    285 Q I A K V G Q I F 0.300
    332 V R F V G F P D K 0.300
    126 I T D L T L E D Y 0.300
    245 K S R Y D V F C F 0.270
    156 L Q G V V F P Y F 0.270
    186 A V I A S F D Q L 0.270
    288 K V G Q I F A A W 0.270
    290 G Q I F A A W K I 0.243
    181 C L D Q D A V I A 0.200
    23 T L D H D T A I H 0.200
    279 C L N D G A Q I A 0.200
    298 I L G Y D R C D A 0.200
    235 V R N Y G F W D K 0.180
    76 K I R I K W T K L 0.180
    73 G I H K I R I K W 0.180
    58 T L P C K F Y R D 0.180
    228 G Q N T V P G V R 0.162
    45 E Q A K V F S H R 0.162
    261 F Y Y L I H P T K 0.150
    291 Q I F A A W K I L 0.150
    230 N T V P G V R N Y 0.135
    8 V L I S I C W A D 0.135
    75 H K I R I K W T K 0.135
    333 R F V G F P D K K 0.135
    129 L T L E D Y G R Y 0.135
    280 L N D G A Q I A K 0.120
    293 F A A W K I L G Y 0.120
    255 S N F N G R F Y Y 0.120
    83 K L T S D Y L K E 0.120
    263 Y L I H P T K L T 0.113
    54 G G N V T L P C K 0.090
    94 V F V S M G Y H K 0.090
    82 T K L T S D Y L K 0.090
    253 F T S N F N G R F 0.090
    346 G V Y C F R A Y N 0.090
    335 V G F P D K K H K 0.075
    289 V G Q I F A A W K 0.060
    269 K L T Y D E A V Q 0.060
    232 V P G V R N Y G F 0.060
    234 G V R N Y G F W D 0.054
    270 L T Y D E A V Q A 0.050
    7 L V L I S I C W A 0.045
    183 D Q D A V I A S F 0.041
    148 D T V V V A L D L 0.041
    14 W A D H L S D N Y 0.040
    62 K F Y R D P T A F 0.030
    239 G F W D K D K S R 0.030
    237 N Y G F W D K D K 0.030
    151 V V A L D L Q G V 0.030
    326 S P T E A A V R F 0.030
    81 W T K L T S D Y L 0.030
    113 F L K G G S D S D 0.030
    32 I Q A E N G P H L 0.027
    342 H K L Y G V Y C F 0.027
    284 A Q I A K V G Q I 0.024
    84 L T S D Y L K E V 0.022
    189 A S F D Q L Y D A 0.022
    2 K S L L L L V L I 0.020
    325 C S P T E A A V R 0.020
    9 L I S I C W A D H 0.020
    337 F P D K K H K L Y 0.020
    171 N L N F H E A Q Q 0.020
    41 L V E A E Q A K V 0.020
    17 H L S D N Y T L D 0.020
    55 G N V T L P C K F 0.018
    92 V D V F V S M G Y 0.018
    v.2-A3-9mers: 151P3D4
    389 G L G G K Q K D K 45.000
    34 K V D L L V P T K 18.000
    183 T L E E K R K E K 15.000
    385 S L E E G L G G K 13.500
    212 N M K K K I D K Y 6.000
    207 K Q A E K N M K K 5.400
    378 A L W K A I E S L 4.500
    231 G L G F I F K T I 4.050
    121 R M N T N P S R R 4.000
    343 V L A R G K P Q R 4.000
    179 A V T A T L E E K 3.000
    56 H V Q F V G S Y K 3.000
    13 A L H I V V E S I 2.700
    59 F V G S Y K L A Y 2.400
    338 G Q K H N V L A R 2.160
    26 G Q K M K Q D K K 1.800
    111 K L K Y L A F L H 1.800
    134 Q V P S R I F W R 1.800
    302 S T Y D S L S P Y 1.500
    75 T V Y Q D E K Q R 1.000
    1 M L E H T T K T F 1.000
    105 G S F C R N K L K 0.750
    20 S I R D H S G Q K 0.600
    112 L K Y L A F L H K 0.600
    4 H T T K T F P L R 0.600
    238 T I A P L A A T R 0.600
    168 G A P H E V G W K 0.540
    87 V L L G R K A V V 0.450
    234 F I F K T I A P L 0.450
    241 P L A A T R A T R 0.400
    211 K N M K K K I D K 0.360
    344 L A R G K P Q R K 0.300
    165 C L S G A P H E V 0.300
    57 V Q F V G S Y K L 0.270
    169 A P H E V G W K Y 0.270
    7 K T F P L R A L H 0.225
    88 L L G R K A V V V 0.200
    373 S G Y C G A L W K 0.200
    180 V T A T L E E K R 0.200
    155 G H A S E A Y K K 0.180
    280 S P A A W L P L R 0.180
    285 L P L R T P W T R 0.180
    38 L V P T K V T G I 0.180
    30 K Q D K K V D L L 0.162
    208 Q A E K N M K K K 0.150
    201 Q L M R L Q K Q A 0.150
    358 N S W Y V E N G R 0.150
    192 A E I H Y R K N K 0.135
    95 V V S C E G I N I 0.120
    284 W L P L R T P W T 0.100
    46 I I T Q G A K D F 0.100
    138 R I F W R Q E K A 0.100
    114 Y L A F L H K R M 0.100
    181 T A T L E E K R K 0.100
    137 S R I F W R Q E K 0.090
    306 S L S P Y G P R N 0.090
    228 S P R G L G F I F 0.090
    93 A V V V S C E G I 0.090
    328 G L K K P A R H C 0.090
    322 S P S G G G G L K 0.090
    113 K Y L A F L H K R 0.081
    308 S P Y G P R N P L 0.068
    392 G K Q K D K E R K 0.060
    73 H W T V Y Q D E K 0.060
    382 A I E S L E E G L 0.060
    64 K L A Y S N D G E 0.060
    5 T T K T F P L R A 0.060
    163 K V C L S G A P H 0.060
    125 N P S R R P Y H F 0.060
    100 G I N I S G S F C 0.060
    81 K Q R K D K V L L 0.054
    189 K E K A E I H Y R 0.054
    237 K T I A P L A A T 0.051
    55 G H V Q F V G S Y 0.049
    37 L L V P T K V T G 0.045
    86 K V L L G R K A V 0.045
    190 E K A E I H Y R K 0.041
    199 N K Q L M R L Q K 0.040
    296 S C P T S S S T Y 0.040
    10 P L R A L H I V V 0.040
    101 I N I S G S F C R 0.036
    36 D L L V P T K V T 0.034
    323 P S G G G G L K K 0.030
    103 I S G S F C R N K 0.030
    203 M R L Q K Q A E K 0.030
    117 F L H K R M N T N 0.030
    28 K M K Q D K K V D 0.030
    123 N T N P S R R P Y 0.030
    369 D L A G S G Y C G 0.027
    133 F Q V P S R I F W 0.027
    84 K D K V L L G R K 0.027
    42 K V T G I I T Q G 0.020
    204 R L Q K Q A E K N 0.020
    25 S G Q K M K Q D K 0.020
    206 Q K Q A E K N M K 0.020
    244 A T R A T R I G H 0.020
    202 L M R L Q K Q A E 0.020
    154 Q G H A S E A Y K 0.020
    269 A L S A R A P V P 0.020
    76 V Y Q D E K Q R K 0.020
  • [0810]
    TABLE X
    Pos
    1 2 3 4 5 6 7 8 9 0 Score SeqID
    v.1-A3-10mers: 151P3D4
    234 G V R N Y G F W D K 54.000
    343 K L Y G V Y C F R A 40.500
    279 C L N D G A Q I A K 40.000
    39 H L L V E A E Q A K 30.000
    288 K V G Q I F A A W K 18.000
    263 Y L I H P T K L T Y 12.000
    93 D V F V S M G Y H K 9.000
    331 A V R F V G F P D K 6.000
    155 D L Q G V V F P Y F 4.050
    3 S L L L L V L I S I 4.050
    81 W T K L T S D Y L K 3.000
    106 G G Y Q G R V F L K 2.700
    193 Q L Y D A W R G G L 2.700
    158 G V V F P Y F P R L 2.430
    186 A V I A S F D Q L Y 1.800
    144 G L E D D T V V V A 1.800
    83 K L T S D Y L K E V 1.350
    23 T L D H D R A I H I 1.200
    17 H L S D N Y T L D H 1.200
    56 N V T L P C K F Y R 1.200
    334 F V G F P D K K H K 1.000
    5 L L L V L I S I C W 0.900
    231 T V P G V R N Y G F 0.900
    129 L T L E D Y G R Y K 0.675
    125 V I T D L T L E D Y 0.600
    130 T L E D Y G R Y K C 0.600
    294 A A W K I L G Y D R 0.600
    269 K L T Y D E A V Q A 0.600
    251 F C F T S N F N G R 0.600
    201 G L D W C N A G W L 0.540
    88 Y L K E V D V F V S 0.540
    4 L L L L V L I S I C 0.450
    236 R N Y G F W D K D K 0.450
    40 L L V E A E Q A K V 0.450
    6 L L V L I S I C W A 0.450
    91 E V D V F V S M G Y 0.360
    128 D L T L E D Y G R Y 0.360
    113 F L K G G S D S D A 0.300
    214 S V Q Y P I T K P R 0.300
    8 V L I S I C W A D H 0.300
    332 V R F V G F P D K K 0.300
    166 R L G R Y N L N F H 0.300
    181 C L D Q D A V I A S 0.240
    103 K T Y G G Y Q G R V 0.203
    171 N L N F H E A Q Q A 0.200
    67 P T A F G S G I H K 0.200
    9 L I S I C W A D H L 0.180
    260 R F Y Y L I H P T K 0.150
    270 L T Y D E A V Q A C 0.150
    284 A Q I A K V G Q I F 0.135
    297 K I L G Y D R C D A 0.135
    41 L V E A E Q A K V F 0.100
    74 I H K I R I K W T K 0.090
    161 F P Y F P R L G R Y 0.090
    48 K V F S H R G G N V 0.090
    154 L D L Q G V V F P Y 0.081
    68 T A F G S G I H K I 0.068
    239 G F W D K D K S R Y 0.060
    324 R C S P T E A A V R 0.060
    313 S V R Y P I S R P R 0.060
    153 A L D L Q G V V F P 0.060
    291 Q I F A A W K I L G 0.060
    254 T S N F N G R F Y Y 0.060
    209 W L S D G S V Q Y P 0.060
    31 H I Q A E N G P H L 0.060
    341 K H K L Y G V Y C F 0.054
    255 S N F N G R F Y Y L 0.054
    44 A E Q A K V F S H R 0.054
    123 S L V I T D L T L E 0.045
    71 G S G I H K I R I K 0.045
    150 V V V A L D L Q G V 0.045
    76 K I R I K W T K L T 0.045
    309 L A D G S V R Y P I 0.041
    290 G Q I F A A W K I L 0.041
    285 Q I A K V G Q I F A 0.040
    212 D G S V Q Y P I T K 0.036
    53 R G G N V T L P C K 0.030
    94 V F V S M G Y H K K 0.030
    314 V R Y P I S R P R R 0.030
    141 V I E G L E D D T V 0.030
    152 V A L D L Q G V V F 0.030
    86 S D Y L K E V D V F 0.030
    55 G N V T L P C K F Y 0.027
    157 Q G V V F P Y F P R 0.027
    32 I Q A E N G P H L L 0.027
    73 G I H K I R I K W T 0.022
    96 V S M G Y H K K T Y 0.022
    57 V T L P C K F Y R D 0.020
    210 L S D G S V Q Y P I 0.020
    298 I L G Y D R C D A G 0.020
    111 R V F L K G G S D S 0.020
    97 S M G Y H K K T Y G 0.020
    275 A V Q A C L N D G A 0.020
    253 F T S N F N G R F Y 0.020
    306 A G W L A D G S V R 0.020
    79 I K W T K L T S D Y 0.020
    208 G W L S D G S V Q Y 0.018
    307 G W L A D G S V R Y 0.018
    127 T D L T L E D Y G R 0.018
    328 T E A A V R F V G F 0.018
    v.2-A3-10mers: 151P3D4
    111 K L K Y L A F L H K 360.000
    202 L M R L Q K Q A E K 20.000
    343 V L A R G K P Q R K 20.000
    284 W L P L R T P W T R 12.000
    75 T V Y Q D E K Q R K 10.000
    13 A L H I V V E S I R 6.000
    37 L L V P T K V T G I 4.050
    100 G I N I S G S F C R 3.600
    207 K Q A E K N M K K K 2.025
    228 S P R G L G F I F K 1.800
    28 K M K Q D K K V D L 1.800
    231 G L G F I F K T I A 1.800
    7 K T F P L R A L H I 1.350
    133 F Q V P S R I F W R 1.215
    182 A T L E E K R K E K 1.125
    237 K T I A P L A A T R 0.900
    191 K A E I H Y R K N K 0.900
    102 N I S G S F C R N K 0.900
    189 K E K A E I H Y R K 0.810
    372 G S G Y C G A L W K 0.600
    322 S P S G G G G L K K 0.600
    342 N V L A R G K P Q R 0.600
    105 G S F C R N K L K Y 0.600
    129 R P Y H F Q V P S R 0.600
    205 L Q K Q A E K N M K 0.600
    168 G A P H E V G W K Y 0.540
    180 V T A T L E E K R K 0.500
    178 Q A V T A T L E E K 0.450
    87 V L L G R K A V V V 0.450
    45 G I I T Q G A K D F 0.450
    77 Y Q D E K Q R K D K 0.450
    179 A V T A T L E E K R 0.400
    183 T L E E K R K E K A 0.300
    43 V T G I I T Q G A K 0.300
    33 K K V D L L V P T K 0.270
    198 K N K Q L M R L Q K 0.240
    269 A L S A R A P V P A 0.200
    64 K L A Y S N D G E H 0.180
    94 V V V S C E G I N I 0.180
    56 H V Q F V G S Y K L 0.180
    331 K P A R H C Q G Q K 0.180
    74 W T V Y Q D E K Q R 0.150
    234 F I F K T I A P L A 0.150
    378 A L W K A I E S L E 0.150
    55 G H V Q F V G S Y K 0.135
    42 K V T G I I T Q G A 0.135
    352 K P K S E N N S W Y 0.120
    311 G P R N P L P N P R 0.120
    88 L L G R K A V V V S 0.120
    24 H S G Q K M K Q D K 0.100
    204 R L Q K Q A E K N M 0.100
    279 A S P A A W L P L R 0.090
    34 K V D L L V P T K V 0.090
    369 D L A G S G Y C G A 0.090
    112 L K Y L A F L H K R 0.090
    86 K V L L G R K A V V 0.090
    389 G L G G K Q K D K E 0.090
    227 G S P R G L G F I F 0.090
    72 E H W T V Y Q D E K 0.090
    212 N M K K K I D K Y T 0.075
    391 G G K Q K D K E R K 0.060
    154 Q G H A S E A Y K K 0.060
    153 P Q G H A S E A Y K 0.060
    50 G A K D F G H V Q F 0.060
    152 C P Q G H A S E A Y 0.060
    240 A P L A A T R A T R 0.060
    361 Y V E N G R P A D L 0.060
    241 P L A A T R A T R I 0.060
    247 A T R I G H P G G R 0.060
    328 G L K K P A R H C Q 0.060
    4 H T T K T F P L R A 0.060
    211 K N M K K K I D K Y 0.054
    58 Q F V G S Y K L A Y 0.054
    30 K Q D K K V D L L V 0.054
    47 I T Q G A K D F G H 0.045
    165 C L S G A P H E V G 0.045
    386 L E E G L G G K Q K 0.045
    381 K A I E S L E E G L 0.041
    377 G A L W K A I E S L 0.041
    12 R A L H I V V E S I 0.041
    257 T P R A G S S A H R 0.040
    366 R P A D L A G S G Y 0.040
    206 Q K Q A E K N M K K 0.040
    187 K R K E K A E I H Y 0.036
    384 E S L E E G L G G K 0.030
    136 P S R I F W R Q E K 0.030
    295 S S C P T S S S T Y 0.030
    301 S S T Y D S L S P Y 0.030
    201 Q L M R L Q K Q A E 0.030
    238 T I A P L A A T R A 0.030
    321 H S P S G G G G L K 0.030
    38 L V P T K V T G I I 0.027
    167 S G A P H E V G W K 0.027
    92 K A V V V S C E G I 0.027
    134 Q V P S R I F W R Q 0.027
    337 Q G Q K H N V L A R 0.024
    1 M L E H T T K T F P 0.020
    117 F L H K R M N T N P 0.020
    20 S I R D H S G Q K M 0.020
    25 S G Q K M K Q D K K 0.020
  • [0811]
    TABLE XI
    Pos 1 2 3 4 5 6 7 8 9 Score SeqID
    v.1-A11-9mers: 151P3D4
    158 G V V F P Y F P R 5.400
    107 G Y Q G R V F L K 3.600
    95 F V S M G Y H K K 2.000
    103 K T Y G G Y Q G R 1.200
    57 V T L P C K F Y R 0.900
    333 R F V G F P D K K 0.900
    68 T A F G S G I H K 0.800
    261 F Y Y L I H P T K 0.800
    94 V F V S M G Y H K 0.600
    40 L L V E A E Q A K 0.600
    343 K L Y G V Y C F R 0.480
    228 G Q N T V P G V R 0.360
    315 R Y P I S R P R R 0.240
    237 N Y G F W D K D K 0.200
    213 G S V Q Y P I T K 0.180
    161 F P Y F P R L G R 0.160
    239 G F W D K D K S R 0.120
    215 V Q Y P I T K P R 0.120
    280 L N D G A Q I A K 0.080
    75 H K I R I K W T K 0.060
    82 T K L T S D Y L K 0.060
    54 G G N V T L P C K 0.060
    288 K V G Q I F A A W 0.060
    290 G Q I F A A W K I 0.054
    128 D L T L E D Y G R 0.048
    130 T L E D Y G R Y K 0.040
    252 C F T S N F N G R 0.040
    332 V R F V G F P D K 0.040
    235 V R N Y G F W D K 0.040
    159 V V F P Y F P R L 0.040
    312 G S V R Y P I S R 0.036
    45 E Q A K V F S H R 0.036
    186 A V I A S F D Q L 0.030
    7 L V L I S I C W A 0.030
    73 G I H K I R I K W 0.024
    166 R L G R Y N L N F 0.024
    270 L T Y D E A V Q A 0.020
    335 V G F P D K K H K 0.020
    151 V V A L D L Q G V 0.020
    289 V G Q I F A A W K 0.020
    41 L V E A E Q A K V 0.020
    307 G W L A D G S V R 0.018
    234 G V R N Y G F W D 0.018
    129 L T L E D Y G R Y 0.015
    201 G L D W C N A G W 0.012
    346 G V Y C F R A Y N 0.012
    169 R Y N L N F H E A 0.012
    4 L L L L V L I S I 0.012
    249 D V F C F T S N F 0.012
    6 L L V L I S I C W 0.012
    144 G L E D D T V V V 0.012
    300 G Y D R C D A G W 0.012
    76 K I R I K W T K L 0.012
    48 K V F S H R G G N 0.012
    62 K F Y R D P T A F 0.012
    111 R V F L K G G S D 0.012
    123 S L V I T D L T L 0.012
    344 L Y G V Y C F R A 0.012
    93 D V F V S M G Y H 0.012
    253 F T S N F N G R F 0.010
    56 N V T L P C K F Y 0.010
    334 F V G F P D K K H 0.010
    126 I T D L T L E D Y 0.010
    81 W T K L T S D Y L 0.010
    148 D T V V V A L D L 0.009
    284 A Q I A K V G Q I 0.009
    264 L I H P T K L T Y 0.008
    295 A W K I L G Y D R 0.008
    316 Y P I S R P R R R 0.006
    178 Q Q A C L D Q D A 0.006
    324 R C S P T E A A V 0.006
    150 V V V A L D L Q G 0.006
    276 V Q A C L N D G A 0.006
    32 I Q A E N G P H L 0.006
    331 A V R F V G F P D 0.006
    262 Y Y L I H P T K L 0.006
    39 H L L V E A E Q A 0.006
    156 L Q G V V F P Y F 0.006
    336 G F P D K K H K L 0.006
    84 L T S D Y L K E V 0.005
    20 D N Y T L D H D R 0.005
    9 L I S I C W A D H 0.004
    104 T Y G G Y Q G R V 0.004
    325 C S P T E A A V R 0.004
    293 F A A W K I L G Y 0.004
    291 Q I F A A W K I L 0.004
    256 N F N G R F Y Y L 0.004
    164 F P R L G R Y N L 0.004
    232 V P G V R N Y G F 0.004
    298 I L G Y D R C D A 0.004
    209 W L S D G S V Q Y 0.004
    153 A L D L Q G V V F 0.004
    279 C L N D G A Q I A 0.004
    286 I A K V G Q I F A 0.004
    194 L Y D A W R G G L 0.004
    191 F D Q L Y D A W R 0.004
    181 C L D Q D A V I A 0.004
    31 H I Q A E N G P H 0.004
    308 W L A D G S V R Y 0.004
    88 Y L K E V D V F V 0.004
    v.2-A11-9mers: 151P3D4
    34 K V D L L V P T K 6.000
    207 K Q A E K N M K K 3.600
    56 H V Q F V G S Y K 2.000
    179 A V T A T L E E K 2.000
    26 G Q K M K Q D K K 1.800
    134 Q V P S R I F W R 1.200
    338 G Q K H N V L A R 0.720
    389 G L G G K Q K D K 0.600
    168 G A P H E V G W K 0.600
    211 K N M K K K I D K 0.480
    75 T V Y Q D E K Q R 0.400
    385 S L E E G L G G K 0.400
    76 V Y Q D E K Q R K 0.400
    20 S I R D H S G Q K 0.400
    113 K Y L A F L H K R 0.360
    121 R M N T N P S R R 0.240
    322 S P S G G G G L K 0.200
    344 L A R G K P Q R K 0.200
    4 H T T K T F P L R 0.200
    183 T L E E K R K E K 0.200
    180 V T A T L E E K R 0.200
    155 G H A S E A Y K K 0.120
    285 L P L R T P W T R 0.120
    208 Q A E K N M K K K 0.100
    181 T A T L E E K R K 0.100
    238 T I A P L A A T R 0.080
    343 V L A R G K P Q R 0.080
    373 S G Y C G A L W K 0.080
    112 L K Y L A F L H K 0.080
    84 K D K V L L G R K 0.060
    105 G S F C R N K L K 0.060
    392 G K Q K D K E R K 0.060
    7 K T F P L R A L H 0.060
    163 K V C L S G A P H 0.060
    86 K V L L G R K A V 0.045
    192 A E I H Y R K N K 0.045
    280 S P A A W L P L R 0.040
    95 V V S C E G I N I 0.040
    199 N K Q L M R L Q K 0.040
    59 F V G S Y K L A Y 0.040
    101 I N I S G S F C R 0.036
    111 K L K Y L A F L H 0.036
    189 K E K A E I H Y R 0.036
    22 R D H S G Q K M K 0.030
    346 R G K P Q R K P K 0.030
    203 M R L Q K Q A E K 0.030
    44 T G I I T Q G A K 0.030
    137 S R I F W R Q E K 0.030
    256 R T P R A G S S A 0.030
    93 A V V V S C E G I 0.030
    83 R K D K V L L G R 0.024
    120 K R M N T N P S R 0.024
    138 R I F W R Q E K A 0.024
    57 V Q F V G S Y K L 0.024
    374 G Y C G A L W K A 0.024
    5 T T K T F P L R A 0.020
    25 S G Q K M K Q D K 0.020
    332 P A R H C Q G Q K 0.020
    38 L V P T K V T G I 0.020
    206 Q K Q A E K N W K 0.020
    244 A T R A T R I G H 0.020
    302 S T Y D S L S P Y 0.020
    73 H W T V Y Q D E K 0.020
    154 Q G H A S E A Y K 0.020
    81 K Q R K D K V L L 0.018
    133 F Q V P S R I F W 0.018
    48 T Q G A K D F G H 0.018
    30 K Q D K K V D L L 0.018
    326 G G G L K K P A R 0.012
    251 G H P G G R T P R 0.012
    176 K Y Q A V T A T L 0.012
    190 E K A E I H Y R K 0.012
    78 Q D E K Q R K D K 0.010
    43 V T G I I T Q G A 0.010
    387 E E G L G G K Q K 0.009
    241 P L A A T R A T R 0.008
    130 P Y H F Q V P S R 0.008
    378 A L W K A I E S L 0.008
    358 N S W Y V E N G R 0.008
    196 Y R K N K Q L M R 0.008
    234 F I F K T I A P L 0.008
    14 L H I V V E S I R 0.006
    391 G G K Q K D K E R 0.006
    340 K H N V L A R G K 0.006
    248 T R I G H P G G R 0.006
    87 V L L G R K A V V 0.006
    172 E V G W K Y Q A V 0.006
    400 K A E N G P H L L 0.006
    352 K P K S E N N S W 0.006
    42 K V T G I I T Q G 0.006
    228 S P R G L G F I F 0.006
    231 G L G F I F K T I 0.006
    336 C Q G Q K H N V L 0.006
    266 R P P A L S A R A 0.006
    237 K T I A P L A A T 0.005
    323 P S G G G G L K K 0.004
    229 P R G L G F I F K 0.004
    169 A P H E V G W K Y 0.004
    308 S P Y G P R N P L 0.004
    106 S F C R N K L K Y 0.004
  • [0812]
    TABLE XII
    Pos 1 2 3 4 5 6 7 8 9 0 Score SeqID
    v.1-A11-10mers: 151P3D4
    234 G V R N Y G F W D K 12.000
    288 K V G Q I F A A W K 6.000
    93 D V F V S M G Y H K 2.400
    81 W T K L T S D Y L K 2.000
    331 A V R F V G F P D K 2.000
    260 R F Y Y L I H P T K 1.200
    56 N V T L P C K F Y R 1.200
    334 F V G F P D K K H K 1.000
    279 C L N D G A Q I A K 0.800
    39 H L L V E A E Q A K 0.600
    106 G G Y Q G R V F L K 0.360
    94 V F V S M G Y H K K 0.300
    67 P T A F G S G I H K 0.200
    214 S V Q Y P I T K P R 0.200
    294 A A W K I L G Y D R 0.160
    129 L T L E D Y G R Y K 0.150
    236 R N Y G F W D K D K 0.120
    324 R C S P T E A A V R 0.120
    48 K V F S H R G G N V 0.120
    158 G V V F P Y F P R L 0.090
    160 V F P Y F P R L G R 0.080
    251 F C F T S N F N G R 0.080
    343 K L Y G V Y C F R A 0.072
    53 R G G N V T L P C K 0.060
    103 K T Y G G Y Q G R V 0.060
    74 I H K I R I K W T K 0.040
    190 S F D Q L Y D A W R 0.040
    231 T V P G V R N Y G F 0.040
    332 V R F V G F P D K K 0.040
    313 S V R Y P I S R P R 0.040
    186 A V I A S F D Q L Y 0.030
    150 V V V A L D L Q G V 0.030
    315 R Y P I S R P R R R 0.024
    275 A V Q A C L N D G A 0.020
    69 A F G S G I H K I R 0.020
    151 V V A L D L Q G V V 0.020
    157 Q G V V F P Y F P R 0.018
    297 K I L G Y D R C D A 0.018
    22 Y T L D H D R A I H 0.015
    290 G Q I F A A W K I L 0.013
    102 K K T Y G G Y Q G R 0.012
    127 T D L T L E D Y G R 0.012
    227 G G Q N T V P G V R 0.012
    111 R V F L K G G S D S 0.012
    136 R Y K C E V I E G L 0.012
    300 G Y D R C D A G W L 0.012
    44 A E Q A K V F S H R 0.012
    91 E V D V F V S M G Y 0.012
    239 G F W D K D K S R Y 0.012
    263 Y L I H P T K L T Y 0.012
    144 G L E D D T V V V A 0.012
    212 D G S V Q Y P I T K 0.012
    166 R L G R Y N L N F H 0.012
    5 L L L V L I S I C W 0.012
    3 S L L L L V L I S I 0.012
    201 G L D W C N A G W L 0.012
    99 G Y H K K T Y G G Y 0.012
    269 K L T Y D E A V Q A 0.012
    41 L V E A E Q A K V F 0.010
    284 A Q I A K V G Q I F 0.009
    306 A G W L A D G S V R 0.008
    314 V R Y P I S R P R R 0.008
    23 T L D H D R A I H I 0.008
    17 H L S D N Y T L D H 0.008
    261 F Y Y L I H P T K L 0.008
    285 Q I A K V G Q I F A 0.008
    193 Q L Y D A W R G G L 0.008
    71 G S G I H K I R I K 0.006
    342 H K L Y G V Y C F R 0.006
    7 L V L I S I C W A D 0.006
    124 L V I T D L T L E D 0.006
    286 I A K V G Q I F A A 0.006
    6 L L V L I S I C W A 0.006
    149 T V V V A L D L Q G 0.006
    178 Q Q A C L D Q D A V 0.006
    32 I Q A E N G P H L L 0.006
    8 V L I S I C W A D H 0.006
    40 L L V E A E Q A K V 0.006
    283 G A Q I A K V G Q I 0.006
    177 A Q Q A C L D Q D A 0.006
    83 K L T S D Y L K E V 0.006
    333 R F V G F P D K K H 0.005
    19 S D N Y T L D H D R 0.004
    9 L I S I C W A D H L 0.004
    188 I A S F D Q L Y D A 0.004
    163 Y F P R L G R Y N L 0.004
    256 N F N G R F Y Y L I 0.004
    171 N L N F H E A Q Q A 0.004
    271 T Y D E A V Q A C L 0.004
    125 V I T D L T L E D Y 0.004
    33 Q A E N G P H L L V 0.004
    31 H I Q A E N G P H L 0.004
    292 I F A A W K I L G Y 0.004
    113 F L K G G S D S D A 0.004
    68 T A F G S G I H K I 0.004
    309 L A D G S V R Y P I 0.004
    161 F P Y F P R L G R Y 0.004
    238 Y G F W D K D K S R 0.004
    141 V I E G L E D D T V 0.004
    336 G F P D K K H K L Y 0.003
    v.2-A11-10mers: 151P3D4
    75 T V Y Q D E K Q R K 4.000
    111 K L K Y L A F L H K 2.400
    43 V T G I I T Q G A K 1.000
    207 K Q A E K N M K K K 0.900
    237 K T I A P L A A T R 0.900
    182 A T L E E K R K E K 0.750
    100 G I N I S G S F C R 0.720
    205 L Q K Q A E K N M K 0.600
    342 N V L A R G K P Q R 0.600
    331 K P A R H C Q G Q K 0.600
    133 F Q V P S R I F W R 0.540
    180 V T A T L E E K R K 0.500
    343 V L A R G K P Q R K 0.400
    228 S P R G L G F I F K 0.400
    322 S P S G G G G L K K 0.400
    202 L M R L Q K Q A E K 0.400
    179 A V T A T L E E K R 0.400
    189 K E K A E I H Y R K 0.360
    178 Q A V T A T L E E K 0.300
    191 K A E I H Y R K N K 0.300
    77 Y Q D E K Q R K D K 0.300
    198 K N K Q L M R L Q K 0.240
    129 R P Y H F Q V P S R 0.240
    247 A T R I G H P G G R 0.200
    195 H Y R K N K Q L M R 0.160
    284 W L P L R T P W T R 0.160
    74 W T V Y Q D E K Q R 0.150
    372 G S G Y C G A L W K 0.120
    311 G P R N P L P N P R 0.120
    7 K T F P L R A L H I 0.120
    55 G H V Q F V G S Y K 0.090
    33 K K V D L L V P T K 0.090
    86 K V L L G R K A V V 0.090
    13 A L H I V V E S I R 0.080
    391 G G K Q K D K E R K 0.060
    153 P Q G H A S E A Y K 0.060
    83 R K D K V L L G R K 0.060
    94 V V V S C E G I N I 0.060
    34 K V D L L V P T K V 0.060
    42 K V T G I I T Q G A 0.060
    240 A P L A A T R A T R 0.060
    206 Q K Q A E K N M K K 0.040
    154 Q G H A S E A Y K K 0.040
    102 N I S G S F C R N K 0.040
    257 T P R A G S S A H R 0.040
    56 H V Q F V G S Y K L 0.040
    30 K Q D K K V D L L V 0.036
    386 L E E G L G G K Q K 0.030
    256 R T P R A G S S A H 0.030
    47 I T Q G A K D F G H 0.030
    120 K R M N T N P S R R 0.024
    25 S G Q K M K Q D K K 0.020
    38 L V P T K V T G I I 0.020
    167 S G A P H E V G W K 0.020
    321 H S P S G G G G L K 0.020
    4 H T T K T F P L R A 0.020
    24 H S G Q K M K Q D K 0.020
    361 Y V E N G R P A D L 0.020
    200 K Q L M R L Q K Q A 0.013
    188 R K E K A E I H Y R 0.012
    325 G G G G L K K P A R 0.012
    64 K L A Y S N D G E H 0.012
    210 E K N M K K K I D K 0.012
    400 K A E N G P H L L V 0.012
    72 E H W T V Y Q D E K 0.012
    231 G L G F I F K T I A 0.012
    28 K M K Q D K K V D L 0.012
    221 T E S P G G G S P R 0.012
    168 G A P H E V G W K Y 0.012
    104 S G S F C R N K L K 0.010
    123 N T N P S R R P Y H 0.010
    21 I R D H S G Q K M K 0.010
    345 A R G K P Q R K P K 0.010
    45 G I I T Q G A K D F 0.009
    19 E S I R D H S G Q K 0.009
    26 G Q K M K Q D K K V 0.009
    113 K Y L A F L H K R M 0.009
    233 G F I F K T I A P L 0.009
    92 K A V V V S C E G I 0.009
    12 R A L H I V V E S I 0.009
    377 G A L W K A I E S L 0.009
    384 E S L E E G L G G K 0.009
    381 K A I E S L E E G L 0.009
    82 Q R K D K V L L G R 0.008
    234 F I F K T I A P L A 0.008
    337 Q G Q K H N V L A R 0.008
    357 N N S W Y V E N G R 0.008
    112 L K Y L A F L H K R 0.008
    374 G Y C G A L W K A I 0.006
    163 K V C L S G A P H E 0.006
    9 F P L R A L H I V V 0.006
    352 K P K S E N N S W Y 0.006
    50 G A K D F G H V Q F 0.006
    336 C Q G Q K H N V L A 0.006
    37 L L V P T K V T G I 0.006
    204 R L Q K Q A E K N M 0.006
    58 Q F V G S Y K L A Y 0.006
    57 V Q F V G S Y K L A 0.006
    366 R P A D L A G S G Y 0.006
    273 R A P V P A A S P A 0.006
  • [0813]
    TABLE XIII
    Pos 1 2 3 4 5 6 7 8 9 Score Seq ID
    v.1-A24-9mers: 151P3D4
    262 Y Y L I H P T K L 330.000
    194 L Y D A W R G G L 200.000
    87 D Y L K E V D V F 150.000
    336 G F P D K K H K L 39.600
    256 N F N G R F Y Y L 36.000
    62 K F Y R D P T A F 20.000
    169 R Y N L N F H E A 19.800
    247 R Y D V F C F T S 10.000
    76 K I R I K W T K L 8.800
    148 D T V V V A L D L 8.400
    271 T Y D E A V Q A C 7.200
    186 A V I A S F D Q L 7.200
    10 I S I C W A D H L 6.000
    33 Q A E N G P H L L 6.000
    123 S L V I T D L T L 6.000
    159 V V F P Y F P R L 5.760
    121 D A S L V I T D L 5.600
    133 D Y G R Y K C E V 5.500
    69 A F G S G I H K I 5.500
    344 L Y G V Y C F R A 5.000
    300 G Y D R C D A G W 5.000
    21 N Y T L D H D R A 5.000
    104 T Y G G Y Q G R V 5.000
    32 I Q A E N G P H L 4.800
    116 G G S D S D A S L 4.800
    245 K S R Y D V F C F 4.000
    164 F P R L G R Y N L 4.000
    166 R L G R Y N L N F 4.000
    81 W T K L T S D Y L 4.000
    291 Q I F A A W K I L 4.000
    106 G G Y Q G R V F L 4.000
    55 G N V T L P C K F 3.960
    2 K S L L L L V L I 3.600
    156 L Q G V V F P Y F 3.360
    285 Q I A K V G Q I F 3.360
    183 D Q D A V I A S F 2.800
    329 E A A V R F V G F 2.400
    326 S P T E A A V R F 2.400
    4 L L L L V L I S I 2.100
    249 D V F C F T S N F 2.000
    232 V P G V R N Y G F 2.000
    105 Y G G Y Q G R V F 2.000
    253 F T S N F N G R F 2.000
    153 A L D L Q G V V F 2.000
    22 Y T L D H D R A I 1.800
    180 A C L D Q D A V I 1.800
    290 G Q I F A A W K I 1.650
    284 A Q I A K V G Q I 1.500
    278 A C L N D G A Q I 1.500
    315 R Y P I S R P R R 1.500
    260 R F Y Y L I H P T 1.200
    36 R Y K C E V I E G 1.100
    134 Y G R Y K C E V I 1.000
    71 G S G I H K I R I 1.000
    257 F N G R F Y Y L I 1.000
    66 D P T A F G S G I 1.000
    163 Y F P R L G R Y N 0.900
    272 Y D E A V Q A C L 0.840
    112 V F L K G G S D S 0.750
    216 Q Y P I T K P R E 0.750
    107 G Y Q G R V F L K 0.750
    173 N F H E A Q Q A C 0.720
    261 F Y Y L I H P T K 0.700
    537 Y K C E V I E G L 0.672
    190 S F D Q L Y D A W 0.600
    250 V F C F T S N F N 0.600
    162 P Y F P R L G R Y 0.600
    63 F Y R D P T A F G 0.600
    16 D H L S D N Y T L 0.600
    174 F H E A Q Q A C L 0.600
    146 E D D T V V V A L 0.560
    99 G Y H K K T Y G G 0.500
    237 N Y G F W D K D K 0.500
    49 V F S H R G G N V 0.500
    1 M K S L L L L V L 0.480
    28 R A I H I Q A E N 0.462
    51 S H R G G N V T L 0.400
    243 K D K S R Y D V F 0.400
    202 L D W C N A G W L 0.400
    301 Y D R C D A G W L 0.400
    288 K V G Q I F A A W 0.336
    90 K E V D V F V S M 0.302
    342 H K L Y G V Y C F 0.300
    53 R G G N V T L P C 0.280
    324 R C S P T E A A V 0.240
    42 V E A E Q A K V F 0.240
    80 K W T K L T S D Y 0.240
    152 V A L D L Q G V V 0.216
    279 C L N D G A Q I A 0.216
    155 D L Q G V V F P Y 0.210
    122 A S L V I T D L T 0.210
    6 L L V L I S I C W 0.210
    199 R G G L D W C N A 0.200
    48 K V F S H R G G N 0.200
    320 R P R R R C S P T 0.200
    115 K G G S D S D A S 0.200
    78 R I K W T K L T S 0.200
    36 N G P H L L V E A 0.198
    345 Y G V Y C F R A Y 0.180
    129 L T L E D Y G R Y 0.180
    v.2-A24-9mers: 151P3D4
    176 K Y Q A V T A T L 840.000
    195 H Y R K N K Q L M 30.000
    132 H F Q V P S R I F 15.000
    400 K A E N G P H L L 12.000
    360 W Y V E N G R P A 9.000
    81 K Q R K D K V L L 8.000
    30 K Q D K K V D L L 8.000
    8 T F P L R A L H I 7.500
    382 A I E S L E E G L 7.200
    279 A S P A A W L P L 6.000
    321 H S P S G G G G L 6.000
    374 G Y C G A L W K A 5.500
    104 S G S F C R N K L 5.280
    66 A Y S N D G E H W 5.000
    336 C Q G Q K H N V L 4.800
    308 S P Y G P R N P L 4.800
    57 V Q F V G S Y K L 4.400
    99 E G I N I S G S F 4.200
    107 F C R N K L K Y L 4.000
    234 F I F K T I A P L 4.000
    378 A L W K A I E S L 4.000
    109 R N K L K Y L A F 4.000
    299 T S S S T Y D S L 4.000
    371 A G S G Y C G A L 4.000
    262 S S A H R P P A L 4.000
    1 M L E H T T K T F 3.000
    226 G G S P R G L G F 2.400
    228 S P R G L G F I F 2.400
    46 I I T Q G A K D F 2.000
    125 N P S R R P Y H F 2.000
    231 G L G F I F K T I 1.680
    113 K Y L A F L H K R 1.650
    227 G S P R G L G F I 1.500
    38 L V P T K V T G I 1.500
    93 A V V V S C E G I 1.500
    39 V P T K V T G I I 1.400
    13 A L H I V V E S I 1.400
    375 Y C G A L W K A I 1.200
    219 K Y T E S P G G G 1.200
    197 R K N K Q L M R L 1.200
    76 V Y Q D E K Q R K 1.080
    95 V V S C E G I N I 1.000
    242 L A A T R A T R I 1.000
    399 R K A E N G P H L 0.960
    58 Q F V G S Y K L A 0.750
    116 A F L H K R M N T 0.750
    29 M K Q D K K V D L 0.720
    160 A Y K K V C L S G 0.700
    235 I F K T I A P L A 0.700
    114 Y L A F L H K R M 0.600
    362 V E N G R P A D L 0.600
    110 N K L K Y L A F L 0.600
    303 T Y D S L S P Y G 0.600
    80 E K Q R K D K V L 0.600
    106 S F C R N K L K Y 0.550
    205 L Q K Q A E K N M 0.500
    62 S Y K L A Y S N D 0.500
    12 R A L H I V V E S 0.462
    3 E H T T K T F P L 0.400
    158 S E A Y K K V C L 0.400
    277 P A A S P A A W L 0.400
    224 P G G G S P R G L 0.400
    194 I H Y R K N K Q L 0.400
    6 T K T F P L R A L 0.400
    266 R P P A L S A R A 0.360
    191 K A E I H Y R K N 0.330
    204 R L Q K Q A E K N 0.330
    230 R G L G F I F K T 0.330
    86 K V L L G R K A V 0.300
    354 K S E N N S W Y V 0.300
    288 R T P W T R P S S 0.300
    142 R Q E K A D G G S 0.300
    237 K T I A P L A A T 0.300
    256 R T P R A G S S A 0.300
    393 K Q K D K E R K A 0.264
    352 K P K S E N N S W 0.240
    138 R I F W R Q E K A 0.220
    283 A W L P L R T P W 0.216
    17 V V E S I R D H S 0.210
    293 R P S S C P T S S 0.200
    249 R I G H P G G R T 0.200
    51 A K D F G H V Q F 0.200
    129 R P Y H F Q V P S 0.200
    169 A P H E V G W K Y 0.185
    316 L P N P R H S P S 0.180
    67 Y S N D G E H W T 0.180
    201 Q L M R L Q K Q A 0.180
    133 F Q V P S R I F W 0.180
    123 N T N P S R R P Y 0.180
    274 A P V P A A S P A 0.180
    314 N P L P N P R H S 0.180
    43 V T G I I T Q G A 0.168
    152 C P Q G H A S E A 0.165
    356 E N N S W Y V E N 0.165
    377 G A L W K A I E S 0.165
    335 H C Q G Q K H N V 0.150
    94 V V V S C E G I N 0.150
    100 G I N I S G S F C 0.150
    87 V L L G R K A V V 0.150
    239 I A P L A A T R A 0.150
  • [0814]
    TABLE XIV
    Pos
    1 2 3 4 5 6 7 8 9 0 Score Seq ID
    v.1-A24-10mers: 151P3D4
    136 R Y K C E V I E G L 560.000
    271 T Y D E A V Q A C L 336.000
    261 F Y Y L I H P T K L 220.000
    300 G Y D R C D A G W L 200.000
    104 T Y G G Y Q G R V F 100.000
    133 D Y G R Y K C E V I 50.000
    21 N Y T L D H D R A I 50.000
    163 Y F P R L G R Y N L 30.000
    173 N F H E A Q Q A C L 24.000
    247 R Y D V F C F T S N 12.000
    87 D Y L K E V D V F V 10.500
    252 C F T S N F N G R F 10.000
    115 K G G S D S D A S L 8.000
    80 K W T K L T S D Y L 8.000
    256 N F N G R F Y Y L I 7.500
    262 Y Y L I H P T K L T 7.500
    158 G V V F P Y F P R L 7.200
    185 D A V I A S F D Q L 7.200
    344 L Y G V Y C F R A Y 6.000
    122 A S L V I T D L T L 6.000
    63 F Y R D P T A F G S 6.000
    31 H I Q A E N G P H L 6.000
    290 G Q I F A A W K I L 6.000
    237 N Y G F W D K D K S 5.500
    335 V G F P D K K H K L 5.280
    155 D L Q G V V F P Y F 5.040
    284 A Q I A K V G Q I F 5.040
    99 G Y H K K T Y G G Y 5.000
    32 I Q A E N G P H L L 4.800
    255 S N F N G R F Y Y L 4.800
    193 Q L Y D A W R G G L 4.800
    105 Y G G Y Q G R V F L 4.000
    50 F S H R G G N V T L 4.000
    201 G L D W C N A G W L 4.000
    9 L I S I C W A D H L 4.000
    54 G G N V T L P C K F 3.960
    152 V A L D L Q G V V F 3.600
    41 L V E A E Q A K V F 3.000
    231 T V P G V R N Y G F 3.000
    325 C S P T E A A V R F 3.000
    3 S L L L L V L I S I 2.100
    289 V G Q I F A A W K I 1.650
    169 R Y N L N F H E A Q 1.500
    283 G A Q I A K V G Q I 1.500
    315 R Y P I S R P R R R 1.500
    309 L A D G S V R Y P I 1.400
    210 L S D G S V Q Y P I 1.400
    107 G Y Q G R V F L K G 1.386
    68 T A F G S G I H K I 1.100
    23 T L D H D R A I H I 1.000
    277 Q A C L N D G A Q I 1.000
    117 G S D S D A S L V I 1.000
    70 F G S G I H K I R I 1.000
    179 Q A C L D Q D A V I 1.000
    336 G F P D K K H K L Y 0.900
    216 Q Y P I T K P R E P 0.825
    162 P Y F P R L G R Y N 0.720
    145 L E D D T V V V A L 0.672
    75 H K I R I K W T K L 0.660
    239 G F W D K D K S R Y 0.600
    49 V F S H R G G N V T 0.600
    120 S D A S L V I T D L 0.560
    147 D D T V V V A L D L 0.560
    182 L D Q D A V I A S F 0.504
    194 L Y D A W R G G L D 0.500
    292 I F A A W K I L G Y 0.500
    15 A D H L S D N Y T L 0.400
    341 K H K L Y G V Y C F 0.400
    2 K S L L L L V L I S 0.360
    245 K S R Y D V F C F T 0.336
    65 R D P T A F G S G I 0.300
    297 K I L G Y D R C D A 0.300
    248 Y D V F C F T S N F 0.300
    328 T E A A V R F V G F 0.240
    221 K P R E P C G G Q N 0.240
    72 S G I H K I R I K W 0.231
    83 K L T S D Y L K E V 0.220
    177 A Q Q A C L D Q D A 0.216
    140 E V I E G L E D D T 0.216
    5 L L L V L I S I C W 0.210
    269 K L T Y D E A V Q A 0.200
    61 C K F Y R D P T A F 0.200
    48 K V F S H R G G N V 0.200
    343 K L Y G V Y C F R A 0.200
    103 K T Y G G Y Q G R V 0.200
    76 K I R I K W T K L T 0.200
    111 R V F L K G G S D S 0.200
    244 D K S R Y D V F C F 0.200
    242 D K D K S R Y D V F 0.200
    86 S D Y L K E V D V F 0.200
    130 T L E D Y G R Y K C 0.198
    40 L L V E A E Q A K V 0.198
    180 A C L D Q D A V I A 0.180
    278 A C L N D G A Q I A 0.180
    275 A V Q A C L N D G A 0.180
    4 L L L L V L I S I C 0.180
    143 E G L E D D T V V V 0.180
    150 V V V A L D L Q G V 0.180
    144 G L E D D T V V V A 0.180
    200 G G L D W C N A G W 0.180
    v.2-A24-10mers: 151P3D4
    113 K Y L A F L H K R M 90.000
    374 G Y C G A L W K A I 60.000
    233 G F I F K T I A P L 30.000
    106 S F C R N K L K Y L 20.000
    381 K A I E S L E E G L 17.280
    219 K Y T E S P G G G S 12.000
    109 R N K L K Y L A F L 8.000
    28 K M K Q D K K V D L 8.000
    335 H C Q G Q K H N V L 7.200
    307 L S P Y G P R N P L 7.200
    130 P Y H F Q V P S R I 7.000
    56 H V Q F V G S Y K L 6.600
    361 Y V E N G R P A D L 6.000
    157 A S E A Y K K V C L 6.000
    377 G A L W K A I E S L 6.000
    103 I S G S F C R N K L 5.280
    230 R G L G F I F K T I 5.040
    160 A Y K K V C L S G A 5.000
    66 A Y S N D G E H W T 5.000
    278 A A S P A A W L P L 4.800
    12 R A L H I V V E S I 4.200
    276 V P A A S P A A W L 4.000
    261 G S S A H R P P A L 4.000
    223 S P G G G S P R G L 4.000
    193 E I H Y R K N K Q L 4.000
    370 L A G S G Y C G A L 4.000
    5 T T K T F P L R A L 4.000
    227 G S P R G L G F I F 3.600
    124 T N P S R R P Y H F 3.000
    92 K A V V V S C E G I 3.000
    45 G I I T Q G A K D F 3.000
    50 G A K D F G H V Q F 2.400
    7 K T F P L R A L H I 2.400
    38 L V P T K V T G I I 2.100
    225 G G G S P R G L G F 2.000
    37 L L V P T K V T G I 1.800
    208 Q A E K N M K K K I 1.650
    94 V V V S C E G I N I 1.500
    204 R L Q K Q A E K N M 1.500
    176 K Y Q A V T A T L E 1.500
    226 G G S P R G L G F I 1.200
    76 V Y Q D E K Q R K D 0.990
    320 R H S P S G G G G L 0.960
    399 R K A E N G P H L L 0.960
    116 A F L H K R M N T N 0.900
    360 W Y V E N G R P A D 0.900
    20 S I R D H S G Q K M 0.792
    8 T F P L R A L H I V 0.750
    132 H F Q V P S R I F W 0.750
    58 Q F V G S Y K L A Y 0.750
    29 M K Q D K K V D L L 0.720
    80 E K Q R K D K V L L 0.600
    53 D F G H V Q F V G S 0.600
    309 P Y G P R N P L P N 0.600
    62 S Y K L A Y S N D G 0.600
    175 W K Y Q A V T A T L 0.560
    195 H Y R K N K Q L M R 0.500
    303 T Y D S L S P Y G P 0.500
    235 I F K T I A P L A A 0.500
    196 Y R K N K Q L M R L 0.400
    398 E R K A E N G P H L 0.400
    79 D E K Q R K D K V L 0.400
    2 L E H T T K T F P L 0.400
    298 P T S S S T Y D S L 0.400
    200 K Q L M R L Q K Q A 0.360
    42 K V T G I I T Q G A 0.336
    211 K N M K K K I D K Y 0.330
    348 K P Q R K P K S E N 0.330
    34 K V D L L V P T K V 0.308
    273 R A P V P A A S P A 0.300
    400 K A E N G P H L L V 0.300
    142 R Q E K A D G G S C 0.300
    313 R N P L P N P R H S 0.300
    86 K V L L G R K A V V 0.300
    288 R T P W T R P S S C 0.300
    108 C R N K L K Y L A F 0.300
    98 C E G I N I S G S F 0.280
    30 K Q D K K V D L L V 0.280
    346 R G K P Q R K P K S 0.264
    16 I V V E S I R D H S 0.252
    366 R P A D L A G S G Y 0.240
    168 G A P H E V G W K Y 0.231
    293 R P S S C P T S S S 0.200
    131 Y H F Q V P S R I F 0.200
    352 K P K S E N N S W Y 0.200
    183 T L E E K R K E K A 0.198
    67 Y S N D G E H W T V 0.180
    274 A P V P A A S P A A 0.180
    283 A W L P L R T P W T 0.180
    9 F P L R A L H I V V 0.180
    101 I N I S G S F C R N 0.180
    151 C C P Q G H A S E A 0.165
    164 V C L S G A P H E V 0.165
    87 V L L G R K A V V V 0.150
    305 D S L S P Y G P R N 0.150
    97 S C E G I N I S G S 0.150
    99 E G I N I S G S F C 0.150
    152 C P Q G H A S E A Y 0.150
    327 G G L K K P A R H C 0.150
    239 I A P L A A T R A T 0.150
  • [0815]
    TABLE XV
    Pos
    1 2 3 4 5 6 7 8 9 Score Seq ID
    v.1-B7-9mers: 151P3D4
    164 F P R L G R Y N L 1200.000
    186 A V I A S F D Q L 60.000
    76 K I R I K W T K L 40.000
    159 V V F P Y F P R L 20.000
    320 R P R R R C S P T 20.000
    121 D A S L V I T D L 12.000
    66 D P T A F G S G I 8.000
    106 G G Y Q G R V F L 6.000
    148 D T V V V A L D L 4.000
    81 W T K L T S D Y L 4.000
    51 S H R G G N V T L 4.000
    134 Y G R Y K C E V I 4.000
    116 G G S D S D A S L 4.000
    224 E P C G G Q N T V 4.000
    123 S L V I T D L T L 4.000
    10 I S I C W A D H L 4.000
    291 Q I F A A W K I L 4.000
    32 I Q A E N G P H L 4.000
    301 Y D R C D A G W L 4.000
    33 Q A E N G P H L L 3.600
    221 K P R E P C G G Q 3.000
    331 A V R F V G F P D 1.500
    180 A C L D Q D A V I 1.200
    278 A C L N D G A Q I 1.200
    284 A Q I A K V G Q I 1.200
    151 V V A L D L Q G V 1.000
    313 S V R Y P I S R P 0.750
    207 A G W L S D G S V 0.600
    152 V A L D L Q G V V 0.600
    179 Q A C L D Q D A V 0.600
    306 A G W L A D G S V 0.600
    234 G V R N Y G F W D 0.500
    7 L V L I S I C W A 0.500
    161 F P Y F P R L G R 0.450
    4 L L L L V L I S I 0.400
    22 Y T L D H D R A I 0.400
    137 Y K C E V I E G L 0.400
    256 N F N G R F Y Y L 0.400
    202 L D W C N A G W L 0.400
    326 S P T E A A V R F 0.400
    71 G S G I H K I R I 0.400
    16 D H L S D N Y T L 0.400
    1 M K S L L L L V L 0.400
    290 G Q I F A A W K I 0.400
    336 G F P D K K H K L 0.400
    2 K S L L L L V L I 0.400
    257 F N G R F Y Y L I 0.400
    262 Y Y L I H P T K L 0.400
    232 V P G V R N Y G F 0.400
    286 I A K V G Q I F A 0.300
    41 L V E A E Q A K V 0.300
    122 A S L V I T D L T 0.300
    189 A S F D Q L Y D A 0.300
    318 I S R P R R R C S 0.300
    197 A W R G G L D W C 0.300
    96 V S M G Y H K K T 0.300
    324 R C S P T E A A V 0.200
    88 Y L K E V D V F V 0.200
    217 Y P I T K P R E P 0.200
    316 Y P I S R P R R R 0.200
    37 G P H L L V E A E 0.200
    59 L P C K F Y R D P 0.200
    245 K S R Y D V F C F 0.200
    227 G G Q N T V P G V 0.200
    266 H P T K L T Y D E 0.200
    84 L T S D Y L K E V 0.200
    143 E G L E D D T V V 0.200
    310 A D G S V R Y P I 0.180
    194 L Y D A W R G G L 0.180
    263 Y L I H P T K L T 0.150
    275 A V Q A C L N D G 0.150
    298 I L G Y D R C D A 0.150
    346 G V Y C F R A Y N 0.150
    56 N V T L P C K F Y 0.150
    48 K V F S H R G G N 0.150
    69 A F G S G I H K I 0.120
    337 F P D K K H K L Y 0.120
    146 E D D T V V V A L 0.120
    174 F H E A Q Q A C L 0.120
    272 Y D E A V Q A C L 0.120
    249 D V F C F T S N F 0.100
    172 L N F H E A Q Q A 0.100
    322 R R R C S P T E A 0.100
    90 K E V D V F V S M 0.100
    50 F S H R G G N V T 0.100
    279 C L N D G A Q I A 0.100
    26 H D R A I H I Q A 0.100
    167 L G R Y N L N F H 0.100
    5 L L L V L I S I C 0.100
    36 N G P H L L V E A 0.100
    270 L T Y D E A V Q A 0.100
    178 Q Q A C L D Q D A 0.100
    109 Q G R V F L K G G 0.100
    199 R G G L D W C N A 0.100
    288 K V G Q I F A A W 0.100
    212 D G S V Q Y P I T 0.100
    258 N G R F Y Y L I H 0.100
    39 H L L V E A E Q A 0.100
    276 V Q A C L N D G A 0.100
    53 R G G N V T L P C 0.100
    v.2-B7-9mers: 151P3D4
    308 S P Y G P R N P L 180.000
    81 K Q R K D K V L L 40.000
    107 F C R N K L K Y L 40.000
    279 A S P A A W L P L 12.000
    378 A L W K A I E S L 12.000
    371 A G S G Y C G A L 12.000
    39 V P T K V T G I I 8.000
    240 A P L A A T R A T 6.000
    104 S G S F C R N K L 6.000
    93 A V V V S C E G I 6.000
    274 A P V P A A S P A 6.000
    271 S A R A P V P A A 4.500
    336 C Q G Q K H N V L 4.000
    299 T S S S T Y D S L 4.000
    234 F I F K T I A P L 4.000
    262 S S A H R P P A L 4.000
    228 S P R G L G F I F 4.000
    57 V Q F V G S Y K L 4.000
    9 F P L R A L H I V 4.000
    321 H S P S G G G G L 4.000
    400 K A E N G P H L L 3.600
    382 A I E S L E E G L 3.600
    311 G P R N P L P N P 3.000
    38 L V P T K V T G I 2.000
    318 N P R H S P S G G 2.000
    95 V V S C E G I N I 2.000
    266 R P P A L S A R A 2.000
    289 T P W T R P S S C 2.000
    257 T P R A G S S A H 2.000
    252 H P G G R T P R A 2.000
    152 C P Q G H A S E A 2.000
    277 P A A S P A A W L 1.800
    86 K V L L G R K A V 1.500
    13 A L H I V V E S I 1.200
    169 A P H E V G W K Y 1.200
    30 K Q D K K V D L L 1.200
    242 L A A T R A T R I 1.200
    291 W T R P S S C P T 1.000
    114 Y L A F L H K R M 1.000
    205 L Q K Q A E K N M 1.000
    195 H Y R K N K Q L M 1.000
    172 E V G W K Y Q A V 1.000
    6 T K T F P L R A L 0.600
    156 H A S E A Y K K V 0.600
    264 A H R P P A L S A 0.450
    254 G G R T P R A G S 0.450
    244 A T R A T R I G H 0.450
    362 V E N G R P A D L 0.400
    29 M K Q D K K V D L 0.400
    3 E H T T K T F P L 0.400
    316 L P N P R H S P S 0.400
    129 R P Y H F Q V P S 0.400
    110 N K L K Y L A F L 0.400
    186 E K R K E K A E I 0.400
    125 N P S R R P Y H F 0.400
    375 Y C G A L W K A I 0.400
    176 K Y Q A V T A T L 0.400
    399 R K A E N G P H L 0.400
    227 G S P R G L G F I 0.400
    293 R P S S C P T S S 0.400
    276 V P A A S P A A W 0.400
    352 K P K S E N N S W 0.400
    231 G L G F I F K T I 0.400
    80 E K Q R K D K V L 0.400
    224 P G G G S P R G L 0.400
    314 N P L P N P R H S 0.400
    197 R K N K Q L M R L 0.400
    194 I H Y R K N K Q L 0.400
    158 S E A Y K K V C L 0.400
    239 I A P L A A T R A 0.300
    247 A T R I G H P G G 0.300
    344 L A R G K P Q R K 0.300
    201 Q L M R L Q K Q A 0.300
    370 L A G S G Y C G A 0.300
    297 C P T S S S T Y D 0.200
    280 S P A A W L P L R 0.200
    285 L P L R T P W T R 0.200
    335 H C Q G Q K H N V 0.200
    366 R P A D L A G S G 0.200
    49 Q G A K D F G H V 0.200
    89 L G R K A V V V S 0.200
    322 S P S G G G G L K 0.200
    127 S R R P Y H F Q V 0.200
    88 L L G R K A V V V 0.200
    135 V P S R I F W R Q 0.200
    331 K P A R H C Q G Q 0.200
    10 P L R A L H I V V 0.200
    87 V L L G R K A V V 0.200
    348 K P Q R K P K S E 0.200
    223 S P G G G S P R G 0.200
    165 C L S G A P H E V 0.200
    363 E N G R P A D L A 0.150
    149 G S C C P Q G H A 0.150
    179 A V T A T L E E K 0.150
    237 K T I A P L A A T 0.150
    249 R I G H P G G R T 0.150
    261 G S S A H R P P A 0.150
    36 D L L V P T K V T 0.150
    328 G L K K P A R H C 0.150
    282 A A W L P L R T P 0.135
  • [0816]
    TABLE XVI
    Pos
    1 2 3 4 5 6 7 8 9 0 Score Seq ID
    v.1-B7-10mers: 151P3D4
    158 G V V F P Y F P R L 20.000
    185 D A V I A S F D Q L 12.000
    122 A S L V I T D L T L 12.000
    105 Y G G Y Q G R V F L 6.000
    193 Q L Y D A W R G G L 6.000
    316 Y P I S R P R R R C 4.500
    217 Y P I T K P R E P C 4.500
    335 V G F P D K K H K L 4.000
    9 L I S I C W A D H L 4.000
    255 S N F N G R F Y Y L 4.000
    32 I Q A E N G P H L L 4.000
    221 K P R E P C G G Q N 4.000
    50 F S H R G G N V T L 4.000
    290 G Q I F A A W K I L 4.000
    115 K G G S D S D A S L 4.000
    164 F P R L G R Y N L N 4.000
    31 H I Q A E N G P H L 4.000
    326 S P T E A A V R F V 4.000
    59 L P C K F Y R D P T 3.000
    320 R P R R R C S P T E 2.000
    266 H P T K L T Y D E A 2.000
    331 A V R F V G F P D K 1.500
    275 A V Q A C L N D G A 1.500
    179 Q A C L D Q D A V I 1.200
    15 A D H L S D N Y T L 1.200
    277 Q A C L N D G A Q I 1.200
    283 G A Q I A K V G Q I 1.200
    201 G L D W C N A G W L 1.200
    68 T A F G S G I H K I 1.200
    48 K V F S H R G G N V 1.000
    151 V V A L D L Q G V V 1.000
    150 V V V A L D L Q G V 1.000
    245 K S R Y D V F C F T 1.000
    76 K I R I K W T K L T 1.000
    305 D A G W L A D G S V 0.600
    206 N A G W L S D G S V 0.600
    163 Y F P R L G R Y N L 0.600
    309 L A D G S V R Y P I 0.540
    234 G V R N Y G F W D K 0.500
    140 E V I E G L E D D T 0.500
    95 F V S M G Y H K K T 0.500
    313 S V R Y P I S R P R 0.500
    70 F G S G I H K I R I 0.400
    161 F P Y F P R L G R Y 0.400
    136 R Y K C E V I E G L 0.400
    147 D D T V V V A L D L 0.400
    173 N F H E A Q Q A C L 0.400
    232 V P G V R N Y G F W 0.400
    289 V G Q I F A A W K I 0.400
    75 H K I R I K W T K L 0.400
    261 F Y Y L I H P T K L 0.400
    3 S L L L L V L I S I 0.400
    120 S D A S L V I T D L 0.400
    80 K W T K L T S D Y L 0.400
    286 I A K V G Q I F A A 0.300
    121 D A S L V I T D L T 0.300
    186 A V I A S F D Q L Y 0.300
    188 I A S F D Q L Y D A 0.300
    180 A C L D Q D A V I A 0.300
    196 D A W R G G L D W C 0.300
    177 A Q Q A C L D Q D A 0.300
    278 A C L N D G A Q I A 0.300
    33 Q A E N G P H L L V 0.270
    66 D P T A F G S G I H 0.200
    226 C G G Q N T V P G V 0.200
    224 E P C G G Q N T V P 0.200
    116 G G S D S D A S L V 0.200
    109 Q G R V F L K G G S 0.200
    37 G P H L L V E A E Q 0.200
    178 Q Q A C L D Q D A V 0.200
    143 E G L E D D T V V V 0.200
    103 K T Y G G Y Q G R V 0.200
    40 L L V E A E Q A K V 0.200
    83 K L T S D Y L K E V 0.200
    297 K I L G Y D R C D A 0.150
    318 I S R P R R R C S P 0.150
    322 R R R C S P T E A A 0.150
    271 T Y D E A V Q A C L 0.120
    145 L E D D T V V V A L 0.120
    117 G S D S D A S L V I 0.120
    210 L S D G S V Q Y P I 0.120
    300 G Y D R C D A G W L 0.120
    23 T L D H D R A I H I 0.120
    167 L G R Y N L N F H E 0.100
    249 D V F C F T S N F N 0.100
    269 K L T Y D E A V Q A 0.100
    73 G I H K I R I K W T 0.100
    6 L L V L I S I C W A 0.100
    35 E N G P H L L V E A 0.100
    20 D N Y T L D H D R A 0.100
    270 L T Y D E A V Q A C 0.100
    285 Q I A K V G Q I F A 0.100
    111 R V F L K G G S D S 0.100
    172 L N F H E A Q Q A C 0.100
    171 N L N F H E A Q Q A 0.100
    134 Y G R Y K C E V I E 0.100
    113 F L K G G S D S D A 0.100
    343 K L Y G V Y C F R A 0.100
    4 L L L L V L I S I C 0.100
    231 T V P G V R N Y G F 0.100
    v.2-B7-10mers: 151P3D4
    276 V P A A S P A A W L 120.000
    223 S P G G G S P R G L 80.000
    278 A A S P A A W L P L 36.000
    56 H V Q F V G S Y K L 20.000
    377 G A L W K A I E S L 12.000
    370 L A G S G Y C G A L 12.000
    381 K A I E S L E E G L 12.000
    20 S I R D H S G Q K M 10.000
    307 L S P Y G P R N P L 9.000
    5 T T K T F P L R A L 6.000
    361 Y V E N G R P A D L 6.000
    103 I S G S F C R N K L 6.000
    274 A P V P A A S P A A 6.000
    109 R N K L K Y L A F L 4.000
    335 H C Q G Q K H N V L 4.000
    261 G S S A H R P P A L 4.000
    28 K M K Q D K K V D L 4.000
    9 F P L R A L H I V V 4.000
    193 E I H Y R K N K Q L 4.000
    157 A S E A Y K K V C L 3.600
    318 N P R H S P S G G G 3.000
    39 V P T K V T G I I T 2.000
    94 V V V S C E G I N I 2.000
    228 S P R G L G F I F K 2.000
    311 G P R N P L P N P R 2.000
    38 L V P T K V T G I I 2.000
    257 T P R A G S S A H R 2.000
    280 S P A A W L P L R T 2.000
    92 K A V V V S C E G I 1.200
    12 R A L H I V V E S I 1.200
    89 L G R K A V V V S C 1.000
    107 F C R N K L K Y L A 1.000
    204 R L Q K Q A E K N M 1.000
    86 K V L L G R K A V V 1.000
    240 A P L A A T R A T R 0.900
    169 A P H E V G W K Y Q 0.600
    348 K P Q R K P K S E N 0.600
    267 P P A L S A R A P V 0.600
    293 R P S S C P T S S S 0.600
    271 S A R A P V P A A S 0.600
    42 K V T G I I T Q G A 0.500
    172 E V G W K Y Q A V T 0.500
    115 L A F L H K R M N T 0.450
    260 A G S S A H R P P A 0.450
    263 S A H R P P A L S A 0.450
    344 L A R G K P Q R K P 0.450
    314 N P L P N P R H S P 0.450
    226 G G S P R G L G F I 0.400
    106 S F C R N K L K Y L 0.400
    398 E R K A E N G P H L 0.400
    366 R P A D L A G S G Y 0.400
    2 L E H T T K T F P L 0.400
    175 W K Y Q A V T A T L 0.400
    152 C P Q G H A S E A Y 0.400
    79 D E K Q R K D K V L 0.400
    399 R K A E N G P H L L 0.400
    320 R H S P S G G G G L 0.400
    297 C P T S S S T Y D S 0.400
    298 P T S S S T Y D S L 0.400
    233 G F I F K T I A P L 0.400
    196 Y R K N K Q L M R L 0.400
    230 R G L G F I F K T I 0.400
    7 K T F P L R A L H I 0.400
    80 E K Q R K D K V L L 0.400
    352 K P K S E N N S W Y 0.400
    29 M K Q D K K V D L L 0.400
    37 L L V P T K V T G I 0.400
    208 Q A E K N M K K K I 0.360
    239 I A P L A A T R A T 0.300
    34 K V D L L V P T K V 0.300
    289 T P W T R P S S C P 0.300
    125 N P S R R P Y H F Q 0.300
    156 H A S E A Y K K V C 0.300
    247 A T R I G H P G G R 0.300
    244 A T R A T R I G H P 0.300
    269 A L S A R A P V P A 0.300
    285 L P L R T P W T R P 0.300
    93 A V V V S C E G I N 0.300
    273 R A P V P A A S P A 0.300
    282 A A W L P L R T P W 0.270
    400 K A E N G P H L L V 0.270
    291 W T R P S S C P T S 0.200
    26 G Q K M K Q D K K V 0.200
    164 V C L S G A P H E V 0.200
    252 H P G G R T P R A G 0.200
    322 S P S G G G G L K K 0.200
    308 S P Y G P R N P L P 0.200
    87 V L L G R K A V V V 0.200
    67 Y S N D G E H W T V 0.200
    129 R P Y H F Q V P S R 0.200
    331 K P A R H C Q G Q K 0.200
    254 G G R T P R A G S S 0.200
    126 P S R R P Y H F Q V 0.200
    364 N G R P A D L A G S 0.200
    266 R P P A L S A R A P 0.200
    48 T Q G A K D F G H V 0.200
    316 L P N P R H S P S G 0.200
    135 V P S R I F W R Q E 0.200
    179 A V T A T L E E K R 0.150
    327 G G L K K P A R H C 0.150
  • [0817]
    TABLE XVII
    Pos
    1 2 3 4 5 6 7 8 9 Score Seq ID
    v.1-B35-9mers: 151P3D4
    164 F P R L G R Y N L 60.000
    245 K S R Y D V F C F 45.000
    326 S P T E A A V R F 40.000
    232 V P G V R N Y G F 20.000
    320 R P R R R C S P T 12.000
    337 F P D K K H K L Y 12.000
    254 T S N F N G R F Y 10.000
    66 D P T A F G S G I 8.000
    76 K I R I K W T K L 6.000
    293 F A A W K I L G Y 6.000
    129 L T L E D Y G R Y 6.000
    10 I S I C W A D H L 5.000
    209 W L S D G S V Q Y 4.000
    308 W L A D G S V R Y 4.000
    224 E P C G G Q N T V 4.000
    2 K S L L L L V L I 4.000
    81 W T K L T S D Y L 3.000
    121 D A S L V I T D L 3.000
    329 E A A V R F V G F 3.000
    221 K P R E P C G G Q 2.400
    187 V I A S F D Q L Y 2.000
    230 N T V P G V R N Y 2.000
    255 S N F N G R F Y Y 2.000
    71 G S G I H K I R I 2.000
    345 Y G V Y C F R A Y 2.000
    166 R L G R Y N L N F 2.000
    116 G G S D S D A S L 2.000
    264 L I H P T K L T Y 2.000
    97 S M G Y H K K T Y 2.000
    56 N V T L P C K F Y 2.000
    155 D L Q G V V F P Y 2.000
    32 I Q A E N G P H L 2.000
    14 W A D H L S D N Y 1.800
    196 D A W R G G L D W 1.500
    318 I S R P R R R C S 1.500
    134 Y G R Y K C E V I 1.200
    88 Y L K E V D V F V 1.200
    152 V A L D L Q G V V 1.200
    106 G G Y Q G R V F L 1.000
    148 D T V V V A L D L 1.000
    189 A S F D Q L Y D A 1.000
    186 A V I A S F D Q L 1.000
    253 F T S N F N G R F 1.000
    123 S L V I T D L T L 1.000
    55 G N V T L P C K F 1.000
    159 V V F P Y F P R L 1.000
    285 Q I A K V G Q I F 1.000
    156 L Q G V V F P Y F 1.000
    249 D V F C F T S N F 1.000
    291 Q I F A A W K I L 1.000
    105 Y G G Y Q G R V F 1.000
    288 K V G Q I F A A W 1.000
    179 Q A C L D Q D A V 0.900
    286 I A K V G Q I F A 0.900
    33 Q A E N G P H L L 0.900
    90 K E V D V F V S M 0.800
    22 Y T L D H D R A I 0.800
    180 A C L D Q D A V I 0.800
    278 A C L N D G A Q I 0.600
    243 K D K S R Y D V F 0.600
    100 Y H K K T Y G G Y 0.600
    78 R I K W T K L T S 0.600
    143 E G L E D D T V V 0.600
    28 R A I H I Q A E N 0.600
    126 I T D L T L E D Y 0.600
    96 V S M G Y H K K T 0.500
    122 A S L V I T D L T 0.500
    6 L L V L I S I C W 0.500
    50 F S H R G G N V T 0.500
    73 G I H K I R I K W 0.500
    301 Y D R C D A G W L 0.450
    117 G S D S D A S L V 0.450
    84 L T S D Y L K E V 0.400
    80 K W T K L T S D Y 0.400
    284 A Q I A K V G Q I 0.400
    324 R C S P T E A A V 0.400
    257 F N G R F Y Y L I 0.400
    4 L L L L V L I S I 0.400
    290 G Q I F A A W K I 0.400
    340 K K H K L Y G V Y 0.400
    153 A L D L Q G V V F 0.300
    305 D A G W L A D G S 0.300
    199 R G G L D W C N A 0.300
    115 K G G S D S D A S 0.300
    151 V V A L D L Q G V 0.300
    51 S H R G G N V T L 0.300
    206 N A G W L S D G S 0.300
    62 K F Y R D P T A F 0.300
    183 D Q D A V I A S F 0.300
    270 L T Y D E A V Q A 0.300
    42 V E A E Q A K V F 0.200
    53 R G G N V T L P C 0.200
    59 L P C K F Y R D P 0.200
    306 A G W L A D G S V 0.200
    137 Y K C E V I E G L 0.200
    227 G G Q N T V P G V 0.200
    37 G P H L L V E A E 0.200
    161 F P Y F P R L G R 0.200
    336 G F P D K K H K L 0.200
    48 K V F S H R G G N 0.200
    v.2-B35-9mers: 151P3D4
    352 K P K S E N N S w 90.000
    169 A P H E V G W K Y 80.000
    228 S P R G L G F I F 60.000
    308 S P Y G P R N P L 20.000
    125 N P S R R P Y H F 20.000
    276 V P A A S P A A W 10.000
    81 K Q R K D K V L L 9.000
    39 V P T K V T G I I 8.000
    205 L Q K Q A E K N M 6.000
    212 N M K K K I D K Y 6.000
    109 R N K L K Y L A F 6.000
    299 T S S S T Y D S L 5.000
    262 S S A H R P P A L 5.000
    321 H S P S G G G G L 5.000
    279 A S P A A W L P L 5.000
    302 S T Y D S L S P Y 4.000
    129 R P Y H F Q V P S 4.000
    266 R P P A L S A R A 4.000
    9 F P L R A L H I V 4.000
    293 R P S S C P T S S 4.000
    107 F C R N K L K Y L 3.000
    372 G S G Y C G A L W 2.500
    316 L P N P R H S P S 2.000
    274 A P V P A A S P A 2.000
    152 C P Q G H A S E A 2.000
    252 H P G G R T P R A 2.000
    296 S C P T S S S T Y 2.000
    240 A P L A A T R A T 2.000
    114 Y L A F L H K R M 2.000
    227 G S P R G L G F I 2.000
    123 N T N P S R R P Y 2.000
    59 F V G S Y K L A Y 2.000
    289 T P W T R P S S C 2.000
    314 N P L P N P R H S 2.000
    400 K A E N G P H L L 1.800
    242 L A A T R A T R I 1.200
    393 K Q K D K E R K A 1.200
    156 H A S E A Y K K V 1.200
    371 A G S G Y C G A L 1.000
    99 E G I N I S G S F 1.000
    336 C Q G Q K H N V L 1.000
    104 S G S F C R N K L 1.000
    234 F I F K T I A P L 1.000
    378 A L W K A I E S L 1.000
    57 V Q F V G S Y K L 1.000
    46 I I T Q G A K D F 1.000
    226 G G S P R G L G F 1.000
    96 V S C E G I N I S 1.000
    67 Y S N D G E H W T 1.000
    271 S A R A P V P A A 0.900
    366 R P A D L A G S G 0.800
    257 T P R A G S S A H 0.600
    318 N P R H S P S G G 0.600
    195 H Y R K N K Q L M 0.600
    95 V V S C E G I N I 0.600
    12 R A L H I V V E S 0.600
    354 K S E N N S W Y V 0.600
    311 G P R N P L P N P 0.600
    30 K Q D K K V D L L 0.600
    261 G S S A H R P P A 0.500
    300 S S S T Y D S L S 0.500
    270 L S A R A P V P A 0.500
    167 S G A P H E V G W 0.500
    295 S S C P T S S S T 0.500
    149 G S C C P Q G H A 0.500
    61 G S Y K L A Y S N 0.500
    133 F Q V P S R I F W 0.500
    69 N D G E H W T V Y 0.400
    13 A L H I V V E S I 0.400
    231 G L G F I F K T I 0.400
    38 L V P T K V T G I 0.400
    375 Y C G A L W K A I 0.400
    348 K P Q R K P K S E 0.400
    86 K V L L G R K A V 0.400
    93 A V V V S C E G I 0.400
    399 R K A E N G P H L 0.400
    331 K P A R H C Q G Q 0.400
    328 G L K K P A R H C 0.300
    277 P A A S P A A W L 0.300
    239 I A P L A A T R A 0.300
    89 L G R K A V V V S 0.300
    49 Q G A K D F G H V 0.300
    382 A I E S L E E G L 0.300
    254 G G R T P R A G S 0.300
    291 W T R P S S C P T 0.300
    377 G A L W K A I E S 0.300
    263 S A H R P P A L S 0.300
    159 E A Y K K V C L S 0.300
    1 M L E H T T K T F 0.300
    370 L A G S G Y C G A 0.300
    115 L A F L H K R M N 0.300
    5 T T K T F P L R A 0.300
    230 R G L G F I F K T 0.200
    280 S P A A W L P L R 0.200
    138 R I F W R Q E K A 0.200
    322 S P S G G G G L K 0.200
    288 R T P W T R P S S 0.200
    297 C P T S S S T Y D 0.200
    249 R I G H P G G R T 0.200
    204 R L Q K Q A E K N 0.200
  • [0818]
    TABLE XVIII
    Pos
    1 2 3 4 5 6 7 8 9 0 Score Seq ID
    v.1-B35-10mers: 151P3D4
    161 F P Y F P R L G R Y 40.000
    221 K P R E P C G G Q N 24.000
    254 T S N F N G R F Y Y 10.000
    96 V S M G Y H K K T Y 10.000
    232 V P G V R N Y G F W 10.000
    326 S P T E A A V R F V 8.000
    164 F P R L G R Y N L N 6.000
    152 V A L D L Q G V V F 6.000
    122 A S L V I T D L T L 5.000
    325 C S P T E A A V R F 5.000
    189 A S F D Q L Y D A W 5.000
    50 F S H R G G N V T L 5.000
    125 V I T D L T L E D Y 4.000
    185 D A V I A S F D Q L 3.000
    128 D L T L E D Y G R Y 3.000
    245 K S R Y D V F C F T 3.000
    55 G N V T L P C K F Y 2.000
    115 K G G S D S D A S L 2.000
    59 L P C K F Y R D P T 2.000
    217 Y P I T K P R E P C 2.000
    229 Q N T V P G V R N Y 2.000
    253 F T S N F N G R F Y 2.000
    32 I Q A E N G P H L L 2.000
    193 Q L Y D A W R G G L 2.000
    263 Y L I H P T K L T Y 2.000
    186 A V I A S F D Q L Y 2.000
    316 Y P I S R P R R R C 2.000
    266 H P T K L T Y D E A 2.000
    277 Q A C L N D G A Q I 1.800
    68 T A F G S G I H K I 1.200
    179 Q A C L D Q D A V I 1.200
    283 G A Q I A K V G Q I 1.200
    320 R P R R R C S P T E 1.200
    284 A Q I A K V G Q I F 1.000
    335 V G F P D K K H K L 1.000
    299 L G Y D R C D A G W 1.000
    105 Y G G Y Q G R V F L 1.000
    290 G Q I F A A W K I L 1.000
    255 S N F N G R F Y Y L 1.000
    158 G V V F P Y F P R L 1.000
    231 T V P G V R N Y G F 1.000
    2 K S L L L L V L I S 1.000
    200 G G L D W C N A G W 1.000
    31 H I Q A E N G P H L 1.000
    54 G G N V T L P C K F 1.000
    9 L I S I C W A D H L 1.000
    155 D L Q G V V F P Y F 1.000
    88 Y L K E V D V F V S 0.900
    286 I A K V G Q I F A A 0.900
    91 E V D V F V S M G Y 0.600
    210 L S D G S V Q Y P I 0.600
    305 D A G W L A D G S V 0.600
    136 R Y K C E V I E G L 0.600
    206 N A G W L S D G S V 0.600
    117 G S D S D A S L V I 0.600
    339 D K K H K L Y G V Y 0.600
    143 E G L E D D T V V V 0.600
    116 G G S D S D A S L V 0.600
    239 G F W D K D K S R Y 0.600
    76 K I R I K W T K L T 0.600
    341 K H K L Y G V Y C F 0.600
    40 L L V E A E Q A K V 0.600
    10 I S I C W A D H L S 0.500
    5 L L L V L I S I C W 0.500
    72 S G I H K I R I K W 0.500
    103 K T Y G G Y Q G R V 0.400
    336 G F P D K K H K L Y 0.400
    13 C W A D H L S D N Y 0.400
    48 K V F S H R G G N V 0.400
    3 S L L L L V L I S I 0.400
    289 V G Q I F A A W K I 0.400
    70 F G S G I H K I R I 0.400
    83 K L T S D Y L K E V 0.400
    309 L A D G S V R Y P I 0.360
    297 K I L G Y D R C D A 0.300
    109 Q G R V F L K G G S 0.300
    269 K L T Y D E A V Q A 0.300
    180 A C L D Q D A V I A 0.300
    201 G L D W C N A G W L 0.300
    121 D A S L V I T D L T 0.300
    41 L V E A E Q A K V F 0.300
    196 D A W R G G L D W C 0.300
    188 I A S F D Q L Y D A 0.300
    150 V V V A L D L Q G V 0.300
    178 Q Q A C L D Q D A V 0.300
    113 F L K G G S D S D A 0.300
    85 T S D Y L K E V D V 0.300
    111 R V F L K G G S D S 0.200
    151 V V A L D L Q G V V 0.200
    344 L Y G V Y C F R A Y 0.200
    343 K L Y G V Y C F R A 0.200
    307 G W L A D G S V R Y 0.200
    292 I F A A W K I L G Y 0.200
    80 K W T K L T S D Y L 0.200
    182 L D Q D A V I A S F 0.200
    66 D P T A F G S G I H 0.200
    270 L T Y D E A V Q A C 0.200
    99 G Y H K K T Y G G Y 0.200
    226 C G G Q N T V P G V 0.200
    224 E P C G G Q N T V P 0.200
    v.2-B35-10mers: 151P3D4
    352 K P K S E N N S W Y 240.000
    366 R P A D L A G S G Y 160.000
    152 C P Q G H A S E A Y 40.000
    276 V P A A S P A A W L 20.000
    223 S P G G G S P R G L 20.000
    50 G A K D F G H V Q F 18.000
    20 S I R D H S G Q K M 12.000
    381 K A I E S L E E G L 12.000
    301 S S T Y D S L S P Y 10.000
    105 G S F C R N K L K Y 10.000
    295 S S C P T S S S T Y 10.000
    109 R N K L K Y L A F L 6.000
    168 G A P H E V G W K Y 6.000
    28 K M K Q D K K V D L 6.000
    227 G S P R G L G F I F 5.000
    261 G S S A H R P P A L 5.000
    307 L S P Y G P R N P L 5.000
    103 I S G S F C R N K L 5.000
    348 K P Q R K P K S E N 4.000
    9 F P L R A L H I V V 4.000
    211 K N M K K K I D K Y 4.000
    293 R P S S C P T S S S 4.000
    204 R L Q K Q A E K N M 4.000
    67 Y S N D G E H W T V 3.000
    370 L A G S G Y C G A L 3.000
    278 A A S P A A W L P L 3.000
    377 G A L W K A I E S L 3.000
    5 T T K T F P L R A L 3.000
    166 L S G A F H E V G W 2.500
    187 K R K E K A E I H Y 2.400
    12 R A L H I V V E S I 2.400
    92 K A V V V S C E G I 2.400
    65 L A Y S N D G E H W 2.250
    39 V P T K V T G I I T 2.000
    297 C P T S S S T Y D S 2.000
    280 S P A A W L P L R T 2.000
    274 A P V P A A S P A A 2.000
    54 F G H V Q F V G S Y 2.000
    122 M N T N P S R R P Y 2.000
    282 A A W L P L R T P W 1.500
    157 A S E A Y K K V C L 1.500
    56 H V Q F V G S Y K L 1.000
    193 E I H Y R K N K Q L 1.000
    45 G I I T Q G A K D F 1.000
    225 G G G S P R G L G F 1.000
    335 H C Q G Q K H N V L 1.000
    124 T N P S R R P Y H F 1.000
    271 S A R A P V P A A S 0.900
    7 K T F P L R A L H I 0.800
    230 R G L G F I F K T I 0.800
    68 S N D G E H W T V Y 0.600
    311 G P R N P L P N P R 0.600
    94 V V V S C E G I N I 0.600
    273 R A P V P A A S P A 0.600
    228 S P R G L G F I F K 0.600
    156 H A S E A Y K K V C 0.600
    257 T P R A G S S A H R 0.600
    346 R G K P Q R K P K S 0.600
    26 G Q K M K Q D K K V 0.600
    318 N P R H S P S G G G 0.600
    371 A G S G Y C G A L W 0.500
    299 T S S S T Y D S L S 0.500
    149 G S C C P Q G H A S 0.500
    305 D S L S P Y G P R N 0.500
    270 L S A R A P V P A A 0.500
    262 S S A H R P P A L S 0.500
    364 N G R P A D L A G S 0.450
    86 K V L L G R K A V V 0.400
    399 R K A E N G P H L L 0.400
    226 G G S P R G L G F I 0.400
    266 R P P A L S A R A P 0.400
    37 L L V P T K V T G I 0.400
    129 R P Y H F Q V P S R 0.400
    113 K Y L A F L H K R M 0.400
    169 A P H E V G W K Y Q 0.400
    38 L V P T K V T G I I 0.400
    267 P P A L S A R A P V 0.400
    331 K P A R H C Q G Q K 0.400
    208 Q A E K N M K K K I 0.360
    400 K A E N G P H L L V 0.360
    79 D E K Q R K D K V L 0.300
    107 F C R N K L K Y L A 0.300
    115 L A F L H K R M N T 0.300
    398 E R K A E N G P H L 0.300
    239 I A P L A A T R A T 0.300
    361 Y V E N G R P A D L 0.300
    291 W T R P S S C P T S 0.300
    263 S A H R P P A L S A 0.300
    212 N M K K K I D K Y T 0.300
    196 Y R K N K Q L M R L 0.300
    254 G G R T P R A G S S 0.300
    126 P S R R P Y H F Q V 0.300
    89 L G R K A V V V S C 0.300
    48 T Q G A K D F G H V 0.300
    314 N P L P N P R H S P 0.200
    194 I H Y R K N K Q L M 0.200
    322 S P S G G G G L K K 0.200
    164 V C L S G A P H E V 0.200
    288 R T P W T R P S S C 0.200
    42 K V T G I I T Q G A 0.200
  • [0819]
    TABLE XIX
    Frequently Occurring Motifs
    avrg. %
    Name identity Description Potential Function
    zf-C2H2 34% Zinc finger, C2H2 type Nucleic acid-binding protein
    functions as transcription factor,
    nuclear location probable
    cytochrome_b_N 68% Cytochrome b(N- membrane bound oxidase, generate
    terminal)/b6/petB superoxide
    ig 19% Immunoglobulin domain domains are one hundred amino
    acids long and include a conserved
    intradomain disulfide bond.
    WD40 18% WD domain, G-beta tandem repeats of about 40
    repeat residues, each containing a Trp-Asp
    motif. Function in signal
    transduction and protein interaction
    PDZ 23% PDZ domain may function in targeting signaling
    molecules to sub-membranous sites
    LRR 28% Leucine Rich Repeat short sequence motifs involved in
    protein-protein interactions
    pkinase 23% Protein kinase domain conserved catalytic core common to
    both serine/threonine and tyrosine
    protein kinases containing an ATP
    binding site and a catalytic site
    PH
    16% PH domain pleckstrin homology involved in
    intracellular signaling or as
    constituents of the cytoskeleton
    EGF
    34% EGF-like domain 30-40 amino-acid long found in the
    extracellular domain of membrane-
    bound proteins or in secreted
    proteins
    rvt 49% Reverse transcriptase
    (RNA-dependent DNA
    polymerase)
    ank 25% Ank repeat Cytoplasmic protein, associates
    integral membrane proteins to the
    cytoskeleton
    oxidored_q1 32% NADH- membrane associated. Involved in
    Ubiquinone/plastoquinone proton translocation across the
    (complex I), various membrane
    chains
    efhand 24% EF hand calcium-binding domain, consists
    of a12 residue loop flanked on both
    sides by a 12 residue alpha-helical
    domain
    rvp 79% Retroviral aspartyl Aspartyl or acid proteases, centered
    protease on a catalytic aspartyl residue
    Collagen 42% Collagen triple helix extracellular structural proteins
    repeat (20 copies) involved in formation of connective
    tissue. The sequence consists of the
    G-X-Y and the polypeptide chains
    forms a triple helix.
    fn3 20% Fibronectin type III Located in the extracellular ligand-
    domain binding region of receptors and is
    about 200 amino acid residues long
    with two pairs of cysteines
    involved in disulfide bonds
    7tm_1 19% 7 transmembrane seven hydrophobic transmembrane
    receptor (rhodopsin regions, with the N-terminus
    family) located extracellularly while the C-
    terminus is cytoplasmic. Signal
    through G proteins
  • [0820]
    TABLE XX
    Motifs and Post-translational Modifications of 151P3D4
    N-glycosylation site.
    21-24 NYTL
    56-59 NVTL
    cAMP- and cGMP-dependent protein kinase phosphorylation site
    323-326 RRcS
    Protein kinase C phosphorylation site
    51-53 ShR
    313-315 SvR
    Casein kinase II phosphorylation site
    118-121 SdsD
    130-133 TleD
    246-249 SryD
    271-274 TydE
    326-329 SptE
    N-myristoylation site
    54-59 GGnvTL
    106-111 GGyqGR
    116-121 GGsdSD
    201-206 GLdwCN
    227-232 GGqnTV
    283-288 GAqiAK
    290-295 GQifAA
  • [0821]
    TABLE XXI
    Protein Properties of 151P3D4
    Bioinformatic
    Program URL Outcome
    151P3D4 V.1
    ORF ORF finder bp316-1380 (includes stop)
    Protein length 354 aa
    Transmembrane TM Pred http://www.ch.embnet.org/ no TM
    region HMMTop http://www.enzim.hu/hmmtop/ no TM, intracellular
    Sosui http://www.genome.ad.jp/SOSui/ no TM, soluble protein
    TMHMM http://www.cbs.dtu.dk/services/TMHMM no TM
    Signal Peptide Signal P http://www.cbs.dtu.dk/services/SignalP/ yes
    pI pI/MW tool http://www.expasy.ch/tools/ 7.1
    Molecular weight pI/MW tool http://www.expasy.ch/tools/ 40.1 kDa
    Localization PSORT http://psort.nibb.ac.jp/ 53% outside, 51% lysosome
    PSORT II http://psort.nibb.ac.jp/ 66% extracellular, 11%
    cytoplasmic
    Motifs Pfam http://www.sanger.ac.uk/Pfam/ Ig domain, extracellular link
    domain
    Prints http://www.biochem.ucl.ac.uk/ Link module
    Blocks http://www.blocks.fhcrc.org/ Link motif, C-type lectin
    domain, receptor tyrosine kinase
    class III
    151P3D4 V.2
    ORF ORF finder bp1-2166 (includes stop)
    Protein length 721 aa
    Transmembrane TM Pred http://www.ch.embnet.org/ no TM
    region HMMTop http://www.enzim.hu/hmmtop/ no TM, extracellular
    Sosui http://www.genome.ad.jp/SOSui/ no TM, soluble protein
    TMHMM http://www.cbs.dtu.dk/services/TMHMM no TM
    Signal Peptide Signal P http://www.cbs.dtu.dk/services/SignalP/ none
    pI pI/MW tool http://www.expasy.ch/tools/ pI9.6
    Molecular weight pI/MW tool http://www.expasy.ch/tools/ 80.7 kDa
    Localization PSORT http://psort.nibb.ac.jp/ 82% nucleus, 42% peroxisome
    PSORT II http://psort.nibb.ac.jp/ 52% nuclear, 26% cytoplasmic
    Motifs Pfam http://www.sanger.ac.uk/Pfam/ F5/8 type C domain, Ig domain
    extracellular link domain
    Prints http://www.biochem.ucl.ac.uk/ link module signature
    Blocks http://www.blocks.fhcrc.org/ Link motif, coagulation factor
    5/8 type c domain (FA58C),
    ribosomal protein L13, C-type
    lectin domain, receptor tyrosine
    kinase class III
  • [0822]
    TABLE XXII
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 score ID NO.
    151P3D4 v.1: HLA Peptide
    Scoring Results A1 9-mers SYFPEITHI
    126 I T D L T L E D Y 31
    230 N T V P G V R N Y 28
    337 F P D K K H K L Y 28
    240 F W D K D K S R Y 26
    14 W A D H L S D N Y 25
    264 L I H P T K L T Y 25
    293 F A A W K I L G Y 22
    18 L S D N Y T L D H 21
    129 L T L E D Y G R Y 21
    155 D L Q G V V F P Y 20
    254 T S N F N G R F Y 20
    255 S N F N G R F Y Y 20
    345 Y G V Y C F R A Y 20
    162 P Y F P R L G R Y 19
    92 V D V F V S M G Y 18
    187 V I A S F D Q L Y 18
    209 W L S D G S V Q Y 18
    303 R C D A G W L A D 18
    308 W L A D G S V R Y 18
    97 S M G Y H K K T Y 17
    100 Y H K K T Y G G Y 17
    327 P T E A A V R F V 17
    56 N V T L P C K F Y 16
    64 Y R D P T A F G S 16
    117 G S D S D A S L V 16
    153 A L D L Q G V V F 16
    210 L S D G S V Q Y P 16
    340 K K H K L Y G V Y 16
    80 K W T K L T S D Y 15
    85 T S D Y L K E V D 15
    108 Y Q G R V F L K G 15
    131 L E D Y G R Y K C 15
    222 P R E P C G G Q N 15
    280 L N D G A Q I A K 15
    33 Q A E N G P H L L 14
    119 D S D A S L V I T 14
    148 D T V V V A L D L 14
    272 Y D E A V Q A C L 14
    130 T L E D Y G R Y K 13
    146 E D D T V V V A L 13
    174 F H E A Q Q A C L 13
    23 T L D H D R A I H 12
    41 L V E A E Q A K V 12
    89 L K E V D V F V S 12
    91 E V D V F V S M G 12
    138 K C E V I E G L E 12
    141 V I E G L E D D T 12
    144 G L E D D T V V V 12
    145 L E D D T V V V A 12
    183 D Q D A V I A S F 12
    190 S F D Q L Y D A W 12
    201 G L D W C N A G W 12
    309 L A D G S V R Y P 12
    34 A E N G P H L L V 11
    35 E N G P H L L V E 11
    57 V T L P C K F Y R 11
    181 C L D Q D A V I A 11
    194 L Y D A W R G G L 11
    242 D K D K S R Y D V 11
    271 T Y D E A V Q A C 11
    3 S L L L L V L I S 10
    25 D H D R A I H I Q 10
    43 E A E Q A K V F S 10
    219 I T K P R E P C G 10
    247 R Y D V F C F T S 10
    300 G Y D R C D A G W 10
    50 F S H R G G N V T 9
    83 K L T S D Y L K E 9
    96 V S M G Y H K K T 9
    103 K T Y G G Y Q G R 9
    118 S D S D A S L V I 9
    123 S L V I T D L T L 9
    159 V V F P Y F P R L 9
    161 F P Y F P R L G R 9
    166 R L G R Y N L N F 9
    196 D A W R G G L D W 9
    213 G S V Q Y P I T K 9
    312 G S V R Y P I S R 9
    318 I S R P R R R C S 9
    22 Y T L D H D R A I 8
    53 R G G N V T L P C 8
    67 P T A F G S G I H 8
    71 G S G I H K I R I 8
    204 W C N A G W L S D 8
    253 F T S N F N G R F 8
    1 M K S L L L L V L 7
    4 L L L L V L I S I 7
    73 G I H K I R I K W 7
    84 L T S D Y L K E V 7
    120 S D A S L V I T D 7
    122 A S L V I T D L T 7
    125 V I T D L T L E D 7
    139 C E V I E G L E D 7
    150 V V V A L D L Q G 7
    189 A S F D Q L Y D A 7
    246 S R Y D V F C F T 7
    258 N G R F Y Y L I H 7
    2 K S L L L L V L I 6
    12 I C W A D H L S D 6
    51 S H R G G N V T L 6
    68 T A F G S G I H K 6
    78 R I K W T K L T S 6
    81 W T K L T S D Y L 6
    105 Y G G Y Q G R V F 6
    176 E A Q Q A C L D Q 6
    188 I A S F D Q L Y D 6
    235 V R N Y G F W D K 6
    263 Y L I H P T K L T 6
    267 P T K L T Y D E A 6
    270 L T Y D E A V Q A 6
    274 E A V Q A C L N D 6
    286 I A K V G Q I F A 6
    292 I F A A W K I L G 6
    332 V R F V G F P D K 6
    338 P D K K H K L Y G 6
    6 L L V L I S I C W 5
    45 E Q A K V F S H R 5
    69 A F G S G I H K I 5
    88 Y L K E V D V F V 5
    90 K E V D V F V S M 5
    95 F V S M G Y H K K 5
    113 F L K G G S D S D 5
    136 R Y K C E V I E G 5
    147 D D T V V V A L D 5
    156 L Q G V V F P Y F 5
    182 L D Q D A V I A S 5
    195 Y D A W R G G L D 5
    214 S V Q Y P I T K P 5
    215 V Q Y P I T K P R 5
    225 P C G G Q N T V P 5
    245 K S R Y D V F C F 5
    248 Y D V F C F T S N 5
    259 G R F Y Y L I H P 5
    314 V R Y P I S R P R 5
    325 C S P T E A A V R 5
    335 V G F P D K K H K 5
    10 I S I C W A D H L 4
    11 S I C W A D H L S 4
    24 L D H D R A I H I 4
    26 H D R A I H I Q A 4
    42 V E A E Q A K V F 4
    52 H R G G N V T L P 4
    58 T L P C K F Y R D 4
    107 G Y Q G R V F L K 4
    112 V F L K G G S D S 4
    137 Y K C E V I E G L 4
    164 F P R L G R Y N L 4
    175 H E A Q Q A C L D 4
    180 A C L D Q D A V I 4
    186 A V I A S F D Q L 4
    197 A W R G G L D W C 4
    211 S D G S V Q Y P I 4
    231 T V P G V R N Y G 4
    238 Y G F W D K D K S 4
    256 N F N G R F Y Y L 4
    262 Y Y L I H P T K L 4
    273 D E A V Q A C L N 4
    281 N D G A Q I A K V 4
    287 A K V G Q I F A A 4
    310 A D G S V R Y P I 4
    324 R C S P T E A A V 4
    328 T E A A V R F V G 4
    331 A V R F V G F P D 4
    334 F V G F P D K K H 4
    343 K L Y G V Y C F R 4
    17 H L S D N Y T L D 3
    29 A I H I Q A E N G 3
    65 R D P T A F G S G 3
    102 K K T Y G G Y Q G 3
    106 G G Y Q G R V F L 3
    134 Y G R Y K C E V I 3
    154 L D L Q G V V F P 3
    160 V F P Y F P R L G 3
    163 Y F P R L G R Y N 3
    165 P R L G R Y N L N 3
    169 R Y N L N F H E A 3
    203 D W C N A G W L S 3
    223 R E P C G G Q N T 3
    224 E P C G G Q N T V 3
    228 G Q N T V P G V R 3
    236 R N Y G F W D K D 3
    252 C F T S N F N G R 3
    257 F N G R F Y Y L I 3
    279 C L N D G A Q I A 3
    285 Q I A K V G Q I F 3
    288 K V G Q I F A A W 3
    302 D R C D A G W L A 3
    313 S V R Y P I S R P 3
    319 S R P R R R C S P 3
    329 E A A V R F V G F 3
    333 R F V G F P D K K 3
    342 H K L Y G V Y C F 3
    8 V L I S I C W A D 2
    19 S D N Y T L D H D 2
    38 P H L L V E A E Q 2
    44 A E Q A K V F S H 2
    49 V F S H R G G N V 2
    55 G N V T L P C K F 2
    60 P C K F Y R D P T 2
    63 F Y R D P T A F G 2
    70 F G S G I H K I R 2
    72 S G I H K I R I K 2
    76 K I R I K W T K L 2
    77 I R I K W T K L T 2
    82 T K L T S D Y L K 2
    86 S D Y L K E V D V 2
    87 D Y L K E V D V F 2
    94 V F V S M G Y H K 2
    101 H K K T Y G G Y Q 2
    104 T Y G G Y Q G R V 2
    121 D A S L V I T D L 2
    124 L V I T D L T L E 2
    140 E V I E G L E D D 2
    149 T V V V A L D L Q 2
    152 V A L D L Q G V V 2
    170 Y N L N F H E A Q 2
    191 F D Q L Y D A W R 2
    208 G W L S D G S V Q 2
    212 D G S V Q Y P I T 2
    217 Y P I T K P R E P 2
    218 P I T K P R E P C 2
    229 Q N T V P G V R N 2
    232 V P G V R N Y G F 2
    234 G V R N Y G F W D 2
    251 F C F T S N F N G 2
    269 K L T Y D E A V Q 2
    276 V Q A C L N D G A 2
    278 A C L N D G A Q I 2
    284 A Q I A K V G Q I 2
    290 G Q I F A A W K I 2
    295 A W K I L G Y D R 2
    296 W K I L G Y D R C 2
    297 K I L G Y D R C D 2
    298 I L G Y D R C D A 2
    301 Y D R C D A G W L 2
    307 G W L A D G S V R 2
    316 Y P I S R P R R R 2
    317 P I S R P R R R C 2
    326 S P T E A A V R F 2
    330 A A V R F V G F P 2
    336 G F P D K K H K L 2
    341 K H K L Y G V Y C 2
    5 L L L V L I S I C 1
    15 A D H L S D N Y T 1
    16 D H L S D N Y T L 1
    31 H I Q A E N G P H 1
    32 I Q A E N G P H L 1
    37 G P H L L V E A E 1
    39 H L L V E A E Q A 1
    40 L L V E A E Q A K 1
    47 A K V F S H R G G 1
    48 K V F S H R G G N 1
    66 D P T A F G S G I 1
    111 R V F L K G G S D 1
    114 L K G G S D S D A 1
    128 D L T L E D Y G R 1
    132 E D Y G R Y K C E 1
    133 D Y G R Y K C E V 1
    143 E G L E D D T V V 1
    151 V V A L D L Q G V 1
    158 G V V F P Y F P R 1
    168 G R Y N L N F H E 1
    171 N L N F H E A Q Q 1
    177 A Q Q A C L D Q D 1
    193 Q L Y D A W R G G 1
    198 W R G G L D W C N 1
    205 C N A G W L S D G 1
    207 A G W L S D G S V 1
    221 K P R E P C G G Q 1
    227 G G Q N T V P G V 1
    243 K D K S R Y D V F 1
    244 D K S R Y D V F C 1
    250 V F C F T S N F N 1
    261 F Y Y L I H P T K 1
    268 T K L T Y D E A V 1
    275 A V Q A C L N D G 1
    282 D G A Q I A K V G 1
    289 V G Q I F A A W K 1
    294 A A W K I L G Y D 1
    304 C D A G W L A D G 1
    306 A G W L A D G S V 1
    315 R Y P I S R P R R 1
    323 R R C S P T E A A 1
    344 L Y G V Y C F R A 1
    346 G V Y C F R A Y N 1
    151P3D4 v.2: HLA Peptide
    Scoring Results A1 9-mers SYFPEITHI
    188 R K E K A E I H Y 29
    123 N T N P S R R P Y 26
    367 P A D L A G S G Y 26
    106 S F C R N K L K Y 25
    59 F V G S Y K L A Y 23
    302 S T Y D S L S P Y 23
    169 A P H E V G W K Y 21
    220 Y T E S P G G G S 20
    83 R K D K V L L G R 18
    97 S C E G I N I S G 18
    157 A S E A Y K K V C 17
    212 N M K K K I D K Y 17
    296 S C P T S S S T Y 17
    55 G H V Q F V G S Y 16
    69 N D G E H W T V Y 16
    323 P S G G G G L K K 16
    353 P K S E N N S W Y 16
    153 P Q G H A S E A Y 15
    361 Y V E N G R P A D 15
    385 S L E E G L G G K 15
    77 Y Q D E K Q R K D 14
    354 K S E N N S W Y V 14
    386 L E E G L G G K Q 14
    400 K A E N G P H L L 14
    7 K T F P L R A L H 13
    21 I R D H S G Q K M 13
    30 K Q D K K V D L L 13
    51 A K D F G H V Q F 13
    68 S N D G E H W T V 13
    78 Q D E K Q R K D K 13
    145 K A D G G S C C P 13
    5 T T K T F P L R A 12
    17 V V E S I R D H S 12
    170 P H E V G W K Y Q 12
    183 T L E E K R K E K 12
    184 L E E K R K E K A 12
    191 K A E I H Y R K N 12
    208 Q A E K N M K K K 12
    244 A T R A T R I G H 12
    264 A H R P P A L S A 12
    301 S S T Y D S L S P 12
    1 M L E H T T K T F 11
    4 H T T K T F P L R 11
    34 K V D L L V P T K 11
    40 P T K V T G I I T 11
    216 K I D K Y T E S P 11
    226 G G S P R G L G F 11
    279 A S P A A W L P L 11
    382 A I E S L E E G L 11
    384 E S L E E G L G G 11
    394 Q K D K E R K A E 11
    31 Q D K K V D L L V 10
    70 D G E H W T V Y Q 10
    74 W T V Y Q D E K Q 10
    133 F Q V P S R I F W 10
    142 R Q E K A D G G S 10
    291 W T R P S S C P T 10
    295 S S C P T S S S T 10
    303 T Y D S L S P Y G 10
    364 N G R P A D L A G 10
    373 S G Y C G A L W K 10
    396 D K E R K A E N G 10
    82 Q R K D K V L L G 9
    112 L K Y L A F L H K 9
    150 S C C P Q G H A S 9
    160 A Y K K V C L S G 9
    180 V T A T L E E K R 9
    182 A T L E E K R K E 9
    196 Y R K N K Q L M R 9
    229 P R G L G F I F K 9
    247 A T R I G H P G G 9
    300 S S S T Y D S L S 9
    306 S L S P Y G P R N 9
    67 Y S N D G E H W T 8
    222 E S P G G G S P R 8
    310 Y G P R N P L P N 8
    322 S P S G G G G L K 8
    32 D K K V D L L V P 7
    43 V T G I I T Q G A 7
    47 I T Q G A K D F G 7
    96 V S C E G I N I S 7
    105 G S F C R N K L K 7
    127 S R R P Y H F Q V 7
    199 N K Q L M R L Q K 7
    221 T E S P G G G S P 7
    236 F K T I A P L A A 7
    237 K T I A P L A A T 7
    250 I G H P G G R T P 7
    256 R T P R A G S S A 7
    272 A R A P V P A A S 7
    278 A A S P A A W L P 7
    288 R T P W T R P S S 7
    309 P Y G P R N P L P 7
    321 H S P S G G G G L 7
    324 S G G G G L K K P 7
    338 G Q K H N V L A R 7
    346 R G K P Q R K P K 7
    372 G S G Y C G A L W 7
    8 T F P L R A L H I 6
    10 P L R A L H I V V 6
    41 T K V T G I I T Q 6
    54 F G H V Q F V G S 6
    95 V V S C E G I N I 6
    109 R N K L K Y L A F 6
    166 L S G A P H E V G 6
    167 S G A P H E V G W 6
    178 Q A V T A T L E E 6
    227 G S P R G L G F I 6
    262 S S A H R P P A L 6
    281 P A A W L P L R T 6
    283 A W L P L R T P W 6
    298 P T S S S T Y D S 6
    307 L S P Y G P R N P 6
    333 A R H C Q G Q K H 6
    358 N S W Y V E N G R 6
    380 W K A I E S L E E 6
    13 A L H I V V E S I 5
    23 D H S G Q K M K Q 5
    35 V D L L V P T K V 5
    37 L L V P T K V T G 5
    45 G I I T Q G A K D 5
    57 V Q F V G S Y K L 5
    104 S G S F C R N K L 5
    126 P S R R P Y H F Q 5
    149 G S C C P Q G H A 5
    204 R L Q K Q A E K N 5
    223 S P G G G S P R G 5
    261 G S S A H R P P A 5
    263 S A H R P P A L S 5
    274 A P V P A A S P A 5
    294 P S S C P T S S S 5
    305 D S L S P Y G P R 5
    308 S P Y G P R N P L 5
    320 R H S P S G G G G 5
    329 L K K P A R H C Q 5
    388 E G L G G K Q K D 5
    15 H I V V E S I R D 4
    19 E S I R D H S G Q 4
    24 H S G Q K M K Q D 4
    27 Q K M K Q D K K V 4
    61 G S Y K L A Y S N 4
    87 V L L G R K A V V 4
    102 N I S G S F C R N 4
    103 I S G S F C R N K 4
    128 R R P Y H F Q V P 4
    131 Y H F Q V P S R I 4
    135 V P S R I F W R Q 4
    136 P S R I F W R Q E 4
    177 Y Q A V T A T L E 4
    211 K N M K K K I D K 4
    225 G G G S P R G L G 4
    228 S P R G L G F I F 4
    231 G L G F I F K T I 4
    233 G F I F K T I A P 4
    238 T I A P L A A T R 4
    251 G H P G G R T P R 4
    255 G R T P R A G S S 4
    265 H R P P A L S A R 4
    270 L S A R A P V P A 4
    271 S A R A P V P A A 4
    280 S P A A W L P L R 4
    287 L R T P W T R P S 4
    299 T S S S T Y D S L 4
    312 P R N P L P N P R 4
    314 N P L P N P R H S 4
    316 L P N P R H S P S 4
    343 V L A R G K P Q R 4
    345 A R G K P Q R K P 4
    350 Q R K P K S E N N 4
    377 G A L W K A I E S 4
    390 L G G K Q K D K E 4
    22 R D H S G Q K M K 3
    36 D L L V P T K V T 3
    39 V P T K V T G I I 3
    49 Q G A K D F G H V 3
    53 D F G H V Q F V G 3
    56 H V Q F V G S Y K 3
    58 Q F V G S Y K L A 3
    63 Y K L A Y S N D G 3
    85 D K V L L G R K A 3
    86 K V L L G R K A V 3
    90 G R K A V V V S C 3
    91 R K A V V V S C E 3
    111 K L K Y L A F L H 3
    114 Y L A F L H K R M 3
    130 P Y H F Q V P S R 3
    137 S R I F W R Q E K 3
    144 E K A D G G S C C 3
    159 E A Y K K V C L S 3
    164 V C L S G A P H E 3
    173 V G W K Y Q A V T 3
    192 A E I H Y R K N K 3
    207 K Q A E K N M K K 3
    209 A E K N M K K K I 3
    230 R G L G F I F K T 3
    269 A L S A R A P V P 3
    315 P L P N P R H S P 3
    335 H C Q G Q K H N V 3
    337 Q G Q K H N V L A 3
    341 H N V L A R G K P 3
    355 S E N N S W Y V E 3
    359 S W Y V E N G R P 3
    363 E N G R P A D L A 3
    368 A D L A G S G Y C 3
    369 D L A G S G Y C G 3
    371 A G S G Y C G A L 3
    374 G Y C G A L W K A 3
    387 E E G L G G K Q K 3
    14 L H I V V E S I R 2
    20 S I R D H S G Q K 2
    25 S G Q K M K Q D K 2
    26 G Q K M K Q D K K 2
    46 I I T Q G A K D F 2
    50 G A K D F G H V Q 2
    52 K D F G H V Q F V 2
    62 S Y K L A Y S N D 2
    64 K L A Y S N D G E 2
    66 A Y S N D G E H W 2
    72 E H W T V Y Q D E 2
    79 D E K Q R K D K V 2
    81 K Q R K D K V L L 2
    88 L L G R K A V V V 2
    89 L G R K A V V V S 2
    92 K A V V V S C E G 2
    101 I N I S G S F C R 2
    108 C R N K L K Y L A 2
    113 K Y L A F L H K R 2
    116 A F L H K R M N T 2
    117 F L H K R M N T N 2
    138 R I F W R Q E K A 2
    139 I F W R Q E K A D 2
    146 A D G G S C C P Q 2
    151 C C P Q G H A S E 2
    155 G H A S E A Y K K 2
    156 H A S E A Y K K V 2
    158 S E A Y K K V C L 2
    161 Y K K V C L S G A 2
    165 C L S G A P H E V 2
    174 G W K Y Q A V T A 2
    176 K Y Q A V T A T L 2
    193 E I H Y R K N K Q 2
    195 H Y R K N K Q L M 2
    197 R K N K Q L M R L 2
    198 K N K Q L M R L Q 2
    200 K Q L M R L Q K Q 2
    202 L M R L Q K Q A E 2
    235 I F K T I A P L A 2
    241 P L A A T R A T R 2
    249 R I G H P G G R T 2
    254 G G R T P R A G S 2
    257 T P R A G S S A H 2
    282 A A W L P L R T P 2
    286 P L R T P W T R P 2
    304 Y D S L S P Y G P 2
    313 R N P L P N P R H 2
    328 G L K K P A R H C 2
    334 R H C Q G Q K H N 2
    339 Q K H N V L A R G 2
    347 G K P Q R K P K S 2
    357 N N S W Y V E N G 2
    362 V E N G R P A D L 2
    370 L A G S G Y C G A 2
    375 Y C G A L W K A I 2
    378 A L W K A I E S L 2
    379 L W K A I E S L E 2
    383 I E S L E E G L G 2
    389 G L G G K Q K D K 2
    393 K Q K D K E R K A 2
    6 T K T F P L R A L 1
    9 F P L R A L H I V 1
    11 L R A L H I V V E 1
    12 R A L H I V V E S 1
    18 V E S I R D H S G 1
    28 K M K Q D K K V D 1
    38 L V P T K V T G I 1
    42 K V T G I I T Q G 1
    60 V G S Y K L A Y S 1
    71 G E H W T V Y Q D 1
    73 H W T V Y Q D E K 1
    76 V Y Q D E K Q R K 1
    80 E K Q R K D K V L 1
    93 A V V V S C E G I 1
    94 V V V S C E G I N 1
    100 G I N I S G S F C 1
    107 F C R N K L K Y L 1
    110 N K L K Y L A F L 1
    115 L A F L H K R M N 1
    118 L H K R M N T N P 1
    120 K R M N T N P S R 1
    122 M N T N P S R R P 1
    124 T N P S R R P Y H 1
    132 H F Q V P S R I F 1
    140 F W R Q E K A D G 1
    143 Q E K A D G G S C 1
    152 C P Q G H A S E A 1
    163 K V C L S G A P H 1
    168 G A P H E V G W K 1
    171 H E V G W K Y Q A 1
    175 W K Y Q A V T A T 1
    179 A V T A T L E E K 1
    194 I H Y R K N K Q L 1
    201 Q L M R L Q K Q A 1
    206 Q K Q A E K N M K 1
    224 P G G G S P R G L 1
    234 F I F K T I A P L 1
    240 A P L A A T R A T 1
    243 A A T R A T R I G 1
    246 R A T R I G H P G 1
    248 T R I G H P G G R 1
    252 H P G G R T P R A 1
    258 P R A G S S A H R 1
    260 A G S S A H R P P 1
    268 P A L S A R A P V 1
    273 R A P V P A A S P 1
    276 V P A A S P A A W 1
    277 P A A S P A A W L 1
    284 W L P L R T P W T 1
    290 P W T R P S S C P 1
    311 G P R N P L P N P 1
    319 P R H S P S G G G 1
    325 G G G G L K K P A 1
    336 C Q G Q K H N V L 1
    342 N V L A R G K P Q 1
    344 L A R G K P Q R K 1
    349 P Q R K P K S E N 1
    352 K P K S E N N S W 1
    360 W Y V E N G R P A 1
    398 E R K A E N G P H 1
    399 R K A E N G P H L 1
  • [0823]
    TABLE XXIII
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 score ID NO.
    151P3D4 v.1: HLA Peptide
    Scoring Results A*0201 9-mers SYFPEITHI
    4 L L L L V L I S I 28
    88 Y L K E V D V F V 25
    123 S L V I T D L T L 25
    144 G L E D D T V V V 25
    84 L T S D Y L K E V 23
    76 K I R I K W T K L 22
    151 V V A L D L Q G V 22
    3 S L L L L V L I S 20
    51 S H R G G N V T L 20
    159 V V F P Y F P R L 20
    263 Y L I H P T K L T 20
    5 L L L V L I S I C 19
    41 L V E A E Q A K V 19
    69 A F G S G I H K I 19
    137 Y K C E V I E G L 19
    152 V A L D L Q G V V 19
    2 K S L L L L V L I 18
    22 Y T L D H D R A I 18
    186 A V I A S F D Q L 18
    279 C L N D G A Q I A 18
    281 N D G A Q I A K V 18
    291 Q I F A A W K I L 18
    32 I Q A E N G P H L 17
    34 A E N G P H L L V 17
    121 D A S L V I T D L 17
    227 G G Q N T V P G V 17
    284 A Q I A K V G Q I 17
    308 W L A D G S V R Y 17
    1 M K S L L L L V L 16
    7 L V L I S I C W A 16
    33 Q A E N G P H L L 16
    39 H L L V E A E Q A 16
    86 S D Y L K E V D V 16
    106 G G Y Q G R V F L 16
    113 F L K G G S D S D 16
    116 G G S D S D A S L 16
    181 C L D Q D A V I A 16
    262 Y Y L I H P T K L 16
    336 G F P D K K H K L 16
    40 L L V E A E Q A K 15
    125 V I T D L T L E D 15
    141 V I E G L E D D T 15
    155 D L Q G V V F P Y 15
    179 Q A C L D Q D A V 15
    180 A C L D Q D A V I 15
    207 A G W L S D G S V 15
    209 W L S D G S V Q Y 15
    264 L I H P T K L T Y 15
    298 I L G Y D R C D A 15
    306 A G W L A D G S V 15
    324 R C S P T E A A V 15
    339 D K K H K L Y G V 15
    8 V L I S I C W A D 14
    10 I S I C W A D H L 14
    16 D H L S D N Y T L 14
    142 I E G L E D D T V 14
    146 E D D T V V V A L 14
    148 D T V V V A L D L 14
    153 A L D L Q G V V F 14
    164 F P R L G R Y N L 14
    201 G L D W C N A G W 14
    224 E P C G G Q N T V 14
    256 N F N G R F Y Y L 14
    268 T K L T Y D E A V 14
    270 L T Y D E A V Q A 14
    278 A C L N D G A Q I 14
    293 F A A W K I L G Y 14
    297 K I L G Y D R C D 14
    327 P T E A A V R F V 14
    343 K L Y G V Y C F R 14
    36 N G P H L L V E A 13
    81 W T K L T S D Y L 13
    83 K L T S D Y L K E 13
    104 T Y G G Y Q G R V 13
    145 L E D D T V V V A 13
    189 A S F D Q L Y D A 13
    193 Q L Y D A W R G G 13
    194 L Y D A W R G G L 13
    202 L D W C N A G W L 13
    272 Y D E A V Q A C L 13
    287 A K V G Q I F A A 13
    6 L L V L I S I C W 12
    9 L I S I C W A D H 12
    23 T L D H D R A I H 12
    58 T L P C K F Y R D 12
    118 S D S D A S L V I 12
    124 L V I T D L T L E 12
    133 D Y G R Y K C E V 12
    154 L D L Q G V V F P 12
    166 R L G R Y N L N F 12
    171 N L N F H E A Q Q 12
    174 F H E A Q Q A C L 12
    187 V I A S F D Q L Y 12
    214 S V Q Y P I T K P 12
    230 N T V P G V R N Y 12
    290 G Q I F A A W K I 12
    301 Y D R C D A G W L 12
    309 L A D G S V R Y P 12
    11 S I C W A D H L S 11
    17 H L S D N Y T L D 11
    24 L D H D R A I H I 11
    49 V F S H R G G N V 11
    73 G I H K I R I K W 11
    103 K T Y G G Y Q G R 11
    117 G S D S D A S L V 11
    120 S D A S L V I T D 11
    130 T L E D Y G R Y K 11
    140 E V I E G L E D D 11
    143 E G L E D D T V V 11
    211 S D G S V Q Y P I 11
    257 F N G R F Y Y L I 11
    269 K L T Y D E A V Q 11
    275 A V Q A C L N D G 11
    286 I A K V G Q I F A 11
    294 A A W K I L G Y D 11
    310 A D G S V R Y P I 11
    330 A A V R F V G F P 11
    28 R A I H I Q A E N 10
    29 A I H I Q A E N G 10
    78 R I K W T K L T S 10
    79 I K W T K L T S D 10
    90 K E V D V F V S M 10
    95 F V S M G Y H K K 10
    96 V S M G Y H K K T 10
    97 S M G Y H K K T Y 10
    122 A S L V I T D L T 10
    126 I T D L T L E D Y 10
    128 D L T L E D Y G R 10
    129 L T L E D Y G R Y 10
    134 Y G R Y K C E V I 10
    197 A W R G G L D W C 10
    242 D K D K S R Y D V 10
    260 R F Y Y L I H P T 10
    285 Q I A K V G Q I F 10
    304 C D A G W L A D G 10
    313 S V R Y P I S R P 10
    44 A E Q A K V F S H 9
    57 V T L P C K F Y R 9
    71 G S G I H K I R I 9
    72 S G I H K I R I K 9
    77 I R I K W T K L T 9
    119 D S D A S L V I T 9
    276 V Q A C L N D G A 9
    346 G V Y C F R A Y N 9
    31 H I Q A E N G P H 8
    50 F S H R G G N V T 8
    66 D P T A F G S G I 8
    74 I H K I R I K W T 8
    111 R V F L K G G S D 8
    114 L K G G S D S D A 8
    149 T V V V A L D L Q 8
    169 R Y N L N F H E A 8
    182 L D Q D A V I A S 8
    205 C N A G W L S D G 8
    210 L S D G S V Q Y P 8
    219 I T K P R E P C G 8
    246 S R Y D V F C F T 8
    283 G A Q I A K V G Q 8
    288 K V G Q I F A A W 8
    323 R R C S P T E A A 8
    342 H K L Y G V Y C F 8
    13 C W A D H L S D N 7
    15 A D H L S D N Y T 7
    37 G P H L L V E A E 7
    48 K V F S H R G G N 7
    54 G G N V T L P C K 7
    61 C K F Y R D P T A 7
    63 F Y R D P T A F G 7
    68 T A F G S G I H K 7
    107 G Y Q G R V F L K 7
    150 V V V A L D L Q G 7
    172 L N F H E A Q Q A 7
    178 Q Q A C L D Q D A 7
    183 D Q D A V I A S F 7
    196 D A W R G G L D W 7
    217 Y P I T K P R E P 7
    231 T V P G V R N Y G 7
    249 D V F C F T S N F 7
    265 I H P T K L T Y D 7
    271 T Y D E A V Q A C 7
    344 L Y G V Y C F R A 7
    12 I C W A D H L S D 6
    18 L S D N Y T L D H 6
    19 S D N Y T L D H D 6
    27 D R A I H I Q A E 6
    30 I H I Q A E N G P 6
    52 H R G G N V T L P 6
    91 E V D V F V S M G 6
    99 G Y H K K T Y G G 6
    131 L E D Y G R Y K C 6
    167 L G R Y N L N F H 6
    170 Y N L N F H E A Q 6
    177 A Q Q A C L D Q D 6
    188 I A S F D Q L Y D 6
    200 G G L D W C N A G 6
    204 W C N A G W L S D 6
    206 N A G W L S D G S 6
    223 R E P C G G Q N T 6
    234 G V R N Y G F W D 6
    236 R N Y G F W D K D 6
    253 F T S N F N G R F 6
    259 G R F Y Y L I H P 6
    267 P T K L T Y D E A 6
    317 P I S R P R R R C 6
    322 R R R C S P T E A 6
    329 E A A V R F V G F 6
    334 F V G F P D K K H 6
    14 W A D H L S D N Y 5
    46 Q A K V F S H R G 5
    64 Y R D P T A F G S 5
    87 D Y L K E V D V F 5
    89 L K E V D V F V S 5
    108 Y Q G R V F L K G 5
    109 Q G R V F L K G G 5
    112 V F L K G G S D S 5
    136 R Y K C E V I E G 5
    158 G V V F P Y F P R 5
    215 V Q Y P I T K P R 5
    218 P I T K P R E P C 5
    221 K P R E P C G G Q 5
    238 Y G F W D K D K S 5
    239 G F W D K D K S R 5
    255 S N F N G R F Y Y 5
    261 F Y Y L I H P T K 5
    277 Q A C L N D G A Q 5
    280 L N D G A Q I A K 5
    299 L G Y D R C D A G 5
    305 D A G W L A D G S 5
    326 S P T E A A V R F 5
    331 A V R F V G F P D 5
    332 V R F V G F P D K 5
    333 R F V G F P D K K 5
    25 D H D R A I H I Q 4
    26 H D R A I H I Q A 4
    35 E N G P H L L V E 4
    42 V E A E Q A K V F 4
    55 G N V T L P C K F 4
    67 P T A F G S G I H 4
    75 H K I R I K W T K 4
    93 D V F V S M G Y H 4
    135 G R Y K C E V I E 4
    147 D D T V V V A L D 4
    161 F P Y F P R L G R 4
    162 P Y F P R L G R Y 4
    190 S F D Q L Y D A W 4
    191 F D Q L Y D A W R 4
    195 Y D A W R G G L D 4
    199 R G G L D W C N A 4
    212 D G S V Q Y P I T 4
    213 G S V Q Y P I T K 4
    226 C G G Q N T V P G 4
    245 K S R Y D V F C F 4
    289 V G Q I F A A W K 4
    292 I F A A W K I L G 4
    296 W K I L G Y D R C 4
    300 G Y D R C D A G W 4
    302 D R C D A G W L A 4
    303 R C D A G W L A D 4
    312 G S V R Y P I S R 4
    314 V R Y P I S R P R 4
    316 Y P I S R P R R R 4
    318 I S R P R R R C S 4
    319 S R P R R R C S P 4
    320 R P R R R C S P T 4
    21 N Y T L D H D R A 3
    38 P H L L V E A E Q 3
    53 R G G N V T L P C 3
    56 N V T L P C K F Y 3
    59 L P C K F Y R D P 3
    62 K F Y R D P T A F 3
    80 K W T K L T S D Y 3
    82 T K L T S D Y L K 3
    127 T D L T L E D Y G 3
    139 C E V I E G L E D 3
    156 L Q G V V F P Y F 3
    163 Y F P R L G R Y N 3
    168 G R Y N L N F H E 3
    173 N F H E A Q Q A C 3
    185 D A V I A S F D Q 3
    198 W R G G L D W C N 3
    208 G W L S D G S V Q 3
    232 V P G V R N Y G F 3
    235 V R N Y G F W D K 3
    247 R Y D V F C F T S 3
    248 Y D V F C F T S N 3
    266 H P T K L T Y D E 3
    295 A W K I L G Y D R 3
    307 G W L A D G S V R 3
    335 V G F P D K K H K 3
    341 K H K L Y G V Y C 3
    20 D N Y T L D H D R 2
    43 E A E Q A K V F S 2
    47 A K V F S H R G G 2
    65 R D P T A F G S G 2
    70 F G S G I H K I R 2
    94 V F V S M G Y H K 2
    98 M G Y H K K T Y G 2
    100 Y H K K T Y G G Y 2
    102 K K T Y G G Y Q G 2
    110 G R V F L K G G S 2
    115 K G G S D S D A S 2
    157 Q G V V F P Y F P 2
    165 P R L G R Y N L N 2
    175 H E A Q Q A C L D 2
    176 E A Q Q A C L D Q 2
    184 Q D A V I A S F D 2
    228 G Q N T V P G V R 2
    229 Q N T V P G V R N 2
    244 D K S R Y D V F C 2
    251 F C F T S N F N G 2
    274 E A V Q A C L N D 2
    325 C S P T E A A V R 2
    328 T E A A V R F V G 2
    340 K K H K L Y G V Y 2
    345 Y G V Y C F R A Y 2
    92 V D V F V S M G Y 1
    105 Y G G Y Q G R V F 1
    160 V F P Y F P R L G 1
    216 Q Y P I T K P R E 1
    220 T K P R E P C G G 1
    240 F W D K D K S R Y 1
    241 W D K D K S R Y D 1
    250 V F C F T S N F N 1
    252 C F T S N F N G R 1
    258 N G R F Y Y L I H 1
    273 D E A V Q A C L N 1
    315 R Y P I S R P R R 1
    337 F P D K K H K L Y 1
    45 E Q A K V F S H R −1
    132 E D Y G R Y K C E −1
    203 D W C N A G W L S −1
    225 P C G G Q N T V P −1
    222 P R E P C G G Q N −2
    237 N Y G F W D K D K −2
    233 P G V R N Y G F W −3
    338 P D K K H K L Y G −3
    151P3D4 v.2: HLA Peptide
    Scoring Results A*0201 9-mers SYFPEITHI
    378 A L W K A I E S L 29
    87 V L L G R K A V V 27
    13 A L H I V V E S I 26
    234 F I F K T I A P L 26
    88 L L G R K A V V V 25
    165 C L S G A P H E V 25
    382 A I E S L E E G L 21
    38 L V P T K V T G I 20
    385 S L E E G L G G K 20
    86 K V L L G R K A V 19
    110 N K L K Y L A F L 19
    231 G L G F I F K T I 19
    237 K T I A P L A A T 19
    9 F P L R A L H I V 18
    10 P L R A L H I V V 18
    37 L L V P T K V T G 18
    52 K D F G H V Q F V 18
    36 D L L V P T K V T 17
    57 V Q F V G S Y K L 17
    114 Y L A F L H K R M 17
    156 H A S E A Y K K V 17
    176 K Y Q A V T A T L 17
    238 T I A P L A A T R 17
    271 S A R A P V P A A 17
    284 W L P L R T P W T 17
    308 S P Y G P R N P L 17
    400 K A E N G P H L L 17
    30 K Q D K K V D L L 16
    68 S N D G E H W T V 16
    158 S E A Y K K V C L 16
    242 L A A T R A T R I 16
    262 S S A H R P P A L 16
    277 P A A S P A A W L 16
    306 S L S P Y G P R N 16
    343 V L A R G K P Q R 16
    362 V E N G R P A D L 16
    371 A G S G Y C G A L 16
    35 V D L L V P T K V 15
    45 G I I T Q G A K D 15
    93 A V V V S C E G I 15
    107 F C R N K L K Y L 15
    127 S R R P Y H F Q V 15
    138 R I F W R Q E K A 15
    197 R K N K Q L M R L 15
    201 Q L M R L Q K Q A 15
    227 G S P R G L G F I 15
    230 R G L G F I F K T 15
    268 P A L S A R A P V 15
    381 K A I E S L E E G 15
    399 R K A E N G P H L 15
    6 T K T F P L R A L 14
    12 R A L H I V V E S 14
    29 M K Q D K K V D L 14
    104 S G S F C R N K L 14
    117 F L H K R M N T N 14
    212 N M K K K I D K Y 14
    216 K I D K Y T E S P 14
    282 A A W L P L R T P 14
    369 D L A G S G Y C G 14
    33 K K V D L L V P T 13
    34 K V D L L V P T K 13
    64 K L A Y S N D G E 13
    81 K Q R K D K V L L 13
    95 V V S C E G I N I 13
    172 E V G W K Y Q A V 13
    183 T L E E K R K E K 13
    194 I H Y R K N K Q L 13
    241 P L A A T R A T R 13
    249 R I G H P G G R T 13
    269 A L S A R A P V P 13
    279 A S P A A W L P L 13
    321 H S P S G G G G L 13
    335 H C Q G Q K H N V 13
    370 L A G S G Y C G A 13
    374 G Y C G A L W K A 13
    389 G L G G K Q K D K 13
    1 M L E H T T K T F 12
    16 I V V E S I R D H 12
    27 Q K M K Q D K K V 12
    43 V T G I I T Q G A 12
    49 Q G A K D F G H V 12
    182 A T L E E K R K E 12
    204 R L Q K Q A E K N 12
    264 A H R P P A L S A 12
    299 T S S S T Y D S L 12
    302 S T Y D S L S P Y 12
    336 C Q G Q K H N V L 12
    7 K T F P L R A L H 11
    20 S I R D H S G Q K 11
    67 Y S N D G E H W T 11
    113 K Y L A F L H K R 11
    131 Y H F Q V P S R I 11
    179 A V T A T L E E K 11
    202 L M R L Q K Q A E 11
    240 A P L A A T R A T 11
    315 P L P N P R H S P 11
    324 S G G G G L K K P 11
    328 G L K K P A R H C 11
    375 Y C G A L W K A I 11
    11 L R A L H I V V E 10
    31 Q D K K V D L L V 10
    39 V P T K V T G I I 10
    42 K V T G I I T Q G 10
    46 I I T Q G A K D F 10
    79 D E K Q R K D K V 10
    96 V S C E G I N I S 10
    100 G I N I S G S F C 10
    102 N I S G S F C R N 10
    111 K L K Y L A F L H 10
    161 Y K K V C L S G A 10
    175 W K Y Q A V T A T 10
    180 V T A T L E E K R 10
    209 A E K N M K K K I 10
    224 P G G G S P R G L 10
    239 I A P L A A T R A 10
    247 A T R I G H P G G 10
    256 R T P R A G S S A 10
    270 L S A R A P V P A 10
    291 W T R P S S C P T 10
    295 S S C P T S S S T 10
    354 K S E N N S W Y V 10
    377 G A L W K A I E S 10
    3 E H T T K T F P L 9
    5 T T K T F P L R A 9
    8 T F P L R A L H I 9
    65 L A Y S N D G E H 9
    116 A F L H K R M N T 9
    121 R M N T N P S R R 9
    145 K A D G G S C C P 9
    167 S G A P H E V G W 9
    168 G A P H E V G W K 9
    173 V G W K Y Q A V T 9
    178 Q A V T A T L E E 9
    186 E K R K E K A E I 9
    200 K Q L M R L Q K Q 9
    252 H P G G R T P R A 9
    263 S A H R P P A L S 9
    272 A R A P V P A A S 9
    273 R A P V P A A S P 9
    280 S P A A W L P L R 9
    281 P A A W L P L R T 9
    344 L A R G K P Q R K 9
    361 Y V E N G R P A D 9
    15 H I V V E S I R D 8
    21 I R D H S G Q K M 8
    41 T K V T G I I T Q 8
    47 I T Q G A K D F G 8
    55 G H V Q F V G S Y 8
    59 F V G S Y K L A Y 8
    89 L G R K A V V V S 8
    90 G R K A V V V S C 8
    134 Q V P S R I F W R 8
    152 C P Q G H A S E A 8
    207 K Q A E K N M K K 8
    232 L G F I F K T I A 8
    250 I G H P G G R T P 8
    274 A P V P A A S P A 8
    278 A A S P A A W L P 8
    286 P L R T P W T R P 8
    365 G R P A D L A G S 8
    393 K Q K D K E R K A 8
    28 K M K Q D K K V D 7
    50 G A K D F G H V Q 7
    60 V G S Y K L A Y S 7
    77 Y Q D E K Q R K D 7
    80 E K Q R K D K V L 7
    92 K A V V V S C E G 7
    108 C R N K L K Y L A 7
    115 L A F L H K R M N 7
    123 N T N P S R R P Y 7
    159 E A Y K K V C L S 7
    163 K V C L S G A P H 7
    171 H E V G W K Y Q A 7
    174 G W K Y Q A V T A 7
    184 L E E K R K E K A 7
    193 E I H Y R K N K Q 7
    203 M R L Q K Q A E K 7
    215 K K I D K Y T E S 7
    220 Y T E S P G G G S 7
    223 S P G G G S P R G 7
    243 A A T R A T R I G 7
    244 A T R A T R I G H 7
    265 H R P P A L S A R 7
    266 R P P A L S A R A 7
    275 P V P A A S P A A 7
    283 A W L P L R T P W 7
    288 R T P W T R P S S 7
    311 G P R N P L P N P 7
    325 G G G G L K K P A 7
    61 G S Y K L A Y S N 6
    63 Y K L A Y S N D G 6
    71 G E H W T V Y Q D 6
    82 Q R K D K V L L G 6
    83 R K D K V L L G R 6
    85 D K V L L G R K A 6
    91 R K A V V V S C E 6
    101 I N I S G S F C R 6
    149 G S C C P Q G H A 6
    150 S C C P Q G H A S 6
    151 C C P Q G H A S E 6
    155 G H A S E A Y K K 6
    164 V C L S G A P H E 6
    169 A P H E V G W K Y 6
    191 K A E I H Y R K N 6
    221 T E S P G G G S P 6
    233 G F I F K T I A P 6
    235 I F K T I A P L A 6
    236 F K T I A P L A A 6
    245 T R A T R I G H P 6
    261 G S S A H R P P A 6
    276 V P A A S P A A W 6
    285 L P L R T P W T R 6
    322 S P S G G G G L K 6
    327 G G L K K P A R H 6
    337 Q G Q K H N V L A 6
    338 G Q K H N V L A R 6
    339 Q K H N V L A R G 6
    360 W Y V E N G R P A 6
    366 R P A D L A G S G 6
    368 A D L A G S G Y C 6
    373 S G Y C G A L W K 6
    386 L E E G L G G K Q 6
    395 K D K E R K A E N 6
    51 A K D F G H V Q F 5
    58 Q F V G S Y K L A 5
    74 W T V Y Q D E K Q 5
    84 K D K V L L G R K 5
    94 V V V S C E G I N 5
    97 S C E G I N I S G 5
    98 C E G I N I S G S 5
    106 S F C R N K L K Y 5
    120 K R M N T N P S R 5
    137 S R I F W R Q E K 5
    189 K E K A E I H Y R 5
    226 G G S P R G L G F 5
    228 S P R G L G F I F 5
    248 T R I G H P G G R 5
    251 G H P G G R T P R 5
    254 G G R T P R A G S 5
    259 R A G S S A H R P 5
    287 L R T P W T R P S 5
    316 L P N P R H S P S 5
    342 N V L A R G K P Q 5
    345 A R G K P Q R K P 5
    357 N N S W Y V E N G 5
    380 W K A I E S L E E 5
    388 E G L G G K Q K D 5
    4 H T T K T F P L R 4
    14 L H I V V E S I R 4
    17 V V E S I R D H S 4
    18 V E S I R D H S G 4
    40 P T K V T G I I T 4
    54 F G H V Q F V G S 4
    75 T V Y Q D E K Q R 4
    112 L K Y L A F L H K 4
    129 R P Y H F Q V P S 4
    141 W R Q E K A D G G 4
    146 A D G G S C C P Q 4
    160 A Y K K V C L S G 4
    177 Y Q A V T A T L E 4
    192 A E I H Y R K N K 4
    195 H Y R K N K Q L M 4
    205 L Q K Q A E K N M 4
    208 Q A E K N M K K K 4
    246 R A T R I G H P G 4
    255 G R T P R A G S S 4
    296 S C P T S S S T Y 4
    298 P T S S S T Y D S 4
    304 Y D S L S P Y G P 4
    314 N P L P N P R H S 4
    323 P S G G G G L K K 4
    326 G G G L K K P A R 4
    329 L K K P A R H C Q 4
    331 K P A R H C Q G Q 4
    333 A R H C Q G Q K H 4
    340 K H N V L A R G K 4
    347 G K P Q R K P K S 4
    355 S E N N S W Y V E 4
    364 N G R P A D L A G 4
    376 C G A L W K A I E 4
    390 L G G K Q K D K E 4
    23 D H S G Q K M K Q 3
    26 G Q K M K Q D K K 3
    32 D K K V D L L V P 3
    44 T G I I T Q G A K 3
    56 H V Q F V G S Y K 3
    103 I S G S F C R N K 3
    119 H K R M N T N P S 3
    130 P Y H F Q V P S R 3
    133 F Q V P S R I F W 3
    139 I F W R Q E K A D 3
    140 F W R Q E K A D G 3
    162 K K V C L S G A P 3
    166 L S G A P H E V G 3
    187 K R K E K A E I H 3
    196 Y R K N K Q L M R 3
    211 K N M K K K I D K 3
    214 K K K I D K Y T E 3
    219 K Y T E S P G G G 3
    257 T P R A G S S A H 3
    258 P R A G S S A H R 3
    289 T P W T R P S S C 3
    292 T R P S S C P T S 3
    300 S S S T Y D S L S 3
    301 S S T Y D S L S P 3
    307 L S P Y G P R N P 3
    310 Y G P R N P L P N 3
    320 R H S P S G G G G 3
    348 K P Q R K P K S E 3
    352 K P K S E N N S W 3
    359 S W Y V E N G R P 3
    384 E S L E E G L G G 3
    397 K E R K A E N G P 3
    2 L E H T T K T F P 2
    25 S G Q K M K Q D K 2
    48 T Q G A K D F G H 2
    66 A Y S N D G E H W 2
    69 N D G E H W T V Y 2
    70 D G E H W T V Y Q 2
    73 H W T V Y Q D E K 2
    76 V Y Q D E K Q R K 2
    109 R N K L K Y L A F 2
    144 E K A D G G S C C 2
    148 G G S C C P Q G H 2
    154 Q G H A S E A Y K 2
    181 T A T L E E K R K 2
    190 E K A E I H Y R K 2
    213 M K K K I D K Y T 2
    218 D K Y T E S P G G 2
    225 G G G S P R G L G 2
    260 A G S S A H R P P 2
    293 R P S S C P T S S 2
    294 P S S C P T S S S 2
    303 T Y D S L S P Y G 2
    305 D S L S P Y G P R 2
    312 P R N P L P N P R 2
    313 R N P L P N P R H 2
    341 H N V L A R G K P 2
    350 Q R K P K S E N N 2
    356 E N N S W Y V E N 2
    358 N S W Y V E N G R 2
    363 E N G R P A D L A 2
    367 P A D L A G S G Y 2
    372 G S G Y C G A L W 2
    383 I E S L E E G L G 2
    391 G G K Q K D K E R 2
    22 R D H S G Q K M K 1
    62 S Y K L A Y S N D 1
    99 E G I N I S G S F 1
    105 G S F C R N K L K 1
    118 L H K R M N T N P 1
    124 T N P S R R P Y H 1
    125 N P S R R P Y H F 1
    132 H F Q V P S R I F 1
    135 V P S R I F W R Q 1
    143 Q E K A D G G S C 1
    157 A S E A Y K K V C 1
    198 K N K Q L M R L Q 1
    199 N K Q L M R L Q K 1
    206 Q K Q A E K N M K 1
    222 E S P G G G S P R 1
    318 N P R H S P S G G 1
    330 K K P A R H C Q G 1
    332 P A R H C Q G Q K 1
    334 R H C Q G Q K H N 1
    351 R K P K S E N N S 1
    379 L W K A I E S L E 1
    392 G K Q K D K E R K 1
    53 D F G H V Q F V G −1
    126 P S R R P Y H F Q −1
    128 R R P Y H F Q V P −1
    188 R K E K A E I H Y −1
    229 P R G L G F I F K −1
    297 C P T S S S T Y D −1
    319 P R H S P S G G G −1
    353 P K S E N N S W Y −1
    396 D K E R K A E N G −1
    72 E H W T V Y Q D E −2
    78 Q D E K Q R K D K −2
    136 P S R I F W R Q E −2
    153 P Q G H A S E A Y −2
    210 E K N M K K K I D −2
    253 P G G R T P R A G −2
    387 E E G L G G K Q K −2
    170 P H E V G W K Y Q −3
    185 E E K R K E K A E −3
    290 P W T R P S S C P −3
    398 E R K A E N G P H −4
  • [0824]
    TABLE XXIV
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 score ID NO.
    151P3D4: HLA Peptide Scoring
    Results A*0202 9-mers SYFPEITHI
    NO DATA
  • [0825]
    TABLE XXV
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 score ID NO.
    151P3D4: HLA Peptide Scoring
    Results A*0203 9-mers SYFPEITHI
    NO DATA
  • [0826]
    TABLE XXVI
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 score ID NO.
    151P3D4 v.1: HLA Peptide Scoring Results A3 9-mers SYFPEITHI
    153 A L D L Q G V V F 29
    209 W L S D G S V Q Y 26
    130 T L E D Y G R Y K 24
    166 R L G R Y N L N F 24
    264 L I H P T K L T Y 24
    308 W L A D G S V R Y 24
    343 K L Y G V Y C F R 24
    40 L L V E A E Q A K 22
    95 F V S M G Y H K K 22
    111 R V F L K G G S D 22
    186 A V I A S F D Q L 21
    75 H K I R I K W T K 20
    78 R I K W T K L T S 20
    269 K L T Y D E A V Q 20
    331 A V R F V G F P D 20
    123 S L V I T D L T L 19
    144 G L E D D T V V V 19
    155 D L Q G V V F P Y 19
    261 F Y Y L I H P T K 19
    285 Q I A K V G Q I F 19
    23 T L D H D R A I H 18
    39 H L L V E A E Q A 18
    150 V V V A L D L Q G 18
    234 G V R N Y G F W D 18
    289 V G Q I F A A W K 18
    307 G W L A D G S V R 18
    346 G V Y C F R A Y N 18
    3 S L L L L V L I S 17
    56 N V T L P C K F Y 17
    62 K F Y R D P T A F 17
    76 K I R I K W T K L 17
    88 Y L K E V D V F V 17
    113 F L K G G S D S D 17
    181 C L D Q D A V I A 17
    193 Q L Y D A W R G G 17
    249 D V F C F T S N F 17
    288 K V G Q I F A A W 17
    313 S V R Y P I S R P 17
    333 R F V G F P D K K 17
    4 L L L L V L I S I 16
    9 L I S I C W A D H 16
    51 S H R G G N V T L 16
    83 K L T S D Y L K E 16
    140 E V I E G L E D D 16
    171 N L N F H E A Q Q 16
    279 C L N D G A Q I A 16
    5 L L L V L I S I C 15
    29 A I H I Q A E N G 15
    31 H I Q A E N G P H 15
    41 L V E A E Q A K V 15
    48 K V F S H R G G N 15
    68 T A F G S G I H K 15
    72 S G I H K I R I K 15
    93 D V F V S M G Y H 15
    103 K T Y G G Y Q G R 15
    128 D L T L E D Y G R 15
    187 V I A S F D Q L Y 15
    213 G S V Q Y P I T K 15
    270 L T Y D E A V Q A 15
    275 A V Q A C L N D G 15
    278 A C L N D G A Q I 15
    297 K I L G Y D R C D 15
    320 R P R R R C S P T 15
    7 L V L I S I C W A 14
    8 V L I S I C W A D 14
    91 E V D V F V S M G 14
    107 G Y Q G R V F L K 14
    124 L V I T D L T L E 14
    158 G V V F P Y F P R 14
    231 T V P G V R N Y G 14
    243 K D K S R Y D V F 14
    325 C S P T E A A V R 14
    334 F V G F P D K K H 14
    340 K K H K L Y G V Y 14
    42 V E A E Q A K V F 13
    94 V F V S M G Y H K 13
    159 V V F P Y F P R L 13
    180 A C L D Q D A V I 13
    201 G L D W C N A G W 13
    263 Y L I H P T K L T 13
    280 L N D G A Q I A K 13
    284 A Q I A K V G Q I 13
    298 I L G Y D R C D A 13
    326 S P T E A A V R F 13
    335 V G F P D K K H K 13
    17 H L S D N Y T L D 12
    44 A E Q A K V F S H 12
    50 F S H R G G N V T 12
    80 K W T K L T S D Y 12
    82 T K L T S D Y L K 12
    125 V I T D L T L E D 12
    151 V V A L D L Q G V 12
    161 F P Y F P R L G R 12
    162 P Y F P R L G R Y 12
    183 D Q D A V I A S F 12
    208 G W L S D G S V Q 12
    214 S V Q Y P I T K P 12
    235 V R N Y G F W D K 12
    291 Q I F A A W K I L 12
    295 A W K I L G Y D R 12
    303 R C D A G W L A D 12
    317 P I S R P R R R C 12
    332 V R F V G F P D K 12
    341 K H K L Y G V Y C 12
    6 L L V L I S I C W 11
    58 T L P C K F Y R D 11
    86 S D Y L K E V D V 11
    90 K E V D V F V S M 11
    97 S M G Y H K K T Y 11
    102 K K T Y G G Y Q G 11
    105 Y G G Y Q G R V F 11
    106 G G Y Q G R V F L 11
    196 D A W R G G L D W 11
    197 A W R G G L D W C 11
    215 V Q Y P I T K P R 11
    228 G Q N T V P G V R 11
    230 N T V P G V R N Y 11
    255 S N F N G R F Y Y 11
    293 F A A W K I L G Y 11
    314 V R Y P I S R P R 11
    318 I S R P R R R C S 11
    324 R C S P T E A A V 11
    329 E A A V R F V G F 11
    2 K S L L L L V L I 10
    28 R A I H I Q A E N 10
    35 E N G P H L L V E 10
    54 G G N V T L P C K 10
    87 D Y L K E V D V F 10
    112 V F L K G G S D S 10
    129 L T L E D Y G R Y 10
    141 V I E G L E D D T 10
    149 T V V V A L D L Q 10
    222 P R E P C G G Q N 10
    236 R N Y G F W D K D 10
    237 N Y G F W D K D K 10
    245 K S R Y D V F C F 10
    258 N G R F Y Y L I H 10
    312 G S V R Y P I S R 10
    315 R Y P I S R P R R 10
    316 Y P I S R P R R R 10
    321 P R R R C S P T E 10
    11 S I C W A D H L S 9
    12 I C W A D H L S D 9
    45 E Q A K V F S H R 9
    53 R G G N V T L P C 9
    57 V T L P C K F Y R 9
    73 G I H K I R I K W 9
    118 S D S D A S L V I 9
    126 I T D L T L E D Y 9
    145 L E D D T V V V A 9
    184 Q D A V I A S F D 9
    191 F D Q L Y D A W R 9
    204 W C N A G W L S D 9
    218 P I T K P R E P C 9
    223 R E P C G G Q N T 9
    229 Q N T V P G V R N 9
    240 F W D K D K S R Y 9
    254 T S N F N G R F Y 9
    319 S R P R R R C S P 9
    322 R R R C S P T E A 9
    328 T E A A V R F V G 9
    1 M K S L L L L V L 8
    10 I S I C W A D H L 8
    18 L S D N Y T L D H 8
    20 D N Y T L D H D R 8
    26 H D R A I H I Q A 8
    34 A E N G P H L L V 8
    66 D P T A F G S G I 8
    67 P T A F G S G I H 8
    92 V D V F V S M G Y 8
    100 Y H K K T Y G G Y 8
    132 E D Y G R Y K C E 8
    134 Y G R Y K C E V I 8
    135 G R Y K C E V I E 8
    143 E G L E D D T V V 8
    152 V A L D L Q G V V 8
    154 L D L Q G V V F P 8
    177 A Q Q A C L D Q D 8
    219 I T K P R E P C G 8
    221 K P R E P C G G Q 8
    224 E P C G G Q N T V 8
    239 G F W D K D K S R 8
    247 R Y D V F C F T S 8
    260 R F Y Y L I H P T 8
    282 D G A Q I A K V G 8
    299 L G Y D R C D A G 8
    301 Y D R C D A G W L 8
    342 H K L Y G V Y C F 8
    32 I Q A E N G P H L 7
    38 P H L L V E A E Q 7
    63 F Y R D P T A F G 7
    65 R D P T A F G S G 7
    74 I H K I R I K W T 7
    108 Y Q G R V F L K G 7
    139 C E V I E G L E D 7
    142 I E G L E D D T V 7
    148 D T V V V A L D L 7
    164 F P R L G R Y N L 7
    167 L G R Y N L N F H 7
    195 Y D A W R G G L D 7
    207 A G W L S D G S V 7
    225 P C G G Q N T V P 7
    244 D K S R Y D V F C 7
    246 S R Y D V F C F T 7
    306 A G W L A D G S V 7
    330 A A V R F V G F P 7
    337 F P D K K H K L Y 7
    345 Y G V Y C F R A Y 7
    14 W A D H L S D N Y 6
    16 D H L S D N Y T L 6
    24 L D H D R A I H I 6
    33 Q A E N G P H L L 6
    49 V F S H R G G N V 6
    61 C K F Y R D P T A 6
    64 Y R D P T A F G S 6
    70 F G S G I H K I R 6
    79 I K W T K L T S D 6
    98 M G Y H K K T Y G 6
    116 G G S D S D A S L 6
    117 G S D S D A S L V 6
    119 D S D A S L V I T 6
    120 S D A S L V I T D 6
    146 E D D T V V V A L 6
    163 Y F P R L G R Y N 6
    165 P R L G R Y N L N 6
    172 L N F H E A Q Q A 6
    205 C N A G W L S D G 6
    232 V P G V R N Y G F 6
    253 F T S N F N G R F 6
    272 Y D E A V Q A C L 6
    287 A K V G Q I F A A 6
    290 G Q I F A A W K I 6
    296 W K I L G Y D R C 6
    300 G Y D R C D A G W 6
    304 C D A G W L A D G 6
    13 C W A D H L S D N 5
    30 I H I Q A E N G P 5
    55 G N V T L P C K F 5
    69 A F G S G I H K I 5
    77 I R I K W T K L T 5
    101 H K K T Y G G Y Q 5
    109 Q G R V F L K G G 5
    114 L K G G S D S D A 5
    122 A S L V I T D L T 5
    136 R Y K C E V I E G 5
    156 L Q G V V F P Y F 5
    168 G R Y N L N F H E 5
    169 R Y N L N F H E A 5
    174 F H E A Q Q A C L 5
    188 I A S F D Q L Y D 5
    192 D Q L Y D A W R G 5
    199 R G G L D W C N A 5
    202 L D W C N A G W L 5
    217 Y P I T K P R E P 5
    262 Y Y L I H P T K L 5
    277 Q A C L N D G A Q 5
    281 N D G A Q I A K V 5
    283 G A Q I A K V G Q 5
    286 I A K V G Q I F A 5
    292 I F A A W K I L G 5
    310 A D G S V R Y P I 5
    323 R R C S P T E A A 5
    15 A D H L S D N Y T 4
    22 Y T L D H D R A I 4
    36 N G P H L L V E A 4
    43 E A E Q A K V F S 4
    85 T S D Y L K E V D 4
    89 L K E V D V F V S 4
    115 K G G S D S D A S 4
    138 K C E V I E G L E 4
    147 D D T V V V A L D 4
    170 Y N L N F H E A Q 4
    175 H E A Q Q A C L D 4
    179 Q A C L D Q D A V 4
    189 A S F D Q L Y D A 4
    194 L Y D A W R G G L 4
    200 G G L D W C N A G 4
    203 D W C N A G W L S 4
    220 T K P R E P C G G 4
    226 C G G Q N T V P G 4
    233 P G V R N Y G F W 4
    252 C F T S N F N G R 4
    256 N F N G R F Y Y L 4
    265 I H P T K L T Y D 4
    273 D E A V Q A C L N 4
    294 A A W K I L G Y D 4
    302 D R C D A G W L A 4
    338 P D K K H K L Y G 4
    25 D H D R A I H I Q 3
    27 D R A I H I Q A E 3
    46 Q A K V F S H R G 3
    47 A K V F S H R G G 3
    52 H R G G N V T L P 3
    104 T Y G G Y Q G R V 3
    121 D A S L V I T D L 3
    131 L E D Y G R Y K C 3
    133 D Y G R Y K C E V 3
    157 Q G V V F P Y F P 3
    176 E A Q Q A C L D Q 3
    178 Q Q A C L D Q D A 3
    216 Q Y P I T K P R E 3
    241 W D K D K S R Y D 3
    248 Y D V F C F T S N 3
    257 F N G R F Y Y L I 3
    268 T K L T Y D E A V 3
    274 E A V Q A C L N D 3
    305 D A G W L A D G S 3
    37 G P H L L V E A E 2
    60 P C K F Y R D P T 2
    81 W T K L T S D Y L 2
    96 V S M G Y H K K T 2
    127 T D L T L E D Y G 2
    137 Y K C E V I E G L 2
    173 N F H E A Q Q A C 2
    182 L D Q D A V I A S 2
    190 S F D Q L Y D A W 2
    198 W R G G L D W C N 2
    210 L S D G S V Q Y P 2
    211 S D G S V Q Y P I 2
    267 P T K L T Y D E A 2
    271 T Y D E A V Q A C 2
    309 L A D G S V R Y P 2
    311 D G S V R Y P I S 2
    327 P T E A A V R F V 2
    336 G F P D K K H K L 2
    339 D K K H K L Y G V 2
    19 S D N Y T L D H D 1
    21 N Y T L D H D R A 1
    71 G S G I H K I R I 1
    84 L T S D Y L K E V 1
    99 G Y H K K T Y G G 1
    110 G R V F L K G G S 1
    160 V F P Y F P R L G 1
    185 D A V I A S F D Q 1
    227 G G Q N T V P G V 1
    242 D K D K S R Y D V 1
    276 V Q A C L N D G A 1
    151P3D4 v.2: HLA Peptide Scoring Results A3 9-mers SYFPEITHI
    34 K V D L L V P T K 28
    20 S I R D H S G Q K 27
    56 H V Q F V G S Y K 27
    238 T I A P L A A T R 26
    88 L L G R K A V V V 25
    179 A V T A T L E E K 25
    241 P L A A T R A T R 25
    385 S L E E G L G G K 25
    163 K V C L S G A P H 24
    269 A L S A R A P V P 24
    373 S G Y C G A L W K 24
    87 V L L G R K A V V 23
    183 T L E E K R K E K 23
    343 V L A R G K P Q R 23
    389 G L G G K Q K D K 23
    37 L L V P T K V T G 21
    75 T V Y Q D E K Q R 21
    111 K L K Y L A F L H 21
    59 F V G S Y K L A Y 20
    86 K V L L G R K A V 20
    323 P S G G G G L K K 20
    10 P L R A L H I V V 19
    42 K V T G I I T Q G 19
    46 I I T Q G A K D F 19
    134 Q V P S R I F W R 19
    322 S P S G G G G L K 19
    342 N V L A R G K P Q 19
    346 R G K P Q R K P K 19
    387 E E G L G G K Q K 19
    1 M L E H T T K T F 18
    112 L K Y L A F L H K 18
    199 N K Q L M R L Q K 18
    201 Q L M R L Q K Q A 18
    13 A L H I V V E S I 17
    16 I V V E S I R D H 17
    22 R D H S G Q K M K 17
    45 G I I T Q G A K D 17
    154 Q G H A S E A Y K 17
    192 A E I H Y R K N K 17
    204 R L Q K Q A E K N 17
    207 K Q A E K N M K K 17
    264 A H R P P A L S A 17
    306 S L S P Y G P R N 17
    332 P A R H C Q G Q K 17
    344 L A R G K P Q R K 17
    36 D L L V P T K V T 16
    44 T G I I T Q G A K 16
    51 A K D F G H V Q F 16
    117 F L H K R M N T N 16
    203 M R L Q K Q A E K 16
    249 R I G H P G G R T 16
    340 K H N V L A R G K 16
    369 D L A G S G Y C G 16
    84 K D K V L L G R K 15
    100 G I N I S G S F C 15
    109 R N K L K Y L A F 15
    137 S R I F W R Q E K 15
    206 Q K Q A E K N M K 15
    226 G G S P R G L G F 15
    256 R T P R A G S S A 15
    257 T P R A G S S A H 15
    302 S T Y D S L S P Y 15
    361 Y V E N G R P A D 15
    378 A L W K A I E S L 15
    7 K T F P L R A L H 14
    64 K L A Y S N D G E 14
    138 R I F W R Q E K A 14
    155 G H A S E A Y K K 14
    169 A P H E V G W K Y 14
    211 K N M K K K I D K 14
    222 E S P G G G S P R 14
    231 G L G F I F K T I 14
    250 I G H P G G R T P 14
    284 W L P L R T P W T 14
    285 L P L R T P W T R 14
    286 P L R T P W T R P 14
    296 S C P T S S S T Y 14
    315 P L P N P R H S P 14
    328 G L K K P A R H C 14
    78 Q D E K Q R K D K 13
    93 A V V V S C E G I 13
    95 V V S C E G I N I 13
    106 S F C R N K L K Y 13
    165 C L S G A P H E V 13
    176 K Y Q A V T A T L 13
    187 K R K E K A E I H 13
    194 I H Y R K N K Q L 13
    216 K I D K Y T E S P 13
    228 S P R G L G F I F 13
    229 P R G L G F I F K 13
    244 A T R A T R I G H 13
    272 A R A P V P A A S 13
    275 P V P A A S P A A 13
    367 P A D L A G S G Y 13
    26 G Q K M K Q D K K 12
    38 L V P T K V T G I 12
    69 N D G E H W T V Y 12
    83 R K D K V L L G R 12
    103 I S G S F C R N K 12
    105 G S F C R N K L K 12
    121 R M N T N P S R R 12
    129 R P Y H F Q V P S 12
    168 G A P H E V G W K 12
    172 E V G W K Y Q A V 12
    174 G W K Y Q A V T A 12
    190 E K A E I H Y R K 12
    208 Q A E K N M K K K 12
    237 K T I A P L A A T 12
    273 R A P V P A A S P 12
    274 A P V P A A S P A 12
    366 R P A D L A G S G 12
    14 L H I V V E S I R 11
    17 V V E S I R D H S 11
    25 S G Q K M K Q D K 11
    76 V Y Q D E K Q R K 11
    89 L G R K A V V V S 11
    94 V V V S C E G I N 11
    99 E G I N I S G S F 11
    101 I N I S G S F C R 11
    113 K Y L A F L H K R 11
    114 Y L A F L H K R M 11
    143 Q E K A D G G S C 11
    181 T A T L E E K R K 11
    196 Y R K N K Q L M R 11
    221 T E S P G G G S P 11
    234 F I F K T I A P L 11
    248 T R I G H P G G R 11
    255 G R T P R A G S S 11
    265 H R P P A L S A R 11
    320 R H S P S G G G G 11
    327 G G L K K P A R H 11
    353 P K S E N N S W Y 11
    382 A I E S L E E G L 11
    11 L R A L H I V V E 10
    12 R A L H I V V E S 10
    73 H W T V Y Q D E K 10
    81 K Q R K D K V L L 10
    90 G R K A V V V S C 10
    102 N I S G S F C R N 10
    120 K R M N T N P S R 10
    123 N T N P S R R P Y 10
    125 N P S R R P Y H F 10
    127 S R R P Y H F Q V 10
    144 E K A D G G S C C 10
    160 A Y K K V C L S G 10
    188 R K E K A E I H Y 10
    189 K E K A E I H Y R 10
    193 E I H Y R K N K Q 10
    246 R A T R I G H P G 10
    251 G H P G G R T P R 10
    258 P R A G S S A H R 10
    283 A W L P L R T P W 10
    330 K K P A R H C Q G 10
    333 A R H C Q G Q K H 10
    348 K P Q R K P K S E 10
    364 N G R P A D L A G 10
    368 A D L A G S G Y C 10
    392 G K Q K D K E R K 10
    395 K D K E R K A E N 10
    8 T F P L R A L H I 9
    19 E S I R D H S G Q 9
    50 G A K D F G H V Q 9
    55 G H V Q F V G S Y 9
    61 G S Y K L A Y S N 9
    65 L A Y S N D G E H 9
    91 R K A V V V S C E 9
    157 A S E A Y K K V C 9
    167 S G A P H E V G W 9
    214 K K K I D K Y T E 9
    215 K K I D K Y T E S 9
    247 A T R I G H P G G 9
    266 R P P A L S A R A 9
    270 L S A R A P V P A 9
    278 A A S P A A W L P 9
    295 S S C P T S S S T 9
    313 R N P L P N P R H 9
    338 G Q K H N V L A R 9
    384 E S L E E G L G G 9
    399 R K A E N G P H L 9
    15 H I V V E S I R D 8
    28 K M K Q D K K V D 8
    32 D K K V D L L V P 8
    33 K K V D L L V P T 8
    80 E K Q R K D K V L 8
    82 Q R K D K V L L G 8
    116 A F L H K R M N T 8
    128 R R P Y H F Q V P 8
    150 S C C P Q G H A S 8
    152 C P Q G H A S E A 8
    212 N M K K K I D K Y 8
    230 R G L G F I F K T 8
    240 A P L A A T R A T 8
    263 S A H R P P A L S 8
    276 V P A A S P A A W 8
    277 P A A S P A A W L 8
    279 A S P A A W L P L 8
    280 S P A A W L P L R 8
    282 A A W L P L R T P 8
    289 T P W T R P S S C 8
    293 R P S S C P T S S 8
    308 S P Y G P R N P L 8
    312 P R N P L P N P R 8
    316 L P N P R H S P S 8
    362 V E N G R P A D L 8
    398 E R K A E N G P H 8
    31 Q D K K V D L L V 7
    48 T Q G A K D F G H 7
    66 A Y S N D G E H W 7
    68 S N D G E H W T V 7
    124 T N P S R R P Y H 7
    136 P S R I F W R Q E 7
    145 K A D G G S C C P 7
    151 C C P Q G H A S E 7
    153 P Q G H A S E A Y 7
    158 S E A Y K K V C L 7
    164 V C L S G A P H E 7
    173 V G W K Y Q A V T 7
    200 K Q L M R L Q K Q 7
    239 I A P L A A T R A 7
    242 L A A T R A T R I 7
    254 G G R T P R A G S 7
    259 R A G S S A H R P 7
    271 S A R A P V P A A 7
    288 R T P W T R P S S 7
    305 D S L S P Y G P R 7
    310 Y G P R N P L P N 7
    318 N P R H S P S G G 7
    326 G G G L K K P A R 7
    331 K P A R H C Q G Q 7
    339 Q K H N V L A R G 7
    350 Q R K P K S E N N 7
    371 A G S G Y C G A L 7
    381 K A I E S L E E G 7
    396 D K E R K A E N G 7
    400 K A E N G P H L L 7
    29 M K Q D K K V D L 6
    35 V D L L V P T K V 6
    41 T K V T G I I T Q 6
    62 S Y K L A Y S N D 6
    126 P S R R P Y H F Q 6
    130 P Y H F Q V P S R 6
    139 I F W R Q E K A D 6
    140 F W R Q E K A D G 6
    166 L S G A P H E V G 6
    175 W K Y Q A V T A T 6
    182 A T L E E K R K E 6
    185 E E K R K E K A E 6
    186 E K R K E K A E I 6
    217 I D K Y T E S P G 6
    219 K Y T E S P G G G 6
    227 G S P R G L G F I 6
    235 I F K T I A P L A 6
    236 F K T I A P L A A 6
    243 A A T R A T R I G 6
    262 S S A H R P P A L 6
    267 P P A L S A R A P 6
    268 P A L S A R A P V 6
    290 P W T R P S S C P 6
    291 W T R P S S C P T 6
    301 S S T Y D S L S P 6
    314 N P L P N P R H S 6
    321 H S P S G G G G L 6
    334 R H C Q G Q K H N 6
    337 Q G Q K H N V L A 6
    349 P Q R K P K S E N 6
    352 K P K S E N N S W 6
    355 S E N N S W Y V E 6
    359 S W Y V E N G R P 6
    363 E N G R P A D L A 6
    372 G S G Y C G A L W 6
    377 G A L W K A I E S 6
    379 L W K A I E S L E 6
    386 L E E G L G G K Q 6
    388 E G L G G K Q K D 6
    391 G G K Q K D K E R 6
    393 K Q K D K E R K A 6
    397 K E R K A E N G P 6
    5 T T K T F P L R A 5
    9 F P L R A L H I V 5
    18 V E S I R D H S G 5
    21 I R D H S G Q K M 5
    52 K D F G H V Q F V 5
    53 D F G H V Q F V G 5
    97 S C E G I N I S G 5
    107 F C R N K L K Y L 5
    110 N K L K Y L A F L 5
    118 L H K R M N T N P 5
    131 Y H F Q V P S R I 5
    141 W R Q E K A D G G 5
    142 R Q E K A D G G S 5
    146 A D G G S C C P Q 5
    148 G G S C C P Q G H 5
    159 E A Y K K V C L S 5
    162 K K V C L S G A P 5
    171 H E V G W K Y Q A 5
    177 Y Q A V T A T L E 5
    178 Q A V T A T L E E 5
    180 V T A T L E E K R 5
    197 R K N K Q L M R L 5
    202 L M R L Q K Q A E 5
    209 A E K N M K K K I 5
    223 S P G G G S P R G 5
    233 G F I F K T I A P 5
    253 P G G R T P R A G 5
    281 P A A W L P L R T 5
    294 P S S C P T S S S 5
    309 P Y G P R N P L P 5
    317 P N P R H S P S G 5
    324 S G G G G L K K P 5
    329 L K K P A R H C Q 5
    336 C Q G Q K H N V L 5
    358 N S W Y V E N G R 5
    365 G R P A D L A G S 5
    376 C G A L W K A I E 5
    380 W K A I E S L E E 5
    4 H T T K T F P L R 4
    24 H S G Q K M K Q D 4
    30 K Q D K K V D L L 4
    40 P T K V T G I I T 4
    47 I T Q G A K D F G 4
    49 Q G A K D F G H V 4
    54 F G H V Q F V G S 4
    58 Q F V G S Y K L A 4
    60 V G S Y K L A Y S 4
    63 Y K L A Y S N D G 4
    67 Y S N D G E H W T 4
    70 D G E H W T V Y Q 4
    85 D K V L L G R K A 4
    92 K A V V V S C E G 4
    98 C E G I N I S G S 4
    132 H F Q V P S R I F 4
    133 F Q V P S R I F W 4
    161 Y K K V C L S G A 4
    191 K A E I H Y R K N 4
    198 K N K Q L M R L Q 4
    218 D K Y T E S P G G 4
    220 Y T E S P G G G S 4
    245 T R A T R I G H P 4
    252 H P G G R T P R A 4
    292 T R P S S C P T S 4
    300 S S S T Y D S L S 4
    311 G P R N P L P N P 4
    351 R K P K S E N N S 4
    354 K S E N N S W Y V 4
    356 E N N S W Y V E N 4
    360 W Y V E N G R P A 4
    383 I E S L E E G L G 4
    394 Q K D K E R K A E 4
    23 D H S G Q K M K Q 3
    71 G E H W T V Y Q D 3
    79 D E K Q R K D K V 3
    96 V S C E G I N I S 3
    119 H K R M N T N P S 3
    135 V P S R I F W R Q 3
    147 D G G S C C P Q G 3
    195 H Y R K N K Q L M 3
    224 P G G G S P R G L 3
    260 A G S S A H R P P 3
    261 G S S A H R P P A 3
    287 L R T P W T R P S 3
    307 L S P Y G P R N P 3
    341 H N V L A R G K P 3
    345 A R G K P Q R K P 3
    375 Y C G A L W K A I 3
    27 Q K M K Q D K K V 2
    39 V P T K V T G I I 2
    57 V Q F V G S Y K L 2
    77 Y Q D E K Q R K D 2
    104 S G S F C R N K L 2
    115 L A F L H K R M N 2
    170 P H E V G W K Y Q 2
    184 L E E K R K E K A 2
    225 G G G S P R G L G 2
    232 L G F I F K T I A 2
    299 T S S S T Y D S L 2
    304 Y D S L S P Y G P 2
    325 G G G G L K K P A 2
    335 H C Q G Q K H N V 2
    347 G K P Q R K P K S 2
    370 L A G S G Y C G A 2
    374 G Y C G A L W K A 2
    2 L E H T T K T F P 1
    3 E H T T K T F P L 1
    6 T K T F P L R A L 1
    43 V T G I I T Q G A 1
    72 E H W T V Y Q D E 1
    122 M N T N P S R R P 1
    149 G S C C P Q G H A 1
    156 H A S E A Y K K V 1
    205 L Q K Q A E K N M 1
    210 E K N M K K K I D 1
    213 M K K K I D K Y T 1
    297 C P T S S S T Y D 1
    319 P R H S P S G G G 1
  • [0827]
    TABLE XXVII
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 score ID NO.
    151P3D4 v.1: HLA Peptide Scoring Results A26 9-mers SYFPEITHI
    155 D L Q G V V F P Y 30
    249 D V F C F T S N F 30
    159 V V F P Y F P R L 28
    129 L T L E D Y G R Y 27
    230 N T V P G V R N Y 27
    186 A V I A S F D Q L 26
    126 I T D L T L E D Y 25
    140 E V I E G L E D D 24
    148 D T V V V A L D L 24
    91 E V D V F V S M G 23
    93 D V F V S M G Y H 23
    183 D Q D A V I A S F 23
    187 V I A S F D Q L Y 23
    285 Q I A K V G Q I F 23
    329 E A A V R F V G F 23
    264 L I H P T K L T Y 22
    308 W L A D G S V R Y 22
    87 D Y L K E V D V F 21
    146 E D D T V V V A L 21
    153 A L D L Q G V V F 21
    209 W L S D G S V Q Y 21
    253 F T S N F N G R F 21
    56 N V T L P C K F Y 20
    76 K I R I K W T K L 20
    256 N F N G R F Y Y L 20
    291 Q I F A A W K I L 20
    81 W T K L T S D Y L 19
    162 P Y F P R L G R Y 19
    166 R L G R Y N L N F 19
    103 K T Y G G Y Q G R 18
    121 D A S L V I T D L 18
    336 G F P D K K H K L 18
    62 K F Y R D P T A F 17
    100 Y H K K T Y G G Y 17
    151 V V A L D L Q G V 17
    288 K V G Q I F A A W 17
    293 F A A W K I L G Y 17
    84 L T S D Y L K E V 16
    123 S L V I T D L T L 16
    124 L V I T D L T L E 16
    243 K D K S R Y D V F 16
    267 P T K L T Y D E A 16
    313 S V R Y P I S R P 16
    340 K K H K L Y G V Y 16
    7 L V L I S I C W A 15
    16 D H L S D N Y T L 15
    58 T L P C K F Y R D 15
    90 K E V D V F V S M 15
    95 F V S M G Y H K K 15
    128 D L T L E D Y G R 15
    137 Y K C E V I E G L 15
    156 L Q G V V F P Y F 15
    214 S V Q Y P I T K P 15
    345 Y G V Y C F R A Y 15
    5 L L L V L I S I C 14
    42 V E A E Q A K V F 14
    45 E Q A K V F S H R 14
    48 K V F S H R G G N 14
    83 K L T S D Y L K E 14
    111 R V F L K G G S D 14
    149 T V V V A L D L Q 14
    158 G V V F P Y F P R 14
    190 S F D Q L Y D A W 14
    219 I T K P R E P C G 14
    240 F W D K D K S R Y 14
    245 K S R Y D V F C F 14
    275 A V Q A C L N D G 14
    326 S P T E A A V R F 14
    327 P T E A A V R F V 14
    342 H K L Y G V Y C F 14
    343 K L Y G V Y C F R 14
    1 M K S L L L L V L 13
    3 S L L L L V L I S 13
    4 L L L L V L I S I 13
    14 W A D H L S D N Y 13
    17 H L S D N Y T L D 13
    27 D R A I H I Q A E 13
    32 I Q A E N G P H L 13
    80 K W T K L T S D Y 13
    119 D S D A S L V I T 13
    125 V I T D L T L E D 13
    141 V I E G L E D D T 13
    231 T V P G V R N Y G 13
    270 L T Y D E A V Q A 13
    337 F P D K K H K L Y 13
    339 D K K H K L Y G V 13
    8 V L I S I C W A D 12
    22 Y T L D H D R A I 12
    29 A I H I Q A E N G 12
    35 E N G P H L L V E 12
    40 L L V E A E Q A K 12
    41 L V E A E Q A K V 12
    55 G N V T L P C K F 12
    57 V T L P C K F Y R 12
    69 A F G S G I H K I 12
    73 G I H K I R I K W 12
    88 Y L K E V D V F V 12
    92 V D V F V S M G Y 12
    113 F L K G G S D S D 12
    116 G G S D S D A S L 12
    132 E D Y G R Y K C E 12
    150 V V V A L D L Q G 12
    212 D G S V Q Y P I T 12
    252 C F T S N F N G R 12
    255 S N F N G R F Y Y 12
    297 K I L G Y D R C D 12
    9 L I S I C W A D H 11
    10 I S I C W A D H L 11
    25 D H D R A I H I Q 11
    51 S H R G G N V T L 11
    67 P T A F G S G I H 11
    78 R I K W T K L T S 11
    105 Y G G Y Q G R V F 11
    147 D D T V V V A L D 11
    181 C L D Q D A V I A 11
    201 G L D W C N A G W 11
    218 P I T K P R E P C 11
    232 V P G V R N Y G F 11
    260 R F Y Y L I H P T 11
    311 D G S V R Y P I S 11
    317 P I S R P R R R C 11
    334 F V G F P D K K H 11
    346 G V Y C F R A Y N 11
    11 S I C W A D H L S 10
    23 T L D H D R A I H 10
    31 H I Q A E N G P H 10
    97 S M G Y H K K T Y 10
    106 G G Y Q G R V F L 10
    144 G L E D D T V V V 10
    171 N L N F H E A Q Q 10
    173 N F H E A Q Q A C 10
    174 F H E A Q Q A C L 10
    193 Q L Y D A W R G G 10
    194 L Y D A W R G G L 10
    234 G V R N Y G F W D 10
    254 T S N F N G R F Y 10
    263 Y L I H P T K L T 10
    279 C L N D G A Q I A 10
    331 A V R F V G F P D 10
    39 H L L V E A E Q A 9
    130 T L E D Y G R Y K 9
    164 F P R L G R Y N L 9
    210 L S D G S V Q Y P 9
    239 G F W D K D K S R 9
    242 D K D K S R Y D V 9
    262 Y Y L I H P T K L 9
    269 K L T Y D E A V Q 9
    271 T Y D E A V Q A C 9
    272 Y D E A V Q A C L 9
    333 R F V G F P D K K 9
    6 L L V L I S I C W 8
    33 Q A E N G P H L L 8
    36 N G P H L L V E A 8
    43 E A E Q A K V F S 8
    66 D P T A F G S G I 8
    94 V F V S M G Y H K 8
    112 V F L K G G S D S 8
    143 E G L E D D T V V 8
    163 Y F P R L G R Y N 8
    189 A S F D Q L Y D A 8
    202 L D W C N A G W L 8
    205 C N A G W L S D G 8
    224 E P C G G Q N T V 8
    273 D E A V Q A C L N 8
    274 E A V Q A C L N D 8
    282 D G A Q I A K V G 8
    284 A Q I A K V G Q I 8
    287 A K V G Q I F A A 8
    298 I L G Y D R C D A 8
    301 Y D R C D A G W L 8
    304 C D A G W L A D G 8
    305 D A G W L A D G S 8
    309 L A D G S V R Y P 8
    13 C W A D H L S D N 7
    20 D N Y T L D H D R 7
    49 V F S H R G G N V 7
    72 S G I H K I R I K 7
    120 S D A S L V I T D 7
    133 D Y G R Y K C E V 7
    145 L E D D T V V V A 7
    160 V F P Y F P R L G 7
    176 E A Q Q A C L D Q 7
    192 D Q L Y D A W R G 7
    244 D K S R Y D V F C 7
    259 G R F Y Y L I H P 7
    281 N D G A Q I A K V 7
    292 I F A A W K I L G 7
    296 W K I L G Y D R C 7
    302 D R C D A G W L A 7
    332 V R F V G F P D K 7
    2 K S L L L L V L I 6
    37 G P H L L V E A E 6
    44 A E Q A K V F S H 6
    52 H R G G N V T L P 6
    65 R D P T A F G S G 6
    68 T A F G S G I H K 6
    79 I K W T K L T S D 6
    107 G Y Q G R V F L K 6
    136 R Y K C E V I E G 6
    154 L D L Q G V V F P 6
    165 P R L G R Y N L N 6
    182 L D Q D A V I A S 6
    185 D A V I A S F D Q 6
    196 D A W R G G L D W 6
    197 A W R G G L D W C 6
    203 D W C N A G W L S 6
    227 G G Q N T V P G V 6
    250 V F C F T S N F N 6
    265 I H P T K L T Y D 6
    19 S D N Y T L D H D 5
    54 G G N V T L P C K 5
    59 L P C K F Y R D P 5
    74 I H K I R I K W T 5
    108 Y Q G R V F L K G 5
    109 Q G R V F L K G G 5
    169 R Y N L N F H E A 5
    177 A Q Q A C L D Q D 5
    246 S R Y D V F C F T 5
    248 Y D V F C F T S N 5
    294 A A W K I L G Y D 5
    335 V G F P D K K H K 5
    28 R A I H I Q A E N 4
    30 I H I Q A E N G P 4
    64 Y R D P T A F G S 4
    89 L K E V D V F V S 4
    114 L K G G S D S D A 4
    167 L G R Y N L N F H 4
    172 L N F H E A Q Q A 4
    217 Y P I T K P R E P 4
    233 P G V R N Y G F W 4
    235 V R N Y G F W D K 4
    251 F C F T S N F N G 4
    257 F N G R F Y Y L I 4
    258 N G R F Y Y L I H 4
    280 L N D G A Q I A K 4
    315 R Y P I S R P R R 4
    316 Y P I S R P R R R 4
    324 R C S P T E A A V 4
    330 A A V R F V G F P 4
    61 C K F Y R D P T A 3
    77 I R I K W T K L T 3
    96 V S M G Y H K K T 3
    99 G Y H K K T Y G G 3
    104 T Y G G Y Q G R V 3
    117 G S D S D A S L V 3
    175 H E A Q Q A C L D 3
    178 Q Q A C L D Q D A 3
    180 A C L D Q D A V I 3
    198 W R G G L D W C N 3
    216 Q Y P I T K P R E 3
    221 K P R E P C G G Q 3
    222 P R E P C G G Q N 3
    223 R E P C G G Q N T 3
    225 P C G G Q N T V P 3
    236 R N Y G F W D K D 3
    238 Y G F W D K D K S 3
    241 W D K D K S R Y D 3
    276 V Q A C L N D G A 3
    290 G Q I F A A W K I 3
    300 G Y D R C D A G W 3
    24 L D H D R A I H I 2
    34 A E N G P H L L V 2
    38 P H L L V E A E Q 2
    46 Q A K V F S H R G 2
    47 A K V F S H R G G 2
    63 F Y R D P T A F G 2
    70 F G S G I H K I R 2
    75 H K I R I K W T K 2
    85 T S D Y L K E V D 2
    86 S D Y L K E V D V 2
    110 G R V F L K G G S 2
    115 K G G S D S D A S 2
    131 L E D Y G R Y K C 2
    135 G R Y K C E V I E 2
    152 V A L D L Q G V V 2
    168 G R Y N L N F H E 2
    184 Q D A V I A S F D 2
    200 G G L D W C N A G 2
    206 N A G W L S D G S 2
    207 A G W L S D G S V 2
    208 G W L S D G S V Q 2
    215 V Q Y P I T K P R 2
    220 T K P R E P C G G 2
    226 C G G Q N T V P G 2
    229 Q N T V P G V R N 2
    266 H P T K L T Y D E 2
    278 A C L N D G A Q I 2
    283 G A Q I A K V G Q 2
    295 A W K I L G Y D R 2
    299 L G Y D R C D A G 2
    303 R C D A G W L A D 2
    314 V R Y P I S R P R 2
    318 I S R P R R R C S 2
    319 S R P R R R C S P 2
    322 R R R C S P T E A 2
    323 R R C S P T E A A 2
    325 C S P T E A A V R 2
    338 P D K K H K L Y G 2
    341 K H K L Y G V Y C 2
    12 I C W A D H L S D 1
    15 A D H L S D N Y T 1
    18 L S D N Y T L D H 1
    21 N Y T L D H D R A 1
    26 H D R A I H I Q A 1
    60 P C K F Y R D P T 1
    71 G S G I H K I R I 1
    82 T K L T S D Y L K 1
    98 M G Y H K K T Y G 1
    101 H K K T Y G G Y Q 1
    102 K K T Y G G Y Q G 1
    118 S D S D A S L V I 1
    127 T D L T L E D Y G 1
    134 Y G R Y K C E V I 1
    139 C E V I E G L E D 1
    161 F P Y F P R L G R 1
    170 Y N L N F H E A Q 1
    179 Q A C L D Q D A V 1
    191 F D Q L Y D A W R 1
    195 Y D A W R G G L D 1
    199 R G G L D W C N A 1
    204 W C N A G W L S D 1
    211 S D G S V Q Y P I 1
    213 G S V Q Y P I T K 1
    247 R Y D V F C F T S 1
    261 F Y Y L I H P T K 1
    268 T K L T Y D E A V 1
    277 Q A C L N D G A Q 1
    286 I A K V G Q I F A 1
    289 V G Q I F A A W K 1
    306 A G W L A D G S V 1
    307 G W L A D G S V R 1
    310 A D G S V R Y P I 1
    312 G S V R Y P I S R 1
    320 R P R R R C S P T 1
    321 P R R R C S P T E 1
    328 T E A A V R F V G 1
    344 L Y G V Y C F R A 1
    151P3D4 v.2: HLA Peptide Scoring Results A26 9-mers SYFPEITHI
    302 S T Y D S L S P Y 27
    234 F I F K T I A P L 26
    123 N T N P S R R P Y 23
    172 E V G W K Y Q A V 23
    59 F V G S Y K L A Y 22
    378 A L W K A I E S L 22
    46 I I T Q G A K D F 21
    382 A I E S L E E G L 21
    99 E G I N I S G S F 19
    114 Y L A F L H K R M 19
    1 M L E H T T K T F 18
    102 N I S G S F C R N 18
    212 N M K K K I D K Y 18
    237 K T I A P L A A T 18
    369 D L A G S G Y C G 18
    16 I V V E S I R D H 17
    34 K V D L L V P T K 17
    38 L V P T K V T G I 17
    42 K V T G I I T Q G 17
    106 S F C R N K L K Y 17
    109 R N K L K Y L A F 17
    193 E I H Y R K N K Q 17
    4 H T T K T F P L R 16
    7 K T F P L R A L H 16
    55 G H V Q F V G S Y 16
    132 H F Q V P S R I F 16
    134 Q V P S R I F W R 16
    197 R K N K Q L M R L 16
    3 E H T T K T F P L 15
    30 K Q D K K V D L L 15
    45 G I I T Q G A K D 15
    80 E K Q R K D K V L 15
    179 A V T A T L E E K 15
    238 T I A P L A A T R 15
    385 S L E E G L G G K 15
    36 D L L V P T K V T 14
    110 N K L K Y L A F L 14
    299 T S S S T Y D S L 14
    6 T K T F P L R A L 13
    13 A L H I V V E S I 13
    51 A K D F G H V Q F 13
    58 Q F V G S Y K L A 13
    107 F C R N K L K Y L 13
    117 F L H K R M N T N 13
    138 R I F W R Q E K A 13
    169 A P H E V G W K Y 13
    180 V T A T L E E K R 13
    182 A T L E E K R K E 13
    216 K I D K Y T E S P 13
    226 G G S P R G L G F 13
    228 S P R G L G F I F 13
    256 R T P R A G S S A 13
    275 P V P A A S P A A 13
    288 R T P W T R P S S 13
    291 W T R P S S C P T 13
    296 S C P T S S S T Y 13
    353 P K S E N N S W Y 13
    356 E N N S W Y V E N 13
    367 P A D L A G S G Y 13
    399 R K A E N G P H L 13
    5 T T K T F P L R A 12
    17 V V E S I R D H S 12
    20 S I R D H S G Q K 12
    21 I R D H S G Q K M 12
    43 V T G I I T Q G A 12
    47 I T Q G A K D F G 12
    53 D F G H V Q F V G 12
    69 N D G E H W T V Y 12
    74 W T V Y Q D E K Q 12
    75 T V Y Q D E K Q R 12
    93 A V V V S C E G I 12
    100 G I N I S G S F C 12
    159 E A Y K K V C L S 12
    163 K V C L S G A P H 12
    183 T L E E K R K E K 12
    188 R K E K A E I H Y 12
    220 Y T E S P G G G S 12
    224 P G G G S P R G L 12
    231 G L G F I F K T I 12
    247 A T R I G H P G G 12
    298 P T S S S T Y D S 12
    306 S L S P Y G P R N 12
    361 Y V E N G R P A D 12
    15 H I V V E S I R D 11
    23 D H S G Q K M K Q 11
    29 M K Q D K K V D L 11
    32 D K K V D L L V P 11
    37 L L V P T K V T G 11
    40 P T K V T G I I T 11
    56 H V Q F V G S Y K 11
    57 V Q F V G S Y K L 11
    64 K L A Y S N D G E 11
    72 E H W T V Y Q D E 11
    86 K V L L G R K A V 11
    87 V L L G R K A V V 11
    94 V V V S C E G I N 11
    95 V V S C E G I N I 11
    125 N P S R R P Y H F 11
    153 P Q G H A S E A Y 11
    158 S E A Y K K V C L 11
    165 C L S G A P H E V 11
    204 R L Q K Q A E K N 11
    205 L Q K Q A E K N M 11
    244 A T R A T R I G H 11
    249 R I G H P G G R T 11
    262 S S A H R P P A L 11
    277 P A A S P A A W L 11
    305 D S L S P Y G P R 11
    321 H S P S G G G G L 11
    328 G L K K P A R H C 11
    343 V L A R G K P Q R 11
    362 V E N G R P A D L 11
    371 A G S G Y C G A L 11
    389 G L G G K Q K D K 11
    19 E S I R D H S G Q 10
    81 K Q R K D K V L L 10
    88 L L G R K A V V V 10
    111 K L K Y L A F L H 10
    190 E K A E I H Y R K 10
    194 I H Y R K N K Q L 10
    195 H Y R K N K Q L M 10
    201 Q L M R L Q K Q A 10
    222 E S P G G G S P R 10
    233 G F I F K T I A P 10
    241 P L A A T R A T R 10
    284 W L P L R T P W T 10
    308 S P Y G P R N P L 10
    315 P L P N P R H S P 10
    336 C Q G Q K H N V L 10
    342 N V L A R G K P Q 10
    381 K A I E S L E E G 10
    388 E G L G G K Q K D 10
    10 P L R A L H I V V 9
    52 K D F G H V Q F V 9
    79 D E K Q R K D K V 9
    104 S G S F C R N K L 9
    116 A F L H K R M N T 9
    144 E K A D G G S C C 9
    147 D G G S C C P Q G 9
    176 K Y Q A V T A T L 9
    185 E E K R K E K A E 9
    186 E K R K E K A E I 9
    215 K K I D K Y T E S 9
    265 H R P P A L S A R 9
    269 A L S A R A P V P 9
    279 A S P A A W L P L 9
    286 P L R T P W T R P 9
    384 E S L E E G L G G 9
    8 T F P L R A L H I 8
    85 D K V L L G R K A 8
    139 I F W R Q E K A D 8
    218 D K Y T E S P G G 8
    235 I F K T I A P L A 8
    396 D K E R K A E N G 8
    400 K A E N G P H L L 8
    24 H S G Q K M K Q D 7
    33 K K V D L L V P T 7
    49 Q G A K D F G H V 7
    54 F G H V Q F V G S 7
    62 S Y K L A Y S N D 7
    70 D G E H W T V Y Q 7
    82 Q R K D K V L L G 7
    83 R K D K V L L G R 7
    84 K D K V L L G R K 7
    90 G R K A V V V S C 7
    130 P Y H F Q V P S R 7
    156 H A S E A Y K K V 7
    161 Y K K V C L S G A 7
    198 K N K Q L M R L Q 7
    210 E K N M K K K I D 7
    230 R G L G F I F K T 7
    324 S G G G G L K K P 7
    365 G R P A D L A G S 7
    374 G Y C G A L W K A 7
    387 E E G L G G K Q K 7
    398 E R K A E N G P H 7
    11 L R A L H I V V E 6
    12 R A L H I V V E S 6
    60 V G S Y K L A Y S 6
    89 L G R K A V V V S 6
    91 R K A V V V S C E 6
    96 V S C E G I N I S 6
    98 C E G I N I S G S 6
    128 R R P Y H F Q V P 6
    175 W K Y Q A V T A T 6
    200 K Q L M R L Q K Q 6
    207 K Q A E K N M K K 6
    208 Q A E K N M K K K 6
    245 T R A T R I G H P 6
    258 P R A G S S A H R 6
    271 S A R A P V P A A 6
    280 S P A A W L P L R 6
    311 G P R N P L P N P 6
    338 G Q K H N V L A R 6
    339 Q K H N V L A R G 6
    363 E N G R P A D L A 6
    370 L A G S G Y C G A 6
    71 G E H W T V Y Q D 5
    77 Y Q D E K Q R K D 5
    112 L K Y L A F L H K 5
    113 K Y L A F L H K R 5
    131 Y H F Q V P S R I 5
    135 V P S R I F W R Q 5
    167 S G A P H E V G W 5
    168 G A P H E V G W K 5
    189 K E K A E I H Y R 5
    191 K A E I H Y R K N 5
    227 G S P R G L G F I 5
    248 T R I G H P G G R 5
    272 A R A P V P A A S 5
    344 L A R G K P Q R K 5
    350 Q R K P K S E N N 5
    357 N N S W Y V E N G 5
    395 K D K E R K A E N 5
    9 F P L R A L H I V 4
    41 T K V T G I I T Q 4
    126 P S R R P Y H F Q 4
    137 S R I F W R Q E K 4
    141 W R Q E K A D G G 4
    150 S C C P Q G H A S 4
    151 C C P Q G H A S E 4
    152 C P Q G H A S E A 4
    187 K R K E K A E I H 4
    203 M R L Q K Q A E K 4
    219 K Y T E S P G G G 4
    223 S P G G G S P R G 4
    229 P R G L G F I F K 4
    252 H P G G R T P R A 4
    266 R P P A L S A R A 4
    276 V P A A S P A A W 4
    282 A A W L P L R T P 4
    292 T R P S S C P T S 4
    295 S S C P T S S S T 4
    303 T Y D S L S P Y G 4
    320 R H S P S G G G G 4
    327 G G L K K P A R H 4
    335 H C Q G Q K H N V 4
    346 R G K P Q R K P K 4
    347 G K P Q R K P K S 4
    351 R K P K S E N N S 4
    366 R P A D L A G S G 4
    386 L E E G L G G K Q 4
    391 G G K Q K D K E R 4
    393 K Q K D K E R K A 4
    14 L H I V V E S I R 3
    26 G Q K M K Q D K K 3
    27 Q K M K Q D K K V 3
    44 T G I I T Q G A K 3
    61 G S Y K L A Y S N 3
    68 S N D G E H W T V 3
    76 V Y Q D E K Q R K 3
    97 S C E G I N I S G 3
    101 I N I S G S F C R 3
    115 L A F L H K R M N 3
    124 T N P S R R P Y H 3
    127 S R R P Y H F Q V 3
    133 F Q V P S R I F W 3
    145 K A D G G S C C P 3
    146 A D G G S C C P Q 3
    155 G H A S E A Y K K 3
    160 A Y K K V C L S G 3
    164 V C L S G A P H E 3
    171 H E V G W K Y Q A 3
    174 G W K Y Q A V T A 3
    192 A E I H Y R K N K 3
    196 Y R K N K Q L M R 3
    202 L M R L Q K Q A E 3
    221 T E S P G G G S P 3
    251 G H P G G R T P R 3
    255 G R T P R A G S S 3
    259 R A G S S A H R P 3
    264 A H R P P A L S A 3
    267 P P A L S A R A P 3
    273 R A P V P A A S P 3
    274 A P V P A A S P A 3
    281 P A A W L P L R T 3
    283 A W L P L R T P W 3
    309 P Y G P R N P L P 3
    312 P R N P L P N P R 3
    313 R N P L P N P R H 3
    314 N P L P N P R H S 3
    316 L P N P R H S P S 3
    317 P N P R H S P S G 3
    318 N P R H S P S G G 3
    323 P S G G G G L K K 3
    325 G G G G L K K P A 3
    326 G G G L K K P A R 3
    329 L K K P A R H C Q 3
    331 K P A R H C Q G Q 3
    333 A R H C Q G Q K H 3
    349 P Q R K P K S E N 3
    352 K P K S E N N S W 3
    364 N G R P A D L A G 3
    390 L G G K Q K D K E 3
    394 Q K D K E R K A E 3
    22 R D H S G Q K M K 2
    25 S G Q K M K Q D K 2
    28 K M K Q D K K V D 2
    31 Q D K K V D L L V 2
    48 T Q G A K D F G H 2
    50 G A K D F G H V Q 2
    65 L A Y S N D G E H 2
    78 Q D E K Q R K D K 2
    103 I S G S F C R N K 2
    105 G S F C R N K L K 2
    108 C R N K L K Y L A 2
    118 L H K R M N T N P 2
    120 K R M N T N P S R 2
    121 R M N T N P S R R 2
    140 F W R Q E K A D G 2
    142 R Q E K A D G G S 2
    143 Q E K A D G G S C 2
    148 G G S C C P Q G H 2
    154 Q G H A S E A Y K 2
    162 K K V C L S G A P 2
    173 V G W K Y Q A V T 2
    184 L E E K R K E K A 2
    209 A E K N M K K K I 2
    211 K N M K K K I D K 2
    213 M K K K I D K Y T 2
    217 I D K Y T E S P G 2
    232 L G F I F K T I A 2
    239 I A P L A A T R A 2
    242 L A A T R A T R I 2
    250 I G H P G G R T P 2
    254 G G R T P R A G S 2
    257 T P R A G S S A H 2
    268 P A L S A R A P V 2
    270 L S A R A P V P A 2
    278 A A S P A A W L P 2
    287 L R T P W T R P S 2
    289 T P W T R P S S C 2
    293 R P S S C P T S S 2
    294 P S S C P T S S S 2
    297 C P T S S S T Y D 2
    304 Y D S L S P Y G P 2
    307 L S P Y G P R N P 2
    319 P R H S P S G G G 2
    322 S P S G G G G L K 2
    330 K K P A R H C Q G 2
    334 R H C Q G Q K H N 2
    337 Q G Q K H N V L A 2
    340 K H N V L A R G K 2
    345 A R G K P Q R K P 2
    348 K P Q R K P K S E 2
    360 W Y V E N G R P A 2
    375 Y C G A L W K A I 2
    376 C G A L W K A I E 2
    377 G A L W K A I E S 2
    379 L W K A I E S L E 2
    380 W K A I E S L E E 2
    392 G K Q K D K E R K 2
    397 K E R K A E N G P 2
    18 V E S I R D H S G 1
    35 V D L L V P T K V 1
    39 V P T K V T G I I 1
    66 A Y S N D G E H W 1
    67 Y S N D G E H W T 1
    73 H W T V Y Q D E K 1
    92 K A V V V S C E G 1
    122 M N T N P S R R P 1
    129 R P Y H F Q V P S 1
    136 P S R I F W R Q E 1
    149 G S C C P Q G H A 1
    177 Y Q A V T A T L E 1
    178 Q A V T A T L E E 1
    181 T A T L E E K R K 1
    199 N K Q L M R L Q K 1
    206 Q K Q A E K N M K 1
    214 K K K I D K Y T E 1
    225 G G G S P R G L G 1
    236 F K T I A P L A A 1
    240 A P L A A T R A T 1
    253 P G G R T P R A G 1
    260 A G S S A H R P P 1
    261 G S S A H R P P A 1
    263 S A H R P P A L S 1
    290 P W T R P S S C P 1
    300 S S S T Y D S L S 1
    301 S S T Y D S L S P 1
    310 Y G P R N P L P N 1
    332 P A R H C Q G Q K 1
    341 H N V L A R G K P 1
    355 S E N N S W Y V E 1
    358 N S W Y V E N G R 1
    359 S W Y V E N G R P 1
    372 G S G Y C G A L W 1
  • [0828]
    TABLE XXVIII
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 score ID NO.
    151P3D4 v.1: HLA Peptide Scoring Results B*0702 9-mers SYFPEITHI
    164 F P R L G R Y N L 23
    320 R P R R R C S P T 20
    224 E P C G G Q N T V 19
    66 D P T A F G S G I 18
    326 S P T E A A V R F 18
    232 V P G V R N Y G F 17
    51 S H R G G N V T L 16
    146 E D D T V V V A L 16
    161 F P Y F P R L G R 16
    221 K P R E P C G G Q 16
    1 M K S L L L L V L 15
    34 A E N G P H L L V 15
    32 I Q A E N G P H L 14
    76 K I R I K W T K L 14
    106 G G Y Q G R V F L 14
    186 A V I A S F D Q L 14
    116 G G S D S D A S L 13
    121 D A S L V I T D L 13
    153 A L D L Q G V V F 13
    159 V V F P Y F P R L 13
    194 L Y D A W R G G L 13
    256 N F N G R F Y Y L 13
    37 G P H L L V E A E 12
    123 S L V I T D L T L 12
    148 D T V V V A L D L 12
    174 F H E A Q Q A C L 12
    266 H P T K L T Y D E 12
    272 Y D E A V Q A C L 12
    301 Y D R C D A G W L 12
    323 R R C S P T E A A 12
    324 R C S P T E A A V 12
    337 F P D K K H K L Y 12
    10 I S I C W A D H L 11
    59 L P C K F Y R D P 11
    118 S D S D A S L V I 11
    145 L E D D T V V V A 11
    262 Y Y L I H P T K L 11
    287 A K V G Q I F A A 11
    291 Q I F A A W K I L 11
    310 A D G S V R Y P I 11
    329 E A A V R F V G F 11
    16 D H L S D N Y T L 10
    33 Q A E N G P H L L 10
    81 W T K L T S D Y L 10
    90 K E V D V F V S M 10
    119 D S D A S L V I T 10
    137 Y K C E V I E G L 10
    144 G L E D D T V V V 10
    166 R L G R Y N L N F 10
    180 A C L D Q D A V I 10
    202 L D W C N A G W L 10
    217 Y P I T K P R E P 10
    245 K S R Y D V F C F 10
    263 Y L I H P T K L T 10
    278 A C L N D G A Q I 10
    284 A Q I A K V G Q I 10
    316 Y P I S R P R R R 10
    322 R R R C S P T E A 10
    336 G F P D K K H K L 10
    2 K S L L L L V L I 9
    26 H D R A I H I Q A 9
    49 V F S H R G G N V 9
    62 K F Y R D P T A F 9
    69 A F G S G I H K I 9
    77 I R I K W T K L T 9
    87 D Y L K E V D V F 9
    88 Y L K E V D V F V 9
    96 V S M G Y H K K T 9
    104 T Y G G Y Q G R V 9
    105 Y G G Y Q G R V F 9
    114 L K G G S D S D A 9
    122 A S L V I T D L T 9
    134 Y G R Y K C E V I 9
    143 E G L E D D T V V 9
    156 L Q G V V F P Y F 9
    181 C L D Q D A V I A 9
    183 D Q D A V I A S F 9
    212 D G S V Q Y P I T 9
    242 D K D K S R Y D V 9
    281 N D G A Q I A K V 9
    285 Q I A K V G Q I F 9
    298 I L G Y D R C D A 9
    327 P T E A A V R F V 9
    15 A D H L S D N Y T 8
    36 N G P H L L V E A 8
    41 L V E A E Q A K V 8
    42 V E A E Q A K V F 8
    50 F S H R G G N V T 8
    60 P C K F Y R D P T 8
    63 F Y R D P T A F G 8
    84 L T S D Y L K E V 8
    86 S D Y L K E V D V 8
    141 V I E G L E D D T 8
    142 I E G L E D D T V 8
    169 R Y N L N F H E A 8
    189 A S F D Q L Y D A 8
    199 R G G L D W C N A 8
    207 A G W L S D G S V 8
    211 S D G S V Q Y P I 8
    223 R E P C G G Q N T 8
    227 G G Q N T V P G V 8
    243 K D K S R Y D V F 8
    246 S R Y D V F C F T 8
    253 F T S N F N G R F 8
    260 R F Y Y L I H P T 8
    270 L T Y D E A V Q A 8
    286 I A K V G Q I F A 8
    306 A G W L A D G S V 8
    22 Y T L D H D R A I 7
    61 C K F Y R D P T A 7
    71 G S G I H K I R I 7
    74 I H K I R I K W T 7
    117 G S D S D A S L V 7
    133 D Y G R Y K C E V 7
    151 V V A L D L Q G V 7
    152 V A L D L Q G V V 7
    178 Q Q A C L D Q D A 7
    179 Q A C L D Q D A V 7
    249 D V F C F T S N F 7
    257 F N G R F Y Y L I 7
    268 T K L T Y D E A V 7
    276 V Q A C L N D G A 7
    302 D R C D A G W L A 7
    342 H K L Y G V Y C F 7
    344 L Y G V Y C F R A 7
    4 L L L L V L I S I 6
    7 L V L I S I C W A 6
    21 N Y T L D H D R A 6
    24 L D H D R A I H I 6
    35 E N G P H L L V E 6
    39 H L L V E A E Q A 6
    53 R G G N V T L P C 6
    55 G N V T L P C K F 6
    172 L N F H E A Q Q A 6
    197 A W R G G L D W C 6
    218 P I T K P R E P C 6
    229 Q N T V P G V R N 6
    267 P T K L T Y D E A 6
    279 C L N D G A Q I A 6
    290 G Q I F A A W K I 6
    303 R C D A G W L A D 6
    317 P I S R P R R R C 6
    331 A V R F V G F P D 6
    339 D K K H K L Y G V 6
    52 H R G G N V T L P 5
    188 I A S F D Q L Y D 5
    225 P C G G Q N T V P 5
    226 C G G Q N T V P G 5
    244 D K S R Y D V F C 5
    288 K V G Q I F A A W 5
    313 S V R Y P I S R P 5
    318 I S R P R R R C S 5
    12 I C W A D H L S D 4
    18 L S D N Y T L D H 4
    43 E A E Q A K V F S 4
    44 A E Q A K V F S H 4
    45 E Q A K V F S H R 4
    56 N V T L P C K F Y 4
    70 F G S G I H K I R 4
    108 Y Q G R V F L K G 4
    154 L D L Q G V V F P 4
    155 D L Q G V V F P Y 4
    158 G V V F P Y F P R 4
    209 W L S D G S V Q Y 4
    210 L S D G S V Q Y P 4
    214 S V Q Y P I T K P 4
    258 N G R F Y Y L I H 4
    280 L N D G A Q I A K 4
    304 C D A G W L A D G 4
    309 L A D G S V R Y P 4
    328 T E A A V R F V G 4
    330 A A V R F V G F P 4
    334 F V G F P D K K H 4
    341 K H K L Y G V Y C 4
    343 K L Y G V Y C F R 4
    3 S L L L L V L I S 3
    9 L I S I C W A D H 3
    17 H L S D N Y T L D 3
    23 T L D H D R A I H 3
    68 T A F G S G I H K 3
    78 R I K W T K L T S 3
    80 K W T K L T S D Y 3
    83 K L T S D Y L K E 3
    91 E V D V F V S M G 3
    103 K T Y G G Y Q G R 3
    107 G Y Q G R V F L K 3
    115 K G G S D S D A S 3
    125 V I T D L T L E D 3
    132 E D Y G R Y K C E 3
    135 G R Y K C E V I E 3
    139 C E V I E G L E D 3
    150 V V V A L D L Q G 3
    167 L G R Y N L N F H 3
    176 E A Q Q A C L D Q 3
    177 A Q Q A C L D Q D 3
    196 D A W R G G L D W 3
    198 W R G G L D W C N 3
    204 W C N A G W L S D 3
    205 C N A G W L S D G 3
    215 V Q Y P I T K P R 3
    219 I T K P R E P C G 3
    231 T V P G V R N Y G 3
    234 G V R N Y G F W D 3
    236 R N Y G F W D K D 3
    264 L I H P T K L T Y 3
    269 K L T Y D E A V Q 3
    271 T Y D E A V Q A C 3
    274 E A V Q A C L N D 3
    275 A V Q A C L N D G 3
    292 I F A A W K I L G 3
    293 F A A W K I L G Y 3
    294 A A W K I L G Y D 3
    295 A W K I L G Y D R 3
    297 K I L G Y D R C D 3
    307 G W L A D G S V R 3
    308 W L A D G S V R Y 3
    311 D G S V R Y P I S 3
    315 R Y P I S R P R R 3
    321 P R R R C S P T E 3
    333 R F V G F P D K K 3
    338 P D K K H K L Y G 3
    340 K K H K L Y G V Y 3
    27 D R A I H I Q A E 2
    28 R A I H I Q A E N 2
    29 A I H I Q A E N G 2
    31 H I Q A E N G P H 2
    47 A K V F S H R G G 2
    48 K V F S H R G G N 2
    64 Y R D P T A F G S 2
    65 R D P T A F G S G 2
    73 G I H K I R I K W 2
    79 I K W T K L T S D 2
    85 T S D Y L K E V D 2
    89 L K E V D V F V S 2
    95 F V S M G Y H K K 2
    99 G Y H K K T Y G G 2
    102 K K T Y G G Y Q G 2
    109 Q G R V F L K G G 2
    111 R V F L K G G S D 2
    112 V F L K G G S D S 2
    113 F L K G G S D S D 2
    120 S D A S L V I T D 2
    126 I T D L T L E D Y 2
    131 L E D Y G R Y K C 2
    136 R Y K C E V I E G 2
    147 D D T V V V A L D 2
    165 P R L G R Y N L N 2
    182 L D Q D A V I A S 2
    184 Q D A V I A S F D 2
    190 S F D Q L Y D A W 2
    195 Y D A W R G G L D 2
    201 G L D W C N A G W 2
    208 G W L S D G S V Q 2
    222 P R E P C G G Q N 2
    230 N T V P G V R N Y 2
    240 F W D K D K S R Y 2
    247 R Y D V F C F T S 2
    248 Y D V F C F T S N 2
    254 T S N F N G R F Y 2
    265 I H P T K L T Y D 2
    282 D G A Q I A K V G 2
    283 G A Q I A K V G Q 2
    300 G Y D R C D A G W 2
    314 V R Y P I S R P R 2
    325 C S P T E A A V R 2
    332 V R F V G F P D K 2
    345 Y G V Y C F R A Y 2
    346 G V Y C F R A Y N 2
    8 V L I S I C W A D 1
    13 C W A D H L S D N 1
    14 W A D H L S D N Y 1
    25 D H D R A I H I Q 1
    30 I H I Q A E N G P 1
    38 P H L L V E A E Q 1
    40 L L V E A E Q A K 1
    54 G G N V T L P C K 1
    57 V T L P C K F Y R 1
    58 T L P C K F Y R D 1
    67 P T A F G S G I H 1
    94 V F V S M G Y H K 1
    97 S M G Y H K K T Y 1
    98 M G Y H K K T Y G 1
    100 Y H K K T Y G G Y 1
    101 H K K T Y G G Y Q 1
    124 L V I T D L T L E 1
    130 T L E D Y G R Y K 1
    138 K C E V I E G L E 1
    140 E V I E G L E D D 1
    157 Q G V V F P Y F P 1
    162 P Y F P R L G R Y 1
    163 Y F P R L G R Y N 1
    170 Y N L N F H E A Q 1
    171 N L N F H E A Q Q 1
    173 N F H E A Q Q A C 1
    175 H E A Q Q A C L D 1
    187 V I A S F D Q L Y 1
    191 F D Q L Y D A W R 1
    200 G G L D W C N A G 1
    203 D W C N A G W L S 1
    206 N A G W L S D G S 1
    216 Q Y P I T K P R E 1
    228 G Q N T V P G V R 1
    233 P G V R N Y G F W 1
    235 V R N Y G F W D K 1
    237 N Y G F W D K D K 1
    250 V F C F T S N F N 1
    252 C F T S N F N G R 1
    255 S N F N G R F Y Y 1
    261 F Y Y L I H P T K 1
    273 D E A V Q A C L N 1
    277 Q A C L N D G A Q 1
    289 V G Q I F A A W K 1
    299 L G Y D R C D A G 1
    305 D A G W L A D G S 1
    319 S R P R R R C S P 1
    335 V G F P D K K H K 1
    151P3D4 v.2: HLA Peptide Scoring Results B*0702 9-mers SYFPEITHI
    308 S P Y G P R N P L 27
    228 S P R G L G F I F 21
    240 A P L A A T R A T 21
    252 H P G G R T P R A 21
    274 A P V P A A S P A 20
    266 R P P A L S A R A 19
    39 V P T K V T G I I 18
    125 N P S R R P Y H F 18
    152 C P Q G H A S E A 18
    371 A G S G Y C G A L 17
    9 F P L R A L H I V 16
    81 K Q R K D K V L L 16
    264 A H R P P A L S A 16
    279 A S P A A W L P L 16
    311 G P R N P L P N P 16
    271 S A R A P V P A A 15
    277 P A A S P A A W L 15
    322 S P S G G G G L K 15
    6 T K T F P L R A L 14
    30 K Q D K K V D L L 14
    129 R P Y H F Q V P S 14
    176 K Y Q A V T A T L 14
    223 S P G G G S P R G 14
    257 T P R A G S S A H 14
    276 V P A A S P A A W 14
    293 R P S S C P T S S 14
    399 R K A E N G P H L 14
    3 E H T T K T F P L 13
    104 S G S F C R N K L 13
    110 N K L K Y L A F L 13
    135 V P S R I F W R Q 13
    158 S E A Y K K V C L 13
    169 A P H E V G W K Y 13
    224 P G G G S P R G L 13
    234 F I F K T I A P L 13
    237 K T I A P L A A T 13
    262 S S A H R P P A L 13
    280 S P A A W L P L R 13
    362 V E N G R P A D L 13
    378 A L W K A I E S L 13
    29 M K Q D K K V D L 12
    80 E K Q R K D K V L 12
    107 F C R N K L K Y L 12
    197 R K N K Q L M R L 12
    226 G G S P R G L G F 12
    249 R I G H P G G R T 12
    261 G S S A H R P P A 12
    267 P P A L S A R A P 12
    299 T S S S T Y D S L 12
    316 L P N P R H S P S 12
    318 N P R H S P S G G 12
    331 K P A R H C Q G Q 12
    336 C Q G Q K H N V L 12
    366 R P A D L A G S G 12
    382 A I E S L E E G L 12
    36 D L L V P T K V T 11
    51 A K D F G H V Q F 11
    52 K D F G H V Q F V 11
    186 E K R K E K A E I 11
    194 I H Y R K N K Q L 11
    297 C P T S S S T Y D 11
    314 N P L P N P R H S 11
    321 H S P S G G G G L 11
    348 K P Q R K P K S E 11
    352 K P K S E N N S W 11
    363 E N G R P A D L A 11
    400 K A E N G P H L L 11
    10 P L R A L H I V V 10
    33 K K V D L L V P T 10
    57 V Q F V G S Y K L 10
    87 V L L G R K A V V 10
    88 L L G R K A V V V 10
    109 R N K L K Y L A F 10
    165 C L S G A P H E V 10
    270 L S A R A P V P A 10
    285 L P L R T P W T R 10
    289 T P W T R P S S C 10
    291 W T R P S S C P T 10
    325 G G G G L K K P A 10
    13 A L H I V V E S I 9
    21 I R D H S G Q K M 9
    31 Q D K K V D L L V 9
    49 Q G A K D F G H V 9
    68 S N D G E H W T V 9
    86 K V L L G R K A V 9
    95 V V S C E G I N I 9
    116 A F L H K R M N T 9
    127 S R R P Y H F Q V 9
    132 H F Q V P S R I F 9
    149 G S C C P Q G H A 9
    172 E V G W K Y Q A V 9
    173 V G W K Y Q A V T 9
    175 W K Y Q A V T A T 9
    195 H Y R K N K Q L M 9
    230 R G L G F I F K T 9
    236 F K T I A P L A A 9
    268 P A L S A R A P V 9
    275 P V P A A S P A A 9
    281 P A A W L P L R T 9
    337 Q G Q K H N V L A 9
    375 Y C G A L W K A I 9
    5 T T K T F P L R A 8
    8 T F P L R A L H I 8
    27 Q K M K Q D K K V 8
    38 L V P T K V T G I 8
    43 V T G I I T Q G A 8
    58 Q F V G S Y K L A 8
    93 A V V V S C E G I 8
    156 H A S E A Y K K V 8
    171 H E V G W K Y Q A 8
    174 G W K Y Q A V T A 8
    209 A E K N M K K K I 8
    231 G L G F I F K T I 8
    235 I F K T I A P L A 8
    239 I A P L A A T R A 8
    242 L A A T R A T R I 8
    256 R T P R A G S S A 8
    284 W L P L R T P W T 8
    335 H C Q G Q K H N V 8
    360 W Y V E N G R P A 8
    374 G Y C G A L W K A 8
    1 M L E H T T K T F 7
    35 V D L L V P T K V 7
    40 P T K V T G I I T 7
    46 I I T Q G A K D F 7
    85 D K V L L G R K A 7
    89 L G R K A V V V S 7
    99 E G I N I S G S F 7
    108 C R N K L K Y L A 7
    114 Y L A F L H K R M 7
    138 R I F W R Q E K A 7
    184 L E E K R K E K A 7
    201 Q L M R L Q K Q A 7
    213 M K K K I D K Y T 7
    227 G S P R G L G F I 7
    232 L G F I F K T I A 7
    254 G G R T P R A G S 7
    269 A L S A R A P V P 7
    295 S S C P T S S S T 7
    345 A R G K P Q R K P 7
    354 K S E N N S W Y V 7
    370 L A G S G Y C G A 7
    393 K Q K D K E R K A 7
    67 Y S N D G E H W T 6
    79 D E K Q R K D K V 6
    126 P S R R P Y H F Q 6
    131 Y H F Q V P S R I 6
    146 A D G G S C C P Q 6
    161 Y K K V C L S G A 6
    166 L S G A P H E V G 6
    205 L Q K Q A E K N M 6
    244 A T R A T R I G H 6
    272 A R A P V P A A S 6
    283 A W L P L R T P W 6
    286 P L R T P W T R P 6
    294 P S S C P T S S S 6
    323 P S G G G G L K K 6
    349 P Q R K P K S E N 6
    364 N G R P A D L A G 6
    66 A Y S N D G E H W 5
    83 R K D K V L L G R 5
    102 N I S G S F C R N 5
    160 A Y K K V C L S G 5
    222 E S P G G G S P R 5
    225 G G G S P R G L G 5
    247 A T R I G H P G G 5
    251 G H P G G R T P R 5
    260 A G S S A H R P P 5
    273 R A P V P A A S P 5
    278 A A S P A A W L P 5
    282 A A W L P L R T P 5
    306 S L S P Y G P R N 5
    313 R N P L P N P R H 5
    320 R H S P S G G G G 5
    7 K T F P L R A L H 4
    11 L R A L H I V V E 4
    12 R A L H I V V E S 4
    23 D H S G Q K M K Q 4
    34 K V D L L V P T K 4
    42 K V T G I I T Q G 4
    47 I T Q G A K D F G 4
    59 F V G S Y K L A Y 4
    90 G R K A V V V S C 4
    119 H K R M N T N P S 4
    145 K A D G G S C C P 4
    157 A S E A Y K K V C 4
    163 K V C L S G A P H 4
    167 S G A P H E V G W 4
    216 K I D K Y T E S P 4
    220 Y T E S P G G G S 4
    221 T E S P G G G S P 4
    241 P L A A T R A T R 4
    258 P R A G S S A H R 4
    263 S A H R P P A L S 4
    305 D S L S P Y G P R 4
    315 P L P N P R H S P 4
    328 G L K K P A R H C 4
    338 G Q K H N V L A R 4
    344 L A R G K P Q R K 4
    346 R G K P Q R K P K 4
    369 D L A G S G Y C G 4
    384 E S L E E G L G G 4
    394 Q K D K E R K A E 4
    397 K E R K A E N G P 4
    4 H T T K T F P L R 3
    32 D K K V D L L V P 3
    37 L L V P T K V T G 3
    54 F G H V Q F V G S 3
    60 V G S Y K L A Y S 3
    69 N D G E H W T V Y 3
    70 D G E H W T V Y Q 3
    82 Q R K D K V L L G 3
    91 R K A V V V S C E 3
    112 L K Y L A F L H K 3
    120 K R M N T N P S R 3
    122 M N T N P S R R P 3
    123 N T N P S R R P Y 3
    128 R R P Y H F Q V P 3
    133 F Q V P S R I F W 3
    140 F W R Q E K A D G 3
    144 E K A D G G S C C 3
    150 S C C P Q G H A S 3
    159 E A Y K K V C L S 3
    178 Q A V T A T L E E 3
    179 A V T A T L E E K 3
    192 A E I H Y R K N K 3
    199 N K Q L M R L Q K 3
    202 L M R L Q K Q A E 3
    211 K N M K K K I D K 3
    229 P R G L G F I F K 3
    238 T I A P L A A T R 3
    243 A A T R A T R I G 3
    246 R A T R I G H P G 3
    250 I G H P G G R T P 3
    287 L R T P W T R P S 3
    288 R T P W T R P S S 3
    290 P W T R P S S C P 3
    298 P T S S S T Y D S 3
    309 P Y G P R N P L P 3
    310 Y G P R N P L P N 3
    319 P R H S P S G G G 3
    324 S G G G G L K K P 3
    326 G G G L K K P A R 3
    333 A R H C Q G Q K H 3
    342 N V L A R G K P Q 3
    356 E N N S W Y V E N 3
    357 N N S W Y V E N G 3
    361 Y V E N G R P A D 3
    368 A D L A G S G Y C 3
    372 G S G Y C G A L W 3
    380 W K A I E S L E E 3
    383 I E S L E E G L G 3
    386 L E E G L G G K Q 3
    387 E E G L G G K Q K 3
    388 E G L G G K Q K D 3
    389 G L G G K Q K D K 3
    398 E R K A E N G P H 3
    2 L E H T T K T F P 2
    18 V E S I R D H S G 2
    20 S I R D H S G Q K 2
    28 K M K Q D K K V D 2
    45 G I I T Q G A K D 2
    48 T Q G A K D F G H 2
    50 G A K D F G H V Q 2
    53 D F G H V Q F V G 2
    64 K L A Y S N D G E 2
    78 Q D E K Q R K D K 2
    97 S C E G I N I S G 2
    100 G I N I S G S F C 2
    103 I S G S F C R N K 2
    106 S F C R N K L K Y 2
    113 K Y L A F L H K R 2
    124 T N P S R R P Y H 2
    130 P Y H F Q V P S R 2
    136 P S R I F W R Q E 2
    139 I F W R Q E K A D 2
    142 R Q E K A D G G S 2
    143 Q E K A D G G S C 2
    147 D G G S C C P Q G 2
    148 G G S C C P Q G H 2
    153 P Q G H A S E A Y 2
    154 Q G H A S E A Y K 2
    162 K K V C L S G A P 2
    177 Y Q A V T A T L E 2
    182 A T L E E K R K E 2
    185 E E K R K E K A E 2
    188 R K E K A E I H Y 2
    189 K E K A E I H Y R 2
    190 E K A E I H Y R K 2
    196 Y R K N K Q L M R 2
    204 R L Q K Q A E K N 2
    207 K Q A E K N M K K 2
    215 K K I D K Y T E S 2
    217 I D K Y T E S P G 2
    233 G F I F K T I A P 2
    248 T R I G H P G G R 2
    253 P G G R T P R A G 2
    259 R A G S S A H R P 2
    265 H R P P A L S A R 2
    300 S S S T Y D S L S 2
    301 S S T Y D S L S P 2
    303 T Y D S L S P Y G 2
    304 Y D S L S P Y G P 2
    312 P R N P L P N P R 2
    327 G G L K K P A R H 2
    329 L K K P A R H C Q 2
    330 K K P A R H C Q G 2
    332 P A R H C Q G Q K 2
    343 V L A R G K P Q R 2
    351 R K P K S E N N S 2
    353 P K S E N N S W Y 2
    365 G R P A D L A G S 2
    367 P A D L A G S G Y 2
    373 S G Y C G A L W K 2
    376 C G A L W K A I E 2
    390 L G G K Q K D K E 2
    395 K D K E R K A E N 2
    16 I V V E S I R D H 1
    17 V V E S I R D H S 1
    19 E S I R D H S G Q 1
    22 R D H S G Q K M K 1
    24 H S G Q K M K Q D 1
    25 S G Q K M K Q D K 1
    44 T G I I T Q G A K 1
    55 G H V Q F V G S Y 1
    56 H V Q F V G S Y K 1
    61 G S Y K L A Y S N 1
    63 Y K L A Y S N D G 1
    71 G E H W T V Y Q D 1
    72 E H W T V Y Q D E 1
    77 Y Q D E K Q R K D 1
    84 K D K V L L G R K 1
    92 K A V V V S C E G 1
    98 C E G I N I S G S 1
    101 I N I S G S F C R 1
    111 K L K Y L A F L H 1
    117 F L H K R M N T N 1
    118 L H K R M N T N P 1
    121 R M N T N P S R R 1
    137 S R I F W R Q E K 1
    151 C C P Q G H A S E 1
    155 G H A S E A Y K K 1
    164 V C L S G A P H E 1
    168 G A P H E V G W K 1
    180 V T A T L E E K R 1
    183 T L E E K R K E K 1
    187 K R K E K A E I H 1
    191 K A E I H Y R K N 1
    193 E I H Y R K N K Q 1
    198 K N K Q L M R L Q 1
    200 K Q L M R L Q K Q 1
    203 M R L Q K Q A E K 1
    206 Q K Q A E K N M K 1
    208 Q A E K N M K K K 1
    210 E K N M K K K I D 1
    212 N M K K K I D K Y 1
    214 K K K I D K Y T E 1
    218 D K Y T E S P G G 1
    219 K Y T E S P G G G 1
    245 T R A T R I G H P 1
    255 G R T P R A G S S 1
    292 T R P S S C P T S 1
    302 S T Y D S L S P Y 1
    317 P N P R H S P S G 1
    334 R H C Q G Q K H N 1
    339 Q K H N V L A R G 1
    340 K H N V L A R G K 1
    341 H N V L A R G K P 1
    347 G K P Q R K P K S 1
    350 Q R K P K S E N N 1
    355 S E N N S W Y V E 1
    379 L W K A I E S L E 1
    381 K A I E S L E E G 1
    392 G K Q K D K E R K 1
  • [0829]
    TABLE XXIX
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 score ID NO.
    151P3D4 v.1: HLA Peptide Scoring Results B*08 9-mers SYFPEITHI
    76 K I R I K W T K L 30
    164 F P R L G R Y N L 24
    243 K D K S R Y D V F 24
    134 Y G R Y K C E V I 23
    232 V P G V R N Y G F 23
    329 E A A V R F V G F 22
    74 I H K I R I K W T 21
    81 W T K L T S D Y L 21
    336 G F P D K K H K L 21
    51 S H R G G N V T L 20
    241 W D K D K S R Y D 20
    320 R P R R R C S P T 20
    339 D K K H K L Y G V 20
    88 Y L K E V D V F V 19
    219 I T K P R E P C G 19
    123 S L V I T D L T L 18
    256 N F N G R F Y Y L 18
    337 F P D K K H K L Y 18
    113 F L K G G S D S D 17
    217 Y P I T K P R E P 17
    284 A Q I A K V G Q I 17
    326 S P T E A A V R F 17
    58 T L P C K F Y R D 16
    121 D A S L V I T D L 16
    286 I A K V G Q I F A 16
    293 F A A W K I L G Y 16
    301 Y D R C D A G W L 16
    46 Q A K V F S H R G 15
    146 E D D T V V V A L 15
    291 Q I F A A W K I L 15
    318 I S R P R R R C S 15
    24 L D H D R A I H I 14
    33 Q A E N G P H L L 14
    78 R I K W T K L T S 14
    86 S D Y L K E V D V 14
    153 A L D L Q G V V F 14
    221 K P R E P C G G Q 14
    245 K S R Y D V F C F 14
    316 Y P I S R P R R R 14
    4 L L L L V L I S I 13
    32 I Q A E N G P H L 13
    72 S G I H K I R I K 13
    137 Y K C E V I E G L 13
    166 R L G R Y N L N F 13
    66 D P T A F G S G I 12
    106 G G Y Q G R V F L 12
    136 R Y K C E V I E G 12
    239 G F W D K D K S R 12
    267 P T K L T Y D E A 12
    341 K H K L Y G V Y C 12
    1 M K S L L L L V L 11
    10 I S I C W A D H L 11
    16 D H L S D N Y T L 11
    44 A E Q A K V F S H 11
    79 I K W T K L T S D 11
    99 G Y H K K T Y G G 11
    101 H K K T Y G G Y Q 11
    111 R V F L K G G S D 11
    116 G G S D S D A S L 11
    132 E D Y G R Y K C E 11
    148 D T V V V A L D L 11
    159 V V F P Y F P R L 11
    174 F H E A Q Q A C L 11
    265 I H P T K L T Y D 11
    3 S L L L L V L I S 10
    37 G P H L L V E A E 10
    42 V E A E Q A K V F 10
    60 P C K F Y R D P T 10
    98 M G Y H K K T Y G 10
    100 Y H K K T Y G G Y 10
    107 G Y Q G R V F L K 10
    186 A V I A S F D Q L 10
    194 L Y D A W R G G L 10
    202 L D W C N A G W L 10
    262 Y Y L I H P T K L 10
    272 Y D E A V Q A C L 10
    285 Q I A K V G Q I F 10
    295 A W K I L G Y D R 10
    313 S V R Y P I S R P 10
    319 S R P R R R C S P 10
    338 P D K K H K L Y G 10
    40 L L V E A E Q A K 9
    49 V F S H R G G N V 9
    61 C K F Y R D P T A 9
    299 L G Y D R C D A G 9
    311 D G S V R Y P I S 9
    342 H K L Y G V Y C F 9
    2 K S L L L L V L I 8
    5 L L L V L I S I C 8
    8 V L I S I C W A D 8
    39 H L L V E A E Q A 8
    109 Q G R V F L K G G 8
    118 S D S D A S L V I 8
    144 G L E D D T V V V 8
    162 P Y F P R L G R Y 8
    165 P R L G R Y N L N 8
    195 Y D A W R G G L D 8
    201 G L D W C N A G W 8
    211 S D G S V Q Y P I 8
    224 E P C G G Q N T V 8
    253 F T S N F N G R F 8
    298 I L G Y D R C D A 8
    6 L L V L I S I C W 7
    17 H L S D N Y T L D 7
    22 Y T L D H D R A I 7
    26 H D R A I H I Q A 7
    43 E A E Q A K V F S 7
    55 G N V T L P C K F 7
    62 K F Y R D P T A F 7
    63 F Y R D P T A F G 7
    69 A F G S G I H K I 7
    71 G S G I H K I R I 7
    87 D Y L K E V D V F 7
    105 Y G G Y Q G R V F 7
    128 D L T L E D Y G R 7
    155 D L Q G V V F P Y 7
    156 L Q G V V F P Y F 7
    161 F P Y F P R L G R 7
    167 L G R Y N L N F H 7
    181 C L D Q D A V I A 7
    183 D Q D A V I A S F 7
    209 W L S D G S V Q Y 7
    234 G V R N Y G F W D 7
    257 F N G R F Y Y L I 7
    263 Y L I H P T K L T 7
    266 H P T K L T Y D E 7
    269 K L T Y D E A V Q 7
    290 G Q I F A A W K I 7
    308 W L A D G S V R Y 7
    322 R R R C S P T E A 7
    11 S I C W A D H L S 6
    23 T L D H D R A I H 6
    31 H I Q A E N G P H 6
    59 L P C K F Y R D P 6
    83 K L T S D Y L K E 6
    125 V I T D L T L E D 6
    130 T L E D Y G R Y K 6
    171 N L N F H E A Q Q 6
    176 E A Q Q A C L D Q 6
    179 Q A C L D Q D A V 6
    180 A C L D Q D A V I 6
    193 Q L Y D A W R G G 6
    197 A W R G G L D W C 6
    249 D V F C F T S N F 6
    258 N G R F Y Y L I H 6
    274 E A V Q A C L N D 6
    277 Q A C L N D G A Q 6
    278 A C L N D G A Q I 6
    279 C L N D G A Q I A 6
    283 G A Q I A K V G Q 6
    310 A D G S V R Y P I 6
    321 P R R R C S P T E 6
    331 A V R F V G F P D 6
    343 K L Y G V Y C F R 6
    28 R A I H I Q A E N 5
    73 G I H K I R I K W 5
    141 V I E G L E D D T 5
    152 V A L D L Q G V V 5
    187 V I A S F D Q L Y 5
    188 I A S F D Q L Y D 5
    309 L A D G S V R Y P 5
    330 A A V R F V G F P 5
    9 L I S I C W A D H 4
    14 W A D H L S D N Y 4
    29 A I H I Q A E N G 4
    68 T A F G S G I H K 4
    91 E V D V F V S M G 4
    97 S M G Y H K K T Y 4
    140 E V I E G L E D D 4
    143 E G L E D D T V V 4
    185 D A V I A S F D Q 4
    196 D A W R G G L D W 4
    206 N A G W L S D G S 4
    214 S V Q Y P I T K P 4
    218 P I T K P R E P C 4
    264 L I H P T K L T Y 4
    271 T Y D E A V Q A C 4
    294 A A W K I L G Y D 4
    297 K I L G Y D R C D 4
    305 D A G W L A D G S 4
    317 P I S R P R R R C 4
    19 S D N Y T L D H D 3
    120 S D A S L V I T D 3
    173 N F H E A Q Q A C 3
    190 S F D Q L Y D A W 3
    27 D R A I H I Q A E 2
    35 E N G P H L L V E 2
    36 N G P H L L V E A 2
    38 P H L L V E A E Q 2
    45 E Q A K V F S H R 2
    52 H R G G N V T L P 2
    54 G G N V T L P C K 2
    56 N V T L P C K F Y 2
    70 F G S G I H K I R 2
    77 I R I K W T K L T 2
    84 L T S D Y L K E V 2
    89 L K E V D V F V S 2
    96 V S M G Y H K K T 2
    126 I T D L T L E D Y 2
    129 L T L E D Y G R Y 2
    135 G R Y K C E V I E 2
    142 I E G L E D D T V 2
    145 L E D D T V V V A 2
    147 D D T V V V A L D 2
    151 V V A L D L Q G V 2
    154 L D L Q G V V F P 2
    160 V F P Y F P R L G 2
    168 G R Y N L N F H E 2
    169 R Y N L N F H E A 2
    182 L D Q D A V I A S 2
    191 F D Q L Y D A W R 2
    200 G G L D W C N A G 2
    215 V Q Y P I T K P R 2
    227 G G Q N T V P G V 2
    229 Q N T V P G V R N 2
    235 V R N Y G F W D K 2
    246 S R Y D V F C F T 2
    251 F C F T S N F N G 2
    255 S N F N G R F Y Y 2
    259 G R F Y Y L I H P 2
    260 R F Y Y L I H P T 2
    261 F Y Y L I H P T K 2
    276 V Q A C L N D G A 2
    287 A K V G Q I F A A 2
    332 V R F V G F P D K 2
    334 F V G F P D K K H 2
    335 V G F P D K K H K 2
    345 Y G V Y C F R A Y 2
    7 L V L I S I C W A 1
    12 I C W A D H L S D 1
    15 A D H L S D N Y T 1
    21 N Y T L D H D R A 1
    25 D H D R A I H I Q 1
    30 I H I Q A E N G P 1
    50 F S H R G G N V T 1
    57 V T L P C K F Y R 1
    75 H K I R I K W T K 1
    85 T S D Y L K E V D 1
    90 K E V D V F V S M 1
    92 V D V F V S M G Y 1
    93 D V F V S M G Y H 1
    94 V F V S M G Y H K 1
    95 F V S M G Y H K K 1
    102 K K T Y G G Y Q G 1
    110 G R V F L K G G S 1
    112 V F L K G G S D S 1
    115 K G G S D S D A S 1
    117 G S D S D A S L V 1
    119 D S D A S L V I T 1
    122 A S L V I T D L T 1
    131 L E D Y G R Y K C 1
    133 D Y G R Y K C E V 1
    138 K C E V I E G L E 1
    139 C E V I E G L E D 1
    149 T V V V A L D L Q 1
    150 V V V A L D L Q G 1
    157 Q G V V F P Y F P 1
    158 G V V F P Y F P R 1
    170 Y N L N F H E A Q 1
    175 H E A Q Q A C L D 1
    184 Q D A V I A S F D 1
    192 D Q L Y D A W R G 1
    199 R G G L D W C N A 1
    207 A G W L S D G S V 1
    208 G W L S D G S V Q 1
    210 L S D G S V Q Y P 1
    212 D G S V Q Y P I T 1
    213 G S V Q Y P I T K 1
    225 P C G G Q N T V P 1
    226 C G G Q N T V P G 1
    228 G Q N T V P G V R 1
    230 N T V P G V R N Y 1
    237 N Y G F W D K D K 1
    240 F W D K D K S R Y 1
    244 D K S R Y D V F C 1
    247 R Y D V F C F T S 1
    250 V F C F T S N F N 1
    268 T K L T Y D E A V 1
    270 L T Y D E A V Q A 1
    273 D E A V Q A C L N 1
    280 L N D G A Q I A K 1
    281 N D G A Q I A K V 1
    282 D G A Q I A K V G 1
    288 K V G Q I F A A W 1
    289 V G Q I F A A W K 1
    292 I F A A W K I L G 1
    296 W K I L G Y D R C 1
    300 G Y D R C D A G W 1
    303 R C D A G W L A D 1
    306 A G W L A D G S V 1
    307 G W L A D G S V R 1
    312 G S V R Y P I S R 1
    314 V R Y P I S R P R 1
    323 R R C S P T E A A 1
    324 R C S P T E A A V 1
    327 P T E A A V R F V 1
    344 L Y G V Y C F R A 1
    346 G V Y C F R A Y N 1
    151P3D4 v.2: HLA Peptide Scoring Results B*08 9-mers SYFPEITHI
    107 F C R N K L K Y L 28
    109 R N K L K Y L A F 28
    158 S E A Y K K V C L 24
    185 E E K R K E K A E 24
    80 E K Q R K D K V L 23
    194 I H Y R K N K Q L 23
    391 G G K Q K D K E R 23
    3 E H T T K T F P L 22
    187 K R K E K A E I H 22
    26 G Q K M K Q D K K 21
    29 M K Q D K K V D L 21
    30 K Q D K K V D L L 21
    82 Q R K D K V L L G 21
    212 N M K K K I D K Y 21
    262 S S A H R P P A L 21
    395 K D K E R K A E N 21
    125 N P S R R P Y H F 20
    183 T L E E K R K E K 20
    196 Y R K N K Q L M R 20
    228 S P R G L G F I F 20
    336 C Q G Q K H N V L 20
    344 L A R G K P Q R K 20
    350 Q R K P K S E N N 20
    393 K Q K D K E R K A 20
    362 V E N G R P A D L 19
    79 D E K Q R K D K V 18
    242 L A A T R A T R I 18
    308 S P Y G P R N P L 18
    389 G L G G K Q K D K 18
    38 L V P T K V T G I 17
    81 K Q R K D K V L L 17
    88 L L G R K A V V V 17
    111 K L K Y L A F L H 17
    159 E A Y K K V C L S 17
    209 A E K N M K K K I 17
    328 G L K K P A R H C 17
    348 K P Q R K P K S E 17
    352 K P K S E N N S W 17
    378 A L W K A I E S L 17
    234 F I F K T I A P L 16
    377 G A L W K A I E S 16
    8 T F P L R A L H I 15
    50 G A K D F G H V Q 15
    87 V L L G R K A V V 15
    117 F L H K R M N T N 15
    186 E K R K E K A E I 15
    193 E I H Y R K N K Q 15
    226 G G S P R G L G F 15
    252 H P G G R T P R A 15
    284 W L P L R T P W T 15
    231 G L G F I F K T I 14
    269 A L S A R A P V P 14
    271 S A R A P V P A A 14
    277 P A A S P A A W L 14
    289 T P W T R P S S C 14
    316 L P N P R H S P S 14
    382 A I E S L E E G L 14
    400 K A E N G P H L L 14
    1 M L E H T T K T F 13
    13 A L H I V V E S I 13
    39 V P T K V T G I I 13
    62 S Y K L A Y S N D 13
    90 G R K A V V V S C 13
    172 E V G W K Y Q A V 13
    174 G W K Y Q A V T A 13
    207 K Q A E K N M K K 13
    210 E K N M K K K I D 13
    257 T P R A G S S A H 13
    311 G P R N P L P N P 13
    326 G G G L K K P A R 13
    338 G Q K H N V L A R 13
    398 E R K A E N G P H 13
    10 P L R A L H I V V 12
    20 S I R D H S G Q K 12
    24 H S G Q K M K Q D 12
    46 I I T Q G A K D F 12
    57 V Q F V G S Y K L 12
    60 V G S Y K L A Y S 12
    77 Y Q D E K Q R K D 12
    104 S G S F C R N K L 12
    138 R I F W R Q E K A 12
    141 W R Q E K A D G G 12
    217 I D K Y T E S P G 12
    233 G F I F K T I A P 12
    286 P L R T P W T R P 12
    318 N P R H S P S G G 12
    399 R K A E N G P H L 12
    6 T K T F P L R A L 11
    28 K M K Q D K K V D 11
    32 D K K V D L L V P 11
    40 P T K V T G I I T 11
    84 K D K V L L G R K 11
    105 G S F C R N K L K 11
    118 L H K R M N T N P 11
    161 Y K K V C L S G A 11
    189 K E K A E I H Y R 11
    203 M R L Q K Q A E K 11
    205 L Q K Q A E K N M 11
    213 M K K K I D K Y T 11
    215 K K I D K Y T E S 11
    235 I F K T I A P L A 11
    321 H S P S G G G G L 11
    327 G G L K K P A R H 11
    346 R G K P Q R K P K 11
    371 A G S G Y C G A L 11
    5 T T K T F P L R A 10
    31 Q D K K V D L L V 10
    48 T Q G A K D F G H 10
    110 N K L K Y L A F L 10
    116 A F L H K R M N T 10
    143 Q E K A D G G S C 10
    160 A Y K K V C L S G 10
    176 K Y Q A V T A T L 10
    197 R K N K Q L M R L 10
    198 K N K Q L M R L Q 10
    211 K N M K K K I D K 10
    214 K K K I D K Y T E 10
    224 P G G G S P R G L 10
    279 A S P A A W L P L 10
    299 T S S S T Y D S L 10
    329 L K K P A R H C Q 10
    332 P A R H C Q G Q K 10
    379 L W K A I E S L E 10
    385 S L E E G L G G K 10
    396 D K E R K A E N G 10
    18 V E S I R D H S G 9
    134 Q V P S R I F W R 9
    245 T R A T R I G H P 9
    255 G R T P R A G S S 9
    309 P Y G P R N P L P 9
    342 N V L A R G K P Q 9
    347 G K P Q R K P K S 9
    36 D L L V P T K V T 8
    64 K L A Y S N D G E 8
    89 L G R K A V V V S 8
    99 E G I N I S G S F 8
    124 T N P S R R P Y H 8
    127 S R R P Y H F Q V 8
    132 H F Q V P S R I F 8
    156 H A S E A Y K K V 8
    169 A P H E V G W K Y 8
    184 L E E K R K E K A 8
    200 K Q L M R L Q K Q 8
    202 L M R L Q K Q A E 8
    223 S P G G G S P R G 8
    267 P P A L S A R A P 8
    276 V P A A S P A A W 8
    280 S P A A W L P L R 8
    306 S L S P Y G P R N 8
    322 S P S G G G G L K 8
    330 K K P A R H C Q G 8
    375 Y C G A L W K A I 8
    9 F P L R A L H I V 7
    12 R A L H I V V E S 7
    37 L L V P T K V T G 7
    51 A K D F G H V Q F 7
    93 A V V V S C E G I 7
    95 V V S C E G I N I 7
    114 Y L A F L H K R M 7
    119 H K R M N T N P S 7
    129 R P Y H F Q V P S 7
    135 V P S R I F W R Q 7
    140 F W R Q E K A D G 7
    152 C P Q G H A S E A 7
    165 C L S G A P H E V 7
    195 H Y R K N K Q L M 7
    201 Q L M R L Q K Q A 7
    227 G S P R G L G F I 7
    240 A P L A A T R A T 7
    254 G G R T P R A G S 7
    343 V L A R G K P Q R 7
    349 P Q R K P K S E N 7
    364 N G R P A D L A G 7
    381 K A I E S L E E G 7
    15 H I V V E S I R D 6
    92 K A V V V S C E G 6
    126 P S R R P Y H F Q 6
    131 Y H F Q V P S R I 6
    136 P S R I F W R Q E 6
    168 G A P H E V G W K 6
    181 T A T L E E K R K 6
    204 R L Q K Q A E K N 6
    239 I A P L A A T R A 6
    241 P L A A T R A T R 6
    244 A T R A T R I G H 6
    247 A T R I G H P G G 6
    263 S A H R P P A L S 6
    264 A H R P P A L S A 6
    266 R P P A L S A R A 6
    274 A P V P A A S P A 6
    285 L P L R T P W T R 6
    291 W T R P S S C P T 6
    293 R P S S C P T S S 6
    297 C P T S S S T Y D 6
    314 N P L P N P R H S 6
    315 P L P N P R H S P 6
    331 K P A R H C Q G Q 6
    366 R P A D L A G S G 6
    369 D L A G S G Y C G 6
    397 K E R K A E N G P 6
    45 G I I T Q G A K D 5
    65 L A Y S N D G E H 5
    100 G I N I S G S F C 5
    115 L A F L H K R M N 5
    178 Q A V T A T L E E 5
    208 Q A E K N M K K K 5
    273 R A P V P A A S P 5
    282 A A W L P L R T P 5
    367 P A D L A G S G Y 5
    16 I V V E S I R D H 4
    96 V S C E G I N I S 4
    102 N I S G S F C R N 4
    145 K A D G G S C C P 4
    190 E K A E I H Y R K 4
    191 K A E I H Y R K N 4
    216 K I D K Y T E S P 4
    238 T I A P L A A T R 4
    243 A A T R A T R I G 4
    246 R A T R I G H P G 4
    249 R I G H P G G R T 4
    259 R A G S S A H R P 4
    268 P A L S A R A P V 4
    278 A A S P A A W L P 4
    281 P A A W L P L R T 4
    356 E N N S W Y V E N 4
    359 S W Y V E N G R P 4
    370 L A G S G Y C G A 4
    384 E S L E E G L G G 4
    387 E E G L G G K Q K 4
    11 L R A L H I V V E 3
    54 F G H V Q F V G S 3
    73 H W T V Y Q D E K 3
    86 K V L L G R K A V 3
    97 S C E G I N I S G 3
    137 S R I F W R Q E K 3
    139 I F W R Q E K A D 3
    150 S C C P Q G H A S 3
    167 S G A P H E V G W 3
    301 S S T Y D S L S P 3
    324 S G G G G L K K P 3
    353 P K S E N N S W Y 3
    19 E S I R D H S G Q 2
    25 S G Q K M K Q D K 2
    34 K V D L L V P T K 2
    35 V D L L V P T K V 2
    55 G H V Q F V G S Y 2
    59 F V G S Y K L A Y 2
    68 S N D G E H W T V 2
    69 N D G E H W T V Y 2
    71 G E H W T V Y Q D 2
    72 E H W T V Y Q D E 2
    91 R K A V V V S C E 2
    106 S F C R N K L K Y 2
    144 E K A D G G S C C 2
    170 P H E V G W K Y Q 2
    175 W K Y Q A V T A T 2
    182 A T L E E K R K E 2
    219 K Y T E S P G G G 2
    222 E S P G G G S P R 2
    236 F K T I A P L A A 2
    265 H R P P A L S A R 2
    295 S S C P T S S S T 2
    296 S C P T S S S T Y 2
    300 S S S T Y D S L S 2
    302 S T Y D S L S P Y 2
    313 R N P L P N P R H 2
    325 G G G G L K K P A 2
    337 Q G Q K H N V L A 2
    341 H N V L A R G K P 2
    355 S E N N S W Y V E 2
    360 W Y V E N G R P A 2
    363 E N G R P A D L A 2
    372 G S G Y C G A L W 2
    373 S G Y C G A L W K 2
    383 I E S L E E G L G 2
    388 E G L G G K Q K D 2
    394 Q K D K E R K A E 2
    4 H T T K T F P L R 1
    14 L H I V V E S I R 1
    17 V V E S I R D H S 1
    21 I R D H S G Q K M 1
    22 R D H S G Q K M K 1
    27 Q K M K Q D K K V 1
    33 K K V D L L V P T 1
    41 T K V T G I I T Q 1
    42 K V T G I I T Q G 1
    43 V T G I I T Q G A 1
    44 T G I I T Q G A K 1
    47 I T Q G A K D F G 1
    52 K D F G H V Q F V 1
    56 H V Q F V G S Y K 1
    58 Q F V G S Y K L A 1
    61 G S Y K L A Y S N 1
    70 D G E H W T V Y Q 1
    74 W T V Y Q D E K Q 1
    75 T V Y Q D E K Q R 1
    76 V Y Q D E K Q R K 1
    78 Q D E K Q R K D K 1
    85 D K V L L G R K A 1
    94 V V V S C E G I N 1
    98 C E G I N I S G S 1
    101 I N I S G S F C R 1
    103 I S G S F C R N K 1
    112 L K Y L A F L H K 1
    120 K R M N T N P S R 1
    128 R R P Y H F Q V P 1
    130 P Y H F Q V P S R 1
    133 F Q V P S R I F W 1
    148 G G S C C P Q G H 1
    149 G S C C P Q G H A 1
    153 P Q G H A S E A Y 1
    155 G H A S E A Y K K 1
    157 A S E A Y K K V C 1
    162 K K V C L S G A P 1
    163 K V C L S G A P H 1
    164 V C L S G A P H E 1
    171 H E V G W K Y Q A 1
    173 V G W K Y Q A V T 1
    177 Y Q A V T A T L E 1
    179 A V T A T L E E K 1
    180 V T A T L E E K R 1
    192 A E I H Y R K N K 1
    199 N K Q L M R L Q K 1
    225 G G G S P R G L G 1
    229 P R G L G F I F K 1
    230 R G L G F I F K T 1
    237 K T I A P L A A T 1
    250 I G H P G G R T P 1
    251 G H P G G R T P R 1
    253 P G G R T P R A G 1
    261 G S S A H R P P A 1
    270 L S A R A P V P A 1
    272 A R A P V P A A S 1
    275 P V P A A S P A A 1
    304 Y D S L S P Y G P 1
    307 L S P Y G P R N P 1
    334 R H C Q G Q K H N 1
    335 H C Q G Q K H N V 1
    340 K H N V L A R G K 1
    357 N N S W Y V E N G 1
    358 N S W Y V E N G R 1
    361 Y V E N G R P A D 1
    365 G R P A D L A G S 1
    374 G Y C G A L W K A 1
    376 C G A L W K A I E 1
    380 W K A I E S L E E 1
    392 G K Q K D K E R K 1
  • [0830]
    TABLE XXX
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 score ID NO.
    151P3D4 v.1: HLA Peptide Scoring Results B*1510 9-mers SYFPEITHI
    51 S H R G G N V T L 25
    16 D H L S D N Y T L 21
    174 F H E A Q Q A C L 21
    32 I Q A E N G P H L 16
    106 G G Y Q G R V F L 16
    146 E D D T V V V A L 15
    159 V V F P Y F P R L 15
    1 M K S L L L L V L 13
    30 I H I Q A E N G P 13
    33 Q A E N G P H L L 13
    74 I H K I R I K W T 13
    116 G G S D S D A S L 13
    137 Y K C E V I E G L 13
    336 G F P D K K H K L 13
    10 I S I C W A D H L 12
    100 Y H K K T Y G G Y 12
    121 D A S L V I T D L 12
    164 F P R L G R Y N L 12
    262 Y Y L I H P T K L 12
    265 I H P T K L T Y D 12
    272 Y D E A V Q A C L 12
    341 K H K L Y G V Y C 12
    25 D H D R A I H I Q 11
    38 P H L L V E A E Q 11
    105 Y G G Y Q G R V F 11
    123 S L V I T D L T L 11
    148 D T V V V A L D L 11
    194 L Y D A W R G G L 11
    202 L D W C N A G W L 11
    256 N F N G R F Y Y L 11
    301 Y D R C D A G W L 11
    326 S P T E A A V R F 11
    329 E A A V R F V G F 11
    42 V E A E Q A K V F 10
    76 K I R I K W T K L 10
    81 W T K L T S D Y L 10
    87 D Y L K E V D V F 10
    153 A L D L Q G V V F 10
    186 A V I A S F D Q L 10
    291 Q I F A A W K I L 10
    90 K E V D V F V S M 9
    253 F T S N F N G R F 9
    55 G N V T L P C K F 8
    62 K F Y R D P T A F 8
    156 L Q G V V F P Y F 8
    243 K D K S R Y D V F 8
    285 Q I A K V G Q I F 8
    342 H K L Y G V Y C F 8
    144 G L E D D T V V V 7
    183 D Q D A V I A S F 7
    232 V P G V R N Y G F 7
    245 K S R Y D V F C F 7
    308 W L A D G S V R Y 7
    317 P I S R P R R R C 7
    318 I S R P R R R C S 7
    43 E A E Q A K V F S 6
    145 L E D D T V V V A 6
    166 R L G R Y N L N F 6
    229 Q N T V P G V R N 6
    230 N T V P G V R N Y 6
    249 D V F C F T S N F 6
    316 Y P I S R P R R R 6
    22 Y T L D H D R A I 5
    35 E N G P H L L V E 5
    89 L K E V D V F V S 5
    130 T L E D Y G R Y K 5
    154 L D L Q G V V F P 5
    209 W L S D G S V Q Y 5
    217 Y P I T K P R E P 5
    219 I T K P R E P C G 5
    328 T E A A V R F V G 5
    71 G S G I H K I R I 4
    85 T S D Y L K E V D 4
    88 Y L K E V D V F V 4
    104 T Y G G Y Q G R V 4
    118 S D S D A S L V I 4
    135 G R Y K C E V I E 4
    143 E G L E D D T V V 4
    162 P Y F P R L G R Y 4
    213 G S V Q Y P I T K 4
    216 Q Y P I T K P R E 4
    224 E P C G G Q N T V 4
    226 C G G Q N T V P G 4
    228 G Q N T V P G V R 4
    240 F W D K D K S R Y 4
    254 T S N F N G R F Y 4
    264 L I H P T K L T Y 4
    271 T Y D E A V Q A C 4
    282 D G A Q I A K V G 4
    283 G A Q I A K V G Q 4
    286 I A K V G Q I F A 4
    292 I F A A W K I L G 4
    309 L A D G S V R Y P 4
    313 S V R Y P I S R P 4
    314 V R Y P I S R P R 4
    315 R Y P I S R P R R 4
    324 R C S P T E A A V 4
    327 P T E A A V R F V 4
    345 Y G V Y C F R A Y 4
    17 H L S D N Y T L D 3
    27 D R A I H I Q A E 3
    36 N G P H L L V E A 3
    37 G P H L L V E A E 3
    45 E Q A K V F S H R 3
    46 Q A K V F S H R G 3
    50 F S H R G G N V T 3
    52 H R G G N V T L P 3
    54 G G N V T L P C K 3
    57 V T L P C K F Y R 3
    58 T L P C K F Y R D 3
    59 L P C K F Y R D P 3
    64 Y R D P T A F G S 3
    72 S G I H K I R I K 3
    73 G I H K I R I K W 3
    77 I R I K W T K L T 3
    84 L T S D Y L K E V 3
    91 E V D V F V S M G 3
    107 G Y Q G R V F L K 3
    120 S D A S L V I T D 3
    129 L T L E D Y G R Y 3
    134 Y G R Y K C E V I 3
    140 E V I E G L E D D 3
    142 I E G L E D D T V 3
    152 V A L D L Q G V V 3
    160 V F P Y F P R L G 3
    163 Y F P R L G R Y N 3
    180 A C L D Q D A V I 3
    181 C L D Q D A V I A 3
    182 L D Q D A V I A S 3
    188 I A S F D Q L Y D 3
    193 Q L Y D A W R G G 3
    200 G G L D W C N A G 3
    208 G W L S D G S V Q 3
    212 D G S V Q Y P I T 3
    218 P I T K P R E P C 3
    222 P R E P C G G Q N 3
    225 P C G G Q N T V P 3
    227 G G Q N T V P G V 3
    231 T V P G V R N Y G 3
    241 W D K D K S R Y D 3
    244 D K S R Y D V F C 3
    270 L T Y D E A V Q A 3
    287 A K V G Q I F A A 3
    296 W K I L G Y D R C 3
    297 K I L G Y D R C D 3
    298 I L G Y D R C D A 3
    307 G W L A D G S V R 3
    311 D G S V R Y P I S 3
    332 V R F V G F P D K 3
    335 V G F P D K K H K 3
    340 K K H K L Y G V Y 3
    344 L Y G V Y C F R A 3
    2 K S L L L L V L I 2
    5 L L L V L I S I C 2
    12 I C W A D H L S D 2
    13 C W A D H L S D N 2
    21 N Y T L D H D R A 2
    23 T L D H D R A I H 2
    34 A E N G P H L L V 2
    40 L L V E A E Q A K 2
    47 A K V F S H R G G 2
    61 C K F Y R D P T A 2
    63 F Y R D P T A F G 2
    67 P T A F G S G I H 2
    68 T A F G S G I H K 2
    69 A F G S G I H K I 2
    70 F G S G I H K I R 2
    75 H K I R I K W T K 2
    78 R I K W T K L T S 2
    79 I K W T K L T S D 2
    86 S D Y L K E V D V 2
    93 D V F V S M G Y H 2
    95 F V S M G Y H K K 2
    97 S M G Y H K K T Y 2
    99 G Y H K K T Y G G 2
    103 K T Y G G Y Q G R 2
    110 G R V F L K G G S 2
    112 V F L K G G S D S 2
    113 F L K G G S D S D 2
    119 D S D A S L V I T 2
    125 V I T D L T L E D 2
    126 I T D L T L E D Y 2
    131 L E D Y G R Y K C 2
    132 E D Y G R Y K C E 2
    133 D Y G R Y K C E V 2
    136 R Y K C E V I E G 2
    138 K C E V I E G L E 2
    141 V I E G L E D D T 2
    147 D D T V V V A L D 2
    149 T V V V A L D L Q 2
    155 D L Q G V V F P Y 2
    157 Q G V V F P Y F P 2
    158 G V V F P Y F P R 2
    161 F P Y F P R L G R 2
    169 R Y N L N F H E A 2
    170 Y N L N F H E A Q 2
    173 N F H E A Q Q A C 2
    175 H E A Q Q A C L D 2
    176 E A Q Q A C L D Q 2
    184 Q D A V I A S F D 2
    190 S F D Q L Y D A W 2
    192 D Q L Y D A W R G 2
    195 Y D A W R G G L D 2
    197 A W R G G L D W C 2
    205 C N A G W L S D G 2
    210 L S D G S V Q Y P 2
    214 S V Q Y P I T K P 2
    215 V Q Y P I T K P R 2
    220 T K P R E P C G G 2
    221 K P R E P C G G Q 2
    238 Y G F W D K D K S 2
    239 G F W D K D K S R 2
    242 D K D K S R Y D V 2
    247 R Y D V F C F T S 2
    255 S N F N G R F Y Y 2
    261 F Y Y L I H P T K 2
    263 Y L I H P T K L T 2
    268 T K L T Y D E A V 2
    269 K L T Y D E A V Q 2
    273 D E A V Q A C L N 2
    274 E A V Q A C L N D 2
    277 Q A C L N D G A Q 2
    279 C L N D G A Q I A 2
    280 L N D G A Q I A K 2
    288 K V G Q I F A A W 2
    293 F A A W K I L G Y 2
    299 L G Y D R C D A G 2
    303 R C D A G W L A D 2
    304 C D A G W L A D G 2
    312 G S V R Y P I S R 2
    321 P R R R C S P T E 2
    322 R R R C S P T E A 2
    323 R R C S P T E A A 2
    325 C S P T E A A V R 2
    333 R F V G F P D K K 2
    338 P D K K H K L Y G 2
    346 G V Y C F R A Y N 2
    3 S L L L L V L I S 1
    7 L V L I S I C W A 1
    8 V L I S I C W A D 1
    9 L I S I C W A D H 1
    24 L D H D R A I H I 1
    28 R A I H I Q A E N 1
    39 H L L V E A E Q A 1
    41 L V E A E Q A K V 1
    44 A E Q A K V F S H 1
    48 K V F S H R G G N 1
    49 V F S H R G G N V 1
    56 N V T L P C K F Y 1
    60 P C K F Y R D P T 1
    80 K W T K L T S D Y 1
    82 T K L T S D Y L K 1
    96 V S M G Y H K K T 1
    98 M G Y H K K T Y G 1
    102 K K T Y G G Y Q G 1
    108 Y Q G R V F L K G 1
    109 Q G R V F L K G G 1
    114 L K G G S D S D A 1
    115 K G G S D S D A S 1
    117 G S D S D A S L V 1
    122 A S L V I T D L T 1
    127 T D L T L E D Y G 1
    139 C E V I E G L E D 1
    151 V V A L D L Q G V 1
    165 P R L G R Y N L N 1
    167 L G R Y N L N F H 1
    168 G R Y N L N F H E 1
    178 Q Q A C L D Q D A 1
    179 Q A C L D Q D A V 1
    187 V I A S F D Q L Y 1
    189 A S F D Q L Y D A 1
    196 D A W R G G L D W 1
    198 W R G G L D W C N 1
    201 G L D W C N A G W 1
    204 W C N A G W L S D 1
    223 R E P C G G Q N T 1
    233 P G V R N Y G F W 1
    234 G V R N Y G F W D 1
    235 V R N Y G F W D K 1
    236 R N Y G F W D K D 1
    246 S R Y D V F C F T 1
    248 Y D V F C F T S N 1
    252 C F T S N F N G R 1
    259 G R F Y Y L I H P 1
    260 R F Y Y L I H P T 1
    266 H P T K L T Y D E 1
    267 P T K L T Y D E A 1
    276 V Q A C L N D G A 1
    281 N D G A Q I A K V 1
    284 A Q I A K V G Q I 1
    290 G Q I F A A W K I 1
    294 A A W K I L G Y D 1
    300 G Y D R C D A G W 1
    302 D R C D A G W L A 1
    310 A D G S V R Y P I 1
    319 S R P R R R C S P 1
    330 A A V R F V G F P 1
    334 F V G F P D K K H 1
    337 F P D K K H K L Y 1
    343 K L Y G V Y C F R 1
    151P3D4 v.2: HLA Peptide Scoring Results B*1510 9-mers SYFPEITHI
    194 I H Y R K N K Q L 22
    3 E H T T K T F P L 21
    6 T K T F P L R A L 15
    131 Y H F Q V P S R I 15
    29 M K Q D K K V D L 14
    81 K Q R K D K V L L 14
    158 S E A Y K K V C L 14
    224 P G G G S P R G L 14
    251 G H P G G R T P R 14
    262 S S A H R P P A L 14
    399 R K A E N G P H L 14
    23 D H S G Q K M K Q 13
    55 G H V Q F V G S Y 13
    80 E K Q R K D K V L 13
    170 P H E V G W K Y Q 13
    197 R K N K Q L M R L 13
    264 A H R P P A L S A 13
    308 S P Y G P R N P L 13
    320 R H S P S G G G G 13
    336 C Q G Q K H N V L 13
    340 K H N V L A R G K 13
    371 A G S G Y C G A L 13
    400 K A E N G P H L L 13
    30 K Q D K K V D L L 12
    57 V Q F V G S Y K L 12
    104 S G S F C R N K L 12
    155 G H A S E A Y K K 12
    234 F I F K T I A P L 12
    277 P A A S P A A W L 12
    299 T S S S T Y D S L 12
    334 R H C Q G Q K H N 12
    362 V E N G R P A D L 12
    378 A L W K A I E S L 12
    14 L H I V V E S I R 11
    72 E H W T V Y Q D E 11
    110 N K L K Y L A F L 11
    176 K Y Q A V T A T L 11
    321 H S P S G G G G L 11
    382 A I E S L E E G L 11
    46 I I T Q G A K D F 10
    107 F C R N K L K Y L 10
    114 Y L A F L H K R M 10
    118 L H K R M N T N P 10
    132 H F Q V P S R I F 10
    226 G G S P R G L G F 10
    279 A S P A A W L P L 10
    51 A K D F G H V Q F 9
    195 H Y R K N K Q L M 9
    1 M L E H T T K T F 8
    21 I R D H S G Q K M 8
    125 N P S R R P Y H F 8
    250 I G H P G G R T P 8
    99 E G I N I S G S F 7
    109 R N K L K Y L A F 7
    205 L Q K Q A E K N M 7
    228 S P R G L G F I F 7
    11 L R A L H I V V E 6
    16 I V V E S I R D H 6
    37 L L V P T K V T G 6
    89 L G R K A V V V S 6
    306 S L S P Y G P R N 6
    314 N P L P N P R H S 6
    361 Y V E N G R P A D 6
    122 M N T N P S R R P 5
    123 M T N P S R R P Y 5
    167 S G A P H E V G W 5
    183 T L E E K R K E K 5
    190 E K A E I H Y R K 5
    221 T E S P G G G S P 5
    223 S P G G G S P R G 5
    238 T I A P L A A T R 5
    272 A R A P V P A A S 5
    327 G G L K K P A R H 5
    328 G L K K P A R H C 5
    392 G K Q K D K E R K 5
    5 T T K T F P L R A 4
    12 R A L H I V V E S 4
    28 K M K Q D K K V D 4
    36 D L L V P T K V T 4
    41 T K V T G I I T Q 4
    47 I T Q G A K D F G 4
    50 G A K D F G H V Q 4
    76 V Y Q D E K Q R K 4
    77 Y Q D E K Q R K D 4
    87 V L L G R K A V V 4 .
    88 L L G R K A V V V 4
    90 G R K A V V V S C 4
    102 N I S G S F C R N 4
    103 I S G S F C R N K 4
    121 R M N T N P S R R 4
    144 E K A D G G S C C 4
    157 A S E A Y K K V C 4
    165 C L S G A P H E V 4
    174 G W K Y Q A V T A 4
    182 A T L E E K R K E 4
    186 E K R K E K A E I 4
    198 K N K Q L M R L Q 4
    208 Q A E K N M K K K 4
    239 I A P L A A T R A 4
    252 H P G G R T P R A 4
    253 P G G R T P R A G 4
    261 G S S A H R P P A 4
    267 P P A L S A R A P 4
    269 A L S A R A P V P 4
    270 L S A R A P V P A 4
    271 S A R A P V P A A 4
    281 P A A W L P L R T 4
    282 A A W L P L R T P 4
    287 L R T P W T R P S 4
    307 L S P Y G P R N P 4
    313 R N P L P N P R H 4
    326 G G G L K K P A R 4
    338 G Q K H N V L A R 4
    343 V L A R G K P Q R 4
    344 L A R G K P Q R K 4
    345 A R G K P Q R K P 4
    347 G K P Q R K P K S 4
    349 P Q R K P K S E N 4
    356 E N N S W Y V E N 4
    360 W Y V E N G R P A 4
    388 E G L G G K Q K D 4
    7 K T F P L R A L H 3
    15 H I V V E S I R D 3
    32 D K K V D L L V P 3
    33 K K V D L L V P T 3
    34 K V D L L V P T K 3
    54 F G H V Q F V G S 3
    67 Y S N D G E H W T 3
    69 N D G E H W T V Y 3
    70 D G E H W T V Y Q 3
    78 Q D E K Q R K D K 3
    84 K D K V L L G R K 3
    86 K V L L G R K A V 3
    91 R K A V V V S C E 3
    96 V S C E G I N I S 3
    101 I N I S G S F C R 3
    115 L A F L H K R M N 3
    117 F L H K R M N T N 3
    124 T N P S R R P Y H 3
    133 F Q V P S R I F W 3
    135 V P S R I F W R Q 3
    139 I F W R Q E K A D 3
    148 G G S C C P Q G H 3
    150 S C C P Q G H A S 3
    159 E A Y K K V C L S 3
    166 L S G A P H E V G 3
    173 V G W K Y Q A V T 3
    175 W K Y Q A V T A T 3
    177 Y Q A V T A T L E 3
    181 T A T L E E K R K 3
    184 L E E K R K E K A 3
    191 K A E I H Y R K N 3
    220 Y T E S P G G G S 3
    222 E S P G G G S P R 3
    225 G G G S P R G L G 3
    235 I F K T I A P L A 3
    240 A P L A A T R A T 3
    241 P L A A T R A T R 3
    242 L A A T R A T R I 3
    245 T R A T R I G H P 3
    248 T R I G H P G G R 3
    249 R I G H P G G R T 3
    254 G G R T P R A G S 3
    255 G R T P R A G S S 3
    257 T P R A G S S A H 3
    260 A G S S A H R P P 3
    265 H R P P A L S A R 3
    276 V P A A S P A A W 3
    278 A A S P A A W L P 3
    283 A W L P L R T P W 3
    286 P L R T P W T R P 3
    292 T R P S S C P T S 3
    304 Y D S L S P Y G P 3
    309 P Y G P R N P L P 3
    310 Y G P R N P L P N 3
    311 G P R N P L P N P 3
    312 P R N P L P N P R 3
    322 S P S G G G G L K 3
    325 G G G G L K K P A 3
    329 L K K P A R H C Q 3
    337 Q G Q K H N V L A 3
    346 R G K P Q R K P K 3
    353 P K S E N N S W Y 3
    359 S W Y V E N G R P 3
    364 N G R P A D L A G 3
    383 I E S L E E G L G 3
    385 S L E E G L G G K 3
    391 G G K Q K D K E R 3
    393 K Q K D K E R K A 3
    394 Q K D K E R K A E 3
    395 K D K E R K A E N 3
    4 H T T K T F P L R 2
    10 P L R A L H I V V 2
    17 V V E S I R D H S 2
    24 H S G Q K M K Q D 2
    25 S G Q K M K Q D K 2
    42 K V T G I I T Q G 2
    44 T G I I T Q G A K 2
    49 Q G A K D F G H V 2
    52 K D F G H V Q F V 2
    53 D F G H V Q F V G 2
    59 F V G S Y K L A Y 2
    61 G S Y K L A Y S N 2
    65 L A Y S N D G E H 2
    68 S N D G E H W T V 2
    71 G E H W T V Y Q D 2
    73 H W T V Y Q D E K 2
    75 T V Y Q D E K Q R 2
    79 D E K Q R K D K V 2
    82 Q R K D K V L L G 2
    85 D K V L L G R K A 2
    92 K A V V V S C E G 2
    97 S C E G I N I S G 2
    98 C E G I N I S G S 2
    106 S F C R N K L K Y 2
    108 C R N K L K Y L A 2
    127 S R R P Y H F Q V 2
    128 R R P Y H F Q V P 2
    129 R P Y H F Q V P S 2
    130 P Y H F Q V P S R 2
    136 P S R I F W R Q E 2
    137 S R I F W R Q E K 2
    140 F W R Q E K A D G 2
    142 R Q E K A D G G S 2
    145 K A D G G S C C P 2
    149 G S C C P Q G H A 2
    151 C C P Q G H A S E 2
    152 C P Q G H A S E A 2
    156 H A S E A Y K K V 2
    161 Y K K V C L S G A 2
    164 V C L S G A P H E 2
    168 G A P H E V G W K 2
    171 H E V G W K Y Q A 2
    172 E V G W K Y Q A V 2
    185 E E K R K E K A E 2
    188 R K E K A E I H Y 2
    193 E I H Y R K N K Q 2
    202 L M R L Q K Q A E 2
    203 M R L Q K Q A E K 2
    207 K Q A E K N M K K 2
    210 E K N M K K K I D 2
    211 K N M K K K I D K 2
    212 N M K K K I D K Y 2
    214 K K K I D K Y T E 2
    215 K K I D K Y T E S 2
    217 I D K Y T E S P G 2
    219 K Y T E S P G G G 2
    227 G S P R G L G F I 2
    230 R G L G F I F K T 2
    231 G L G F I F K T I 2
    233 G F I F K T I A P 2
    236 F K T I A P L A A 2
    237 K T I A P L A A T 2
    243 A A T R A T R I G 2
    247 A T R I G H P G G 2
    258 P R A G S S A H R 2
    259 R A G S S A H R P 2
    263 S A H R P P A L S 2
    266 R P P A L S A R A 2
    273 R A P V P A A S P 2
    274 A P V P A A S P A 2
    275 P V P A A S P A A 2
    280 S P A A W L P L R 2
    285 L P L R T P W T R 2
    288 R T P W T R P S S 2
    289 T P W T R P S S C 2
    291 W T R P S S C P T 2
    293 R P S S C P T S S 2
    294 P S S C P T S S S 2
    295 S S C P T S S S T 2
    303 T Y D S L S P Y G 2
    315 P L P N P R H S P 2
    316 L P N P R H S P S 2
    323 P S G G G G L K K 2
    324 S G G G G L K K P 2
    335 H C Q G Q K H N V 2
    339 Q K H N V L A R G 2
    350 Q R K P K S E N N 2
    354 K S E N N S W Y V 2
    355 S E N N S W Y V E 2
    357 N N S W Y V E N G 2
    363 E N G R P A D L A 2
    366 R P A D L A G S G 2
    369 D L A G S G Y C G 2
    374 G Y C G A L W K A 2
    375 Y C G A L W K A I 2
    376 C G A L W K A I E 2
    377 G A L W K A I E S 2
    380 W K A I E S L E E 2
    381 K A I E S L E E G 2
    384 E S L E E G L G G 2
    386 L E E G L G G K Q 2
    387 E E G L G G K Q K 2
    389 G L G G K Q K D K 2
    390 L G G K Q K D K E 2
    2 L E H T T K T F P 1
    8 T F P L R A L H I 1
    13 A L H I V V E S I 1
    18 V E S I R D H S G 1
    19 E S I R D H S G Q 1
    20 S I R D H S G Q K 1
    22 R D H S G Q K M K 1
    26 G Q K M K Q D K K 1
    27 Q K M K Q D K K V 1
    31 Q D K K V D L L V 1
    35 V D L L V P T K V 1
    38 L V F T K V T G I 1
    39 V P T K V T G I I 1
    40 P T K V T G I I T 1
    45 G I I T Q G A K D 1
    48 T Q G A K D F G H 1
    58 Q F V G S Y K L A 1
    60 V G S Y K L A Y S 1
    63 Y K L A Y S N D G 1
    64 K L A Y S N D G E 1
    66 A Y S N D G E H W 1
    83 R K D K V L L G R 1
    93 A V V V S C E G I 1
    95 V V S C E G I N I 1
    100 G I N I S G S F C 1
    105 G S F C R N K L K 1
    116 A F L H K R M N T 1
    119 H K R M N T N P S 1
    120 K R M N T N P S R 1
    126 P S R R P Y H F Q 1
    134 Q V P S R I F W R 1
    141 W R Q E K A D G G 1
    146 A D G G S C C P Q 1
    147 D G G S C C P Q G 1
    153 P Q G H A S E A Y 1
    160 A Y K K V C L S G 1
    162 K K V C L S G A P 1
    169 A P H E V G W K Y 1
    178 Q A V T A T L E E 1
    179 A V T A T L E E K 1
    180 V T A T L E E K R 1
    187 K R K E K A E I H 1
    189 K E K A E I H Y R 1
    192 A E I H Y R K N K 1
    196 Y R K N K Q L M R 1
    199 N K Q L M R L Q K 1
    204 R L Q K Q A E K N 1
    206 Q K Q A E K N M K 1
    209 A E K N M K K K I 1
    213 M K K K I D K Y T 1
    216 K I D K Y T E S P 1
    218 D K Y T E S P G G 1
    229 P R G L G F I F K 1
    232 L G F I F K T I A 1
    244 A T R A T R I G H 1
    268 P A L S A R A P V 1
    284 W L P L R T P W T 1
    290 P W T R P S S C P 1
    296 S C P T S S S T Y 1
    298 P T S S S T Y D S 1
    300 S S S T Y D S L S 1
    302 S T Y D S L S P Y 1
    305 D S L S P Y G P R 1
    317 P N P R H S P S G 1
    318 N P R H S P S G G 1
    319 P R H S P S G G G 1
    331 K P A R H C Q G Q 1
    341 H N V L A R G K P 1
    348 K P Q R K P K S E 1
    351 R K P K S E N N S 1
    365 G R P A D L A G S 1
    368 A D L A G S G Y C 1
    370 L A G S G Y C G A 1
    372 G S G Y C G A L W 1
    373 S G Y C G A L W K 1
    396 D K E R K A E N G 1
    397 K E R K A E N G P 1
    398 E R K A E N G P H 1
  • [0831]
    TABLE XXXI
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 score ID NO.
    151P3D4 v.1: HLA Peptide Scoring Results B*2705 9-mers SYFPEITHI
    332 V R F V G F P D K 26
    314 V R Y P I S R P R 25
    235 V R N Y G F W D K 23
    106 G G Y Q G R V F L 20
    333 R F V G F P D K K 19
    103 K T Y G G Y Q G R 18
    135 G R Y K C E V I E 18
    166 R L G R Y N L N F 18
    213 G S V Q Y P I T K 18
    259 G R F Y Y L I H P 18
    315 R Y P I S R P R R 18
    322 R R R C S P T E A 18
    51 S H R G G N V T L 17
    55 G N V T L P C K F 17
    68 T A F G S G I H K 17
    76 K I R I K W T K L 17
    87 D Y L K E V D V F 17
    116 G G S D S D A S L 17
    121 D A S L V I T D L 17
    159 V V F P Y F P R L 17
    168 G R Y N L N F H E 17
    307 G W L A D G S V R 17
    336 G F P D K K H K L 17
    343 K L Y G V Y C F R 17
    62 K F Y R D P T A F 16
    72 S G I H K I R I K 16
    75 H K I R I K W T K 16
    107 G Y Q G R V F L K 16
    110 G R V F L K G G S 16
    164 F P R L G R Y N L 16
    183 D Q D A V I A S F 16
    239 G F W D K D K S R 16
    249 D V F C F T S N F 16
    261 F Y Y L I H P T K 16
    262 Y Y L I H P T K L 16
    312 G S V R Y P I S R 16
    342 H K L Y G V Y C F 16
    1 M K S L L L L V L 15
    16 D H L S D N Y T L 15
    52 H R G G N V T L P 15
    54 G G N V T L P C K 15
    77 I R I K W T K L T 15
    82 T K L T S D Y L K 15
    137 Y K C E V I E G L 15
    158 G V V F P Y F P R 15
    162 P Y F P R L G R Y 15
    165 P R L G R Y N L N 15
    186 A V I A S F D Q L 15
    198 W R G G L D W C N 15
    228 G Q N T V P G V R 15
    230 N T V P G V R N Y 15
    280 L N D G A Q I A K 15
    290 G Q I F A A W K I 15
    323 R R C S P T E A A 15
    326 S P T E A A V R F 15
    335 V G F P D K K H K 15
    2 K S L L L L V L I 14
    10 I S I C W A D H L 14
    20 D N Y T L D H D R 14
    45 E Q A K V F S H R 14
    57 V T L P C K F Y R 14
    69 A F G S G I H K I 14
    80 K W T K L T S D Y 14
    90 K E V D V F V S M 14
    95 F V S M G Y H K K 14
    123 S L V I T D L T L 14
    128 D L T L E D Y G R 14
    148 D T V V V A L D L 14
    153 A L D L Q G V V F 14
    161 F P Y F P R L G R 14
    215 V Q Y P I T K P R 14
    240 F W D K D K S R Y 14
    272 Y D E A V Q A C L 14
    308 W L A D G S V R Y 14
    316 Y P I S R P R R R 14
    325 C S P T E A A V R 14
    340 K K H K L Y G V Y 14
    4 L L L L V L I S I 13
    27 D R A I H I Q A E 13
    32 I Q A E N G P H L 13
    42 V E A E Q A K V F 13
    70 F G S G I H K I R 13
    71 G S G I H K I R I 13
    129 L T L E D Y G R Y 13
    146 E D D T V V V A L 13
    174 F H E A Q Q A C L 13
    191 F D Q L Y D A W R 13
    209 W L S D G S V Q Y 13
    243 K D K S R Y D V F 13
    245 K S R Y D V F C F 13
    246 S R Y D V F C F T 13
    253 F T S N F N G R F 13
    255 S N F N G R F Y Y 13
    256 N F N G R F Y Y L 13
    285 Q I A K V G Q I F 13
    291 Q I F A A W K I L 13
    293 F A A W K I L G Y 13
    295 A W K I L G Y D R 13
    321 P R R R C S P T E 13
    14 W A D H L S D N Y 12
    33 Q A E N G P H L L 12
    40 L L V E A E Q A K 12
    44 A E Q A K V F S H 12
    64 Y R D P T A F G S 12
    81 W T K L T S D Y L 12
    92 V D V F V S M G Y 12
    93 D V F V S M G Y H 12
    94 V F V S M G Y H K 12
    155 D L Q G V V F P Y 12
    156 L Q G V V F P Y F 12
    180 A C L D Q D A V I 12
    222 P R E P C G G Q N 12
    232 V P G V R N Y G F 12
    264 L I H P T K L T Y 12
    284 A Q I A K V G Q I 12
    289 V G Q I F A A W K 12
    334 F V G F P D K K H 12
    28 R A I H I Q A E N 11
    67 P T A F G S G I H 11
    105 Y G G Y Q G R V F 11
    126 I T D L T L E D Y 11
    202 L D W C N A G W L 11
    237 N Y G F W D K D K 11
    252 C F T S N F N G R 11
    278 A C L N D G A Q I 11
    301 Y D R C D A G W L 11
    302 D R C D A G W L A 11
    319 S R P R R R C S P 11
    329 E A A V R F V G F 11
    337 F P D K K H K L Y 11
    31 H I Q A E N G P H 10
    56 N V T L P C K F Y 10
    97 S M G Y H K K T Y 10
    100 Y H K K T Y G G Y 10
    111 R V F L K G G S D 10
    130 T L E D Y G R Y K 10
    167 L G R Y N L N F H 10
    194 L Y D A W R G G L 10
    211 S D G S V Q Y P I 10
    236 R N Y G F W D K D 10
    260 R F Y Y L I H P T 10
    9 L I S I C W A D H 9
    18 L S D N Y T L D H 9
    22 Y T L D H D R A I 9
    23 T L D H D R A I H 9
    73 G I H K I R I K W 9
    118 S D S D A S L V I 9
    187 V I A S F D Q L Y 9
    258 N G R F Y Y L I H 9
    310 A D G S V R Y P I 9
    345 Y G V Y C F R A Y 9
    24 L D H D R A I H I 8
    134 Y G R Y K C E V I 8
    136 R Y K C E V I E G 8
    154 L D L Q G V V F P 8
    214 S V Q Y P I T K P 8
    223 R E P C G G Q N T 8
    224 E P C G G Q N T V 8
    254 T S N F N G R F Y 8
    5 L L L V L I S I C 7
    66 D P T A F G S G I 7
    78 R I K W T K L T S 7
    99 G Y H K K T Y G G 7
    112 V F L K G G S D S 7
    143 E G L E D D T V V 7
    199 R G G L D W C N A 7
    208 G W L S D G S V Q 7
    251 F C F T S N F N G 7
    257 F N G R F Y Y L I 7
    287 A K V G Q I F A A 7
    296 W K I L G Y D R C 7
    297 K I L G Y D R C D 7
    303 R C D A G W L A D 7
    313 S V R Y P I S R P 7
    3 S L L L L V L I S 6
    7 L V L I S I C W A 6
    30 I H I Q A E N G P 6
    37 G P H L L V E A E 6
    38 P H L L V E A E Q 6
    41 L V E A E Q A K V 6
    53 R G G N V T L P C 6
    61 C K F Y R D P T A 6
    79 I K W T K L T S D 6
    98 M G Y H K K T Y G 6
    102 K K T Y G G Y Q G 6
    104 T Y G G Y Q G R V 6
    113 F L K G G S D S D 6
    140 E V I E G L E D D 6
    152 V A L D L Q G V V 6
    169 R Y N L N F H E A 6
    172 L N F H E A Q Q A 6
    189 A S F D Q L Y D A 6
    192 D Q L Y D A W R G 6
    197 A W R G G L D W C 6
    200 G G L D W C N A G 6
    225 P C G G Q N T V P 6
    238 Y G F W D K D K S 6
    270 L T Y D E A V Q A 6
    274 E A V Q A C L N D 6
    281 N D G A Q I A K V 6
    286 I A K V G Q I F A 6
    288 K V G Q I F A A W 6
    324 R C S P T E A A V 6
    346 G V Y C F R A Y N 6
    6 L L V L I S I C W 5
    15 A D H L S D N Y T 5
    34 A E N G P H L L V 5
    39 H L L V E A E Q A 5
    48 K V F S H R G G N 5
    65 R D P T A F G S G 5
    83 K L T S D Y L K E 5
    86 S D Y L K E V D V 5
    114 L K G G S D S D A 5
    117 G S D S D A S L V 5
    124 L V I T D L T L E 5
    131 L E D Y G R Y K C 5
    142 I E G L E D D T V 5
    144 G L E D D T V V V 5
    150 V V V A L D L Q G 5
    201 G L D W C N A G W 5
    207 A G W L S D G S V 5
    227 G G Q N T V P G V 5
    247 R Y D V F C F T S 5
    265 I H P T K L T Y D 5
    282 D G A Q I A K V G 5
    283 G A Q I A K V G Q 5
    294 A A W K I L G Y D 5
    300 G Y D R C D A G W 5
    320 R P R R R C S P T 5
    8 V L I S I C W A D 4
    29 A I H I Q A E N G 4
    35 E N G P H L L V E 4
    36 N G P H L L V E A 4
    43 E A E Q A K V F S 4
    50 F S H R G G N V T 4
    58 T L P C K F Y R D 4
    74 I H K I R I K W T 4
    88 Y L K E V D V F V 4
    96 V S M G Y H K K T 4
    108 Y Q G R V F L K G 4
    120 S D A S L V I T D 4
    122 A S L V I T D L T 4
    132 E D Y G R Y K C E 4
    139 C E V I E G L E D 4
    181 C L D Q D A V I A 4
    188 I A S F D Q L Y D 4
    204 W C N A G W L S D 4
    205 C N A G W L S D G 4
    210 L S D G S V Q Y P 4
    216 Q Y P I T K P R E 4
    217 Y P I T K P R E P 4
    221 K P R E P C G G Q 4
    229 Q N T V P G V R N 4
    231 T V P G V R N Y G 4
    242 D K D K S R Y D V 4
    248 Y D V F C F T S N 4
    266 H P T K L T Y D E 4
    269 K L T Y D E A V Q 4
    304 C D A G W L A D G 4
    306 A G W L A D G S V 4
    309 L A D G S V R Y P 4
    338 P D K K H K L Y G 4
    341 K H K L Y G V Y C 4
    12 I C W A D H L S D 3
    21 N Y T L D H D R A 3
    25 D H D R A I H I Q 3
    26 H D R A I H I Q A 3
    46 Q A K V F S H R G 3
    47 A K V F S H R G G 3
    85 T S D Y L K E V D 3
    115 K G G S D S D A S 3
    119 D S D A S L V I T 3
    125 V I T D L T L E D 3
    127 T D L T L E D Y G 3
    138 K C E V I E G L E 3
    141 V I E G L E D D T 3
    145 L E D D T V V V A 3
    147 D D T V V V A L D 3
    173 N F H E A Q Q A C 3
    175 H E A Q Q A C L D 3
    176 E A Q Q A C L D Q 3
    177 A Q Q A C L D Q D 3
    179 Q A C L D Q D A V 3
    184 Q D A V I A S F D 3
    190 S F D Q L Y D A W 3
    196 D A W R G G L D W 3
    218 P I T K P R E P C 3
    219 I T K P R E P C G 3
    226 C G G Q N T V P G 3
    234 G V R N Y G F W D 3
    263 Y L I H P T K L T 3
    268 T K L T Y D E A V 3
    275 A V Q A C L N D G 3
    279 C L N D G A Q I A 3
    292 I F A A W K I L G 3
    317 P I S R P R R R C 3
    330 A A V R F V G F P 3
    339 D K K H K L Y G V 3
    13 C W A D H L S D N 2
    17 H L S D N Y T L D 2
    49 V F S H R G G N V 2
    59 L P C K F Y R D P 2
    63 F Y R D P T A F G 2
    84 L T S D Y L K E V 2
    89 L K E V D V F V S 2
    91 E V D V F V S M G 2
    133 D Y G R Y K C E V 2
    149 T V V V A L D L Q 2
    151 V V A L D L Q G V 2
    157 Q G V V F P Y F P 2
    170 Y N L N F H E A Q 2
    171 N L N F H E A Q Q 2
    178 Q Q A C L D Q D A 2
    182 L D Q D A V I A S 2
    185 D A V I A S F D Q 2
    193 Q L Y D A W R G G 2
    206 N A G W L S D G S 2
    241 W D K D K S R Y D 2
    244 D K S R Y D V F C 2
    250 V F C F T S N F N 2
    267 P T K L T Y D E A 2
    271 T Y D E A V Q A C 2
    276 V Q A C L N D G A 2
    277 Q A C L N D G A Q 2
    299 L G Y D R C D A G 2
    305 D A G W L A D G S 2
    318 I S R P R R R C S 2
    328 T E A A V R F V G 2
    331 A V R F V G F P D 2
    344 L Y G V Y C F R A 2
    11 S I C W A D H L S 1
    19 S D N Y T L D H D 1
    109 Q G R V F L K G G 1
    163 Y F P R L G R Y N 1
    203 D W C N A G W L S 1
    212 D G S V Q Y P I T 1
    220 T K P R E P C G G 1
    233 P G V R N Y G F W 1
    273 D E A V Q A C L N 1
    298 I L G Y D R C D A 1
    311 D G S V R Y P I S 1
    327 P T E A A V R F V 1
    151P3D4 v.2: HLA Peptide Scoring Results B*2705 9-mers SYFPEITHI
    203 M R L Q K Q A E K 29
    120 K R M N T N P S R 25
    258 P R A G S S A H R 25
    196 Y R K N K Q L M R 24
    229 P R G L G F I F K 24
    248 T R I G H P G G R 24
    137 S R I F W R Q E K 23
    187 K R K E K A E I H 23
    265 H R P P A L S A R 23
    312 P R N P L P N P R 23
    21 I R D H S G Q K M 22
    333 A R H C Q G Q K H 21
    197 R K N K Q L M R L 20
    398 E R K A E N G P H 20
    57 V Q F V G S Y K L 19
    83 R K D K V L L G R 19
    234 F I F K T I A P L 19
    251 G H P G G R T P R 19
    327 G G L K K P A R H 19
    22 R D H S G Q K M K 18
    26 G Q K M K Q D K K 18
    155 G H A S E A Y K K 18
    207 K Q A E K N M K K 18
    313 R N P L P N P R H 18
    345 A R G K P Q R K P 18
    389 G L G G K Q K D K 18
    391 G G K Q K D K E R 18
    392 G K Q K D K E R K 18
    34 K V D L L V P T K 17
    90 G R K A V V V S C 17
    105 G S F C R N K L K 17
    109 R N K L K Y L A F 17
    113 K Y L A F L H K R 17
    121 R M N T N P S R R 17
    211 K N M K K K I D K 17
    323 P S G G G G L K K 17
    326 G G G L K K P A R 17
    378 A L W K A I E S L 17
    7 K T F P L R A L H 16
    11 L R A L H I V V E 16
    30 K Q D K K V D L L 16
    46 I I T Q G A K D F 16
    55 G H V Q F V G S Y 16
    81 K Q R K D K V L L 16
    84 K D K V L L G R K 16
    101 I N I S G S F C R 16
    110 N K L K Y L A F L 16
    189 K E K A E I H Y R 16
    194 I H Y R K N K Q L 16
    212 N M K K K I D K Y 16
    255 G R T P R A G S S 16
    308 S P Y G P R N P L 16
    373 S G Y C G A L W K 16
    399 R K A E N G P H L 16
    16 I V V E S I R D H 15
    51 A K D F G H V Q F 15
    75 T V Y Q D E K Q R 15
    99 E G I N I S G S F 15
    108 C R N K L K Y L A 15
    128 R R P Y H F Q V P 15
    131 Y H F Q V P S R I 15
    168 G A P H E V G W K 15
    176 K Y Q A V T A T L 15
    188 R K E K A E I H Y 15
    190 E K A E I H Y R K 15
    192 A E I H Y R K N K 15
    222 E S P G G G S P R 15
    226 G G S P R G L G F 15
    238 T I A P L A A T R 15
    336 C Q G Q K H N V L 15
    338 G Q K H N V L A R 15
    343 V L A R G K P Q R 15
    344 L A R G K P Q R K 15
    346 R G K P Q R K P K 15
    350 Q R K P K S E N N 15
    365 G R P A D L A G S 15
    14 L H I V V E S I R 14
    44 T G I I T Q G A K 14
    76 V Y Q D E K Q R K 14
    112 L K Y L A F L H K 14
    169 A P H E V G W K Y 14
    181 T A T L E E K R K 14
    208 Q A E K N M K K K 14
    272 A R A P V P A A S 14
    285 L P L R T P W T R 14
    322 S P S G G G G L K 14
    340 K H N V L A R G K 14
    385 S L E E G L G G K 14
    387 E E G L G G K Q K 14
    400 K A E N G P H L L 14
    4 H T T K T F P L R 13
    25 S G Q K M K Q D K 13
    29 M K Q D K K V D L 13
    73 H W T V Y Q D E K 13
    80 E K Q R K D K V L 13
    82 Q R K D K V L L G 13
    103 I S G S F C R N K 13
    104 S G S F C R N K L 13
    130 P Y H F Q V P S R 13
    134 Q V P S R I F W R 13
    141 W R Q E K A D G G 13
    158 S E A Y K K V C L 13
    163 K V C L S G A P H 13
    179 A V T A T L E E K 13
    180 V T A T L E E K R 13
    183 T L E E K R K E K 13
    199 N K Q L M R L Q K 13
    206 Q K Q A E K N M K 13
    224 P G G G S P R G L 13
    228 S P R G L G F I F 13
    230 R G L G F I F K T 13
    245 T R A T R I G H P 13
    277 P A A S P A A W L 13
    292 T R P S S C P T S 13
    302 S T Y D S L S P Y 13
    305 D S L S P Y G P R 13
    332 P A R H C Q G Q K 13
    362 V E N G R P A D L 13
    371 A G S G Y C G A L 13
    6 T K T F P L R A L 12
    20 S I R D H S G Q K 12
    56 H V Q F V G S Y K 12
    65 L A Y S N D G E H 12
    69 N D G E H W T V Y 12
    78 Q D E K Q R K D K 12
    106 S F C R N K L K Y 12
    107 F C R N K L K Y L 12
    111 K L K Y L A F L H 12
    127 S R R P Y H F Q V 12
    132 H F Q V P S R I F 12
    154 Q G H A S E A Y K 12
    186 E K R K E K A E I 12
    205 L Q K Q A E K N M 12
    227 G S P R G L G F I 12
    241 P L A A T R A T R 12
    257 T P R A G S S A H 12
    279 A S P A A W L P L 12
    280 S P A A W L P L R 12
    296 S C P T S S S T Y 12
    319 P R H S P S G G G 12
    321 H S P S G G G G L 12
    358 N S W Y V E N G R 12
    382 A I E S L E E G L 12
    1 M L E H T T K T F 11
    3 E H T T K T F P L 11
    42 K V T G I I T Q G 11
    61 G S Y K L A Y S N 11
    114 Y L A F L H K R M 11
    125 N P S R R P Y H F 11
    138 R I F W R Q E K A 11
    148 G G S C C P Q G H 11
    195 H Y R K N K Q L M 11
    231 G L G F I F K T I 11
    242 L A A T R A T R I 11
    262 S S A H R P P A L 11
    287 L R T P W T R P S 11
    299 T S S S T Y D S L 11
    353 P K S E N N S W Y 11
    12 R A L H I V V E S 10
    13 A L H I V V E S I 10
    38 L V P T K V T G I 10
    48 T Q G A K D F G H 10
    59 F V G S Y K L A Y 10
    95 V V S C E G I N I 10
    123 N T N P S R R P Y 10
    209 A E K N M K K K I 10
    244 A T R A T R I G H 10
    334 R H C Q G Q K H N 10
    351 R K P K S E N N S 10
    367 P A D L A G S G Y 10
    8 T F P L R A L H I 9
    39 V P T K V T G I I 9
    93 A V V V S C E G I 9
    124 T N P S R R P Y H 9
    129 R P Y H F Q V P S 9
    153 P Q G H A S E A Y 9
    204 R L Q K Q A E K N 9
    266 R P P A L S A R A 9
    347 G K P Q R K P K S 9
    374 G Y C G A L W K A 9
    377 G A L W K A I E S 9
    388 E G L G G K Q K D 9
    35 V D L L V P T K V 8
    41 T K V T G I I T Q 8
    45 G I I T Q G A K D 8
    52 K D F G H V Q F V 8
    182 A T L E E K R K E 8
    215 K K I D K Y T E S 8
    223 S P G G G S P R G 8
    259 R A G S S A H R P 8
    273 R A P V P A A S P 8
    311 G P R N P L P N P 8
    381 K A I E S L E E G 8
    86 K V L L G R K A V 7
    87 V L L G R K A V V 7
    91 R K A V V V S C E 7
    96 V S C E G I N I S 7
    116 A F L H K R M N T 7
    142 R Q E K A D G G S 7
    145 K A D G G S C C P 7
    175 W K Y Q A V T A T 7
    200 K Q L M R L Q K Q 7
    233 G F I F K T I A P 7
    237 K T I A P L A A T 7
    239 I A P L A A T R A 7
    249 R I G H P G G R T 7
    283 A W L P L R T P W 7
    293 R P S S C P T S S 7
    324 S G G G G L K K P 7
    325 G G G G L K K P A 7
    328 G L K K P A R H C 7
    366 R P A D L A G S G 7
    375 Y C G A L W K A I 7
    15 H I V V E S I R D 6
    23 D H S G Q K M K Q 6
    28 K M K Q D K K V D 6
    33 K K V D L L V P T 6
    71 G E H W T V Y Q D 6
    77 Y Q D E K Q R K D 6
    92 K A V V V S C E G 6
    97 S C E G I N I S G 6
    149 G S C C P Q G H A 6
    151 C C P Q G H A S E 6
    159 E A Y K K V C L S 6
    160 A Y K K V C L S G 6
    164 V C L S G A P H E 6
    171 H E V G W K Y Q A 6
    173 V G W K Y Q A V T 6
    174 G W K Y Q A V T A 6
    232 L G F I F K T I A 6
    256 R T P R A G S S A 6
    264 A H R P P A L S A 6
    288 R T P W T R P S S 6
    320 R H S P S G G G G 6
    349 P Q R K P K S E N 6
    352 K P K S E N N S W 6
    359 S W Y V E N G R P 6
    368 A D L A G S G Y C 6
    395 K D K E R K A E N 6
    27 Q K M K Q D K K V 5
    31 Q D K K V D L L V 5
    37 L L V P T K V T G 5
    68 S N D G E H W T V 5
    79 D E K Q R K D K V 5
    85 D K V L L G R K A 5
    89 L G R K A V V V S 5
    100 G I N I S G S F C 5
    102 N I S G S F C R N 5
    115 L A F L H K R M N 5
    118 L H K R M N T N P 5
    140 F W R Q E K A D G 5
    152 C P Q G H A S E A 5
    162 K K V C L S G A P 5
    184 L E E K R K E K A 5
    198 K N K Q L M R L Q 5
    214 K K K I D K Y T E 5
    216 K I D K Y T E S P 5
    218 D K Y T E S P G G 5
    246 R A T R I G H P G 5
    250 I G H P G G R T P 5
    252 H P G G R T P R A 5
    254 G G R T P R A G S 5
    274 A P V P A A S P A 5
    282 A A W L P L R T P 5
    286 P L R T P W T R P 5
    335 H C Q G Q K H N V 5
    339 Q K H N V L A R G 5
    384 E S L E E G L G G 5
    386 L E E G L G G K Q 5
    390 L G G K Q K D K E 5
    393 K Q K D K E R K A 5
    397 K E R K A E N G P 5
    24 H S G Q K M K Q D 4
    36 D L L V P T K V T 4
    47 I T Q G A K D F G 4
    50 G A K D F G H V Q 4
    53 D F G H V Q F V G 4
    58 Q F V G S Y K L A 4
    62 S Y K L A Y S N D 4
    63 Y K L A Y S N D G 4
    64 K L A Y S N D G E 4
    74 W T V Y Q D E K Q 4
    88 L L G R K A V V V 4
    98 C E G I N I S G S 4
    117 F L H K R M N T N 4
    122 M N T N P S R R P 4
    133 F Q V P S R I F W 4
    135 V P S R I F W R Q 4
    146 A D G G S C C P Q 4
    191 K A E I H Y R K N 4
    193 E I H Y R K N K Q 4
    201 Q L M R L Q K Q A 4
    213 M K K K I D K Y T 4
    219 K Y T E S P G G G 4
    221 T E S P G G G S P 4
    225 G G G S P R G L G 4
    235 I F K T I A P L A 4
    247 A T R I G H P G G 4
    261 G S S A H R P P A 4
    269 A L S A R A P V P 4
    278 A A S P A A W L P 4
    281 P A A W L P L R T 4
    295 S S C P T S S S T 4
    297 C P T S S S T Y D 4
    306 S L S P Y G P R N 4
    307 L S P Y G P R N P 4
    337 Q G Q K H N V L A 4
    341 H N V L A R G K P 4
    348 K P Q R K P K S E 4
    354 K S E N N S W Y V 4
    369 D L A G S G Y C G 4
    372 G S G Y C G A L W 4
    380 W K A I E S L E E 4
    396 D K E R K A E N G 4
    2 L E H T T K T F P 3
    5 T T K T F P L R A 3
    9 F P L R A L H I V 3
    10 P L R A L H I V V 3
    19 E S I R D H S G Q 3
    32 D K K V D L L V P 3
    60 V G S Y K L A Y S 3
    144 E K A D G G S C C 3
    156 H A S E A Y K K V 3
    157 A S E A Y K K V C 3
    165 C L S G A P H E V 3
    177 Y Q A V T A T L E 3
    178 Q A V T A T L E E 3
    240 A P L A A T R A T 3
    267 P P A L S A R A P 3
    268 P A L S A R A P V 3
    271 S A R A P V P A A 3
    290 P W T R P S S C P 3
    291 W T R P S S C P T 3
    294 P S S C P T S S S 3
    301 S S T Y D S L S P 3
    303 T Y D S L S P Y G 3
    304 Y D S L S P Y G P 3
    309 P Y G P R N P L P 3
    314 N P L P N P R H S 3
    317 P N P R H S P S G 3
    330 K K P A R H C Q G 3
    355 S E N N S W Y V E 3
    357 N N S W Y V E N G 3
    361 Y V E N G R P A D 3
    364 N G R P A D L A G 3
    376 C G A L W K A I E 3
    383 I E S L E E G L G 3
    394 Q K D K E R K A E 3
    18 V E S I R D H S G 2
    49 Q G A K D F G H V 2
    67 Y S N D G E H W T 2
    147 D G G S C C P Q G 2
    161 Y K K V C L S G A 2
    166 L S G A P H E V G 2
    167 S G A P H E V G W 2
    170 P H E V G W K Y Q 2
    202 L M R L Q K Q A E 2
    210 E K N M K K K I D 2
    217 I D K Y T E S P G 2
    263 S A H R P P A L S 2
    275 P V P A A S P A A 2
    276 V P A A S P A A W 2
    284 W L P L R T P W T 2
    289 T P W T R P S S C 2
    298 P T S S S T Y D S 2
    300 S S S T Y D S L S 2
    315 P L P N P R H S P 2
    316 L P N P R H S P S 2
    318 N P R H S P S G G 2
    331 K P A R H C Q G Q 2
    342 N V L A R G K P Q 2
    356 E N N S W Y V E N 2
    360 W Y V E N G R P A 2
    363 E N G R P A D L A 2
    370 L A G S G Y C G A 2
    379 L W K A I E S L E 2
    17 V V E S I R D H S 1
    40 P T K V T G I I T 1
    43 V T G I I T Q G A 1
    54 F G H V Q F V G S 1
    66 A Y S N D G E H W 1
    70 D G E H W T V Y Q 1
    72 E H W T V Y Q D E 1
    94 V V V S C E G I N 1
    119 H K R M N T N P S 1
    126 P S R R P Y H F Q 1
    136 P S R I F W R Q E 1
    139 I F W R Q E K A D 1
    143 Q E K A D G G S C 1
    150 S C C P Q G H A S 1
    172 E V G W K Y Q A V 1
    185 E E K R K E K A E 1
    220 Y T E S P G G G S 1
    236 F K T I A P L A A 1
    243 A A T R A T R I G 1
    260 A G S S A H R P P 1
    270 L S A R A P V P A 1
    310 Y G P R N P L P N 1
    329 L K K P A R H C Q 1
  • [0832]
    TABLE XXXII
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 score ID NO.
    151P364 v.1: HLA Peptide Scoring Results B*2709 9-mers SYFPEITHI
    106 G G Y Q G R V F L 16
    135 G R Y K C E V I E 16
    16 D H L S D N Y T L 15
    159 V V F P Y F P R L 15
    168 G R Y N L N F H E 15
    259 G R F Y Y L I H P 15
    323 R R C S P T E A A 15
    110 G R V F L K G G S 14
    117 G S D S D A S L V 14
    166 R L G R Y N L N F 14
    314 V R Y P I S R P R 14
    322 R R R C S P T E A 14
    2 K S L L L L V L I 13
    10 I S I C W A D H L 13
    62 K F Y R D P T A F 13
    116 G G S D S D A S L 13
    144 G L E D D T V V V 13
    148 D T V V V A L D L 13
    186 A V I A S F D Q L 13
    227 G G Q N T V P G V 13
    278 A C L N D G A Q I 13
    290 G Q I F A A W K I 13
    324 R C S P T E A A V 13
    332 V R F V G F P D K 13
    336 G F P D K K H K L 13
    32 I Q A E N G P H L 12
    55 G N V T L P C K F 12
    64 Y R D P T A F G S 12
    71 G S G I H K I R I 12
    76 K I R I K W T K L 12
    77 I R I K W T K L T 12
    90 K E V D V F V S M 12
    123 S L V I T D L T L 12
    146 E D D T V V V A L 12
    164 F P R L G R Y N L 12
    165 P R L G R Y N L N 12
    222 P R E P C G G Q N 12
    245 K S R Y D V F C F 12
    246 S R Y D V F C F T 12
    262 Y Y L I H P T K L 12
    284 A Q I A K V G Q I 12
    291 Q I F A A W K I L 12
    301 Y D R C D A G W L 12
    326 S P T E A A V R F 12
    342 H K L Y G V Y C F 12
    1 M K S L L L L V L 11
    51 S H R G G N V T L 11
    52 H R G G N V T L P 11
    86 S D Y L K E V D V 11
    87 D Y L K E V D V F 11
    143 E G L E D D T V V 11
    180 A C L D Q D A V I 11
    202 L D W C N A G W L 11
    243 K D K S R Y D V F 11
    249 D V F C F T S N F 11
    256 N F N G R F Y Y L 11
    310 A D G S V R Y P I 11
    321 P R R R C S P T E 11
    4 L L L L V L I S I 10
    22 Y T L D H D R A I 10
    27 D R A I H I Q A E 10
    33 Q A E N G P H L L 10
    34 A E N G P H L L V 10
    69 A F G S G I H K I 10
    81 W T K L T S D Y L 10
    121 D A S L V I T D L 10
    137 Y K C E V I E G L 10
    152 V A L D L Q G V V 10
    153 A L D L Q G V V F 10
    174 F H E A Q Q A C L 10
    194 L Y D A W R G G L 10
    198 W R G G L D W C N 10
    211 S D G S V Q Y P I 10
    235 V R N Y G F W D K 10
    268 T K L T Y D E A V 10
    272 Y D E A V Q A C L 10
    302 D R C D A G W L A 10
    319 S R P R R R C S P 10
    24 L D H D R A I H I 9
    42 V E A E Q A K V F 9
    49 V F S H R G G N V 9
    66 D P T A F G S G I 9
    88 Y L K E V D V F V 9
    104 T Y G G Y Q G R V 9
    118 S D S D A S L V I 9
    142 I E G L E D D T V 9
    151 V V A L D L Q G V 9
    156 L Q G V V F P Y F 9
    179 Q A C L D Q D A V 9
    207 A G W L S D G S V 9
    232 V P G V R N Y G F 9
    242 D K D K S R Y D V 9
    253 F T S N F N G R F 9
    257 F N G R F Y Y L I 9
    306 A G W L A D G S V 9
    327 P T E A A V R F V 9
    329 E A A V R F V G F 9
    339 D K K H K L Y G V 9
    41 L V E A E Q A K V 8
    84 L T S D Y L K E V 8
    105 Y G G Y Q G R V F 8
    133 D Y G R Y K C E V 8
    134 Y G R Y K C E V I 8
    183 D Q D A V I A S F 8
    224 E P C G G Q N T V 8
    281 N D G A Q I A K V 8
    285 Q I A K V G Q I F 8
    208 G W L S D G S V Q 7
    28 R A I H I Q A E N 6
    83 K L T S D Y L K E 6
    111 R V F L K G G S D 6
    199 R G G L D W C N A 6
    236 R N Y G F W D K D 6
    260 R F Y Y L I H P T 6
    307 G W L A D G S V R 6
    315 R Y P I S R P R R 6
    48 K V F S H R G G N 5
    53 R G G N V T L P C 5
    78 R I K W T K L T S 5
    102 K K T Y G G Y Q G 5
    136 R Y K C E V I E G 5
    192 D Q L Y D A W R G 5
    200 G G L D W C N A G 5
    223 R E P C G G Q N T 5
    270 L T Y D E A V Q A 5
    303 R C D A G W L A D 5
    333 R F V G F P D K K 5
    346 G V Y C F R A Y N 5
    3 S L L L L V L I S 4
    37 G P H L L V E A E 4
    39 H L L V E A E Q A 4
    54 G G N V T L P C K 4
    65 R D P T A F G S G 4
    73 G I H K I R I K W 4
    99 G Y H K K T Y G G 4
    103 K T Y G G Y Q G R 4
    107 G Y Q G R V F L K 4
    115 K G G S D S D A S 4
    122 A S L V I T D L T 4
    129 L T L E D Y G R Y 4
    154 L D L Q G V V F P 4
    158 G V V F P Y F P R 4
    162 P Y F P R L G R Y 4
    169 R Y N L N F H E A 4
    172 L N F H E A Q Q A 4
    189 A S F D Q L Y D A 4
    213 G S V Q Y P I T K 4
    215 V Q Y P I T K P R 4
    230 N T V P G V R N Y 4
    247 R Y D V F C F T S 4
    261 F Y Y L I H P T K 4
    269 K L T Y D E A V Q 4
    283 G A Q I A K V G Q 4
    297 K I L G Y D R C D 4
    312 G S V R Y P I S R 4
    320 R P R R R C S P T 4
    335 V G F P D K K H K 4
    343 K L Y G V Y C F R 4
    8 V L I S I C W A D 3
    12 I C W A D H L S D 3
    21 N Y T L D H D R A 3
    29 A I H I Q A E N G 3
    57 V T L P C K F Y R 3
    61 C K F Y R D P T A 3
    80 K W T K L T S D Y 3
    82 T K L T S D Y L K 3
    94 V F V S M G Y H K 3
    138 K C E V I E G L E 3
    150 V V V A L D L Q G 3
    161 F P Y F P R L G R 3
    181 C L D Q D A V I A 3
    188 I A S F D Q L Y D 3
    201 G L D W C N A G W 3
    219 I T K P R E P C G 3
    228 G Q N T V P G V R 3
    229 Q N T V P G V R N 3
    234 G V R N Y G F W D 3
    238 Y G F W D K D K S 3
    239 G F W D K D K S R 3
    251 F C F T S N F N G 3
    274 E A V Q A C L N D 3
    288 K V G Q I F A A W 3
    300 G Y D R C D A G W 3
    316 Y P I S R P R R R 3
    330 A A V R F V G F P 3
    341 K H K L Y G V Y C 3
    5 L L L V L I S I C 2
    6 L L V L I S I C W 2
    7 L V L I S I C W A 2
    20 D N Y T L D H D R 2
    26 H D R A I H I Q A 2
    30 I H I Q A E N G P 2
    35 E N G P H L L V E 2
    38 P H L L V E A E Q 2
    44 A E Q A K V F S H 2
    47 A K V F S H R G G 2
    58 T L P C K F Y R D 2
    68 T A F G S G I H K 2
    75 H K I R I K W T K 2
    89 L K E V D V F V S 2
    93 D V F V S M G Y H 2
    98 M G Y H K K T Y G 2
    112 V F L K G G S D S 2
    120 S D A S L V I T D 2
    124 L V I T D L T L E 2
    125 V I T D L T L E D 2
    127 T D L T L E D Y G 2
    128 D L T L E D Y G R 2
    132 E D Y G R Y K C E 2
    139 C E V I E G L E D 2
    145 L E D D T V V V A 2
    147 D D T V V V A L D 2
    157 Q G V V F P Y F P 2
    170 Y N L N F H E A Q 2
    177 A Q Q A C L D Q D 2
    184 Q D A V I A S F D 2
    193 Q L Y D A W R G G 2
    209 W L S D G S V Q Y 2
    216 Q Y P I T K P R E 2
    221 K P R E P C G G Q 2
    240 F W D K D K S R Y 2
    252 C F T S N F N G R 2
    255 S N F N G R F Y Y 2
    264 L I H P T K L T Y 2
    266 H P T K L T Y D E 2
    282 D G A Q I A K V G 2
    287 A K V G Q I F A A 2
    294 A A W K I L G Y D 2
    295 A W K I L G Y D R 2
    296 W K I L G Y D R C 2
    298 I L G Y D R C D A 2
    299 L G Y D R C D A G 2
    308 W L A D G S V R Y 2
    318 I S R P R R R C S 2
    340 K K H K L Y G V Y 2
    14 W A D H L S D N Y 1
    15 A D H L S D N Y T 1
    18 L S D N Y T L D H 1
    23 T L D H D R A I H 1
    36 N G P H L L V E A 1
    40 L L V E A E Q A K 1
    43 E A E Q A K V F S 1
    46 Q A K V F S H R G 1
    56 N V T L P C K F Y 1
    70 F G S G I H K I R 1
    72 S G I H K I R I K 1
    74 I H K I R I K W T 1
    79 I K W T K L T S D 1
    91 E V D V F V S M G 1
    92 V D V F V S M G Y 1
    108 Y Q G R V F L K G 1
    119 D S D A S L V I T 1
    126 I T D L T L E D Y 1
    131 L E D Y G R Y K C 1
    140 E V I E G L E D D 1
    149 T V V V A L D L Q 1
    155 D L Q G V V F P Y 1
    171 N L N F H E A Q Q 1
    175 H E A Q Q A C L D 1
    176 E A Q Q A C L D Q 1
    182 L D Q D A V I A S 1
    185 D A V I A S F D Q 1
    187 V I A S F D Q L Y 1
    196 D A W R G G L D W 1
    197 A W R G G L D W C 1
    204 W C N A G W L S D 1
    210 L S D G S V Q Y P 1
    212 D G S V Q Y P I T 1
    217 Y P I T K P R E P 1
    218 P I T K P R E P C 1
    226 C G G Q N T V P G 1
    233 P G V R N Y G F W 1
    244 D K S R Y D V F C 1
    248 Y D V F C F T S N 1
    258 N G R F Y Y L I H 1
    263 Y L I H P T K L T 1
    265 I H P T K L T Y D 1
    271 T Y D E A V Q A C 1
    273 D E A V Q A C L N 1
    275 A V Q A C L N D G 1
    279 C L N D G A Q I A 1
    286 I A K V G Q I F A 1
    289 V G Q I F A A W K 1
    292 I F A A W K I L G 1
    293 F A A W K I L G Y 1
    305 D A G W L A D G S 1
    309 L A D G S V R Y P 1
    311 D G S V R Y P I S 1
    313 S V R Y P I S R P 1
    317 P I S R P R R R C 1
    325 C S P T E A A V R 1
    331 A V R F V G F P D 1
    338 P D K K H K L Y G 1
    344 L Y G V Y C F R A 1
    345 Y G V Y C F R A Y 1
    151P3D4 v.2: HLA Peptide Scoring Results B*2709 9-mers SYFPEITHI
    127 S R R P Y H F Q V 20
    21 I R D H S G Q K M 19
    255 G R T P R A G S S 16
    90 G R K A V V V S C 15
    197 R K N K Q L M R L 15
    399 R K A E N G P H L 15
    81 K Q R K D K V L L 14
    128 R R P Y H F Q V P 14
    194 I H Y R K N K Q L 14
    365 G R P A D L A G S 14
    30 K Q D K K V D L L 13
    52 K D F G H V Q F V 13
    57 V Q F V G S Y K L 13
    109 R N K L K Y L A F 13
    120 K R M N T N P S R 13
    187 K R K E K A E I H 13
    226 G G S P R G L G F 13
    82 Q R K D K V L L G 12
    86 K V L L G R K A V 12
    110 N K L K Y L A F L 12
    176 K Y Q A V T A T L 12
    203 M R L Q K Q A E K 12
    231 G L G F I F K T I 12
    234 F I F K T I A P L 12
    272 A R A P V P A A S 12
    277 P A A S P A A W L 12
    279 A S P A A W L P L 12
    287 L R T P W T R P S 12
    292 T R P S S C P T S 12
    308 S P Y G P R N P L 12
    350 Q R K P K S E N N 12
    382 A I E S L E E G L 12
    400 K A E N G P H L L 12
    3 E H T T K T F P L 11
    6 T K T F P L R A L 11
    11 L R A L H I V V E 11
    29 M K Q D K K V D L 11
    46 I I T Q G A K D F 11
    51 A K D F G H V Q F 11
    108 C R N K L K Y L A 11
    131 Y H F Q V P S R I 11
    137 S R I F W R Q E K 11
    141 W R Q E K A D G G 11
    158 S E A Y K K V C L 11
    196 Y R K N K Q L M R 11
    227 G S P R G L G F I 11
    248 T R I G H P G G R 11
    262 S S A H R P P A L 11
    265 H R P P A L S A R 11
    268 P A L S A R A P V 11
    299 T S S S T Y D S L 11
    312 P R N P L P N P R 11
    319 P R H S P S G G G 11
    321 H S P S G G G G L 11
    333 A R H C Q G Q K H 11
    345 A R G K P Q R K P 11
    371 A G S G Y C G A L 11
    378 A L W K A I E S L 11
    8 T F P L R A L H I 10
    9 F P L R A L H I V 10
    13 A L H I V V E S I 10
    35 V D L L V P T K V 10
    80 E K Q R K D K V L 10
    87 V L L G R K A V V 10
    88 L L G R K A V V V 10
    93 A V V V S C E G I 10
    99 E G I N I S G S F 10
    104 S G S F C R N K L 10
    107 F C R N K L K Y L 10
    224 P G G G S P R G L 10
    229 P R G L G F I F K 10
    242 L A A T R A T R I 10
    245 T R A T R I G H P 10
    258 P R A G S S A H R 10
    336 C Q G Q K H N V L 10
    354 K S E N N S W Y V 10
    362 V E N G R P A D L 10
    398 E R K A E N G P H 10
    12 R A L H I V V E S 9
    31 Q D K K V D L L V 9
    38 L V P T K V T G I 9
    39 V P T K V T G I I 9
    49 Q G A K D F G H V 9
    95 V V S C E G I N I 9
    114 Y L A F L H K R M 9
    125 N P S R R P Y H F 9
    205 L Q K Q A E K N M 9
    209 A E K N M K K K I 9
    335 H C Q G Q K H N V 9
    1 M L E H T T K T F 8
    10 P L R A L H I V V 8
    27 Q K M K Q D K K V 8
    68 S N D G E H W T V 8
    79 D E K Q R K D K V 8
    132 H F Q V P S R I F 8
    156 H A S E A Y K K V 8
    165 C L S G A P H E V 8
    172 E V G W K Y Q A V 8
    186 E K R K E K A E I 8
    195 H Y R K N K Q L M 8
    228 S P R G L G F I F 8
    375 Y C G A L W K A I 8
    61 G S Y K L A Y S N 7
    129 R P Y H F Q V P S 7
    259 R A G S S A H R P 7
    71 G E H W T V Y Q D 6
    138 R I F W R Q E K A 6
    155 G H A S E A Y K K 6
    230 R G L G F I F K T 6
    246 R A T R I G H P G 6
    313 R N P L P N P R H 6
    327 G G L K K P A R H 6
    377 G A L W K A I E S 6
    7 K T F P L R A L H 5
    22 R D H S G Q K M K 5
    42 K V T G I I T Q G 5
    55 G H V Q F V G S Y 5
    83 R K D K V L L G R 5
    91 R K A V V V S C E 5
    105 G S F C R N K L K 5
    121 R M N T N P S R R 5
    164 V C L S G A P H E 5
    174 G W K Y Q A V T A 5
    204 R L Q K Q A E K N 5
    249 R I G H P G G R T 5
    266 R P P A L S A R A 5
    273 R A P V P A A S P 5
    288 R T P W T R P S S 5
    293 R P S S C P T S S 5
    311 G P R N P L P N P 5
    320 R H S P S G G G G 5
    338 G Q K H N V L A R 5
    346 R G K P Q R K P K 5
    351 R K P K S E N N S 5
    366 R P A D L A G S G 5
    392 G K Q K D K E R K 5
    33 K K V D L L V P T 4
    34 K V D L L V P T K 4
    45 G I I T Q G A K D 4
    75 T V Y Q D E K Q R 4
    113 K Y L A F L H K R 4
    116 A F L H K R M N T 4
    142 R Q E K A D G G S 4
    168 G A P H E V G W K 4
    188 R K E K A E I H Y 4
    200 K Q L M R L Q K Q 4
    214 K K K I D K Y T E 4
    225 G G G S P R G L G 4
    233 G F I F K T I A P 4
    235 I F K T I A P L A 4
    256 R T P R A G S S A 4
    261 G S S A H R P P A 4
    264 A H R P P A L S A 4
    274 A P V P A A S P A 4
    283 A W L P L R T P W 4
    326 G G G L K K P A R 4
    328 G L K K P A R H C 4
    334 R H C Q G Q K H N 4
    347 G K P Q R K P K S 4
    373 S G Y C G A L W K 4
    26 G Q K M K Q D K K 3
    28 K M K Q D K K V D 3
    37 L L V P T K V T G 3
    50 G A K D F G H V Q 3
    65 L A Y S N D G E H 3
    84 K D K V L L G R K 3
    92 K A V V V S C E G 3
    100 G I N I S G S F C 3
    101 I N I S G S F C R 3
    103 I S G S F C R N K 3
    111 K L K Y L A F L H 3
    112 L K Y L A F L H K 3
    147 D G G S C C P Q G 3
    148 G G S C C P Q G H 3
    149 G S C C P Q G H A 3
    159 E A Y K K V C L S 3
    162 K K V C L S G A P 3
    171 H E V G W K Y Q A 3
    175 W K Y Q A V T A T 3
    182 A T L E E K R K E 3
    190 E K A E I H Y R K 3
    192 A E I H Y R K N K 3
    215 K K I D K Y T E S 3
    218 D K Y T E S P G G 3
    219 K Y T E S P G G G 3
    237 K T I A P L A A T 3
    239 I A P L A A T R A 3
    240 A P L A A T R A T 3
    251 G H P G G R T P R 3
    254 G G R T P R A G S 3
    269 A L S A R A P V P 3
    278 A A S P A A W L P 3
    301 S S T Y D S L S P 3
    305 D S L S P Y G P R 3
    306 S L S P Y G P R N 3
    314 N P L P N P R H S 3
    325 G G G G L K K P A 3
    330 K K P A R H C Q G 3
    340 K H N V L A R G K 3
    352 K P K S E N N S W 3
    359 S W Y V E N G R P 3
    368 A D L A G S G Y C 3
    372 G S G Y C G A L W 3
    374 G Y C G A L W K A 3
    381 K A I E S L E E G 3
    384 E S L E E G L G G 3
    389 G L G G K Q K D K 3
    391 G G K Q K D K E R 3
    4 H T T K T F P L R 2
    5 T T K T F P L R A 2
    15 H I V V E S I R D 2
    16 I V V E S I R D H 2
    17 V V E S I R D H S 2
    19 E S I R D H S G Q 2
    32 D K K V D L L V P 2
    36 D L L V P T K V T 2
    59 F V G S Y K L A Y 2
    63 Y K L A Y S N D G 2
    64 K L A Y S N D G E 2
    66 A Y S N D G E H W 2
    89 L G R K A V V V S 2
    94 V V V S C E G I N 2
    115 L A F L H K R M N 2
    122 M N T N P S R R P 2
    124 T N P S R R P Y H 2
    130 P Y H F Q V P S R 2
    133 F Q V P S R I F W 2
    135 V P S R I F W R Q 2
    145 K A D G G S C C P 2
    160 A Y K K V C L S G 2
    163 K V C L S G A P H 2
    167 S G A P H E V G W 2
    178 Q A V T A T L E E 2
    179 A V T A T L E E K 2
    181 T A T L E E K R K 2
    189 K E K A E I H Y R 2
    191 K A E I H Y R K N 2
    198 K N K Q L M R L Q 2
    199 N K Q L M R L Q K 2
    207 K Q A E K N M K K 2
    211 K N M K K K I D K 2
    216 K I D K Y T E S P 2
    223 S P G G G S P R G 2
    232 L G F I F K T I A 2
    236 F K T I A P L A A 2
    238 T I A P L A A T R 2
    243 A A T R A T R I G 2
    247 A T R I G H P G G 2
    250 I G H P G G R T P 2
    252 H P G G R T P R A 2
    260 A G S S A H R P P 2
    271 S A R A P V P A A 2
    281 P A A W L P L R T 2
    285 L P L R T P W T R 2
    297 C P T S S S T Y D 2
    298 P T S S S T Y D S 2
    302 S T Y D S L S P Y 2
    303 T Y D S L S P Y G 2
    309 P Y G P R N P L P 2
    331 K P A R H C Q G Q 2
    342 N V L A R G K P Q 2
    343 V L A R G K P Q R 2
    348 K P Q R K P K S E 2
    356 E N N S W Y V E N 2
    357 N N S W Y V E N G 2
    364 N G R P A D L A G 2
    388 E G L G G K Q K D 2
    393 K Q K D K E R K A 2
    395 K D K E R K A E N 2
    396 D K E R K A E N G 2
    397 K E R K A E N G P 2
    14 L H I V V E S I R 1
    20 S I R D H S G Q K 1
    24 H S G Q K M K Q D 1
    41 T K V T G I I T Q 1
    43 V T G I I T Q G A 1
    44 T G I I T Q G A K 1
    47 I T Q G A K D F G 1
    54 F G H V Q F V G S 1
    58 Q F V G S Y K L A 1
    62 S Y K L A Y S N D 1
    70 D G E H W T V Y Q 1
    73 H W T V Y Q D E K 1
    74 W T V Y Q D E K Q 1
    76 V Y Q D E K Q R K 1
    85 D K V L L G R K A 1
    97 S C E G I N I S G 1
    102 N I S G S F C R N 1
    106 S F C R N K L K Y 1
    118 L H K R M N T N P 1
    123 N T N P S R R P Y 1
    134 Q V P S R I F W R 1
    136 P S R I F W R Q E 1
    139 I F W R Q E K A D 1
    143 Q E K A D G G S C 1
    146 A D G G S C C P Q 1
    150 S C C P Q G H A S 1
    152 C P Q G H A S E A 1
    157 A S E A Y K K V C 1
    169 A P H E V G W K Y 1
    177 Y Q A V T A T L E 1
    201 Q L M R L Q K Q A 1
    213 M K K K I D K Y T 1
    217 I D K Y T E S P G 1
    220 Y T E S P G G G S 1
    221 T E S P G G G S P 1
    244 A T R A T R I G H 1
    267 P P A L S A R A P 1
    270 L S A R A P V P A 1
    275 P V P A A S P A A 1
    280 S P A A W L P L R 1
    282 A A W L P L R T P 1
    284 W L P L R T P W T 1
    286 P L R T P W T R P 1
    290 P W T R P S S C P 1
    291 W T R P S S C P T 1
    295 S S C P T S S S T 1
    304 Y D S L S P Y G P 1
    307 L S P Y G P R N P 1
    310 Y G P R N P L P N 1
    316 L P N P R H S P S 1
    317 P N P R H S P S G 1
    323 P S G G G G L K K 1
    329 L K K P A R H C Q 1
    332 P A R H C Q G Q K 1
    337 Q G Q K H N V L A 1
    339 Q K H N V L A R G 1
    341 H N V L A R G K P 1
    344 L A R G K P Q R K 1
    355 S E N N S W Y V E 1
    360 W Y V E N G R P A 1
    361 Y V E N G R P A D 1
    363 E N G R P A D L A 1
    369 D L A G S G Y C G 1
    370 L A G S G Y C G A 1
    379 L W K A I E S L E 1
    380 W K A I E S L E E 1
    383 I E S L E E G L G 1
    387 E E G L G G K Q K 1
  • [0833]
    TABLE XXXIII
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 score ID NO.
    151P3D4 v.1: HLA Peptide Scoring Results B*4402 9-mers SYFPEITHI
    42 V E A E Q A K V F 24
    146 E D D T V V V A L 18
    186 A V I A S F D Q L 18
    153 A L D L Q G V V F 17
    162 P Y F P R L G R Y 17
    34 A E N G P H L L V 16
    69 A F G S G I H K I 16
    159 V V F P Y F P R L 16
    230 N T V P G V R N Y 16
    284 A Q I A K V G Q I 16
    1 M K S L L L L V L 15
    62 K F Y R D P T A F 15
    121 D A S L V I T D L 15
    145 L E D D T V V V A 15
    255 S N F N G R F Y Y 15
    264 L I H P T K L T Y 15
    288 K V G Q I F A A W 15
    329 E A A V R F V G F 15
    2 K S L L L L V L I 14
    10 I S I C W A D H L 14
    33 Q A E N G P H L L 14
    44 A E Q A K V F S H 14
    51 S H R G G N V T L 14
    56 N V T L P C K F Y 14
    73 G I H K I R I K W 14
    90 K E V D V F V S M 14
    97 S M G Y H K K T Y 14
    180 A C L D Q D A V I 14
    183 D Q D A V I A S F 14
    190 S F D Q L Y D A W 14
    209 W L S D G S V Q Y 14
    256 N F N G R F Y Y L 14
    278 A C L N D G A Q I 14
    291 Q I F A A W K I L 14
    293 F A A W K I L G Y 14
    336 G F P D K K H K L 14
    337 F P D K K H K L Y 14
    345 Y G V Y C F R A Y 14
    6 L L V L I S I C W 13
    22 Y T L D H D R A I 13
    55 G N V T L P C K F 13
    87 D Y L K E V D V F 13
    118 S D S D A S L V I 13
    123 S L V I T D L T L 13
    126 I T D L T L E D Y 13
    131 L E D Y G R Y K C 13
    137 Y K C E V I E G L 13
    243 K D K S R Y D V F 13
    249 D V F C F T S N F 13
    262 Y Y L I H P T K L 13
    290 G Q I F A A W K I 13
    326 S P T E A A V R F 13
    4 L L L L V L I S I 12
    16 D H L S D N Y T L 12
    24 L D H D R A I H I 12
    76 K I R I K W T K L 12
    80 K W T K L T S D Y 12
    105 Y G G Y Q G R V F 12
    106 G G Y Q G R V F L 12
    116 G G S D S D A S L 12
    142 I E G L E D D T V 12
    148 D T V V V A L D L 12
    155 D L Q G V V F P Y 12
    164 F P R L G R Y N L 12
    166 R L G R Y N L N F 12
    175 H E A Q Q A C L D 12
    194 L Y D A W R G G L 12
    196 D A W R G G L D W 12
    202 L D W C N A G W L 12
    233 P G V R N Y G F W 12
    245 K S R Y D V F C F 12
    253 F T S N F N G R F 12
    254 T S N F N G R F Y 12
    273 D E A V Q A C L N 12
    300 G Y D R C D A G W 12
    308 W L A D G S V R Y 12
    310 A D G S V R Y P I 12
    328 T E A A V R F V G 12
    340 K K H K L Y G V Y 12
    342 H K L Y G V Y C F 12
    14 W A D H L S D N Y 11
    32 I Q A E N G P H L 11
    81 W T K L T S D Y L 11
    129 L T L E D Y G R Y 11
    139 C E V I E G L E D 11
    156 L Q G V V F P Y F 11
    187 V I A S F D Q L Y 11
    201 G L D W C N A G W 11
    223 R E P C G G Q N T 11
    232 V P G V R N Y G F 11
    240 F W D K D K S R Y 11
    301 Y D R C D A G W L 11
    92 V D V F V S M G Y 10
    100 Y H K K T Y G G Y 10
    174 F H E A Q Q A C L 10
    257 F N G R F Y Y L I 10
    272 Y D E A V Q A C L 10
    285 Q I A K V G Q I F 10
    71 G S G I H K I R I 9
    134 Y G R Y K C E V I 9
    211 S D G S V Q Y P I 9
    287 A K V G Q I F A A 9
    35 E N G P H L L V E 8
    66 D P T A F G S G I 8
    72 S G I H K I R I K 8
    77 I R I K W T K L T 7
    122 A S L V I T D L T 7
    189 A S F D Q L Y D A 7
    215 V Q Y P I T K P R 7
    263 Y L I H P T K L T 7
    335 V G F P D K K H K 7
    8 V L I S I C W A D 6
    25 D H D R A I H I Q 6
    74 I H K I R I K W T 6
    75 H K I R I K W T K 6
    124 L V I T D L T L E 6
    132 E D Y G R Y K C E 6
    140 E V I E G L E D D 6
    217 Y P I T K P R E P 6
    316 Y P I S R P R R R 6
    318 I S R P R R R C S 6
    324 R C S P T E A A V 6
    3 S L L L L V L I S 5
    15 A D H L S D N Y T 5
    27 D R A I H I Q A E 5
    64 Y R D P T A F G S 5
    70 F G S G I H K I R 5
    84 L T S D Y L K E V 5
    96 V S M G Y H K K T 5
    165 P R L G R Y N L N 5
    177 A Q Q A C L D Q D 5
    182 L D Q D A V I A S 5
    197 A W R G G L D W C 5
    200 G G L D W C N A G 5
    214 S V Q Y P I T K P 5
    224 E P C G G Q N T V 5
    275 A V Q A C L N D G 5
    280 L N D G A Q I A K 5
    281 N D G A Q I A K V 5
    282 D G A Q I A K V G 5
    294 A A W K I L G Y D 5
    314 V R Y P I S R P R 5
    319 S R P R R R C S P 5
    330 A A V R F V G F P 5
    5 L L L V L I S I C 4
    7 L V L I S I C W A 4
    17 H L S D N Y T L D 4
    18 L S D N Y T L D H 4
    28 R A I H I Q A E N 4
    29 A I H I Q A E N G 4
    30 I H I Q A E N G P 4
    36 N G P H L L V E A 4
    37 G P H L L V E A E 4
    47 A K V F S H R G G 4
    48 K V F S H R G G N 4
    52 H R G G N V T L P 4
    57 V T L P C K F Y R 4
    61 C K F Y R D P T A 4
    68 T A F G S G I H K 4
    91 E V D V F V S M G 4
    107 G Y Q G R V F L K 4
    108 Y Q G R V F L K G 4
    120 S D A S L V I T D 4
    143 E G L E D D T V V 4
    144 G L E D D T V V V 4
    160 V F P Y F P R L G 4
    169 R Y N L N F H E A 4
    170 Y N L N F H E A Q 4
    172 L N F H E A Q Q A 4
    207 A G W L S D G S V 4
    219 I T K P R E P C G 4
    222 P R E P C G G Q N 4
    231 T V P G V R N Y G 4
    259 G R F Y Y L I H P 4
    260 R F Y Y L I H P T 4
    268 T K L T Y D E A V 4
    270 L T Y D E A V Q A 4
    271 T Y D E A V Q A C 4
    277 Q A C L N D G A Q 4
    296 W K I L G Y D R C 4
    297 K I L G Y D R C D 4
    299 L G Y D R C D A G 4
    303 R C D A G W L A D 4
    306 A G W L A D G S V 4
    309 L A D G S V R Y P 4
    313 S V R Y P I S R P 4
    317 P I S R P R R R C 4
    325 C S P T E A A V R 4
    11 S I C W A D H L S 3
    26 H D R A I H I Q A 3
    39 H L L V E A E Q A 3
    43 E A E Q A K V F S 3
    45 E Q A K V F S H R 3
    50 F S H R G G N V T 3
    53 R G G N V T L P C 3
    65 R D P T A F G S G 3
    82 T K L T S D Y L K 3
    83 K L T S D Y L K E 3
    86 S D Y L K E V D V 3
    95 F V S M G Y H K K 3
    109 Q G R V F L K G G 3
    111 R V F L K G G S D 3
    115 K G G S D S D A S 3
    117 G S D S D A S L V 3
    119 D S D A S L V I T 3
    125 V I T D L T L E D 3
    138 K C E V I E G L E 3
    152 V A L D L Q G V V 3
    154 L D L Q G V V F P 3
    163 Y F P R L G R Y N 3
    167 L G R Y N L N F H 3
    173 N F H E A Q Q A C 3
    176 E A Q Q A C L D Q 3
    179 Q A C L D Q D A V 3
    181 C L D Q D A V I A 3
    210 L S D G S V Q Y P 3
    213 G S V Q Y P I T K 3
    220 T K P R E P C G G 3
    226 C G G Q N T V P G 3
    228 G Q N T V P G V R 3
    237 N Y G F W D K D K 3
    238 Y G F W D K D K S 3
    239 G F W D K D K S R 3
    244 D K S R Y D V F C 3
    246 S R Y D V F C F T 3
    251 F C F T S N F N G 3
    252 C F T S N F N G R 3
    261 F Y Y L I H P T K 3
    265 I H P T K L T Y D 3
    274 E A V Q A C L N D 3
    295 A W K I L G Y D R 3
    312 G S V R Y P I S R 3
    323 R R C S P T E A A 3
    331 A V R F V G F P D 3
    332 V R F V G F P D K 3
    333 R F V G F P D K K 3
    334 F V G F P D K K H 3
    341 K H K L Y G V Y C 3
    13 C W A D H L S D N 2
    19 S D N Y T L D H D 2
    20 D N Y T L D H D R 2
    21 N Y T L D H D R A 2
    23 T L D H D R A I H 2
    38 P H L L V E A E Q 2
    40 L L V E A E Q A K 2
    49 V F S H R G G N V 2
    58 T L P C K F Y R D 2
    63 F Y R D P T A F G 2
    78 R I K W T K L T S 2
    79 I K W T K L T S D 2
    85 T S D Y L K E V D 2
    89 L K E V D V F V S 2
    93 D V F V S M G Y H 2
    102 K K T Y G G Y Q G 2
    103 K T Y G G Y Q G R 2
    127 T D L T L E D Y G 2
    130 T L E D Y G R Y K 2
    136 R Y K C E V I E G 2
    147 D D T V V V A L D 2
    149 T V V V A L D L Q 2
    150 V V V A L D L Q G 2
    151 V V A L D L Q G V 2
    161 F P Y F P R L G R 2
    171 N L N F H E A Q Q 2
    184 Q D A V I A S F D 2
    188 I A S F D Q L Y D 2
    192 D Q L Y D A W R G 2
    193 Q L Y D A W R G G 2
    195 Y D A W R G G L D 2
    203 D W C N A G W L S 2
    205 C N A G W L S D G 2
    208 G W L S D G S V Q 2
    225 P C G G Q N T V P 2
    227 G G Q N T V P G V 2
    236 R N Y G F W D K D 2
    241 W D K D K S R Y D 2
    242 D K D K S R Y D V 2
    247 R Y D V F C F T S 2
    258 N G R F Y Y L I H 2
    269 K L T Y D E A V Q 2
    279 C L N D G A Q I A 2
    292 I F A A W K I L G 2
    302 D R C D A G W L A 2
    304 C D A G W L A D G 2
    307 G W L A D G S V R 2
    311 D G S V R Y P I S 2
    315 R Y P I S R P R R 2
    320 R P R R R C S P T 2
    321 P R R R C S P T E 2
    327 P T E A A V R F V 2
    343 K L Y G V Y C F R 2
    9 L I S I C W A D H 1
    12 I C W A D H L S D 1
    41 L V E A E Q A K V 1
    46 Q A K V F S H R G 1
    54 G G N V T L P C K 1
    59 L P C K F Y R D P 1
    60 P C K F Y R D P T 1
    88 Y L K E V D V F V 1
    99 G Y H K K T Y G G 1
    101 H K K T Y G G Y Q 1
    104 T Y G G Y Q G R V 1
    112 V F L K G G S D S 1
    113 F L K G G S D S D 1
    114 L K G G S D S D A 1
    128 D L T L E D Y G R 1
    133 D Y G R Y K C E V 1
    135 G R Y K C E V I E 1
    141 V I E G L E D D T 1
    157 Q G V V F P Y F P 1
    168 G R Y N L N F H E 1
    191 F D Q L Y D A W R 1
    198 W R G G L D W C N 1
    199 R G G L D W C N A 1
    204 W C N A G W L S D 1
    206 N A G W L S D G S 1
    212 D G S V Q Y P I T 1
    216 Q Y P I T K P R E 1
    218 P I T K P R E P C 1
    221 K P R E P C G G Q 1
    229 Q N T V P G V R N 1
    234 G V R N Y G F W D 1
    235 V R N Y G F W D K 1
    248 Y D V F C F T S N 1
    250 V F C F T S N F N 1
    266 H P T K L T Y D E 1
    267 P T K L T Y D E A 1
    283 G A Q I A K V G Q 1
    286 I A K V G Q I F A 1
    289 V G Q I F A A W K 1
    298 I L G Y D R C D A 1
    305 D A G W L A D G S 1
    322 R R R C S P T E A 1
    338 P D K K H K L Y G 1
    339 D K K H K L Y G V 1
    346 G V Y C F R A Y N 1
    151P3D4 v.2: HLA Peptide Scoring Results B*4402 9-mers SYFPEITHI
    209 A E K N M K K K I 25
    362 V E N G R P A D L 23
    158 S E A Y K K V C L 22
    192 A E I H Y R K N K 19
    283 A W L P L R T P W 18
    99 E G I N I S G S F 17
    185 E E K R K E K A E 17
    371 A G S G Y C G A L 17
    51 A K D F G H V Q F 16
    80 E K Q R K D K V L 16
    123 N T N P S R R P Y 16
    226 G G S P R G L G F 16
    378 A L W K A I E S L 16
    387 E E G L G G K Q K 16
    66 A Y S N D G E H W 15
    104 S G S F C R N K L 15
    106 S F C R N K L K Y 15
    125 N P S R R P Y H F 15
    133 F Q V P S R I F W 15
    167 S G A P H E V G W 15
    189 K E K A E I H Y R 15
    212 N M K K K I D K Y 15
    234 F I F K T I A P L 15
    262 S S A H R P P A L 15
    279 A S P A A W L P L 15
    400 K A E N G P H L L 15
    1 M L E H T T K T F 14
    3 E H T T K T F P L 14
    6 T K T F P L R A L 14
    30 K Q D K K V D L L 14
    98 C E G I N I S G S 14
    107 F C R N K L K Y L 14
    109 R N K L K Y L A F 14
    169 A P H E V G W K Y 14
    194 I H Y R K N K Q L 14
    221 T E S P G G G S P 14
    296 S C P T S S S T Y 14
    308 S P Y G P R N P L 14
    8 T F P L R A L H I 13
    18 V E S I R D H S G 13
    46 I I T Q G A K D F 13
    57 V Q F V G S Y K L 13
    59 F V G S Y K L A Y 13
    81 K Q R K D K V L L 13
    110 N K L K Y L A F L 13
    176 K Y Q A V T A T L 13
    224 P G G G S P R G L 13
    231 G L G F I F K T I 13
    276 V P A A S P A A W 13
    302 S T Y D S L S P Y 13
    355 S E N N S W Y V E 13
    382 A I E S L E E G L 13
    383 I E S L E E G L G 13
    13 A L H I V V E S I 12
    29 M K Q D K K V D L 12
    69 N D G E H W T V Y 12
    71 G E H W T V Y Q D 12
    79 D E K Q R K D K V 12
    153 P Q G H A S E A Y 12
    171 H E V G W K Y Q A 12
    184 L E E K R K E K A 12
    228 S P R G L G F I F 12
    336 C Q G Q K H N V L 12
    352 K P K S E N N S W 12
    353 P K S E N N S W Y 12
    367 P A D L A G S G Y 12
    375 Y C G A L W K A I 12
    386 L E E G L G G K Q 12
    397 K E R K A E N G P 12
    2 L E H T T K T F P 11
    38 L V P T K V T G I 11
    55 G H V Q F V G S Y 11
    93 A V V V S C E G I 11
    131 Y H F Q V P S R I 11
    132 H F Q V P S R I F 11
    188 R K E K A E I H Y 11
    197 R K N K Q L M R L 11
    227 G S P R G L G F I 11
    242 L A A T R A T R I 11
    277 P A A S P A A W L 11
    299 T S S S T Y D S L 11
    321 H S P S G G G G L 11
    372 G S G Y C G A L W 11
    399 R K A E N G P H L 11
    95 V V S C E G I N I 10
    143 Q E K A D G G S C 10
    186 E K R K E K A E I 10
    39 V P T K V T G I I 9
    272 A R A P V P A A S 9
    278 A A S P A A W L P 9
    7 K T F P L R A L H 8
    86 K V L L G R K A V 8
    240 A P L A A T R A T 8
    264 A H R P P A L S A 8
    314 N P L P N P R H S 8
    42 K V T G I I T Q G 7
    150 S C C P Q G H A S 7
    233 G F I F K T I A P 7
    237 K T I A P L A A T 7
    265 H R P P A L S A R 7
    269 A L S A R A P V P 7
    274 A P V P A A S P A 7
    282 A A W L P L R T P 7
    364 N G R P A D L A G 7
    11 L R A L H I V V E 6
    19 E S I R D H S G Q 6
    41 T K V T G I I T Q 6
    105 G S F C R N K L K 6
    157 A S E A Y K K V C 6
    182 A T L E E K R K E 6
    230 R G L G F I F K T 6
    243 A A T R A T R I G 6
    324 S G G G G L K K P 6
    346 R G K P Q R K P K 6
    394 Q K D K E R K A E 6
    34 K V D L L V P T K 5
    36 D L L V P T K V T 5
    37 L L V P T K V T G 5
    44 T G I I T Q G A K 5
    45 G I I T Q G A K D 5
    52 K D F G H V Q F V 5
    113 K Y L A F L H K R 5
    116 A F L H K R M N T 5
    127 S R R P Y H F Q V 5
    134 Q V P S R I F W R 5
    137 S R I F W R Q E K 5
    139 I F W R Q E K A D 5
    193 E I H Y R K N K Q 5
    199 N K Q L M R L Q K 5
    200 K Q L M R L Q K Q 5
    201 Q L M R L Q K Q A 5
    215 K K I D K Y T E S 5
    238 T I A P L A A T R 5
    244 A T R A T R I G H 5
    245 T R A T R I G H P 5
    248 T R I G H P G G R 5
    250 I G H P G G R T P 5
    253 P G G R T P R A G 5
    255 G R T P R A G S S 5
    260 A G S S A H R P P 5
    267 P P A L S A R A P 5
    287 L R T P W T R P S 5
    306 S L S P Y G P R N 5
    309 P Y G P R N P L P 5
    310 Y G P R N P L P N 5
    312 P R N P L P N P R 5
    329 L K K P A R H C Q 5
    338 G Q K H N V L A R 5
    342 N V L A R G K P Q 5
    345 A R G K P Q R K P 5
    348 K P Q R K P K S E 5
    363 E N G R P A D L A 5
    381 K A I E S L E E G 5
    388 E G L G G K Q K D 5
    9 F P L R A L H I V 4
    12 R A L H I V V E S 4
    16 I V V E S I R D H 4
    27 Q K M K Q D K K V 4
    28 K M K Q D K K V D 4
    33 K K V D L L V P T 4
    35 V D L L V P T K V 4
    58 Q F V G S Y K L A 4
    68 S N D G E H W T V 4
    82 Q R K D K V L L G 4
    87 V L L G R K A V V 4
    88 L L G R K A V V V 4
    96 V S C E G I N I S 4
    97 S C E G I N I S G 4
    102 N I S G S F C R N 4
    115 L A F L H K R M N 4
    135 V P S R I F W R Q 4
    138 R I F W R Q E K A 4
    146 A D G G S C C P Q 4
    156 H A S E A Y K K V 4
    159 E A Y K K V C L S 4
    160 A Y K K V C L S G 4
    165 C L S G A P H E V 4
    172 E V G W K Y Q A V 4
    179 A V T A T L E E K 4
    208 Q A E K N M K K K 4
    210 E K N M K K K I D 4
    222 E S P G G G S P R 4
    235 I F K T I A P L A 4
    236 F K T I A P L A A 4
    263 S A H R P P A L S 4
    271 S A R A P V P A A 4
    284 W L P L R T P W T 4
    285 L P L R T P W T R 4
    295 S S C P T S S S T 4
    300 S S S T Y D S L S 4
    315 P L P N P R H S P 4
    316 L P N P R H S P S 4
    320 R H S P S G G G G 4
    322 S P S G G G G L K 4
    330 K K P A R H C Q G 4
    333 A R H C Q G Q K H 4
    361 Y V E N G R P A D 4
    368 A D L A G S G Y C 4
    384 E S L E E G L G G 4
    393 K Q K D K E R K A 4
    5 T T K T F P L R A 3
    14 L H I V V E S I R 3
    20 S I R D H S G Q K 3
    23 D H S G Q K M K Q 3
    24 H S G Q K M K Q D 3
    32 D K K V D L L V P 3
    50 G A K D F G H V Q 3
    72 E H W T V Y Q D E 3
    75 T V Y Q D E K Q R 3
    77 Y Q D E K Q R K D 3
    78 Q D E K Q R K D K 3
    83 R K D K V L L G R 3
    85 D K V L L G R K A 3
    89 L G R K A V V V S 3
    101 I N I S G S F C R 3
    111 K L K Y L A F L H 3
    112 L K Y L A F L H K 3
    117 F L H K R M N T N 3
    119 H K R M N T N P S 3
    120 K R M N T N P S R 3
    121 R M N T N P S R R 3
    124 T N P S R R P Y H 3
    128 R R P Y H F Q V P 3
    144 E K A D G G S C C 3
    145 K A D G G S C C P 3
    162 K K V C L S G A P 3
    174 G W K Y Q A V T A 3
    175 W K Y Q A V T A T 3
    178 Q A V T A T L E E 3
    181 T A T L E E K R K 3
    183 T L E E K R K E K 3
    190 E K A E I H Y R K 3
    191 K A E I H Y R K N 3
    198 K N K Q L M R L Q 3
    202 L M R L Q K Q A E 3
    211 K N M K K K I D K 3
    213 M K K K I D K Y T 3
    216 K I D K Y T E S P 3
    229 P R G L G F I F K 3
    239 I A P L A A T R A 3
    243 R A T R I G H P G 3
    247 A T R I G H P G G 3
    251 G H P G G R T P R 3
    252 H P G G R T P R A 3
    270 L S A R A P V P A 3
    275 P V P A A S P A A 3
    280 S P A A W L P L R 3
    289 T P W T R P S S C 3
    291 W T R P S S C P T 3
    304 Y D S L S P Y G P 3
    307 L S P Y G P R N P 3
    323 P S G G G G L K K 3
    325 G G G G L K K P A 3
    326 G G G L K K P A R 3
    340 K H N V L A R G K 3
    341 H N V L A R G K P 3
    347 G K P Q R K P K S 3
    350 Q R K P K S E N N 3
    354 K S E N N S W Y V 3
    356 E N N S W Y V E N 3
    357 N N S W Y V E N G 3
    373 S G Y C G A L W K 3
    374 G Y C G A L W K A 3
    377 G A L W K A I E S 3
    389 G L G G K Q K D K 3
    4 H T T K T F P L R 2
    10 P L R A L H I V V 2
    17 V V E S I R D H S 2
    21 I R D H S G Q K M 2
    22 R D H S G Q K M K 2
    31 Q D K K V D L L V 2
    43 V T G I I T Q G A 2
    54 F G H V Q F V G S 2
    60 V G S Y K L A Y S 2
    62 S Y K L A Y S N D 2
    63 Y K L A Y S N D G 2
    67 Y S N D G E H W T 2
    70 D G E H W T V Y Q 2
    84 K D K V L L G R K 2
    90 G R K A V V V S C 2
    114 Y L A F L H K R M 2
    122 M N T N P S R R P 2
    126 P S R R P Y H F Q 2
    136 P S R I F W R Q E 2
    148 G G S C C P Q G H 2
    152 C P Q G H A S E A 2
    155 G H A S E A Y K K 2
    163 K V C L S G A P H 2
    164 V C L S G A P H E 2
    168 G A P H E V G W K 2
    170 P H E V G W K Y Q 2
    177 Y Q A V T A T L E 2
    180 V T A T L E E K R 2
    187 K R K E K A E I H 2
    195 H Y R K N K Q L M 2
    196 Y R K N K Q L M R 2
    204 R L Q K Q A E K N 2
    205 L Q K Q A E K N M 2
    207 K Q A E K N M K K 2
    214 K K K I D K Y T E 2
    219 K Y T E S P G G G 2
    223 S P G G G S P R G 2
    225 G G G S P R G L G 2
    232 L G F I F K T I A 2
    241 P L A A T R A T R 2
    254 G G R T P R A G S 2
    256 R T P R A G S S A 2
    257 T P R A G S S A H 2
    259 R A G S S A H R P 2
    261 G S S A H R P P A 2
    268 P A L S A R A P V 2
    273 R A P V P A A S P 2
    281 P A A W L P L R T 2
    288 R T P W T R P S S 2
    292 T R P S S C P T S 2
    293 R P S S C P T S S 2
    294 P S S C P T S S S 2
    298 P T S S S T Y D S 2
    301 S S T Y D S L S P 2
    311 G P R N P L P N P 2
    313 R N P L P N P R H 2
    317 P N P R H S P S G 2
    318 N P R H S P S G G 2
    327 G G L K K P A R H 2
    328 G L K K P A R H C 2
    331 K P A R H C Q G Q 2
    334 R H C Q G Q K H N 2
    335 H C Q G Q K H N V 2
    337 Q G Q K H N V L A 2
    339 Q K H N V L A R G 2
    343 V L A R G K P Q R 2
    344 L A R G K P Q R K 2
    351 R K P K S E N N S 2
    358 N S W Y V E N G R 2
    360 W Y V E N G R P A 2
    365 G R P A D L A G S 2
    366 R P A D L A G S G 2
    379 L W K A I E S L E 2
    385 S L E E G L G G K 2
    391 G G K Q K D K E R 2
    395 K D K E R K A E N 2
    396 D K E R K A E N G 2
    398 E R K A E N G P H 2
    15 H I V V E S I R D 1
    25 S G Q K M K Q D K 1
    26 G Q K M K Q D K K 1
    40 P T K V T G I I T 1
    47 I T Q G A K D F G 1
    49 Q G A K D F G H V 1
    53 D F G H V Q F V G 1
    61 G S Y K L A Y S N 1
    64 K L A Y S N D G E 1
    65 L A Y S N D G E H 1
    74 W T V Y Q D E K Q 1
    76 V Y Q D E K Q R K 1
    91 R K A V V V S C E 1
    92 K A V V V S C E G 1
    103 I S G S F C R N K 1
    108 C R N K L K Y L A 1
    118 L H K R M N T N P 1
    129 R P Y H F Q V P S 1
    130 P Y H F Q V P S R 1
    141 W R Q E K A D G G 1
    147 D G G S C C P Q G 1
    151 C C P Q G H A S E 1
    161 Y K K V C L S G A 1
    166 L S G A P H E V G 1
    173 V G W K Y Q A V T 1
    203 M R L Q K Q A E K 1
    206 Q K Q A E K N M K 1
    218 D K Y T E S P G G 1
    258 P R A G S S A H R 1
    266 R P P A L S A R A 1
    286 P L R T P W T R P 1
    290 P W T R P S S C P 1
    303 T Y D S L S P Y G 1
    305 D S L S P Y G P R 1
    332 P A R H C Q G Q K 1
    359 S W Y V E N G R P 1
    369 D L A G S G Y C G 1
    376 C G A L W K A I E 1
    380 W K A I E S L E E 1
    390 L G G K Q K D K E 1
  • [0834]
    TABLE XXXIV
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 score ID NO.
    151P3D4 v.1: HLA Peptide
    Scoring Results B*5101 9-mers SYFPEITHI
    66 D P T A F G S G I 25
    152 V A L D L Q G V V 25
    121 D A S L V I T D L 24
    134 Y G R Y K C E V I 22
    143 E G L E D D T V V 22
    224 E P C G G Q N T V 22
    4 L L L L V L I S I 18
    179 Q A C L D Q D A V 18
    33 Q A E N G P H L L 17
    106 G G Y Q G R V F L 17
    164 F P R L G R Y N L 17
    227 G G Q N T V P G V 17
    309 L A D G S V R Y P 17
    22 Y T L D H D R A I 16
    24 L D H D R A I H I 16
    68 T A F G S G I H K 16
    161 F P Y F P R L G R 16
    180 A C L D Q D A V I 16
    196 D A W R G G L D W 16
    207 A G W L S D G S V 16
    217 Y P I T K P R E P 16
    16 D H L S D N Y T L 15
    88 Y L K E V D V F V 15
    118 S D S D A S L V I 15
    282 D G A Q I A K V G 15
    305 D A G W L A D G S 15
    306 A G W L A D G S V 15
    316 Y P I S R P R R R 15
    326 S P T E A A V R F 15
    2 K S L L L L V L I 14
    59 L P C K F Y R D P 14
    84 L T S D Y L K E V 14
    86 S D Y L K E V D V 14
    116 G G S D S D A S L 14
    148 D T V V V A L D L 14
    185 D A V I A S F D Q 14
    242 D K D K S R Y D V 14
    262 Y Y L I H P T K L 14
    284 A Q I A K V G Q I 14
    293 F A A W K I L G Y 14
    337 F P D K K H K L Y 14
    339 D K K H K L Y G V 14
    41 L V E A E Q A K V 13
    69 A F G S G I H K I 13
    98 M G Y H K K T Y G 13
    133 D Y G R Y K C E V 13
    137 Y K C E V I E G L 13
    144 G L E D D T V V V 13
    188 I A S F D Q L Y D 13
    268 T K L T Y D E A V 13
    281 N D G A Q I A K V 13
    286 I A K V G Q I F A 13
    290 G Q I F A A W K I 13
    294 A A W K I L G Y D 13
    299 L G Y D R C D A G 13
    1 M K S L L L L V L 12
    37 G P H L L V E A E 12
    71 G S G I H K I R I 12
    87 D Y L K E V D V F 12
    104 T Y G G Y Q G R V 12
    105 Y G G Y Q G R V F 12
    142 I E G L E D D T V 12
    146 E D D T V V V A L 12
    211 S D G S V Q Y P I 12
    221 K P R E P C G G Q 12
    232 V P G V R N Y G F 12
    278 A C L N D G A Q I 12
    310 A D G S V R Y P I 12
    327 P T E A A V R F V 12
    329 E A A V R F V G F 12
    330 A A V R F V G F P 12
    32 I Q A E N G P H L 11
    43 E A E Q A K V F S 11
    46 Q A K V F S H R G 11
    51 S H R G G N V T L 11
    159 V V F P Y F P R L 11
    176 E A Q Q A C L D Q 11
    206 N A G W L S D G S 11
    238 Y G F W D K D K S 11
    257 F N G R F Y Y L I 11
    266 H P T K L T Y D E 11
    272 Y D E A V Q A C L 11
    274 E A V Q A C L N D 11
    283 G A Q I A K V G Q 11
    336 G F P D K K H K L 11
    10 I S I C W A D H L 10
    14 W A D H L S D N Y 10
    28 R A I H I Q A E N 10
    34 A E N G P H L L V 10
    36 N G P H L L V E A 10
    76 K I R I K W T K L 10
    123 S L V I T D L T L 10
    145 L E D D T V V V A 10
    151 V V A L D L Q G V 10
    167 L G R Y N L N F H 10
    200 G G L D W C N A G 10
    202 L D W C N A G W L 10
    212 D G S V Q Y P I T 10
    277 Q A C L N D G A Q 10
    311 D G S V R Y P I S 10
    320 R P R R R C S P T 10
    335 V G F P D K K H K 10
    345 Y G V Y C F R A Y 10
    20 D N Y T L D H D R 9
    49 V F S H R G G N V 9
    53 R G G N V T L P C 9
    70 F G S G I H K I R 9
    72 S G I H K I R I K 9
    117 G S D S D A S L V 9
    155 D L Q G V V F P Y 9
    186 A V I A S F D Q L 9
    194 L Y D A W R G G L 9
    256 N F N G R F Y Y L 9
    258 N G R F Y Y L I H 9
    270 L T Y D E A V Q A 9
    291 Q I F A A W K I L 9
    301 Y D R C D A G W L 9
    324 R C S P T E A A V 9
    42 V E A E Q A K V F 8
    54 G G N V T L P C K 8
    108 Y Q G R V F L K G 8
    109 Q G R V F L K G G 8
    119 D S D A S L V I T 8
    147 D D T V V V A L D 8
    174 F H E A Q Q A C L 8
    183 D Q D A V I A S F 8
    192 D Q L Y D A W R G 8
    246 S R Y D V F C F T 8
    289 V G Q I F A A W K 8
    79 I K W T K L T S D 7
    81 W T K L T S D Y L 7
    89 L K E V D V F V S 7
    129 L T L E D Y G R Y 7
    154 L D L Q G V V F P 7
    157 Q G V V F P Y F P 7
    226 C G G Q N T V P G 7
    228 G Q N T V P G V R 7
    236 R N Y G F W D K D 7
    261 F Y Y L I H P T K 7
    265 I H P T K L T Y D 7
    328 T E A A V R F V G 7
    343 K L Y G V Y C F R 7
    7 L V L I S I C W A 6
    62 K F Y R D P T A F 6
    93 D V F V S M G Y H 6
    96 V S M G Y H K K T 6
    115 K G G S D S D A S 6
    132 E D Y G R Y K C E 6
    135 G R Y K C E V I E 6
    168 G R Y N L N F H E 6
    182 L D Q D A V I A S 6
    193 Q L Y D A W R G G 6
    199 R G G L D W C N A 6
    210 L S D G S V Q Y P 6
    215 V Q Y P I T K P R 6
    225 P C G G Q N T V P 6
    231 T V P G V R N Y G 6
    233 P G V R N Y G F W 6
    244 D K S R Y D V F C 6
    264 L I H P T K L T Y 6
    307 G W L A D G S V R 6
    314 V R Y P I S R P R 6
    325 C S P T E A A V R 6
    3 S L L L L V L I S 5
    5 L L L V L I S I C 5
    12 I C W A D H L S D 5
    25 D H D R A I H I Q 5
    27 D R A I H I Q A E 5
    35 E N G P H L L V E 5
    45 E Q A K V F S H R 5
    50 F S H R G G N V T 5
    58 T L P C K F Y R D 5
    82 T K L T S D Y L K 5
    90 K E V D V F V S M 5
    103 K T Y G G Y Q G R 5
    120 S D A S L V I T D 5
    124 L V I T D L T L E 5
    156 L Q G V V F P Y F 5
    208 G W L S D G S V Q 5
    213 G S V Q Y P I T K 5
    249 D V F C F T S N F 5
    251 F C F T S N F N G 5
    259 G R F Y Y L I H P 5
    260 R F Y Y L I H P T 5
    271 T Y D E A V Q A C 5
    273 D E A V Q A C L N 5
    297 K I L G Y D R C D 5
    302 D R C D A G W L A 5
    18 L S D N Y T L D H 4
    38 P H L L V E A E Q 4
    40 L L V E A E Q A K 4
    44 A E Q A K V F S H 4
    52 H R G G N V T L P 4
    55 G N V T L P C K F 4
    64 Y R D P T A F G S 4
    73 G I H K I R I K W 4
    74 I H K I R I K W T 4
    77 I R I K W T K L T 4
    78 R I K W T K L T S 4
    85 T S D Y L K E V D 4
    100 Y H K K T Y G G Y 4
    112 V F L K G G S D S 4
    114 L K G G S D S D A 4
    126 I T D L T L E D Y 4
    127 T D L T L E D Y G 4
    128 D L T L E D Y G R 4
    130 T L E D Y G R Y K 4
    131 L E D Y G R Y K C 4
    153 A L D L Q G V V F 4
    160 V F P Y F P R L G 4
    163 Y F P R L G R Y N 4
    165 P R L G R Y N L N 4
    170 Y N L N F H E A Q 4
    172 L N F H E A Q Q A 4
    203 D W C N A G W L S 4
    214 S V Q Y P I T K P 4
    230 N T V P G V R N Y 4
    239 G F W D K D K S R 4
    248 Y D V F C F T S N 4
    280 L N D G A Q I A K 4
    292 I F A A W K I L G 4
    333 R F V G F P D K K 4
    334 F V G F P D K K H 4
    340 K K H K L Y G V Y 4
    342 H K L Y G V Y C F 4
    344 L Y G V Y C F R A 4
    346 G V Y C F R A Y N 4
    6 L L V L I S I C W 3
    19 S D N Y T L D H D 3
    30 I H I Q A E N G P 3
    39 H L L V E A E Q A 3
    57 V T L P C K F Y R 3
    61 C K F Y R D P T A 3
    65 R D P T A F G S G 3
    83 K L T S D Y L K E 3
    92 V D V F V S M G Y 3
    94 V F V S M G Y H K 3
    95 F V S M G Y H K K 3
    97 S M G Y H K K T Y 3
    107 G Y Q G R V F L K 3
    125 V I T D L T L E D 3
    136 R Y K C E V I E G 3
    140 E V I E G L E D D 3
    150 V V V A L D L Q G 3
    162 P Y F P R L G R Y 3
    166 R L G R Y N L N F 3
    173 N F H E A Q Q A C 3
    189 A S F D Q L Y D A 3
    216 Q Y P I T K P R E 3
    220 T K P R E P C G G 3
    240 F W D K D K S R Y 3
    241 W D K D K S R Y D 3
    243 K D K S R Y D V F 3
    250 V F C F T S N F N 3
    253 F T S N F N G R F 3
    263 Y L I H P T K L T 3
    269 K L T Y D E A V Q 3
    275 A V Q A C L N D G 3
    285 Q I A K V G Q I F 3
    308 W L A D G S V R Y 3
    312 G S V R Y P I S R 3
    315 R Y P I S R P R R 3
    318 I S R P R R R C S 3
    322 R R R C S P T E A 3
    332 V R F V G F P D K 3
    9 L I S I C W A D H 2
    13 C W A D H L S D N 2
    15 A D H L S D N Y T 2
    17 H L S D N Y T L D 2
    21 N Y T L D H D R A 2
    26 H D R A I H I Q A 2
    31 H I Q A E N G P H 2
    47 A K V F S H R G G 2
    56 N V T L P C K F Y 2
    63 F Y R D P T A F G 2
    75 H K I R I K W T K 2
    91 E V D V F V S M G 2
    99 G Y H K K T Y G G 2
    101 H K K T Y G G Y Q 2
    111 R V F L K G G S D 2
    113 F L K G G S D S D 2
    122 A S L V I T D L T 2
    141 V I E G L E D D T 2
    149 T V V V A L D L Q 2
    177 A Q Q A C L D Q D 2
    181 C L D Q D A V I A 2
    191 F D Q L Y D A W R 2
    195 Y D A W R G G L D 2
    197 A W R G G L D W C 2
    204 W C N A G W L S D 2
    205 C N A G W L S D G 2
    209 W L S D G S V Q Y 2
    219 I T K P R E P C G 2
    229 Q N T V P G V R N 2
    235 V R N Y G F W D K 2
    237 N Y G F W D K D K 2
    245 K S R Y D V F C F 2
    247 R Y D V F C F T S 2
    252 C F T S N F N G R 2
    254 T S N F N G R F Y 2
    276 V Q A C L N D G A 2
    279 C L N D G A Q I A 2
    287 A K V G Q I F A A 2
    298 I L G Y D R C D A 2
    303 R C D A G W L A D 2
    304 C D A G W L A D G 2
    313 S V R Y P I S R P 2
    317 P I S R P R R R C 2
    321 P R R R C S P T E 2
    331 A V R F V G F P D 2
    338 P D K K H K L Y G 2
    341 K H K L Y G V Y C 2
    8 V L I S I C W A D 1
    23 T L D H D R A I H 1
    29 A I H I Q A E N G 1
    48 K V F S H R G G N 1
    60 P C K F Y R D P T 1
    80 K W T K L T S D Y 1
    139 C E V I E G L E D 1
    169 R Y N L N F H E A 1
    171 N L N F H E A Q Q 1
    175 H E A Q Q A C L D 1
    184 Q D A V I A S F D 1
    187 V I A S F D Q L Y 1
    198 W R G G L D W C N 1
    201 G L D W C N A G W 1
    218 P I T K P R E P C 1
    223 R E P C G G Q N T 1
    234 G V R N Y G F W D 1
    255 S N F N G R F Y Y 1
    267 P T K L T Y D E A 1
    288 K V G Q I F A A W 1
    296 W K I L G Y D R C 1
    319 S R P R R R C S P 1
    151P3D4 v.2: HLA Peptide
    Scoring Results B*5101 9-mers SYFPEITHI
    242 L A A T R A T R I 26
    39 V P T K V T G I I 24
    156 H A S E A Y K K V 23
    9 F P L R A L H I V 22
    308 S P Y G P R N P L 22
    268 P A L S A R A P V 20
    38 L V P T K V T G I 18
    159 E A Y K K V C L S 18
    285 L P L R T P W T R 18
    35 V D L L V P T K V 17
    49 Q G A K D F G H V 17
    131 Y H F Q V P S R I 17
    277 P A A S P A A W L 17
    400 K A E N G P H L L 17
    65 L A Y S N D G E H 16
    88 L L G R K A V V V 16
    169 A P H E V G W K Y 16
    224 P G G G S P R G L 16
    239 I A P L A A T R A 16
    314 N P L P N P R H S 16
    344 L A R G K P Q R K 16
    8 T F P L R A L H I 15
    12 R A L H I V V E S 15
    87 V L L G R K A V V 15
    89 L G R K A V V V S 15
    104 S G S F C R N K L 15
    129 R P Y H F Q V P S 15
    194 I H Y R K N K Q L 15
    282 A A W L P L R T P 15
    377 G A L W K A I E S 15
    13 A L H I V V E S I 14
    50 G A K D F G H V Q 14
    79 D E K Q R K D K V 14
    115 L A F L H K R M N 14
    208 Q A E K N M K K K 14
    209 A E K N M K K K I 14
    231 G L G F I F K T I 14
    240 A P L A A T R A T 14
    276 V P A A S P A A W 14
    289 T P W T R P S S C 14
    371 A G S G Y C G A L 14
    375 Y C G A L W K A I 14
    381 K A I E S L E E G 14
    10 P L R A L H I V V 13
    125 N P S R R P Y H F 13
    135 V P S R I F W R Q 13
    168 G A P H E V G W K 13
    173 V G W K Y Q A V T 13
    181 T A T L E E K R K 13
    191 K A E I H Y R K N 13
    259 R A G S S A H R P 13
    266 R P P A L S A R A 13
    267 P P A L S A R A P 13
    271 S A R A P V P A A 13
    281 P A A W L P L R T 13
    318 N P R H S P S G G 13
    348 K P Q R K P K S E 13
    27 Q K M K Q D K K V 12
    31 Q D K K V D L L V 12
    52 K D F G H V Q F V 12
    92 K A V V V S C E G 12
    95 V V S C E G I N I 12
    110 N K L K Y L A F L 12
    152 C P Q G H A S E A 12
    178 Q A V T A T L E E 12
    223 S P G G G S P R G 12
    227 G S P R G L G F I 12
    230 R G L G F I F K T 12
    252 H P G G R T P R A 12
    257 T P R A G S S A H 12
    273 R A P V P A A S P 12
    280 S P A A W L P L R 12
    293 R P S S C P T S S 12
    297 C P T S S S T Y D 12
    316 L P N P R H S P S 12
    327 G G L K K P A R H 12
    352 K P K S E N N S W 12
    366 R P A D L A G S G 12
    370 L A G S G Y C G A 12
    373 S G Y C G A L W K 12
    68 S N D G E H W T V 11
    70 D G E H W T V Y Q 11
    80 E K Q R K D K V L 11
    86 K V L L G R K A V 11
    93 A V V V S C E G I 11
    145 K A D G G S C C P 11
    176 K Y Q A V T A T L 11
    186 E K R K E K A E I 11
    228 S P R G L G F I F 11
    234 F I F K T I A P L 11
    243 A A T R A T R I G 11
    250 I G H P G G R T P 11
    263 S A H R P P A L S 11
    274 A P V P A A S P A 11
    278 A A S P A A W L P 11
    310 Y G P R N P L P N 11
    311 G P R N P L P N P 11
    322 S P S G G G G L K 11
    324 S G G G G L K K P 11
    336 C Q G Q K H N V L 11
    388 E G L G G K Q K D 11
    390 L G G K Q K D K E 11
    29 M K Q D K K V D L 10
    30 K Q D K K V D L L 10
    36 D L L V P T K V T 10
    57 V Q F V G S Y K L 10
    107 F C R N K L K Y L 10
    147 D G G S C C P Q G 10
    165 C L S G A P H E V 10
    232 L G F I F K T I A 10
    246 R A T R I G H P G 10
    331 K P A R H C Q G Q 10
    332 P A R H C Q G Q K 10
    367 P A D L A G S G Y 10
    6 T K T F P L R A L 9
    32 D K K V D L L V P 9
    53 D F G H V Q F V G 9
    54 F G H V Q F V G S 9
    60 V G S Y K L A Y S 9
    112 L K Y L A F L H K 9
    127 S R R P Y H F Q V 9
    172 E V G W K Y Q A V 9
    197 R K N K Q L M R L 9
    218 D K Y T E S P G G 9
    253 P G G R T P R A G 9
    279 A S P A A W L P L 9
    335 H C Q G Q K H N V 9
    337 Q G Q K H N V L A 9
    362 V E N G R P A D L 9
    378 A L W K A I E S L 9
    399 R K A E N G P H L 9
    3 E H T T K T F P L 8
    25 S G Q K M K Q D K 8
    44 T G I I T Q G A K 8
    77 Y Q D E K Q R K D 8
    81 K Q R K D K V L L 8
    154 Q G H A S E A Y K 8
    158 S E A Y K K V C L 8
    299 T S S S T Y D S L 8
    325 G G G G L K K P A 8
    354 K S E N N S W Y V 8
    364 N G R P A D L A G 8
    391 G G K Q K D K E R 8
    11 L R A L H I V V E 7
    16 I V V E S I R D H 7
    23 D H S G Q K M K Q 7
    63 Y K L A Y S N D G 7
    69 N D G E H W T V Y 7
    85 D K V L L G R K A 7
    148 G G S C C P Q G H 7
    167 S G A P H E V G W 7
    175 W K Y Q A V T A T 7
    182 A T L E E K R K E 7
    226 G G S P R G L G F 7
    254 G G R T P R A G S 7
    260 A G S S A H R P P 7
    262 S S A H R P P A L 7
    302 S T Y D S L S P Y 7
    321 H S P S G G G G L 7
    326 G G G L K K P A R 7
    346 R G K P Q R K P K 7
    37 L L V P T K V T G 6
    41 T K V T G I I T Q 6
    61 G S Y K L A Y S N 6
    75 T V Y Q D E K Q R 6
    90 G R K A V V V S C 6
    99 E G I N I S G S F 6
    113 K Y L A F L H K R 6
    157 A S E A Y K K V C 6
    166 L S G A P H E V G 6
    207 K Q A E K N M K K 6
    212 N M K K K I D K Y 6
    225 G G G S P R G L G 6
    305 D S L S P Y G P R 6
    359 S W Y V E N G R P 6
    369 D L A G S G Y C G 6
    376 C G A L W K A I E 6
    382 A I E S L E E G L 6
    396 D K E R K A E N G 6
    1 M L E H T T K T F 5
    2 L E H T T K T F P 5
    5 T T K T F P L R A 5
    21 I R D H S G Q K M 5
    82 Q R K D K V L L G 5
    83 R K D K V L L G R 5
    96 V S C E G I N I S 5
    102 N I S G S F C R N 5
    117 F L H K R M N T N 5
    118 L H K R M N T N P 5
    128 R R P Y H F Q V P 5
    164 V C L S G A P H E 5
    177 Y Q A V T A T L E 5
    183 T L E E K R K E K 5
    184 L E E K R K E K A 5
    200 K Q L M R L Q K Q 5
    269 A L S A R A P V P 5
    292 T R P S S C P T S 5
    296 S C P T S S S T Y 5
    307 L S P Y G P R N P 5
    342 N V L A R G K P Q 5
    358 N S W Y V E N G R 5
    384 E S L E E G L G G 5
    386 L E E G L G G K Q 5
    393 K Q K D K E R K A 5
    14 L H I V V E S I R 4
    28 K M K Q D K K V D 4
    34 K V D L L V P T K 4
    46 I I T Q G A K D F 4
    72 E H W T V Y Q D E 4
    91 R K A V V V S C E 4
    114 Y L A F L H K R M 4
    139 I F W R Q E K A D 4
    141 W R Q E K A D G G 4
    160 A Y K K V C L S G 4
    174 G W K Y Q A V T A 4
    180 V T A T L E E K R 4
    187 K R K E K A E I H 4
    196 Y R K N K Q L M R 4
    203 M R L Q K Q A E K 4
    204 R L Q K Q A E K N 4
    219 K Y T E S P G G G 4
    235 I F K T I A P L A 4
    238 T I A P L A A T R 4
    241 P L A A T R A T R 4
    245 T R A T R I G H P 4
    270 L S A R A P V P A 4
    304 Y D S L S P Y G P 4
    323 P S G G G G L K K 4
    328 G L K K P A R H C 4
    339 Q K H N V L A R G 4
    345 A R G K P Q R K P 4
    351 R K P K S E N N S 4
    355 S E N N S W Y V E 4
    357 N N S W Y V E N G 4
    374 G Y C G A L W K A 4
    4 H T T K T F P L R 3
    26 G Q K M K Q D K K 3
    33 K K V D L L V P T 3
    42 K V T G I I T Q G 3
    45 G I I T Q G A K D 3
    47 I T Q G A K D F G 3
    48 T Q G A K D F G H 3
    58 Q F V G S Y K L A 3
    59 F V G S Y K L A Y 3
    67 Y S N D G E H W T 3
    71 G E H W T V Y Q D 3
    76 V Y Q D E K Q R K 3
    97 S C E G I N I S G 3
    103 I S G S F C R N K 3
    105 G S F C R N K L K 3
    106 S F C R N K L K Y 3
    116 A F L H K R M N T 3
    121 R M N T N P S R R 3
    122 M N T N P S R R P 3
    123 N T N P S R R P Y 3
    133 F Q V P S R I F W 3
    138 R I F W R Q E K A 3
    155 G H A S E A Y K K 3
    161 Y K K V C L S G A 3
    179 A V T A T L E E K 3
    188 R K E K A E I H Y 3
    190 E K A E I H Y R K 3
    193 E I H Y R K N K Q 3
    199 N K Q L M R L Q K 3
    205 L Q K Q A E K N M 3
    211 K N M K K K I D K 3
    213 M K K K I D K Y T 3
    215 K K I D K Y T E S 3
    217 I D K Y T E S P G 3
    236 F K T I A P L A A 3
    244 A T R A T R I G H 3
    248 T R I G H P G G R 3
    251 G H P G G R T P R 3
    258 P R A G S S A H R 3
    272 A R A P V P A A S 3
    283 A W L P L R T P W 3
    286 P L R T P W T R P 3
    287 L R T P W T R P S 3
    313 R N P L P N P R H 3
    338 G Q K H N V L A R 3
    347 G K P Q R K P K S 3
    353 P K S E N N S W Y 3
    360 W Y V E N G R P A 3
    365 G R P A D L A G S 3
    368 A D L A G S G Y C 3
    379 L W K A I E S L E 3
    385 S L E E G L G G K 3
    389 G L G G K Q K D K 3
    15 H I V V E S I R D 2
    17 V V E S I R D H S 2
    24 H S G Q K M K Q D 2
    40 P T K V T G I I T 2
    55 G H V Q F V G S Y 2
    56 H V Q F V G S Y K 2
    64 K L A Y S N D G E 2
    74 W T V Y Q D E K Q 2
    78 Q D E K Q R K D K 2
    84 K D K V L L G R K 2
    101 I N I S G S F C R 2
    109 R N K L K Y L A F 2
    120 K R M N T N P S R 2
    124 T N P S R R P Y H 2
    130 P Y H F Q V P S R 2
    134 Q V P S R I F W R 2
    146 A D G G S C C P Q 2
    185 E E K R K E K A E 2
    189 K E K A E I H Y R 2
    192 A E I H Y R K N K 2
    202 L M R L Q K Q A E 2
    206 Q K Q A E K N M K 2
    210 E K N M K K K I D 2
    214 K K K I D K Y T E 2
    216 K I D K Y T E S P 2
    220 Y T E S P G G G S 2
    222 E S P G G G S P R 2
    229 P R G L G F I F K 2
    233 G F I F K T I A P 2
    237 K T I A P L A A T 2
    264 A H R P P A L S A 2
    265 H R P P A L S A R 2
    275 P V P A A S P A A 2
    288 R T P W T R P S S 2
    300 S S S T Y D S L S 2
    306 S L S P Y G P R N 2
    312 P R N P L P N P R 2
    329 L K K P A R H C Q 2
    330 K K P A R H C Q G 2
    333 A R H C Q G Q K H 2
    334 R H C Q G Q K H N 2
    340 K H N V L A R G K 2
    341 H N V L A R G K P 2
    361 Y V E N G R P A D 2
    383 I E S L E E G L G 2
    392 G K Q K D K E R K 2
    394 Q K D K E R K A E 2
    395 K D K E R K A E N 2
    397 K E R K A E N G P 2
    398 E R K A E N G P H 2
    7 K T F P L R A L H 1
    18 V E S I R D H S G 1
    20 S I R D H S G Q K 1
    22 R D H S G Q K M K 1
    43 V T G I I T Q G A 1
    51 A K D F G H V Q F 1
    66 A Y S N D G E H W 1
    73 H W T V Y Q D E K 1
    94 V V V S C E G I N 1
    98 C E G I N I S G S 1
    100 G I N I S G S F C 1
    108 C R N K L K Y L A 1
    111 K L K Y L A F L H 1
    119 H K R M N T N P S 1
    132 H F Q V P S R I F 1
    136 P S R I F W R Q E 1
    140 F W R Q E K A D G 1
    142 R Q E K A D G G S 1
    143 Q E K A D G G S C 1
    144 E K A D G G S C C 1
    149 G S C C P Q G H A 1
    151 C C P Q G H A S E 1
    163 K V C L S G A P H 1
    170 P H E V G W K Y Q 1
    171 H E V G W K Y Q A 1
    195 H Y R K N K Q L M 1
    198 K N K Q L M R L Q 1
    201 Q L M R L Q K Q A 1
    221 T E S P G G G S P 1
    249 R I G H P G G R T 1
    255 G R T P R A G S S 1
    256 R T P R A G S S A 1
    261 G S S A H R P P A 1
    284 W L P L R T P W T 1
    291 W T R P S S C P T 1
    295 S S C P T S S S T 1
    298 P T S S S T Y D S 1
    301 S S T Y D S L S P 1
    303 T Y D S L S P Y G 1
    309 P Y G P R N P L P 1
    315 P L P N P R H S P 1
    317 P N P R H S P S G 1
    320 R H S P S G G G G 1
    343 V L A R G K P Q R 1
    349 P Q R K P K S E N 1
    350 Q R K P K S E N N 1
    356 E N N S W Y V E N 1
    363 E N G R P A D L A 1
    380 W K A I E S L E E 1
    387 E E G L G G K Q K 1
  • [0835]
    TABLE XXXV
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 0 score ID NO.
    151P3D4 v.1: HLA Peptide
    Scoring Results A1 10-mers SYFPEITHI
    91 E V D V F V S M G Y 25
    263 Y L I H P T K L T Y 24
    253 F T S N F N G R F Y 23
    96 V S M G Y H K K T Y 21
    117 G S D S D A S L V I 21
    292 I F A A W K I L G Y 21
    254 T S N F N G R F Y Y 20
    64 Y R D P T A F G S G 19
    119 D S D A S L V I T D 19
    33 Q A E N G P H L L V 18
    186 A V I A S F D Q L Y 18
    327 P T E A A V R F V G 18
    344 L Y G V Y C F R A Y 18
    138 K C E V I E G L E D 17
    336 G F P D K K H K L Y 17
    337 F P D K K H K L Y G 17
    125 V I T D L T L E D Y 16
    126 I T D L T L E D Y G 16
    128 D L T L E D Y G R Y 16
    154 L D L Q G V V F P Y 16
    161 F P Y F P R L G R Y 16
    181 C L D Q D A V I A S 16
    229 Q N T V P G V R N Y 16
    339 D K K H K L Y G V Y 16
    13 C W A D H L S D N Y 15
    23 T L D H D R A I H I 15
    55 G N V T L P C K F Y 15
    79 I K W T K L T S D Y 15
    99 G Y H K K T Y G G Y 15
    208 G W L S D G S V Q Y 15
    210 L S D G S V Q Y P I 15
    222 P R E P C G G Q N T 15
    239 G F W D K D K S R Y 15
    307 G W L A D G S V R Y 15
    18 L S D N Y T L D H D 14
    25 D H D R A I H I Q A 14
    57 V T L P C K F Y R D 14
    85 T S D Y L K E V D V 14
    130 T L E D Y G R Y K C 14
    272 Y D E A V Q A C L N 14
    89 L K E V D V F V S M 13
    144 G L E D D T V V V A 13
    146 E D D T V V V A L D 13
    153 A L D L Q G V V F P 13
    174 F H E A Q Q A C L D 13
    194 L Y D A W R G G L D 13
    247 R Y D V F C F T S N 13
    280 L N D G A Q I A K V 13
    107 G Y Q G R V F L K G 12
    141 V I E G L E D D T V 12
    190 S F D Q L Y D A W R 12
    309 L A D G S V R Y P I 12
    2 K S L L L L V L I S 11
    41 L V E A E Q A K V F 11
    43 E A E Q A K V F S H 11
    67 P T A F G S G I H K 11
    122 A S L V I T D L T L 11
    145 L E D D T V V V A L 11
    201 G L D W C N A G W L 11
    230 N T V P G V R N Y G 11
    240 F W D K D K S R Y D 11
    242 D K D K S R Y D V F 11
    14 W A D H L S D N Y T 10
    131 L E D Y G R Y K C E 10
    183 D Q D A V I A S F D 10
    219 I T K P R E P C G G 10
    271 T Y D E A V Q A C L 10
    300 G Y D R C D A G W L 10
    303 R C D A G W L A D G 10
    22 Y T L D H D R A I H 9
    34 A E N G P H L L V E 9
    72 S G I H K I R I K W 9
    195 Y D A W R G G L D W 9
    318 I S R P R R R C S P 9
    11 S I C W A D H L S D 8
    81 W T K L T S D Y L K 8
    82 T K L T S D Y L K E 8
    148 D T V V V A L D L Q 8
    160 V F P Y F P R L G R 8
    165 P R L G R Y N L N F 8
    3 S L L L L V L I S I 7
    17 H L S D N Y T L D H 7
    52 H R G G N V T L P C 7
    84 L T S D Y L K E V D 7
    103 K T Y G G Y Q G R V 7
    129 L T L E D Y G R Y K 7
    159 V V F P Y F P R L G 7
    187 V I A S F D Q L Y D 7
    245 K S R Y D V F C F T 7
    257 F N G R F Y Y L I H 7
    270 L T Y D E A V Q A C 7
    335 V G F P D K K H K L 7
    10 I S I C W A D H L S 6
    50 F S H R G G N V T L 6
    51 S H R G G N V T L P 6
    70 F G S G I H K I R I 6
    77 I R I K W T K L T S 6
    124 L V I T D L T L E D 6
    147 D D T V V V A L D L 6
    149 T V V V A L D L Q G 6
    175 H E A Q Q A C L D Q 6
    203 D W C N A G W L S D 6
    213 G S V Q Y P I T K P 6
    267 P T K L T Y D E A V 6
    273 D E A V Q A C L N D 6
    291 Q I F A A W K I L G 6
    302 D R C D A G W L A D 6
    314 V R Y P I S R P R R 6
    5 L L L V L I S I C W 5
    88 Y L K E V D V F V S 5
    123 S L V I T D L T L E 5
    135 G R Y K C E V I E G 5
    155 D L Q G V V F P Y F 5
    162 P Y F P R L G R Y N 5
    189 A S F D Q L Y D A W 5
    215 V Q Y P I T K P R E 5
    255 S N F N G R F Y Y L 5
    279 C L N D G A Q I A K 5
    287 A K V G Q I F A A W 5
    301 Y D R C D A G W L A 5
    324 R C S P T E A A V R 5
    35 E N G P H L L V E A 4
    44 A E Q A K V F S H R 4
    71 G S G I H K I R I K 4
    86 S D Y L K E V D V F 4
    137 Y K C E V I E G L E 4
    212 D G S V Q Y P I T K 4
    251 F C F T S N F N G R 4
    258 N G R F Y Y L I H P 4
    262 Y Y L I H P T K L T 4
    264 L I H P T K L T Y D 4
    285 Q I A K V G Q I F A 4
    311 D G S V R Y P I S R 4
    312 G S V R Y P I S R P 4
    325 C S P T E A A V R F 4
    331 A V R F V G F P D K 4
    40 L L V E A E Q A K V 3
    49 V F S H R G G N V T 3
    68 T A F G S G I H K I 3
    94 V F V S M G Y H K K 3
    95 F V S M G Y H K K T 3
    100 Y H K K T Y G G Y Q 3
    104 T Y G G Y Q G R V F 3
    105 Y G G Y Q G R V F L 3
    106 G G Y Q G R V F L K 3
    113 F L K G G S D S D A 3
    152 V A L D L Q G V V F 3
    158 G V V F P Y F P R L 3
    163 Y F P R L G R Y N L 3
    164 F P R L G R Y N L N 3
    168 G R Y N L N F H E A 3
    185 D A V I A S F D Q L 3
    202 L D W C N A G W L S 3
    207 A G W L S D G S V Q 3
    217 Y P I T K P R E P C 3
    224 E P C G G Q N T V P 3
    234 G V R N Y G F W D K 3
    235 V R N Y G F W D K D 3
    256 N F N G R F Y Y L I 3
    261 F Y Y L I H P T K L 3
    289 V G Q I F A A W K I 3
    306 A G W L A D G S V R 3
    316 Y P I S R P R R R C 3
    326 S P T E A A V R F V 3
    328 T E A A V R F V G F 3
    332 V R F V G F P D K K 3
    333 R F V G F P D K K H 3
    345 Y G V Y C F R A Y N 3
    1 M K S L L L L V L I 2
    8 V L I S I C W A D H 2
    15 A D H L S D N Y T L 2
    16 D H L S D N Y T L D 2
    19 S D N Y T L D H D R 2
    32 I Q A E N G P H L L 2
    47 A K V F S H R G G N 2
    54 G G N V T L P C K F 2
    75 H K I R I K W T K L 2
    76 K I R I K W T K L T 2
    90 K E V D V F V S M G 2
    97 S M G Y H K K T Y G 2
    108 Y Q G R V F L K G G 2
    116 G G S D S D A S L V 2
    118 S D S D A S L V I T 2
    120 S D A S L V I T D L 2
    121 D A S L V I T D L T 2
    134 Y G R Y K C E V I E 2
    151 V V A L D L Q G V V 2
    170 Y N L N F H E A Q Q 2
    193 Q L Y D A W R G G L 2
    197 A W R G G L D W C N 2
    209 W L S D G S V Q Y P 2
    211 S D G S V Q Y P I T 2
    214 S V Q Y P I T K P R 2
    231 T V P G V R N Y G F 2
    237 N Y G F W D K D K S 2
    238 Y G F W D K D K S R 2
    246 S R Y D V F C F T S 2
    248 Y D V F C F T S N F 2
    250 V F C F T S N F N G 2
    275 A V Q A C L N D G A 2
    284 A Q I A K V G Q I F 2
    294 A A W K I L G Y D R 2
    297 K I L G Y D R C D A 2
    308 W L A D G S V R Y P 2
    313 S V R Y P I S R P R 2
    319 S R P R R R C S P T 2
    330 A A V R F V G F P D 2
    343 K L Y G V Y C F R A 2
    4 L L L L V L I S I C 1
    6 L L V L I S I C W A 1
    29 A I H I Q A E N G P 1
    30 I H I Q A E N G P H 1
    31 H I Q A E N G P H L 1
    36 N G P H L L V E A E 1
    39 H L L V E A E Q A K 1
    42 V E A E Q A K V F S 1
    48 K V F S H R G G N V 1
    58 T L P C K F Y R D P 1
    59 L P C K F Y R D P T 1
    63 F Y R D P T A F G S 1
    65 R D P T A F G S G I 1
    69 A F G S G I H K I R 1
    83 K L T S D Y L K E V 1
    92 V D V F V S M G Y H 1
    93 D V F V S M G Y H K 1
    101 H K K T Y G G Y Q G 1
    110 G R V F L K G G S D 1
    111 R V F L K G G S D S 1
    112 V F L K G G S D S D 1
    114 L K G G S D S D A S 1
    132 E D Y G R Y K C E V 1
    133 D Y G R Y K C E V I 1
    142 I E G L E D D T V V 1
    143 E G L E D D T V V V 1
    150 V V V A L D L Q G V 1
    166 R L G R Y N L N F H 1
    167 L G R Y N L N F H E 1
    171 N L N F H E A Q Q A 1
    177 A Q Q A C L D Q D A 1
    179 Q A C L D Q D A V I 1
    180 A C L D Q D A V I A 1
    191 F D Q L Y D A W R G 1
    198 W R G G L D W C N A 1
    200 G G L D W C N A G W 1
    205 C N A G W L S D G S 1
    221 K P R E P C G G Q N 1
    225 P C G G Q N T V P G 1
    226 C G G Q N T V P G V 1
    227 G G Q N T V P G V R 1
    228 G Q N T V P G V R N 1
    232 V P G V R N Y G F W 1
    233 P G V R N Y G F W D 1
    236 R N Y G F W D K D K 1
    241 W D K D K S R Y D V 1
    244 D K S R Y D V F C F 1
    252 C F T S N F N G R F 1
    268 T K L T Y D E A V Q 1
    269 K L T Y D E A V Q A 1
    276 V Q A C L N D G A Q 1
    277 Q A C L N D G A Q I 1
    278 A C L N D G A Q I A 1
    281 N D G A Q I A K V G 1
    283 G A Q I A K V G Q I 1
    293 F A A W K I L G Y D 1
    295 A W K I L G Y D R C 1
    298 I L G Y D R C D A G 1
    304 C D A G W L A D G S 1
    310 A D G S V R Y P I S 1
    317 P I S R P R R R C S 1
    329 E A A V R F V G F P 1
    334 F V G F P D K K H K 1
    340 K K H K L Y G V Y C 1
    341 K H K L Y G V Y C F 1
    151P3D4 v.2: HLA Peptide
    Scoring Results A1 10-mers SYFPEITHI
    68 S N D G E H W T V Y 29
    105 G S F C R N K L K Y 27
    295 S S C P T S S S T Y 25
    58 Q F V G S Y K L A Y 22
    301 S S T Y D S L S P Y 21
    187 K R K E K A E I H Y 19
    220 Y T E S P G G G S P 19
    30 K Q D K K V D L L V 18
    168 G A P H E V G W K Y 18
    54 F G H V Q F V G S Y 17
    211 K N M K K K I D K Y 17
    7 K T F P L R A L H I 16
    122 M N T N P S R R P Y 16
    152 C P Q G H A S E A Y 16
    352 K P K S E N N S W Y 16
    366 R P A D L A G S G Y 16
    385 S L E E G L G G K Q 16
    157 A S E A Y K K V C L 15
    354 K S E N N S W Y V E 15
    77 Y Q D E K Q R K D K 13
    97 S C E G I N I S G S 13
    183 T L E E K R K E K A 13
    382 A I E S L E E G L G 13
    4 H T T K T F P L R A 12
    34 K V D L L V P T K V 12
    51 A K D F G H V Q F V 12
    78 Q D E K Q R K D K V 12
    208 Q A E K N M K K K I 12
    300 S S S T Y D S L S P 12
    322 S P S G G G G L K K 12
    361 Y V E N G R P A D L 12
    386 L E E G L G G K Q K 12
    1 M L E H T T K T F P 11
    17 V V E S I R D H S G 11
    21 I R D H S G Q K M K 11
    70 D G E H W T V Y Q D 11
    123 N T N P S R R P Y H 11
    142 R Q E K A D G G S C 11
    145 K A D G G S C C P Q 11
    191 K A E I H Y R K N K 11
    278 A A S P A A W L P L 11
    40 P T K V T G I I T Q 10
    83 R K D K V L L G R K 10
    96 V S C E G I N I S G 10
    111 K L K Y L A F L H K 10
    127 S R R P Y H F Q V P 10
    170 P H E V G W K Y Q A 10
    184 L E E K R K E K A E 10
    188 R K E K A E I H Y R 10
    216 K I D K Y T E S P G 10
    228 S P R G L G F I F K 10
    291 W T R P S S C P T S 10
    303 T Y D S L S P Y G P 10
    309 P Y G P R N P L P N 10
    367 P A D L A G S G Y C 10
    372 G S G Y C G A L W K 10
    394 Q K D K E R K A E N 10
    396 D K E R K A E N G P 10
    81 K Q R K D K V L L G 9
    177 Y Q A V T A T L E E 8
    182 A T L E E K R K E K 8
    262 S S A H R P P A L S 8
    263 S A H R P P A L S A 8
    280 S P A A W L P L R T 8
    302 S T Y D S L S P Y G 8
    31 Q D K K V D L L V P 7
    43 V T G I I T Q G A K 7
    47 I T Q G A K D F G H 7
    103 I S G S F C R N K L 7
    167 S G A P H E V G W K 7
    180 V T A T L E E K R K 7
    195 H Y R K N K Q L M R 7
    198 K N K Q L M R L Q K 7
    225 G G G S P R G L G F 7
    244 A T R A T R I G H P 7
    247 A T R I G H P G G R 7
    279 A S P A A W L P L R 7
    306 S L S P Y G P R N P 7
    321 H S P S G G G G L K 7
    323 P S G G G G L K K P 7
    337 Q G Q K H N V L A R 7
    383 I E S L E E G L G G 7
    5 T T K T F P L R A L 6
    9 F P L R A L H I V V 6
    37 L L V P T K V T G I 6
    39 V P T K V T G I I T 6
    67 Y S N D G E H W T V 6
    74 W T V Y Q D E K Q R 6
    82 Q R K D K V L L G R 6
    94 V V V S C E G I N I 6
    108 C R N K L K Y L A F 6
    150 S C C P Q G H A S E 6
    159 E A Y K K V C L S G 6
    235 I F K T I A P L A A 6
    237 K T I A P L A A T R 6
    243 A A T R A T R I G H 6
    256 R T P R A G S S A H 6
    288 R T P W T R P S S C 6
    298 P T S S S T Y D S L 6
    299 T S S S T Y D S L S 6
    308 S P Y G P R N P L P 6
    346 R G K P Q R K P K S 6
    363 E N G R P A D L A G 6
    379 L W K A I E S L E E 6
    3 E H T T K T F P L R 5
    20 S I R D H S G Q K M 5
    104 S G S F C R N K L K 5
    132 H F Q V P S R I F W 5
    133 F Q V P S R I F W R 5
    136 P S R I F W R Q E K 5
    149 G S C C P Q G H A S 5
    158 S E A Y K K V C L S 5
    221 T E S P G G G S P R 5
    222 E S P G G G S P R G 5
    227 G S P R G L G F I F 5
    250 I G H P G G R T P R 5
    255 G R T P R A G S S A 5
    264 A H R P P A L S A R 5
    270 L S A R A P V P A A 5
    272 A R A P V P A A S P 5
    274 A P V P A A S P A A 5
    283 A W L P L R T P W T 5
    287 L R T P W T R P S S 5
    305 D S L S P Y G P R N 5
    307 L S P Y G P R N P L 5
    312 P R N P L P N P R H 5
    314 N P L P N P R H S P 5
    320 R H S P S G G G G L 5
    358 N S W Y V E N G R P 5
    371 A G S G Y C G A L W 5
    14 L H I V V E S I R D 4
    19 E S I R D H S G Q K 4
    24 H S G Q K M K Q D K 4
    25 S G Q K M K Q D K K 4
    61 G S Y K L A Y S N D 4
    87 V L L G R K A V V V 4
    114 Y L A F L H K R M N 4
    126 P S R R P Y H F Q V 4
    137 S R I F W R Q E K A 4
    166 L S G A P H E V G W 4
    210 E K N M K K K I D K 4
    224 P G G G S P R G L G 4
    226 G G S P R G L G F I 4
    230 R G L G F I F K T I 4
    232 L G F I F K T I A P 4
    238 T I A P L A A T R A 4
    261 G S S A H R P P A L 4
    265 H R P P A L S A R A 4
    294 P S S C P T S S S T 4
    316 L P N P R H S P S G 4
    329 L K K P A R H C Q G 4
    350 Q R K P K S E N N S 4
    362 V E N G R P A D L A 4
    364 N G R P A D L A G S 4
    373 S G Y C G A L W K A 4
    376 C G A L W K A I E S 4
    378 A L W K A I E S L E 4
    384 E S L E E G L G G K 4
    389 G L G G K Q K D K E 4
    6 T K T F P L R A L H 3
    29 M K Q D K K V D L L 3
    44 T G I I T Q G A K D 3
    48 T Q G A K D F G H V 3
    53 D F G H V Q F V G S 3
    57 V Q P V G S Y K L A 3
    63 Y K L A Y S N D G E 3
    76 V Y Q D E K Q R K D 3
    84 K D K V L L G R K A 3
    88 L L G R K A V V V S 3
    101 I N I S G S F C R N 3
    107 F C R N K L K Y L A 3
    117 F L H K R M N T N P 3
    134 Q V P S R I F W R Q 3
    165 C L S G A P H E V G 3
    179 A V T A T L E E K R 3
    192 A E I H Y R K N K Q 3
    206 Q K Q A E K N M K K 3
    223 S P G G G S P R G L 3
    234 F I F K T I A P L A 3
    324 S G G G G L K K P A 3
    332 P A R H C Q G Q K H 3
    336 C Q G Q K H N V L A 3
    340 K H N V L A R G K P 3
    344 L A R G K P Q R K P 3
    359 S W Y V E N G R P A 3
    10 P L R A L H I V V E 2
    13 A L H I V V E S I R 2
    22 R D H S G Q K M K Q 2
    26 G Q K M K Q D K K V 2
    35 V D L L V P T K V T 2
    49 Q G A K D F G H V Q 2
    52 K D F G H V Q F V G 2
    56 H V Q F V G S Y K L 2
    62 S Y K L A Y S N D G 2
    73 H W T V Y Q D E K Q 2
    80 E K Q R K D K V L L 2
    106 S F C R N K L K Y L 2
    110 N K L K Y L A F L H 2
    112 L K Y L A F L H K R 2
    131 Y H F Q V P S R I F 2
    146 A D G G S C C P Q G 2
    154 Q G H A S E A Y K K 2
    155 G H A S E A Y K K V 2
    161 Y K K V C L S G A P 2
    176 K Y Q A V T A T L E 2
    181 T A T L E E K R K E 2
    190 E K A E I H Y R K N 2
    194 I H Y R K N K Q L M 2
    196 Y R K N K Q L M R L 2
    197 R K N K Q L M R L Q 2
    199 N K Q L M R L Q K Q 2
    203 M R L Q K Q A E K N 2
    207 K Q A E K N M K K K 2
    229 P R G L G F I F K T 2
    240 A P L A A T R A T R 2
    248 T R I G H P G G R T 2
    260 A G S S A H R P P A 2
    269 A L S A R A P V P A 2
    271 S A R A P V P A A S 2
    277 P A A S P A A W L P 2
    282 A A W L P L R T P W 2
    296 S C P T S S S T Y D 2
    304 Y D S L S P Y G P R 2
    310 Y G P R N P L P N P 2
    328 G L K K P A R H C Q 2
    335 H C Q G Q K H N V L 2
    343 V L A R G K P Q R K 2
    345 A R G K P Q R K P K 2
    355 S E N N S W Y V E N 2
    368 A D L A G S G Y C G 2
    369 D L A G S G Y C G A 2
    375 Y C G A L W K A I E 2
    387 E E G L G G K Q K D 2
    392 G K Q K D K E R K A 2
    399 R K A E N G P H L L 2
    11 L R A L H I V V E S 1
    12 R A L H I V V E S I 1
    16 I V V E S I R D H S 1
    18 V E S I R D H S G Q 1
    23 D H S G Q K M K Q D 1
    27 Q K M K Q D K K V D 1
    33 K K V D L L V P T K 1
    36 D L L V P T K V T G 1
    42 K V T G I I T Q G A 1
    55 G H V Q F V G S Y K 1
    59 F V G S Y K L A Y S 1
    60 V G S Y K L A Y S N 1
    64 K L A Y S N D G E H 1
    65 L A Y S N D G E H W 1
    66 A Y S N D G E H W T 1
    79 D E K Q R K D K V L 1
    85 D K V L L G R K A V 1
    86 K V L L G R K A V V 1
    89 L G R K A V V V S C 1
    90 G R K A V V V S C E 1
    93 A V V V S C E G I N 1
    95 V V S C E G I N I S 1
    99 E G I N I S G S F C 1
    102 N I S G S F C R N K 1
    115 L A F L H K R M N T 1
    116 A F L H K R M N T N 1
    119 H K R M N T N P S R 1
    129 R P Y H F Q V P S R 1
    135 V P S R I F W R Q E 1
    140 F W R Q E K A D G G 1
    143 Q E K A D G G S C C 1
    156 H A S E A Y K K V C 1
    160 A Y K K V C L S G A 1
    162 K K V C L S G A P H 1
    164 V C L S G A P H E V 1
    169 A P H E V G W K Y Q 1
    171 H E V G W K Y Q A V 1
    172 E V G W K Y Q A V T 1
    173 V G W K Y Q A V T A 1
    174 G W K Y Q A V T A T 1
    193 E I H Y R K N K Q L 1
    201 Q L M R L Q K Q A E 1
    204 R L Q K Q A E K N M 1
    205 L Q K Q A E K N M K 1
    209 A E K N M K K K I D 1
    219 K Y T E S P G G G S 1
    231 G L G F I F K T I A 1
    236 F K T I A P L A A T 1
    241 P L A A T R A T R I 1
    245 T R A T R I G H P G 1
    249 R I G H P G G R T P 1
    251 G H P G G R T P R A 1
    252 H P G G R T P R A G 1
    253 P G G R T P R A G S 1
    258 P R A G S S A H R P 1
    267 P P A L S A R A P V 1
    268 P A L S A R A P V P 1
    276 V P A A S P A A W L 1
    284 W L P L R T P W T R 1
    286 P L R T P W T R P S 1
    315 P L P N P R H S P S 1
    319 P R H S P S G G G G 1
    325 G G G G L K K P A R 1
    333 A R H C Q G Q K H N 1
    341 H N V L A R G K P Q 1
    351 R K P K S E N N S W 1
    356 E N N S W Y V E N G 1
    360 W Y V E N G R P A D 1
    374 G Y C G A L W K A I 1
    388 E G L G G K Q K D K 1
    393 K Q K D K E R K A E 1
    397 K E R K A E N G P H 1
    398 E R K A E N G P H L 1
  • [0836]
    TABLE XXXVI
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 0 score ID NO.
    151P3D4 v.1: HLA Peptide
    Scoring Results A*0201 10-mers SYFPEITHI
    3 S L L L L V L I S I 28
    40 L L V E A E Q A K V 28
    83 K L T S D Y L K E V 25
    193 Q L Y D A W R G G L 23
    68 T A F G S G I H K I 22
    141 V I E G L E D D T V 22
    280 L N D G A Q I A K V 22
    144 G L E D D T V V V A 21
    201 G L D W C N A G W L 21
    6 L L V L I S I C W A 20
    9 L I S I C W A D H L 20
    145 L E D D T V V V A L 20
    150 V V V A L D L Q G V 20
    31 H I Q A E N G P H L 19
    4 L L L L V L I S I C 18
    23 T L D H D R A I H I 18
    103 K T Y G G Y Q G R V 18
    120 S D A S L V I T D L 18
    153 A L D L Q G V V F P 18
    343 K L Y G V Y C F R A 18
    32 I Q A E N G P H L L 17
    88 Y L K E V D V F V S 17
    122 A S L V I T D L T L 17
    151 V V A L D L Q G V V 17
    263 Y L I H P T K L T Y 17
    283 G A Q I A K V G Q I 17
    297 K I L G Y D R C D A 17
    308 W L A D G S V R Y P 17
    309 L A D G S V R Y P I 17
    326 S P T E A A V R F V 17
    335 V G F P D K K H K L 17
    48 K V F S H R G G N V 16
    73 G I H K I R I K W T 16
    113 F L K G G S D S D A 16
    123 S L V I T D L T L E 16
    206 N A G W L S D G S V 16
    226 C G G Q N T V P G V 16
    264 L I H P T K L T Y D 16
    8 V L I S I C W A D H 15
    15 A D H L S D N Y T L 15
    50 F S H R G G N V T L 15
    115 K G G S D S D A S L 15
    158 G V V F P Y F P R L 15
    166 R L G R Y N L N F H 15
    181 C L D Q D A V I A S 15
    209 W L S D G S V Q Y P 15
    269 K L T Y D E A V Q A 15
    305 D A G W L A D G S V 15
    1 M K S L L L L V L I 14
    5 L L L V L I S I C W 14
    33 Q A E N G P H L L V 14
    75 H K I R I K W T K L 14
    136 R Y K C E V I E G L 14
    171 N L N F H E A Q Q A 14
    173 N F H E A Q Q A C L 14
    179 Q A C L D Q D A V I 14
    188 I A S F D Q L Y D A 14
    255 S N F N G R F Y Y L 14
    261 F Y Y L I H P T K L 14
    271 T Y D E A V Q A C L 14
    277 Q A C L N D G A Q I 14
    285 Q I A K V G Q I F A 14
    286 I A K V G Q I F A A 14
    11 S I C W A D H L S D 13
    39 H L L V E A E Q A K 13
    78 R I K W T K L T S D 13
    87 D Y L K E V D V F V 13
    105 Y G G Y Q G R V F L 13
    118 S D S D A S L V I T 13
    125 V I T D L T L E D Y 13
    130 T L E D Y G R Y K C 13
    143 E G L E D D T V V V 13
    163 Y F P R L G R Y N L 13
    178 Q Q A C L D Q D A V 13
    185 D A V I A S F D Q L 13
    210 L S D G S V Q Y P I 13
    223 R E P C G G Q N T V 13
    270 L T Y D E A V Q A C 13
    279 C L N D G A Q I A K 13
    323 R R C S P T E A A V 13
    17 H L S D N Y T L D H 12
    29 A I H I Q A E N G P 12
    76 K I R I K W T K L T 12
    116 G G S D S D A S L V 12
    132 E D Y G R Y K C E V 12
    142 I E G L E D D T V V 12
    155 D L Q G V V F P Y F 12
    187 V I A S F D Q L Y D 12
    256 N F N G R F Y Y L I 12
    298 I L G Y D R C D A G 12
    338 P D K K H K L Y G V 12
    22 Y T L D H D R A I H 11
    35 E N G P H L L V E A 11
    70 F G S G I H K I R I 11
    85 T S D Y L K E V D V 11
    124 L V I T D L T L E D 11
    180 A C L D Q D A V I A 11
    182 L D Q D A V I A S F 11
    241 W D K D K S R Y D V 11
    267 P T K L T Y D E A V 11
    275 A V Q A C L N D G A 11
    289 V G Q I F A A W K I 11
    290 G Q I F A A W K I L 11
    293 F A A W K I L G Y D 11
    300 G Y D R C D A G W L 11
    34 A E N G P H L L V E 10
    57 V T L P C K F Y R D 10
    58 T L P C K F Y R D P 10
    80 K W T K L T S D Y L 10
    95 F V S M G Y H K K T 10
    117 G S D S D A S L V I 10
    129 L T L E D Y G R Y K 10
    152 V A L D L Q G V V F 10
    259 G R F Y Y L I H P T 10
    292 I F A A W K I L G Y 10
    7 L V L I S I C W A D 9
    14 W A D H L S D N Y T 9
    65 R D P T A F G S G I 9
    89 L K E V D V F V S M 9
    97 S M G Y H K K T Y G 9
    140 E V I E G L E D D T 9
    147 D D T V V V A L D L 9
    168 G R Y N L N F H E A 9
    291 Q I F A A W K I L G 9
    2 K S L L L L V L I S 8
    21 N Y T L D H D R A I 8
    24 L D H D R A I H I Q 8
    51 S H R G G N V T L P 8
    128 D L T L E D Y G R Y 8
    135 G R Y K C E V I E G 8
    154 L D L Q G V V F P Y 8
    159 V V F P Y F P R L G 8
    186 A V I A S F D Q L Y 8
    196 D A W R G G L D W C 8
    219 I T K P R E P C G G 8
    231 T V P G V R N Y G F 8
    278 A C L N D G A Q I A 8
    294 A A W K I L G Y D R 8
    12 I C W A D H L S D N 7
    42 V E A E Q A K V F S 7
    77 I R I K W T K L T S 7
    84 L T S D Y L K E V D 7
    86 S D Y L K E V D V F 7
    121 D A S L V I T D L T 7
    133 D Y G R Y K C E V I 7
    148 D T V V V A L D L Q 7
    200 G G L D W C N A G W 7
    211 S D G S V Q Y P I T 7
    213 G S V Q Y P I T K P 7
    230 N T V P G V R N Y G 7
    262 Y Y L I H P T K L T 7
    287 A K V G Q I F A A W 7
    288 K V G Q I F A A W K 7
    299 L G Y D R C D A G W 7
    329 E A A V R F V G F P 7
    18 L S D N Y T L D H D 6
    28 R A I H I Q A E N G 6
    43 E A E Q A K V F S H 6
    49 V F S H R G G N V T 6
    59 L P C K F Y R D P T 6
    64 Y R D P T A F G S G 6
    72 S G I H K I R I K W 6
    90 K E V D V F V S M G 6
    106 G G Y Q G R V F L K 6
    107 G Y Q G R V F L K G 6
    108 Y Q G R V F L K G G 6
    126 I T D L T L E D Y G 6
    170 Y N L N F H E A Q Q 6
    177 A Q Q A C L D Q D A 6
    198 W R G G L D W C N A 6
    246 S R Y D V F C F T S 6
    274 E A V Q A C L N D G 6
    301 Y D R C D A G W L A 6
    303 R C D A G W L A D G 6
    318 I S R P R R R C S P 6
    319 S R P R R R C S P T 6
    330 A A V R F V G F P D 6
    331 A V R F V G F P D K 6
    10 I S I C W A D H L S 5
    26 H D R A I H I Q A E 5
    27 D R A I H I Q A E N 5
    36 N G P H L L V E A E 5
    37 G P H L L V E A E Q 5
    53 R G G N V T L P C K 5
    71 G S G I H K I R I K 5
    82 T K L T S D Y L K E 5
    93 D V F V S M G Y H K 5
    96 V S M G Y H K K T Y 5
    111 R V F L K G G S D S 5
    112 V F L K G G S D S D 5
    114 L K G G S D S D A S 5
    119 D S D A S L V I T D 5
    149 T V V V A L D L Q G 5
    161 F P Y F P R L G R Y 5
    176 E A Q Q A C L D Q D 5
    189 A S F D Q L Y D A W 5
    195 Y D A W R G G L D W 5
    204 W C N A G W L S D G 5
    205 C N A G W L S D G S 5
    208 G W L S D G S V Q Y 5
    215 V Q Y P I T K P R E 5
    218 P I T K P R E P C G 5
    234 G V R N Y G F W D K 5
    249 D V F C F T S N F N 5
    253 F T S N F N G R F Y 5
    266 H P T K L T Y D E A 5
    304 C D A G W L A D G S 5
    307 G W L A D G S V R Y 5
    312 G S V R Y P I S R P 5
    313 S V R Y P I S R P R 5
    314 V R Y P I S R P R R 5
    317 P I S R P R R R C S 5
    322 R R R C S P T E A A 5
    328 T E A A V R F V G F 5
    341 K H K L Y G V Y C F 5
    20 D N Y T L D H D R A 4
    30 I H I Q A E N G P H 4
    41 L V E A E Q A K V F 4
    46 Q A K V F S H R G G 4
    54 G G N V T L P C K F 4
    62 K F Y R D P T A F G 4
    81 W T K L T S D Y L K 4
    94 V F V S M G Y H K K 4
    127 T D L T L E D Y G R 4
    137 Y K C E V I E G L E 4
    139 C E V I E G L E D D 4
    172 L N F H E A Q Q A C 4
    190 S F D Q L Y D A W R 4
    197 A W R G G L D W C N 4
    214 S V Q Y P I T K P R 4
    217 Y P I T K P R E P C 4
    228 G Q N T V P G V R N 4
    238 Y G F W D K D K S R 4
    245 K S R Y D V F C F T 4
    251 F C F T S N F N G R 4
    268 T K L T Y D E A V Q 4
    276 V Q A C L N D G A Q 4
    282 D G A Q I A K V G Q 4
    284 A Q I A K V G Q I F 4
    316 Y P I S R P R R R C 4
    324 R C S P T E A A V R 4
    332 V R F V G F P D K K 4
    13 C W A D H L S D N Y 3
    19 S D N Y T L D H D R 3
    25 D H D R A I H I Q A 3
    38 P H L L V E A E Q A 3
    52 H R G G N V T L P C 3
    56 N V T L P C K F Y R 3
    63 F Y R D P T A F G S 3
    74 I H K I R I K W T K 3
    79 I K W T K L T S D Y 3
    98 M G Y H K K T Y G G 3
    134 Y G R Y K C E V I E 3
    138 K C E V I E G L E D 3
    146 E D D T V V V A L D 3
    156 L Q G V V F P Y F P 3
    175 H E A Q Q A C L D Q 3
    202 L D W C N A G W L S 3
    207 A G W L S D G S V Q 3
    221 K P R E P C G G Q N 3
    229 Q N T V P G V R N Y 3
    235 V R N Y G F W D K D 3
    239 G F W D K D K S R Y 3
    244 D K S R Y D V F C F 3
    258 N G R F Y Y L I H P 3
    260 R F Y Y L I H P T K 3
    265 I H P T K L T Y D E 3
    306 A G W L A D G S V R 3
    310 A D G S V R Y P I S 3
    320 R P R R R C S P T E 3
    321 P R R R C S P T E A 3
    333 R F V G F P D K K H 3
    334 F V G F P D K K H K 3
    340 K K H K L Y G V Y C 3
    344 L Y G V Y C F R A Y 3
    345 Y G V Y C F R A Y N 3
    44 A E Q A K V F S H R 2
    47 A K V F S H R G G N 2
    60 P C K F Y R D P T A 2
    67 P T A F G S G I H K 2
    91 E V D V F V S M G Y 2
    99 G Y H K K T Y G G Y 2
    104 T Y G G Y Q G R V F 2
    110 G R V F L K G G S D 2
    160 V F P Y F P R L G R 2
    164 F P R L G R Y N L N 2
    165 P R L G R Y N L N F 2
    169 R Y N L N F H E A Q 2
    184 Q D A V I A S F D Q 2
    194 L Y D A W R G G L D 2
    199 R G G L D W C N A G 2
    203 D W C N A G W L S D 2
    216 Q Y P I T K P R E P 2
    222 P R E P C G G Q N T 2
    236 R N Y G F W D K D K 2
    243 K D K S R Y D V F C 2
    247 R Y D V F C F T S N 2
    257 F N G R F Y Y L I H 2
    273 D E A V Q A C L N D 2
    296 W K I L G Y D R C D 2
    302 D R C D A G W L A D 2
    325 C S P T E A A V R F 2
    337 F P D K K H K L Y G 2
    16 D H L S D N Y T L D 1
    61 C K F Y R D P T A F 1
    69 A F G S G I H K I R 1
    100 Y H K K T Y G G Y Q 1
    109 Q G R V F L K G G S 1
    167 L G R Y N L N F H E 1
    191 F D Q L Y D A W R G 1
    192 D Q L Y D A W R G G 1
    212 D G S V Q Y P I T K 1
    220 T K P R E P C G G Q 1
    225 P C G G Q N T V P G 1
    227 G G Q N T V P G V R 1
    232 V P G V R N Y G F W 1
    237 N Y G F W D K D K S 1
    240 F W D K D K S R Y D 1
    248 Y D V F C F T S N F 1
    272 Y D E A V Q A C L N 1
    295 A W K I L G Y D R C 1
    311 D G S V R Y P I S R 1
    336 G F P D K K H K L Y 1
    342 H K L Y G V Y C F R 1
    183 D Q D A V I A S F D −1
    224 E P C G G Q N T V P −1
    242 D K D K S R Y D V F −1
    252 C F T S N F N G R F −1
    281 N D G A Q I A K V G −1
    66 D P T A F G S G I H −2
    339 D K K H K L Y G V Y −2
    233 P G V R N Y G F W D −3
    151P3D4 v.2: HLA Peptide
    Scoring Results A*0201 10-mers SYFPEITHI
    37 L L V P T K V T G I 27
    87 V L L G R K A V V V 27
    377 G A L W K A I E S L 23
    12 R A L H I V V E S I 20
    28 K M K Q D K K V D L 20
    381 K A I E S L E E G L 20
    86 K V L L G R K A V V 19
    278 A A S P A A W L P L 19
    5 T T K T F P L R A L 18
    88 L L G R K A V V V S 18
    233 G F I F K T I A P L 18
    269 A L S A R A P V P A 18
    369 D L A G S G Y C G A 18
    7 K T F P L R A L H I 17
    20 S I R D H S G Q K M 17
    34 K V D L L V P T K V 17
    183 T L E E K R K E K A 17
    241 P L A A T R A T R I 17
    361 Y V E N G R P A D L 17
    370 L A G S G Y C G A L 17
    56 H V Q F V G S Y K L 16
    67 Y S N D G E H W T V 16
    164 V C L S G A P H E V 16
    238 T I A P L A A T R A 16
    8 T F P L R A L H I V 15
    29 M K Q D K K V D L L 15
    36 D L L V P T K V T G 15
    51 A K D F G H V Q F V 15
    103 I S G S F C R N K L 15
    106 S F C R N K L K Y L 15
    109 R N K L K Y L A F L 15
    175 W K Y Q A V T A T L 15
    196 Y R K N K Q L M R L 15
    223 S P G G G S P R G L 15
    226 G G S P R G L G F I 15
    234 F I F K T I A P L A 15
    276 V P A A S P A A W L 15
    385 S L E E G L G G K Q 15
    389 G L G G K Q K D K E 15
    399 R K A E N G P H L L 15
    38 L V P T K V T G I I 14
    64 K L A Y S N D G E H 14
    92 K A V V V S C E G I 14
    155 G H A S E A Y K K V 14
    202 L M R L Q K Q A E K 14
    231 G L G F I F K T I A 14
    270 L S A R A P V P A A 14
    306 S L S P Y G P R N P 14
    9 F P L R A L H I V V 13
    10 P L R A L H I V V E 13
    94 V V V S C E G I N I 13
    114 Y L A F L H K R M N 13
    157 A S E A Y K K V C L 13
    171 H E V G W K Y Q A V 13
    193 E I H Y R K N K Q L 13
    204 R L Q K Q A E K N M 13
    230 R G L G F I F K T I 13
    261 G S S A H R P P A L 13
    263 S A H R P P A L S A 13
    298 P T S S S T Y D S L 13
    320 R H S P S G G G G L 13
    335 H C Q G Q K H N V L 13
    343 V L A R G K P Q R K 13
    373 S G Y C G A L W K A 13
    378 A L W K A I E S L E 13
    2 L E H T T K T F P L 12
    11 L R A L H I V V E S 12
    13 A L H I V V E S I R 12
    15 H I V V E S I R D H 12
    30 K Q D K K V D L L V 12
    165 C L S G A P H E V G 12
    201 Q L M R L Q K Q A E 12
    208 Q A E K N M K K K I 12
    284 W L P L R T P W T R 12
    307 L S P Y G P R N P L 12
    26 G Q K M K Q D K K V 11
    42 K V T G I I T Q G A 11
    59 F V G S Y K L A Y S 11
    78 Q D E K Q R K D K V 11
    115 L A F L H K R M N T 11
    117 F L H K R M N T N P 11
    182 A T L E E K R K E K 11
    236 F K T I A P L A A T 11
    237 K T I A P L A A T R 11
    239 I A P L A A T R A T 11
    267 P P A L S A R A P V 11
    283 A W L P L R T P W T 11
    328 G L K K P A R H C Q 11
    334 R H C Q G Q K H N V 11
    374 G Y C G A L W K A I 11
    45 G I I T Q G A K D F 10
    48 T Q G A K D F G H V 10
    89 L G R K A V V V S C 10
    95 V V S C E G I N I S 10
    100 G I N I S G S F C R 10
    102 N I S G S F C R N K 10
    111 K L K Y L A F L H K 10
    112 L K Y L A F L H K R 10
    160 A Y K K V C L S G A 10
    167 S G A P H E V G W K 10
    173 V G W K Y Q A V T A 10
    178 Q A V T A T L E E K 10
    212 N M K K K I D K Y T 10
    244 A T R A T R I G H P 10
    249 R I G H P G G R T P 10
    272 A R A P V P A A S P 10
    274 A P V P A A S P A A 10
    344 L A R G K P Q R K P 10
    1 M L E H T T K T F P 9
    33 K K V D L L V P T K 9
    46 I I T Q G A K D F G 9
    47 I T Q G A K D F G H 9
    80 E K Q R K D K V L L 9
    85 D K V L L G R K A V 9
    121 R M N T N P S R R P 9
    137 S R I F W R Q E K A 9
    138 R I F W R Q E K A D 9
    216 K I D K Y T E S P G 9
    264 A H R P P A L S A R 9
    271 S A R A P V P A A S 9
    280 S P A A W L P L R T 9
    281 P A A W L P L R T P 9
    291 W T R P S S C P T S 9
    302 S T Y D S L S P Y G 9
    353 P K S E N N S W Y V 9
    364 N G R P A D L A G S 9
    382 A I E S L E E G L G 9
    4 H T T K T F P L R A 8
    16 I V V E S I R D H S 8
    32 D K K V D L L V P T 8
    97 S C E G I N I S G S 8
    123 N T N P S R R P Y H 8
    129 R P Y H F Q V P S R 8
    150 S C C P Q G H A S E 8
    174 G W K Y Q A V T A T 8
    185 E E K R K E K A E I 8
    211 K N M K K K I D K Y 8
    240 A P L A A T R A T R 8
    242 L A A T R A T R I G 8
    248 T R I G H P G G R T 8
    251 G H P G G R T P R A 8
    255 G R T P R A G S S A 8
    265 H R P P A L S A R A 8
    273 R A P V P A A S P A 8
    316 L P N P R H S P S G 8
    362 V E N G R P A D L A 8
    380 W K A I E S L E E G 8
    17 V V E S I R D H S G 7
    50 G A K D F G H V Q F 7
    54 F G H V Q F V G S Y 7
    65 L A Y S N D G E H W 7
    66 A Y S N D G E H W T 7
    79 D E K Q R K D K V L 7
    116 A F L H K R M N T N 7
    126 P S R R P Y H F Q V 7
    133 F Q V P S R I F W R 7
    145 K A D G G S C C P Q 7
    158 S E A Y K K V C L S 7
    168 G A P H E V G W K Y 7
    172 E V G W K Y Q A V T 7
    177 Y Q A V T A T L E E 7
    179 A V T A T L E E K R 7
    192 A E I H Y R K N K Q 7
    194 I H Y R K N K Q L M 7
    220 Y T E S P G G G S P 7
    229 P R G L G F I F K T 7
    235 I F K T I A P L A A 7
    247 A T R I G H P G G R 7
    260 A G S S A H R P P A 7
    279 A S P A A W L P L R 7
    282 A A W L P L R T P W 7
    286 P L R T P W T R P S 7
    310 Y G P R N P L P N P 7
    314 N P L P N P R H S P 7
    315 P L P N P R H S P S 7
    322 S P S G G G G L K K 7
    324 S G G G G L K K P A 7
    342 N V L A R G K P Q R 7
    355 S E N N S W Y V E N 7
    359 S W Y V E N G R P A 7
    392 G K Q K D K E R K A 7
    398 E R K A E N G P H L 7
    35 V D L L V P T K V T 6
    40 P T K V T G I I T Q 6
    43 V T G I I T Q G A K 6
    44 T G I I T Q G A K D 6
    81 K Q R K D K V L L G 6
    82 Q R K D K V L L G R 6
    84 K D K V L L G R K A 6
    93 A V V V S C E G I N 6
    107 F C R N K L K Y L A 6
    113 K Y L A F L H K R M 6
    151 C C P Q G H A S E A 6
    163 K V C L S G A P H E 6
    180 V T A T L E E K R K 6
    199 N K Q L M R L Q K Q 6
    200 K Q L M R L Q K Q A 6
    207 K Q A E K N M K K K 6
    215 K K I D K Y T E S P 6
    243 A A T R A T R I G H 6
    262 S S A H R P P A L S 6
    287 L R T P W T R P S S 6
    288 R T P W T R P S S C 6
    295 S S C P T S S S T Y 6
    308 S P Y G P R N P L P 6
    336 C Q G Q K H N V L A 6
    337 Q G Q K H N V L A R 6
    338 G Q K H N V L A R G 6
    371 A G S G Y C G A L W 6
    384 E S L E E G L G G K 6
    57 V Q F V G S Y K L A 5
    63 Y K L A Y S N D G E 5
    75 T V Y Q D E K Q R K 5
    96 V S C E G I N I S G 5
    105 G S F C R N K L K Y 5
    139 I F W R Q E K A D G 5
    146 A D G G S C C P Q G 5
    148 G G S C C P Q G H A 5
    156 H A S E A Y K K V C 5
    159 E A Y K K V C L S G 5
    166 L S G A P H E V G W 5
    181 T A T L E E K R K E 5
    246 R A T R I G H P G G 5
    256 R T P R A G S S A H 5
    300 S S S T Y D S L S P 5
    325 G G G G L K K P A R 5
    368 A D L A G S G Y C G 5
    14 L H I V V E S I R D 4
    25 S G Q K M K Q D K K 4
    31 Q D K K V D L L V P 4
    39 V P T K V T G I I T 4
    41 T K V T G I I T Q G 4
    52 K D F G H V Q F V G 4
    58 Q F V G S Y K L A Y 4
    68 S N D G E H W T V Y 4
    69 N D G E H W T V Y Q 4
    76 V Y Q D E K Q R K D 4
    83 R K D K V L L G R K 4
    90 G R K A V V V S C E 4
    91 R K A V V V S C E G 4
    101 I N I S G S F C R N 4
    127 S R R P Y H F Q V P 4
    130 P Y H F Q V P S R I 4
    134 Q V P S R I F W R Q 4
    188 R K E K A E I H Y R 4
    203 M R L Q K Q A E K N 4
    228 S P R G L G F I F K 4
    232 L G F I F K T I A P 4
    250 I G H P G G R T P R 4
    259 R A G S S A H R P P 4
    268 P A L S A R A P V P 4
    275 P V P A A S P A A W 4
    285 L P L R T P W T R P 4
    301 S S T Y D S L S P Y 4
    323 P S G G G G L K K P 4
    340 K H N V L A R G K P 4
    346 R G K P Q R K P K S 4
    360 W Y V E N G R P A D 4
    366 R P A D L A G S G Y 4
    375 Y C G A L W K A I E 4
    376 C G A L W K A I E S 4
    379 L W K A I E S L E E 4
    383 I E S L E E G L G G 4
    394 Q K D K E R K A E N 4
    49 Q G A K D F G H V Q 3
    60 V G S Y K L A Y S N 3
    70 D G E H W T V Y Q D 3
    77 Y Q D E K Q R K D K 3
    108 C R N K L K Y L A F 3
    119 H K R M N T N P S R 3
    131 Y H F Q V P S R I F 3
    141 W R Q E K A D G G S 3
    149 G S C C P Q G H A S 3
    152 C P Q G H A S E A Y 3
    154 Q G H A S E A Y K K 3
    162 K K V C L S G A P H 3
    169 A P H E V G W K Y Q 3
    190 E K A E I H Y R K N 3
    191 K A E I H Y R K N K 3
    219 K Y T E S P G G G S 3
    225 G G G S P R G L G F 3
    245 T R A T R I G H P G 3
    252 H P G G R T P R A G 3
    254 G G R T P R A G S S 3
    277 P A A S P A A W L P 3
    294 P S S C P T S S S T 3
    326 G G G L K K P A R H 3
    327 G G L K K P A R H C 3
    329 L K K P A R H C Q G 3
    331 K P A R H C Q G Q K 3
    332 P A R H C Q G Q K H 3
    348 K P Q R K P K S E N 3
    351 R K P K S E N N S W 3
    365 G R P A D L A G S G 3
    390 L G G K Q K D K E R 3
    18 V E S I R D H S G Q 2
    22 R D H S G Q K M K Q 2
    53 D F G H V Q F V G S 2
    61 G S Y K L A Y S N D 2
    62 S Y K L A Y S N D G 2
    74 W T V Y Q D E K Q R 2
    98 C E G I N I S G S F 2
    110 N K L K Y L A F L H 2
    118 L H K R M N T N P S 2
    120 K R M N T N P S R R 2
    140 F W R Q E K A D G G 2
    161 Y K K V C L S G A P 2
    187 K R K E K A E I H Y 2
    205 L Q K Q A E K N M K 2
    206 Q K Q A E K N M K K 2
    213 M K K K I D K Y T E 2
    214 K K K I D K Y T E S 2
    217 I D K Y T E S P G G 2
    221 T E S P G G G S P R 2
    257 T P R A G S S A H R 2
    258 P R A G S S A H R P 2
    292 T R P S S C P T S S 2
    293 R P S S C P T S S S 2
    296 S C P T S S S T Y D 2
    303 T Y D S L S P Y G P 2
    304 Y D S L S P Y G P R 2
    305 D S L S P Y G P R N 2
    311 G P R N P L P N P R 2
    330 K K P A R H C Q G Q 2
    347 G K P Q R K P K S E 2
    350 Q R K P K S E N N S 2
    356 E N N S W Y V E N G 2
    357 N N S W Y V E N G R 2
    386 L E E G L G G K Q K 2
    395 K D K E R K A E N G 2
    21 I R D H S G Q K M K 1
    55 G H V Q F V G S Y K 1
    71 G E H W T V Y Q D E 1
    73 H W T V Y Q D E K Q 1
    124 T N P S R R P Y H F 1
    125 N P S R R P Y H F Q 1
    128 R R P Y H F Q V P S 1
    135 V P S R I F W R Q E 1
    142 R Q E K A D G G S C 1
    170 P H E V G W K Y Q A 1
    176 K Y Q A V T A T L E 1
    184 L E E K R K E K A E 1
    189 K E K A E I H Y R K 1
    195 H Y R K N K Q L M R 1
    197 R K N K Q L M R L Q 1
    198 K N K Q L M R L Q K 1
    218 D K Y T E S P G G G 1
    227 G S P R G L G F I F 1
    266 R P P A L S A R A P 1
    289 T P W T R P S S C P 1
    312 P R N P L P N P R H 1
    318 N P R H S P S G G G 1
    333 A R H C Q G Q K H N 1
    339 Q K H N V L A R G K 1
    345 A R G K P Q R K P K 1
    354 K S E N N S W Y V E 1
    367 P A D L A G S G Y C 1
    372 G S G Y C G A L W K 1
    393 K Q K D K E R K A E 1
    397 K E R K A E N G P H 1
    19 E S I R D H S G Q K −1
    99 E G I N I S G S F C −1
    122 M N T N P S R R P Y −1
    136 P S R I F W R Q E K −1
    143 Q E K A D G G S C C −1
    153 P Q G H A S E A Y K −1
    224 P G G G S P R G L G −1
    341 H N V L A R G K P Q −1
    363 E N G R P A D L A G −1
    387 E E G L G G K Q K D −1
    210 E K N M K K K I D K −2
    317 P N P R H S P S G G −2
    319 P R H S P S G G G G −2
    3 E H T T K T F P L R −3
    186 E K R K E K A E I H −3
    349 P Q R K P K S E N N −3
  • [0837]
    TABLE XXXVII
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 0 score ID NO.
    151P3D4 v.1: HLA Peptide
    Scoring Results A*0202 10-mers SYFPEITHI
    293 F A A W K I L G Y D 5
    329 E A A V R F V G F P 5
    13 C W A D H L S D N Y 3
    27 D R A I H I Q A E N 3
    32 I Q A E N G P H L L 3
    42 V E A E Q A K V F S 3
    45 E Q A K V F S H R G 3
    67 P T A F G S G I H K 3
    120 S D A S L V I T D L 3
    151 V V A L D L Q G V V 3
    175 H E A Q Q A C L D Q 3
    178 Q Q A C L D Q D A V 3
    184 Q D A V I A S F D Q 3
    187 V I A S F D Q L Y D 3
    195 Y D A W R G G L D W 3
    205 C N A G W L S D G S 3
    273 D E A V Q A C L N D 3
    276 V Q A C L N D G A Q 3
    282 D G A Q I A K V G Q 3
    285 Q I A K V G Q I F A 3
    292 I F A A W K I L G Y 3
    294 A A W K I L G Y D R 3
    304 C D A G W L A D G S 3
    308 W L A D G S V R Y P 3
    328 T E A A V R F V G F 3
    330 A A V R F V G F P D 3
    14 W A D H L S D N Y T 2
    28 R A I H I Q A E N G 2
    33 Q A E N G P H L L V 2
    43 E A E Q A K V F S H 2
    46 Q A K V F S H R G G 2
    68 T A F G S G I H K I 2
    121 D A S L V I T D L T 2
    152 V A L D L Q G V V F 2
    176 E A Q Q A C L D Q D 2
    179 Q A C L D Q D A V I 2
    185 D A V I A S F D Q L 2
    188 I A S F D Q L Y D A 2
    196 D A W R G G L D W C 2
    206 N A G W L S D G S V 2
    274 E A V Q A C L N D G 2
    277 Q A C L N D G A Q I 2
    283 G A Q I A K V G Q I 2
    286 I A K V G Q I F A A 2
    305 D A G W L A D G S V 2
    309 L A D G S V R Y P I 2
    15 A D H L S D N Y T L 1
    29 A I H I Q A E N G P 1
    34 A E N G P H L L V E 1
    44 A E Q A K V F S H R 1
    47 A K V F S H R G G N 1
    69 A F G S G I H K I R 1
    122 A S L V I T D L T L 1
    153 A L D L Q G V V F P 1
    177 A Q Q A C L D Q D A 1
    180 A C L D Q D A V I A 1
    186 A V I A S F D Q L Y 1
    189 A S F D Q L Y D A W 1
    197 A W R G G L D W C N 1
    207 A G W L S D G S V Q 1
    275 A V Q A C L N D G A 1
    278 A C L N D G A Q I A 1
    284 A Q I A K V G Q I F 1
    287 A K V G Q I F A A W 1
    295 A W K I L G Y D R C 1
    306 A G W L A D G S V R 1
    310 A D G S V R Y P I S 1
    331 A V R F V G F P D K 1
    151P3D4 v.2: HLA Peptide
    Scoring Results A*0202 10-mers SYFPEITHI
    242 L A A T R A T R I G 5
    277 P A A S P A A W L P 5
    281 P A A W L P L R T P 5
    272 A R A P V P A A S P 4
    11 L R A L H I V V E S 3
    49 Q G A K D F G H V Q 3
    64 K L A Y S N D G E H 3
    91 R K A V V V S C E G 3
    114 Y L A F L H K R M N 3
    144 E K A D G G S C C P 3
    155 G H A S E A Y K K V 3
    158 S E A Y K K V C L S 3
    167 S G A P H E V G W K 3
    177 Y Q A V T A T L E E 3
    180 V T A T L E E K R K 3
    190 E K A E I H Y R K N 3
    207 K Q A E K N M K K K 3
    238 T I A P L A A T R A 3
    241 P L A A T R A T R I 3
    243 A A T R A T R I G H 3
    245 T R A T R I G H P G 3
    258 P R A G S S A H R P 3
    262 S S A H R P P A L S 3
    267 P P A L S A R A P V 3
    270 L S A R A P V P A A 3
    276 V P A A S P A A W L 3
    278 A A S P A A W L P L 3
    280 S P A A W L P L R T 3
    282 A A W L P L R T P W 3
    331 K P A R H C Q G Q K 3
    343 V L A R G K P Q R K 3
    366 R P A D L A G S G Y 3
    369 D L A G S G Y C G A 3
    376 C G A L W K A I E S 3
    380 W K A I E S L E E G 3
    399 R K A E N G P H L L 3
    12 R A L H I V V E S I 2
    50 G A K D F G H V Q F 2
    65 L A Y S N D G E H W 2
    92 K A V V V S C E G I 2
    115 L A F L H K R M N T 2
    145 K A D G G S C C P Q 2
    156 H A S E A Y K K V C 2
    159 E A Y K K V C L S G 2
    168 G A P H E V G W K Y 2
    178 Q A V T A T L E E K 2
    181 T A T L E E K R K E 2
    191 K A E I H Y R K N K 2
    208 Q A E K N M K K K I 2
    239 I A P L A A T R A T 2
    246 R A T R I G H P G G 2
    259 R A G S S A H R P P 2
    263 S A H R P P A L S A 2
    268 P A L S A R A P V P 2
    271 S A R A P V P A A S 2
    273 R A P V P A A S P A 2
    332 P A R H C Q G Q K H 2
    344 L A R G K P Q R K P 2
    367 P A D L A G S G Y C 2
    370 L A G S G Y C G A L 2
    377 G A L W K A I E S L 2
    381 K A I E S L E E G L 2
    13 A L H I V V E S I R 1
    51 A K D F G H V Q F V 1
    66 A Y S N D G E H W T 1
    93 A V V V S C E G I N 1
    116 A F L H K R M N T N 1
    146 A D G G S C C P Q G 1
    157 A S E A Y K K V C L 1
    160 A Y K K V C L S G A 1
    169 A P H E V G W K Y Q 1
    179 A V T A T L E E K R 1
    182 A T L E E K R K E K 1
    192 A E I H Y R K N K Q 1
    209 A E K N M K K K I D 1
    240 A P L A A T R A T R 1
    244 A T R A T R I G H P 1
    247 A T R I G H P G G R 1
    260 A G S S A H R P P A 1
    264 A H R P P A L S A R 1
    269 A L S A R A P V P A 1
    274 A P V P A A S P A A 1
    279 A S P A A W L P L R 1
    283 A W L P L R T P W T 1
    333 A R H C Q G Q K H N 1
    345 A R G K P Q R K P K 1
    368 A D L A G S G Y C G 1
    371 A G S G Y C G A L W 1
    378 A L W K A I E S L E 1
    382 A I E S L E E G L G 1
  • [0838]
    TABLE XXXVIII
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 0 score ID NO.
    151P3D4 v.1: HLA Peptide
    Scoring Results A*0203 10-mers SYFPEITHI
    286 I A K V G Q I F A A 19
    322 R R R C S P T E A A 19
    287 A K V G Q I F A A W 17
    323 R R C S P T E A A V 17
    6 L L V L I S I C W A 10
    20 D N Y T L D H D R A 10
    25 D H D R A I H I Q A 10
    35 E N G P H L L V E A 10
    38 P H L L V E A E Q A 10
    60 P C K F Y R D P T A 10
    113 F L K G G S D S D A 10
    144 G L E D D T V V V A 10
    168 G R Y N L N F H E A 10
    171 N L N F H E A Q Q A 10
    177 A Q Q A C L D Q D A 10
    180 A C L D Q D A V I A 10
    188 I A S F D Q L Y D A 10
    198 W R G G L D W C N A 10
    266 H P T K L T Y D E A 10
    269 K L T Y D E A V Q A 10
    275 A V Q A C L N D G A 10
    278 A C L N D G A Q I A 10
    285 Q I A K V G Q I F A 10
    297 K I L G Y D R C D A 10
    301 Y D R C D A G W L A 10
    321 P R R R C S P T E A 10
    343 K L Y G V Y C F R A 10
    7 L V L I S I C W A D 9
    21 N Y T L D H D R A I 9
    26 H D R A I H I Q A E 9
    36 N G P H L L V E A E 9
    39 H L L V E A E Q A K 9
    61 C K F Y R D P T A F 9
    114 L K G G S D S D A S 9
    145 L E D D T V V V A L 9
    169 R Y N L N F H E A Q 9
    172 L N F H E A Q Q A C 9
    178 Q Q A C L D Q D A V 9
    181 C L D Q D A V I A S 9
    189 A S F D Q L Y D A W 9
    199 R G G L D W C N A G 9
    267 P T K L T Y D E A V 9
    270 L T Y D E A V Q A C 9
    276 V Q A C L N D G A Q 9
    279 C L N D G A Q I A K 9
    298 I L G Y D R C D A G 9
    302 D R C D A G W L A D 9
    344 L Y G V Y C F R A Y 9
    8 V L I S I C W A D H 8
    22 Y T L D H D R A I H 8
    27 D R A I H I Q A E N 8
    37 G P H L L V E A E Q 8
    40 L L V E A E Q A K V 8
    62 K F Y R D P T A F G 8
    115 K G G S D S D A S L 8
    146 E D D T V V V A L D 8
    170 Y N L N F H E A Q Q 8
    173 N F H E A Q Q A C L 8
    179 Q A C L D Q D A V I 8
    182 L D Q D A V I A S F 8
    190 S F D Q L Y D A W R 8
    200 G G L D W C N A G W 8
    268 T K L T Y D E A V Q 8
    271 T Y D E A V Q A C L 8
    277 Q A C L N D G A Q I 8
    280 L N D G A Q I A K V 8
    288 K V G Q I F A A W K 8
    299 L G Y D R C D A G W 8
    303 R C D A G W L A D G 8
    324 R C S P T E A A V R 8
    345 Y G V Y C F R A Y N 8
    151P3D4 v.2: HLA Peptide
    Scoring Results A*0203 10-mers SYFPEITHI
    235 I F K T I A P L A A 19
    270 L S A R A P V P A A 19
    274 A P V P A A S P A A 19
    265 H R P P A L S A R A 18
    236 F K T I A P L A A T 17
    271 S A R A P V P A A S 17
    275 P V P A A S P A A W 17
    4 H T T K T F P L R A 10
    42 K V T G I I T Q G A 10
    57 V Q F V G S Y K L A 10
    84 K D K V L L G R K A 10
    107 F C R N K L K Y L A 10
    137 S R I F W R Q E K A 10
    148 G G S C C P Q G H A 10
    151 C C P Q G H A S E A 10
    160 A Y K K V C L S G A 10
    170 P H E V G W K Y Q A 10
    173 V G W K Y Q A V T A 10
    183 T L E E K R K E K A 10
    200 K Q L M R L Q K Q A 10
    231 G L G F I F K T I A 10
    234 F I F K T I A P L A 10
    238 T I A P L A A T R A 10
    251 G H P G G R T P R A 10
    255 G R T P R A G S S A 10
    260 A G S S A H R P P A 10
    263 S A H R P P A L S A 10
    269 A L S A R A P V P A 10
    273 R A P V P A A S P A 10
    324 S G G G G L K K P A 10
    336 C Q G Q K H N V L A 10
    359 S W Y V E N G R P A 10
    362 V E N G R P A D L A 10
    369 D L A G S G Y C G A 10
    373 S G Y C G A L W K A 10
    392 G K Q K D K E R K A 10
    5 T T K T F P L R A L 9
    43 V T G I I T Q G A K 9
    58 Q F V G S Y K L A Y 9
    85 D K V L L G R K A V 9
    108 C R N K L K Y L A F 9
    138 R I F W R Q E K A D 9
    149 G S C C P Q G H A S 9
    152 C P Q G H A S E A Y 9
    161 Y K K V C L S G A P 9
    171 H E V G W K Y Q A V 9
    174 G W K Y Q A V T A T 9
    184 L E E K R K E K A E 9
    201 Q L M R L Q K Q A E 9
    232 L G F I F K T I A P 9
    239 I A P L A A T R A T 9
    252 H P G G R T P R A G 9
    256 R T P R A G S S A H 9
    261 G S S A H R P P A L 9
    264 A H R P P A L S A R 9
    266 R P P A L S A R A P 9
    325 G G G G L K K P A R 9
    337 Q G Q K H N V L A R 9
    360 W Y V E N G R P A D 9
    363 E N G R P A D L A G 9
    370 L A G S G Y C G A L 9
    374 G Y C G A L W K A I 9
    393 K Q K D K E R K A E 9
    6 T K T F P L R A L H 8
    44 T G I I T Q G A K D 8
    59 F V G S Y K L A Y S 8
    86 K V L L G R K A V V 8
    109 R N K L K Y L A F L 8
    139 I F W R Q E K A D G 8
    150 S C C P Q G H A S E 8
    153 P Q G H A S E A Y K 8
    162 K K V C L S G A P H 8
    172 E V G W K Y Q A V T 8
    175 W K Y Q A V T A T L 8
    185 E E K R K E K A E I 8
    202 L M R L Q K Q A E K 8
    233 G F I F K T I A P L 8
    237 K T I A P L A A T R 8
    240 A P L A A T R A T R 8
    253 P G G R T P R A G S 8
    257 T P R A G S S A H R 8
    262 S S A H R P P A L S 8
    267 P P A L S A R A P V 8
    272 A R A P V P A A S P 8
    276 V P A A S P A A W L 8
    326 G G G L K K P A R H 8
    338 G Q K H N V L A R G 8
    361 Y V E N G R P A D L 8
    364 N G R P A D L A G S 8
    371 A G S G Y C G A L W 8
    375 Y C G A L W K A I E 8
    394 Q K D K E R K A E N 8
  • [0839]
    TABLE XXXIX
    SEQ.
    Pos 1 2 3 4 5 6 7 8 9 0 score ID NO.
    151P3D4 v.1: HLA Peptide
    Scoring Results A3 10-mers SYFPEITHI
    288 K V G Q I F A A W K 30
    263 Y L I H P T K L T Y 26
    331 A V R F V G F P D K 26
    186 A V I A S F D Q L Y 24
    234 G V R N Y G F W D K 24
    39 H L L V E A E Q A K 23
    41 L V E A E Q A K V F 23
    93 D V F V S M G Y H K 23
    269 K L T Y D E A V Q A 23
    260 R F Y Y L I H P T K 22
    279 C L N D G A Q I A K 22
    111 R V F L K G G S D S 21
    166 R L G R Y N L N F H 21
    324 R C S P T E A A V R 21
    8 V L I S I C W A D H 20
    236 R N Y G F W D K D K 20
    334 F V G F P D K K H K 20
    144 G L E D D T V V V A 19
    193 Q L Y D A W R G G L 19
    343 K L Y G V Y C F R A 19
    17 H L S D N Y T L D H 18
    74 I H K I R I K W T K 18
    128 D L T L E D Y G R Y 18
    152 V A L D L Q G V V F 18
    153 A L D L Q G V V F P 18
    306 A G W L A D G S V R 18
    313 S V R Y P I S R P R 18
    48 K V F S H R G G N V 17
    91 E V D V F V S M G Y 17
    151 V V A L D L Q G V V 17
    3 S L L L L V L I S I 16
    4 L L L L V L I S I C 16
    78 R I K W T K L T S D 16
    88 Y L K E V D V F V S 16
    113 F L K G G S D S D A 16
    124 L V I T D L T L E D 16
    129 L T L E D Y G R Y K 16
    149 T V V V A L D L Q G 16
    155 D L Q G V V F P Y F 16
    171 N L N F H E A Q Q A 16
    231 T V P G V R N Y G F 16
    297 K I L G Y D R C D A 16
    53 R G G N V T L P C K 15
    56 N V T L P C K F Y R 15
    76 K I R I K W T K L T 15
    125 V I T D L T L E D Y 15
    201 G L D W C N A G W L 15
    208 G W L S D G S V Q Y 15
    212 D G S V Q Y P I T K 15
    214 S V Q Y P I T K P R 15
    275 A V Q A C L N D G A 15
    284 A Q I A K V G Q I F 15
    7 L V L I S I C W A D 14
    11 S I C W A D H L S D 14
    40 L L V E A E Q A K V 14
    67 P T A F G S G I H K 14
    86 S D Y L K E V D V F 14
    106 G G Y Q G R V F L K 14
    140 E V I E G L E D D T 14
    141 V I E G L E D D T V 14
    159 V V F P Y F P R L G 14
    207 A G W L S D G S V Q 14
    221 K P R E P C G G Q N 14
    292 I F A A W K I L G Y 14
    307 G W L A D G S V R Y 14
    320 R P R R R C S P T E 14
    23 T L D H D R A I H I 13
    31 H I Q A E N G P H L 13
    62 K F Y R D P T A F G 13
    83 K L T S D Y L K E V 13
    104 T Y G G Y Q G R V F 13
    123 S L V I T D L T L E 13
    180 A C L D Q D A V I A 13
    298 I L G Y D R C D A G 13
    5 L L L V L I S I C W 12
    6 L L V L I S I C W A 12
    9 L I S I C W A D H L 12
    29 A I H I Q A E N G P 12
    34 A E N G P H L L V E 12
    44 A E Q A K V F S H R 12
    77 I R I K W T K L T S 12
    81 W T K L T S D Y L K 12
    96 V S M G Y H K K T Y 12
    122 A S L V I T D L T L 12
    130 T L E D Y G R Y K C 12
    150 V V V A L D L Q G V 12
    187 V I A S F D Q L Y D 12
    264 L I H P T K L T Y D 12
    277 Q A C L N D G A Q I 12
    291 Q I F A A W K I L G 12
    308 W L A D G S V R Y P 12
    314 V R Y P I S R P R R 12
    317 P I S R P R R R C S 12
    339 D K K H K L Y G V Y 12
    22 Y T L D H D R A I H 11
    50 F S H R G G N V T L 11
    71 G S G I H K I R I K 11
    79 I K W T K L T S D Y 11
    143 E G L E D D T V V V 11
    161 F P Y F P R L G R Y 11
    165 P R L G R Y N L N F 11
    181 C L D Q D A V I A S 11
    209 W L S D G S V Q Y P 11
    227 G G Q N T V P G V R 11
    285 Q I A K V G Q I F A 11
    318 I S R P R R R C S P 11
    325 C S P T E A A V R F 11
    328 T E A A V R F V G F 11
    332 V R F V G F P D K K 11
    28 R A I H I Q A E N G 10
    30 I H I Q A E N G P H 10
    58 T L P C K F Y R D P 10
    65 R D P T A F G S G I 10
    94 V F V S M G Y H K K 10
    95 F V S M G Y H K K T 10
    103 K T Y G G Y Q G R V 10
    158 G V V F P Y F P R L 10
    179 Q A C L D Q D A V I 10
    182 L D Q D A V I A S F 10
    239 G F W D K D K S R Y 10
    246 S R Y D V F C F T S 10
    249 D V F C F T S N F N 10
    253 F T S N F N G R F Y 10
    257 F N G R F Y Y L I H 10
    294 A A W K I L G Y D R 10
    315 R Y P I S R P R R R 10
    333 R F V G F P D K K H 10
    340 K K H K L Y G V Y C 10
    2 K S L L L L V L I S 9
    38 P H L L V E A E Q A 9
    73 G I H K I R I K W T 9
    138 K C E V I E G L E D 9
    170 Y N L N F H E A Q Q 9
    190 S F D Q L Y D A W R 9
    268 T K L T Y D E A V Q 9
    278 A C L N D G A Q I A 9
    281 N D G A Q I A K V G 9
    287 A K V G Q I F A A W 9
    303 R C D A G W L A D G 9
    330 A A V R F V G F P D 9
    341 K H K L Y G V Y C F 9
    13 C W A D H L S D N Y 8
    15 A D H L S D N Y T L 8
    90 K E V D V F V S M G 8
    115 K G G S D S D A S L 8
    142 I E G L E D D T V V 8
    154 L D L Q G V V F P Y 8
    160 V F P Y F P R L G R 8
    183 D Q D A V I A S F D 8
    197 A W R G G L D W C N 8
    218 P I T K P R E P C G 8
    223 R E P C G G Q N T V 8
    229 Q N T V P G V R N Y 8
    242 D K D K S R Y D V F 8
    243 K D K S R Y D V F C 8
    299 L G Y D R C D A G W 8
    300 G Y D R C D A G W L 8
    321 P R R R C S P T E A 8
    322 R R R C S P T E A A 8
    323 R R C S P T E A A V 8
    12 I C W A D H L S D N 7
    35 E N G P H L L V E A 7
    49 V F S H R G G N V T 7
    51 S H R G G N V T L P 7
    61 C K F Y R D P T A F 7
    63 F Y R D P T A F G S 7
    66 D P T A F G S G I H 7
    69 A F G S G I H K I R 7
    75 H K I R I K W T K L 7
    99 G Y H K K T Y G G Y 7
    101 H K K T Y G G Y Q G 7
    102 K K T Y G G Y Q G R 7
    116 G G S D S D A S L V 7
    117 G S D S D A S L V I 7
    133 D Y G R Y K C E V I 7
    134 Y G R Y K C E V I E 7
    195 Y D A W R G G L D W 7
    215 V Q Y P I T K P R E 7
    219 I T K P R E P C G G 7
    224 E P C G G Q N T V P 7
    228 G Q N T V P G V R N 7
    233 P G V R N Y G F W D 7
    244 D K S R Y D V F C F 7
    247 R Y D V F C F T S N 7
    248 Y D V F C F T S N F 7
    254 T S N F N G R F Y Y 7
    261 F Y Y L I H P T K L 7
    311 D G S V R Y P I S R 7
    319 S R P R R R C S P T 7
    327 P T E A A V R F V G 7
    336 G F P D K K H K L Y 7
    344 L Y G V Y C F R A Y 7
    25 D H D R A I H I Q A 6
    26 H D R A I H I Q A E 6
    33 Q A E N G P H L L V 6
    42 V K A E Q A K V F S 6
    43 E A E Q A K V F S H 6
    55 G N V T L P C K F Y 6
    64 Y R D P T A F G S G 6
    87 D Y L K E V D V F V 6
    89 L K E V D V F V S M 6
    109 Q G R V F L K G G S 6
    110 G R V F L K G G S D 6
    118 S D S D A S L V I T 6
    119 D S D A S L V I T D 6
    127 T D L T L E D Y G R 6
    132 E D Y G R Y K C E V 6
    145 L E D D T V V V A L 6
    147 D D T V V V A L D L 6
    157 Q G V V F P Y F P R 6
    162 P Y F P R L G R Y N 6
    169 R Y N L N F H E A Q 6
    194 L Y D A W R G G L D 6
    199 R G G L D W C N A G 6
    200 G G L D W C N A G W 6
    203 D W C N A G W L S D 6
    222 P R E P C G G Q N T 6
    225 P C G G Q N T V P G 6
    238 Y G F W D K D K S R 6
    245 K S R Y D V F C F T 6
    270 L T Y D E A V Q A C 6
    301 Y D R C D A G W L A 6
    304 C D A G W L A D G S 6
    312 G S V R Y P I S R P 6
    342 H K L Y G V Y C F R 6
    1 M K S L L L L V L I 5
    10 I S I C W A D H L S 5
    19 S D N Y T L D H D R 5
    27 D R A I H I Q A E N 5
    32 I Q A E N G P H L L 5
    47 A K V F S H R G G N 5
    52 H R G G N V T L P C 5
    54 G G N V T L P C K F 5
    57 V T L P C K F Y R D 5
    60 P C K F Y R D P T A 5
    72 S G I H K I R I K W 5
    82 T K L T S D Y L K E 5
    84 L T S D Y L K E V D 5
    92 V D V F V S M G Y H 5
    100 Y H K K T Y G G Y Q 5
    105 Y G G Y Q G R V F L 5
    107 G Y Q G R V F L K G 5
    136 R Y K C E V I E G L 5
    168 G R Y N L N F H E A 5
    174 F H E A Q Q A C L D 5
    177 A Q Q A C L D Q D A 5
    189 A S F D Q L Y D A W 5
    204 W C N A G W L S D G 5
    252 C F T S N F N G R F 5
    272 Y D E A V Q A C L N 5
    280 L N D G A Q I A K V 5
    282 D G A Q I A K V G Q 5
    283 G A Q I A K V G Q I 5
    295 A W K I L G Y D R C 5
    302 D R C D A G W L A D 5
    20 D N Y T L D H D R A 4
    37 G P H L L V E A E Q 4
    85 T S D Y L K E V D V 4
    98 M G Y H K K T Y G G 4
    112 V F L K G G S D S D 4
    135 G R Y K C E V I E G 4
    163 Y F P R L G R Y N L 4
    164 F P R L G R Y N L N 4
    173 N F H E A Q Q A C L 4
    175 H E A Q Q A C L D Q 4
    178 Q Q A C L D Q D A V 4
    185 D A V I A S F D Q L 4
    191 F D Q L Y D A W R G 4
    196 D A W R G G L D W C 4
    216 Q Y P I T K P R E P 4
    217 Y P I T K P R E P C 4
    220 T K P R E P C G G Q 4
    230 N T V P G V R N Y G 4
    251 F C F T S N F N G R 4
    271 T Y D E A V Q A C L 4
    273 D E A V Q A C L N D 4
    286 I A K V G Q I F A A 4
    289 V G Q I F A A W K I 4
    296 W K I L G Y D R C D 4
    316 Y P I S R P R R R C 4
    345 Y G V Y C F R A Y N 4
    16 D H L S D N Y T L D 3
    46 Q A K V F S H R G G 3
    80 K W T K L T S D Y L 3
    108 Y Q G R V F L K G G 3
    114 L K G G S D S D A S 3
    120 S D A S L V I T D L 3
    126 I T D L T L E D Y G 3
    146 E D D T V V V A L D 3
    167 L G R Y N L N F H E 3
    176 E A Q Q A C L D Q D 3
    184 Q D A V I A S F D Q 3
    202 L D W C N A G W L S 3
    205 C N A G W L S D G S 3
    206 N A G W L S D G S V 3
    241 W D K D K S R Y D V 3
    258 N G R F Y Y L I H P 3
    262 Y Y L I H P T K L T 3
    267 P T K L T Y D E A V 3
    276 V Q A C L N D G A Q 3
    290 G Q I F A A W K I L 3
    305 D A G W L A D G S V 3
    309 L A D G S V R Y P I 3
    310 A D G S V R Y P I S 3
    335 V G F P D K K H K L 3
    337 F P D K K H K L Y G 3
    21 N Y T L D H D R A I 2
    68 T A F G S G I H K I 2
    70 F G S G I H K I R I 2
    97 S M G Y H K K T Y G 2
    137 Y K C E V I E G L E 2
    188 I A S F D Q L Y D A 2
    192 D Q L Y D A W R G G 2
    198 W R G G L D W C N A 2
    210 L S D G S V Q Y P I 2
    255 S N F N G R F Y Y L 2
    256 N F N G R F Y Y L I 2
    265 I H P T K L T Y D E 2
    293 F A A W K I L G Y D 2
    326 S P T E A A V R F V 2
    329 E A A V R F V G F P 2
    18 L S D N Y T L D H D 1
    24 L D H D R A I H I Q 1
    36 N G P H L L V E A E 1
    45 E Q A K V F S H R G 1
    59 L P C K F Y R D P T 1
    121 D A S L V I T D L T 1
    139 C E V I E G L E D D 1
    156 L Q G V V F P Y F P 1
    172 L N F H E A Q Q A C 1
    211 S D G S V Q Y P I T 1
    213 G S V Q Y P I T K P 1
    232 V P G V R N Y G F W 1
    338 P D K K H K L Y G V 1
    151P3D4 v.2: HLA Peptide
    Scoring Results A3 10-mers SYFPEITHI
    111 K L K Y L A F L H K 27
    87 V L L G R K A V V V 25
    343 V L A R G K P Q R K 25
    75 T V Y Q D E K Q R K 24
    10 P L R A L H I V V E 23
    86 K V L L G R K A V V 23
    237 K T I A P L A A T R 22
    13 A L H I V V E S I R 21
    88 L L G R K A V V V S 21
    198 K N K Q L M R L Q K 21
    331 K P A R H C Q G Q K 21
    342 N V L A R G K P Q R 21
    19 E S I R D H S G Q K 20
    36 D L L V P T K V T G 20
    102 N I S G S F C R N K 20
    269 A L S A R A P V P A 20
    284 W L P L R T P W T R 20
    64 K L A Y S N D G E H 19
    179 A V T A T L E E K R 19
    240 A P L A A T R A T R 19
    249 R I G H P G G R T P 19
    322 S P S G G G G L K K 19
    33 K K V D L L V P T K 18
    45 G I I T Q G A K D F 18
    366 R P A D L A G S G Y 18
    386 L E E G L G G K Q K 18
    154 Q G H A S E A Y K K 17
    163 K V C L S G A P H E 17
    167 S G A P H E V G W K 17
    172 E V G W K Y Q A V T 17
    182 A T L E E K R K E K 17
    202 L M R L Q K Q A E K 17
    241 P L A A T R A T R I 17
    264 A H R P P A L S A R 17
    275 P V P A A S P A A W 17
    295 S S C P T S S S T Y 17
    372 G S G Y C G A L W K 17
    20 S I R D H S G Q K M 16
    34 K V D L L V P T K V 16
    55 G H V Q F V G S Y K 16
    165 C L S G A P H E V G 16
    189 K E K A E I H Y R K 16
    201 Q L M R L Q K Q A E 16
    228 S P R G L G F I F K 16
    238 T I A P L A A T R A 16
    339 Q K H N V L A R G K 16
    378 A L W K A I E S L E 16
    385 S L E E G L G G K Q 16
    42 K V T G I I T Q G A 15
    83 R K D K V L L G R K 15
    136 P S R I F W R Q E K 15
    191 K A E I H Y R K N K 15
    206 Q K Q A E K N M K K 15
    207 K Q A E K N M K K K 15
    256 R T P R A G S S A H 15
    272 A R A P V P A A S P 15
    306 S L S P Y G P R N P 15
    361 Y V E N G R P A D L 15
    16 I V V E S I R D H S 14
    37 L L V P T K V T G I 14
    58 Q F V G S Y K L A Y 14
    68 S N D G E H W T V Y 14
    93 A V V V S C E G I N 14
    129 R P Y H F Q V P S R 14
    204 R L Q K Q A E K N M 14
    216 K I D K Y T E S P G 14
    315 P L P N P R H S P S 14
    321 H S P S G G G G L K 14
    345 A R G K P Q R K P K 14
    352 K P K S E N N S W Y 14
    384 E S L E E G L G G K 14
    388 E G L G G K Q K D K 14
    21 I R D H S G Q K M K 13
    43 V T G I I T Q G A K 13
    50 G A K D F G H V Q F 13
    59 F V G S Y K L A Y S 13
    94 V V V S C E G I N I 13
    100 G I N I S G S F C R 13
    138 R I F W R Q E K A D 13
    153 P Q G H A S E A Y K 13
    162 K K V C L S G A P H 13
    221 T E S P G G G S P R 13
    247 A T R I G H P G G R 13
    286 P L R T P W T R P S 13
    369 D L A G S G Y C G A 13
    7 K T F P L R A L H I 12
    15 H I V V E S I R D H 12
    17 V V E S I R D H S G 12
    77 Y Q D E K Q R K D K 12
    114 Y L A F L H K R M N 12
    120 K R M N T N P S R R 12
    134 Q V P S R I F W R Q 12
    178 Q A V T A T L E E K 12
    205 L Q K Q A E K N M K 12
    230 R G L G F I F K T I 12
    257 T P R A G S S A H R 12
    263 S A H R P P A L S A 12
    328 G L K K P A R H C Q 12
    382 A I E S L E E G L G 12
    389 G L G G K Q K D K E 12
    1 M L E H T T K T F P 11
    25 S G Q K M K Q D K K 11
    38 L V P T K V T G I I 11
    82 Q R K D K V L L G R 11
    104 S G S F C R N K L K 11
    117 F L H K R M N T N P 11
    127 S R R P Y H F Q V P 11
    143 Q E K A D G G S C C 11
    173 V G W K Y Q A V T A 11
    175 W K Y Q A V T A T L 11
    180 V T A T L E E K R K 11
    183 T L E E K R K E K A 11
    187 K R K E K A E I H Y 11
    193 E I H Y R K N K Q L 11
    195 H Y R K N K Q L M R 11
    231 G L G F I F K T I A 11
    234 F I F K T I A P L A 11
    243 A A T R A T R I G H 11
    250 I G H P G G R T P R 11
    255 G R T P R A G S S A 11
    271 S A R A P V P A A S 11
    320 R H S P S G G G G L 11
    371 A G S G Y C G A L W 11
    391 G G K Q K D K E R K 11
    397 K E R K A E N G P H 11
    24 H S G Q K M K Q D K 10
    31 Q D K K V D L L V P 10
    44 T G I I T Q G A K D 10
    46 I I T Q G A K D F G 10
    49 Q G A K D F G H V Q 10
    56 H V Q F V G S Y K L 10
    72 E H W T V Y Q D E K 10
    95 V V S C E G I N I S 10
    99 E G I N I S G S F C 10
    142 R Q E K A D G G S C 10
    186 E K R K E K A E I H 10
    210 E K N M K K K I D K 10
    225 G G G S P R G L G F 10
    227 G S P R G L G F I F 10
    266 R P P A L S A R A P 10
    273 R A P V P A A S P A 10
    276 V P A A S P A A W L 10
    288 R T P W T R P S S C 10
    291 W T R P S S C P T S 10
    301 S S T Y D S L S P Y 10
    332 P A R H C Q G Q K H 10
    337 Q G Q K H N V L A R 10
    368 A D L A G S G Y C G 10
    9 F P L R A L H I V V 9
    52 K D F G H V Q F V G 9
    54 F G H V Q F V G S Y 9
    81 K Q R K D K V L L G 9
    89 L G R K A V V V S C 9
    105 G S F C R N K L K Y 9
    109 R N K L K Y L A F L 9
    110 N K L K Y L A F L H 9
    112 L K Y L A F L H K R 9
    116 A F L H K R M N T N 9
    119 H K R M N T N P S R 9
    126 P S R R P Y H F Q V 9
    150 S C C P Q G H A S E 9
    152 C P Q G H A S E A Y 9
    157 A S E A Y K K V C L 9
    159 E A Y K K V C L S G 9
    168 G A P H E V G W K Y 9
    176 K Y Q A V T A T L E 9
    194 I H Y R K N K Q L M 9
    211 K N M K K K I D K Y 9
    215 K K I D K Y T E S P 9
    244 A T R A T R I G H P 9
    248 T R I G H P G G R T 9
    254 G G R T P R A G S S 9
    268 P A L S A R A P V P 9
    278 A A S P A A W L P L 9
    279 A S P A A W L P L R 9
    283 A W L P L R T P W T 9
    293 R P S S C P T S S S 9
    311 G P R N P L P N P R 9
    326 G G G L K K P A R H 9
    348 K P Q R K P K S E N 9
    364 N G R P A D L A G S 9
    383 I E S L E E G L G G 9
    6 T K T F P L R A L H 8
    12 R A L H I V V E S I 8
    28 K M K Q D K K V D L 8
    47 I T Q G A K D F G H 8
    98 C E G I N I S G S F 8
    108 C R N K L K Y L A F 8
    122 M N T N P S R R P Y 8
    123 N T N P S R R P Y H 8
    128 R R P Y H F Q V P S 8
    133 F Q V P S R I F W R 8
    139 I F W R Q E K A D G 8
    146 A D G G S C C P Q G 8
    188 R K E K A E I H Y R 8
    200 K Q L M R L Q K Q A 8
    219 K Y T E S P G G G S 8
    235 I F K T I A P L A A 8
    280 S P A A W L P L R T 8
    314 N P L P N P R H S P 8
    346 R G K P Q R K P K S 8
    354 K S E N N S W Y V E 8
    359 S W Y V E N G R P A 8
    365 G R P A D L A G S G 8
    395 K D K E R K A E N G 8
    35 V D L L V P T K V T 7
    61 G S Y K L A Y S N D 7
    65 L A Y S N D G E H W 7
    74 W T V Y Q D E K Q R 7
    80 E K Q R K D K V L L 7
    84 K D K V L L G R K A 7
    113 K Y L A F L H K R M 7
    160 A Y K K V C L S G A 7
    185 E E K R K E K A E I 7
    246 R A T R I G H P G G 7
    253 P G G R T P R A G S 7
    274 A P V P A A S P A A 7
    308 S P Y G P R N P L P 7
    309 P Y G P R N P L P N 7
    312 P R N P L P N P R H 7
    317 P N P R H S P S G G 7
    325 G G G G L K K P A R 7
    329 L K K P A R H C Q G 7
    363 E N G R P A D L A G 7
    381 K A I E S L E E G L 7
    393 K Q K D K E R K A E 7
    399 R K A E N G P H L L 7
    11 L R A L H I V V E S 6
    27 Q K M K Q D K K V D 6
    30 K Q D K K V D L L V 6
    90 G R K A V V V S C E 6
    97 S C E G I N I S G S 6
    135 V P S R I F W R Q E 6
    140 F W R Q E K A D G G 6
    151 C C P Q G H A S E A 6
    166 L S G A P H E V G W 6
    192 A E I H Y R K N K Q 6
    214 K K K I D K Y T E S 6
    218 D K Y T E S P G G G 6
    220 Y T E S P G G G S P 6
    233 G F I F K T I A P L 6
    258 P R A G S S A H R P 6
    262 S S A H R P P A L S 6
    265 H R P P A L S A R A 6
    267 P P A L S A R A P V 6
    282 A A W L P L R T P W 6
    285 L P L R T P W T R P 6
    287 L R T P W T R P S S 6
    300 S S S T Y D S L S P 6
    302 S T Y D S L S P Y G 6
    304 Y D S L S P Y G P R 6
    313 R N P L P N P R H S 6
    335 H C Q G Q K H N V L 6
    350 Q R K P K S E N N S 6
    351 R K P K S E N N S W 6
    355 S E N N S W Y V E N 6
    379 L W K A I E S L E E 6
    398 E R K A E N G P H L 6
    22 R D H S G Q K M K Q 5
    23 D H S G Q K M K Q D 5
    32 D K K V D L L V P T 5
    40 P T K V T G I I T Q 5
    60 V G S Y K L A Y S N 5
    66 A Y S N D G E H W T 5
    67 Y S N D G E H W T V 5
    69 N D G E H W T V Y Q 5
    79 D E K Q R K D K V L 5
    91 R K A V V V S C E G 5
    101 I N I S G S F C R N 5
    124 T N P S R R P Y H F 5
    145 K A D G G S C C P Q 5
    147 D G G S C C P Q G H 5
    156 H A S E A Y K K V C 5
    203 M R L Q K Q A E K N 5
    209 A E K N M K K K I D 5
    213 M K K K I D K Y T E 5
    236 F K T I A P L A A T 5
    270 L S A R A P V P A A 5
    281 P A A W L P L R T P 5
    294 P S S C P T S S S T 5
    305 D S L S P Y G P R N 5
    316 L P N P R H S P S G 5
    327 G G L K K P A R H C 5
    330 K K P A R H C Q G Q 5
    340 K H N V L A R G K P 5
    344 L A R G K P Q R K P 5
    362 V E N G R P A D L A 5
    373 S G Y C G A L W K A 5
    375 Y C G A L W K A I E 5
    376 C G A L W K A I E S 5
    394 Q K D K E R K A E N 5
    3 E H T T K T F P L R 4
    4 H T T K T F P L R A 4
    18 V E S I R D H S G Q 4
    41 T K V T G I I T Q G 4
    53 D F G H V Q F V G S 4
    63 Y K L A Y S N D G E 4
    106 S F C R N K L K Y L 4
    107 F C R N K L K Y L A 4
    118 L H K R M N T N P S 4
    121 R M N T N P S R R P 4
    130 P Y H F Q V P S R I 4
    131 Y H F Q V P S R I F 4
    137 S R I F W R Q E K A 4
    149 G S C C P Q G H A S 4
    169 A P H E V G W K Y Q 4
    177 Y Q A V T A T L E E 4
    197 R K N K Q L M R L Q 4
    223 S P G G G S P R G L 4
    224 P G G G S P R G L G 4
    226 G G S P R G L G F I 4
    239 I A P L A A T R A T 4
    245 T R A T R I G H P G 4
    252 H P G G R T P R A G 4
    259 R A G S S A H R P P 4
    260 A G S S A H R P P A 4
    261 G S S A H R P P A L 4
    277 P A A S P A A W L P 4
    292 T R P S S C P T S S 4
    318 N P R H S P S G G G 4
    319 P R H S P S G G G G 4
    334 R H C Q G Q K H N V 4
    336 C Q G Q K H N V L A 4
    338 G Q K H N V L A R G 4
    341 H N V L A R G K P Q 4
    357 N N S W Y V E N G R 4
    377 G A L W K A I E S L 4
    390 L G G K Q K D K E R 4
    14 L H I V V E S I R D 3
    39 V P T K V T G I I T 3
    48 T Q G A K D F G H V 3
    51 A K D F G H V Q F V 3
    62 S Y K L A Y S N D G 3
    70 D G E H W T V Y Q D 3
    85 D K V L L G R K A V 3
    92 K A V V V S C E G I 3
    96 V S C E G I N I S G 3
    103 I S G S F C R N K L 3
    115 L A F L H K R M N T 3
    125 N P S R R P Y H F Q 3
    161 Y K K V C L S G A P 3
    164 V C L S G A P H E V 3
    170 P H E V G W K Y Q A 3
    171 H E V G W K Y Q A V 3
    174 G W K Y Q A V T A T 3
    196 Y R K N K Q L M R L 3
    217 I D K Y T E S P G G 3
    289 T P W T R P S S C P 3
    290 P W T R P S S C P T 3
    299 T S S S T Y D S L S 3
    310 Y G P R N P L P N P 3
    324 S G G G G L K K P A 3
    333 A R H C Q G Q K H N 3
    347 G K P Q R K P K S E 3
    349 P Q R K P K S E N N 3
    360 W Y V E N G R P A D 3
    374 G Y C G A L W K A I 3
    396 D K E R K A E N G P 3
    5 T T K T F P L R A L 2
    78 Q D E K Q R K D K V 2
    141 W R Q E K A D G G S 2
    144 E K A D G G S C C P 2
    158 S E A Y K K V C L S 2
    190 E K A E I H Y R K N 2
    208 Q A E K N M K K K I 2
    222 E S P G G G S P R G 2
    232 L G F I F K T I A P 2
    251 G H P G G R T P R A 2
    296 S C P T S S S T Y D 2
    298 P T S S S T Y D S L 2
    323 P S G G G G L K K P 2
    367 P A D L A G S G Y C 2
    370 L A G S G Y C G A L 2
    380 W K A I E S L E E G 2
    8 T F P L R A L H I V 1
    26 G Q K M K Q D K K V 1
    29 M K Q D K K V D L L 1
    76 V Y Q D E K Q R K D 1
    132 H F Q V P S R I F W 1
    148 G G S C C P Q G H A 1
    155 G H A S E A Y K K V 1
    181 T A T L E E K R K E 1
    184 L E E K R K E K A E 1
    199 N K Q L M R L Q K Q 1
    212 N M K K K I D K Y T 1
    229 P R G L G F I F K T 1
    242 L A A T R A T R I G 1
    303 T Y D S L S P Y G P 1
    307 L S P Y G P R N P L 1
    353 P K S E N N S W Y V 1
    358 N S W Y V E N G R P 1
    387 E E G L G G K Q K D 1
  • [0840]
    TABLE XL
    SEQ.
    ID
    Pos
    1 2 3 4 5 6 7 8 9 0 score NO.
    151P3D4 v.1: HLA Peptide Scoring Results A26 10-mers SYFPEITHI
    155 D L Q G V V F P Y F 31
    91 E V D V F V S M G Y 29
    128 D L T L E D Y G R Y 29
    125 V I T D L T L E D Y 25
    158 G V V F P Y F P R L 24
    231 T V P G V R N Y G F 24
    186 A V I A S F D Q L Y 23
    242 D K D K S R Y D V F 22
    292 I F A A W K I L G Y 22
    339 D K K H K L Y G V Y 21
    31 H I Q A E N G P H L 20
    41 L V E A E Q A K V F 20
    140 E V I E G L E D D T 20
    148 D T V V V A L D L Q 20
    244 D K S R Y D V F C F 20
    253 F T S N F N G R F Y 20
    263 Y L I H P T K L T Y 20
    9 L I S I C W A D H L 19
    93 D V F V S M G Y H K 19
    185 D A V I A S F D Q L 19
    239 G F W D K D K S R Y 19
    193 Q L Y D A W R G G L 18
    249 D V F C F T S N F N 18
    252 C F T S N F N G R F 18
    336 G F P D K K H K L Y 18
    57 V T L P C K F Y R D 17
    173 N F H E A Q Q A C L 17
    182 L D Q D A V I A S F 17
    201 G L D W C N A G W L 17
    270 L T Y D E A V Q A C 17
    328 T E A A V R F V G F 17
    78 R I K W T K L T S D 16
    99 G Y H K K T Y G G Y 16
    145 L E D D T V V V A L 16
    150 V V V A L D L Q G V 16
    163 Y F P R L G R Y N L 16
    264 L I H P T K L T Y D 16
    73 G I H K I R I K W T 15
    88 Y L K E V D V F V S 15
    154 L D L Q G V V F P Y 15
    161 F P Y F P R L G R Y 15
    181 C L D Q D A V I A c 15
    229 Q N T V P G V R N Y 15
    331 A V R F V G F P D K 15
    341 K H K L Y G V Y C F 15
    344 L Y G V Y C F R A Y 15
    35 E N G P H L L V E A 14
    48 K V F S H R G G N V 14
    83 K L T S D Y L K E V 14
    86 S D Y L K E V D V F 14
    89 L K E V D V F V S M 14
    120 S D A S L V I T D L 14
    136 R Y K C E V I E G L 14
    144 G L E D D T V V V A 14
    147 D D T V V V A L D L 14
    153 A L D L Q G V V F P 14
    159 V V F P Y F P R L G 14
    209 W L S D G S V Q Y P 14
    219 I T K P R E P C G G 14
    234 G V R N Y G F W D K 14
    255 S N F N G R F Y Y L 14
    308 W L A D G S V R Y P 14
    3 S L L L L V L I S I 13
    4 L L L L V L I S I C 13
    13 C W A D H L S D N Y 13
    58 T L P C K F Y R D P 13
    61 C K F Y R D P T A F 13
    103 K T Y G G Y Q G R V 13
    111 R V F L K G G S D S 13
    124 L V I T D L T L E D 13
    165 P R L G R Y N L N F 13
    208 G W L S D G S V Q Y 13
    284 A Q I A K V G Q I F 13
    325 C S P T E A A V R F 13
    335 V G F P D K K H K L 13
    6 L L V L I S I C W A 12
    8 V L I S I C W A D H 12
    22 Y T L D H D R A I H 12
    40 L L V E A E Q A K V 12
    43 E A E Q A K V F S H 12
    67 P T A F G S G I H K 12
    94 V F V S M G Y H K K 12
    96 V S M G Y H K K T Y 12
    104 T Y G G Y Q G R V F 12
    113 F L K G G S D S D A 12
    123 S L V I T D L T L E 12
    129 L T L E D Y G R Y K 12
    141 V I E G L E D D T V 12
    146 E D D T V V V A L D 12
    152 V A L D L Q G V V F 12
    166 R L G R Y N L N F H 12
    176 E A Q Q A C L D Q D 12
    187 V I A S F D Q L Y D 12
    218 P I T K P R E P C G 12
    230 N T V P G V R M Y G 12
    248 Y D V F C F T S N F 12
    256 N F N G R F Y Y L I 12
    267 P T K L T Y D E A V 12
    271 T Y D E A V Q A C L 12
    285 Q I A K V G Q I F A 12
    288 K V G Q I F A A W K 12
    291 Q I F A A W K I L G 12
    297 K I L G Y D R C D A 12
    307 G W L A D G S V R Y 12
    7 L V L I S I C W A D 11
    11 S I C W A D H L S D 11
    16 D H L S D N Y T L D 11
    29 A I H I Q A E N G P 11
    32 I Q A E N G P H L L 11
    54 G G N V T L P C K F 11
    75 H K I R I K W T K L 11
    79 I K W T K L T S D Y 11
    81 W T K L T S D Y L K 11
    84 L T S D Y L K E V D 11
    95 F V S M G Y H K K T 11
    115 K G G S D S D A S L 11
    119 D S D A S L V I T D 11
    126 I T D L T L E D Y G 11
    149 T V V V A L D L Q G 11
    151 V V A L D L Q G V V 11
    274 E A V Q A C L N D G 11
    275 A V Q A C L N D G A 11
    329 E A A V R F V G F P 11
    334 F V G F P D K K H K 11
    343 K L Y G V Y C F R A 11
    23 T L D H D R A I H I 10
    39 H L L V E A E Q A K 10
    55 G N V T L P C K F Y 10
    56 N V T L P C K F Y R 10
    76 K I R I K W T K L T 10
    130 T L E D Y G R Y K C 10
    171 N L N F H E A Q Q A 10
    196 D A W R G G L D W C 10
    214 S V Q Y P I T K P R 10
    254 T S N F N G R F Y Y 10
    269 K L T Y D E A V Q A 10
    279 C L N D G A Q I A K 10
    282 D G A Q I A K V G Q 10
    290 G Q I F A A W K I L 10
    313 S V R Y P I S R P R 10
    317 P I S R P R R R C S 10
    327 P T E A A V R F V G 10
    17 H L S D N Y T L D H 9
    27 D R A I H I Q A E N 9
    45 E Q A K V F S H R G 9
    50 F S H R G G N V T L 9
    68 T A F G S G I H K I 9
    80 K W T K L T S D Y L 9
    105 Y G G Y Q G R V F L 9
    132 E D Y G R Y K C E V 9
    143 E G L E D D T V V V 9
    190 S F D Q L Y D A W R 9
    261 F Y Y L I H P T K L 9
    280 L N D G A Q I A K V 9
    298 I L G Y D R C D A G 9
    300 G Y D R C D A G W L 9
    333 R F V G F P D K K H 9
    5 L L L V L I S I C W 8
    15 A D H L S D N Y T L 8
    25 D H D R A I H I Q A 8
    64 Y R D P T A F G S G 8
    87 D Y L K E V D V F V 8
    112 V F L K G G S D S D 8
    122 A S L V I T D L T L 8
    160 V F P Y F P R L G R 8
    183 D Q D A V I A S F D 8
    189 A S F D Q L Y D A W 8
    224 E P C G G Q N T V P 8
    273 D E A V Q A C L N D 8
    287 A K V G Q I F A A W 8
    302 D R C D A G W L A D 8
    20 D N Y T L D H D R A 7
    62 K F Y R D P T A F G 7
    69 A F G S G I H K I R 7
    90 K E V D V F V S M G 7
    107 G Y Q G R V F L K G 7
    192 D Q L Y D A W R G G 7
    203 D W C N A G W L S D 7
    226 C G G Q N T V P G V 7
    250 V F C F T S N F N G 7
    251 F C F T S N F N G R 7
    260 R F Y Y L I H P T K 7
    305 D A G W L A D G S V 7
    311 D G S V R Y P I S R 7
    338 P D K K H K L Y G V 7
    18 L S D N Y T L D H D 6
    26 H D R A I H I Q A E 6
    34 A E N G P H L L V E 6
    36 N G P H L L V E A E 6
    44 A E Q A K V F S H R 6
    49 V F S H R G G N V T 6
    51 S H R G G N V T L P 6
    66 D P T A F G S G I H 6
    102 K K T Y G G Y Q G R 6
    118 S D S D A S L V I T 6
    121 D A S L V I T D L T 6
    133 D Y G R Y K C E V I 6
    135 G R Y K C E V I E G 6
    211 S D G S V Q Y P I T 6
    212 D G S V Q Y P I T K 6
    213 G S V Q Y P I T K P 6
    247 R Y D V F C F T S N 6
    259 G R F Y Y L I H P T 6
    266 H P T K L T Y D E A 6
    286 I A K V G Q I F A A 6
    295 A W K I L G Y D R C 6
    303 R C D A G W L A D G 6
    310 A D G S V R Y P I S 6
    312 G S V R Y P I S R P 6
    326 S P T E A A V R F V 6
    1 M K S L L L L V L I 5
    12 I C W A D H L S D N 5
    24 L D H D R A I H I Q 5
    53 R G G N V T L P C K 5
    82 T K L T S D Y L K E 5
    106 G G Y Q G R V F L K 5
    108 Y Q G R V F L K G G 5
    131 L E D Y G R Y K C E 5
    168 G R Y N L N F H E A 5
    204 W C N A G W L S D G 5
    258 N G R F Y Y L I H P 5
    283 G A Q I A K V G Q I 5
    293 F A A W K I L G Y D 5
    2 K S L L L L V L I S 4
    42 V E A E Q A K V F S 4
    71 G S G I H K I R I K 4
    92 V D V F V S M G Y H 4
    139 C E V I E G L E D D 4
    157 Q G V V F P Y F P R 4
    162 P Y F P R L G R Y N 4
    164 F P R L G R Y N L N 4
    172 L N F H E A Q Q A C 4
    188 I A S F D Q L Y D A 4
    205 C N A G W L S D G g 4
    215 V Q Y P I T K P R E 4
    222 P R E P C G G Q N T 4
    232 V P G V R N Y G F W 4
    245 K S R Y D V F C F T 4
    257 F N G R F Y Y L I H 4
    304 C D A G W L A D G S 4
    314 V R Y P I S R P R R 4
    316 Y P I S R P R R R C 4
    342 H K L Y G V Y C F R 4
    28 R A I H I Q A E N G 3
    30 I H I Q A E N G P H 3
    65 R D P T A F G S G I 3
    70 F G S G I H K I R I 3
    72 S G I H K I R I K W 3
    77 I R I K W T K L T g 3
    114 L K G G S D S D A g 3
    198 W R G G L D W C N A 3
    200 G G L D W C N A G W 3
    210 L 3 D G S V Q Y P I 3
    221 K P R E P C G G Q N 3
    225 P C G G Q N T V P G 3
    238 Y G F W D K D K S R 3
    243 K D K S R Y D V F C 3
    299 L G Y D R C D A G W 3
    309 L A D G S V R Y P I 3
    318 I S R P R R R C S P 3
    323 R R C S P T E A A V 3
    324 R C S P T E A A V R 3
    332 V R F V G F P D K K 3
    10 I S I C W A D H L C 2
    37 G P H L L V E A E Q 2
    46 Q A K V F S H R G G 2
    52 H R G G N V T L P C 2
    60 P C K F Y R D P T A 2
    63 F Y R D P T A F G S 2
    85 T S D Y L K E V D V 2
    100 Y H K K T Y G G Y Q 2
    101 H K K T Y G G Y Q G 2
    116 G G S D S D A S L V 2
    117 G S D S D A S L V I 2
    137 Y K C E V I E G L E 2
    170 Y N L N F H E A Q Q 2
    175 H E A Q Q A C L D Q 2
    178 Q Q A C L D Q D A V 2
    180 A C L D Q D A V I A 2
    197 A W R G G L D W C N 2
    216 Q Y P I T K P R E P 2
    217 Y P I T K P R E P C 2
    220 T K P R E P C G G Q 2
    228 G Q N T V P G V R N 2
    236 R N Y G F W D K D K 2
    240 F W D K D K S R Y D 2
    241 W D K D K S R Y D V 2
    276 V Q A C L N D G A Q 2
    277 Q A C L N D G A Q I 2
    296 W K I L G Y D R C D 2
    315 R Y P I S R P R R R 2
    319 S R P R R R C S P T 2
    337 F P D K K H K L Y G 2
    340 K K H K L Y G V Y C 2
    14 W A D H L S D N Y T 1
    21 N Y T L D H D R A I 1
    38 P H L L V E A E Q A 1
    47 A K V F S H R G G N 1
    59 L P C K F Y R D P T 1
    74 I H K I R I K W T K 1
    98 M G Y H K K T Y G G 1
    109 Q G R V F L K G G g 1
    110 G R V F L K G G S D 1
    127 T D L T L E D Y G R 1
    134 Y G R Y K C E V I E 1
    138 K C E V I E G L E D 1
    167 L G R Y N L N F H E 1
    169 R Y N L N F H E A Q 1
    177 A Q Q A C L D Q D A 1
    179 Q A C L D Q D A V I 1
    184 Q D A V I A S F D Q 1
    191 F D Q L Y D A W R G 1
    194 L Y D A W R G G L D 1
    195 Y D A W R G G L D W 1
    199 R G G L D W C N A G 1
    206 N A G W L S D G S V 1
    207 A G W L S D G S V Q 1
    223 R E P C G G Q N T V 1
    235 V R N Y G F W D K D 1
    237 N Y G F W D K D K C 1
    246 S R Y D V F C F T S 1
    265 I H P T K L T Y D E 1
    268 T K L T Y D E A V Q 1
    278 A C L N D G A Q I A 1
    289 V G Q I F A A W K I 1
    294 A A W K I L G Y D R 1
    306 A G W L A D G S V R 1
    320 R P R R R C S P T E 1
    321 P R R R C S P T E A 1
    322 R R R C S P T E A A 1
    345 Y G V Y C F R A Y N 1
    151P3D4 v.2: HLA Peptide Scoring Results A26 10-mers SYFPEITHI
    193 E I H Y R K N K Q L 25
    5 T T K T F P L R A L 24
    298 P T S S S T Y D S L 24
    45 G I I T Q G A K D F 22
    369 D L A G S G Y C G A 22
    20 S I R D H S G Q K M 21
    233 G F I F K T I A P L 21
    56 H V Q F V G S Y K L 19
    58 Q F V G S Y K L A Y 19
    361 Y V E N G R P A D L 19
    53 D F G H V Q F V G S 18
    106 S F C R N K L K Y L 18
    204 R L Q K Q A E K N M 18
    134 Q V P S R I F W R Q 17
    172 E V G W K Y Q A V T 17
    398 E R K A E N G P H L 17
    59 F V G S Y K L A Y S 16
    79 D E K Q R K D K V L 16
    108 C R N K L K Y L A F 16
    211 K N M K K K I D K Y 16
    7 K T F P L R A L H I 15
    36 D L L V P T K V T G 15
    37 L L V P T K V T G I 15
    40 P T K V T G I I T Q 15
    54 F G H V Q F V G S Y 15
    80 E K Q R K D K V L L 15
    196 Y R K N K Q L M R L 15
    244 A T R A T R I G H P 15
    301 S S T Y D S L S P Y 15
    15 H I V V E S I R D H 14
    42 K V T G I I T Q G A 14
    50 G A K D F G H V Q F 14
    95 V V S C E G I N I S 14
    109 R N K L K Y L A F L 14
    111 K L K Y L A F L H K 14
    187 K R K E K A E I H Y 14
    190 E K A E I H Y R K N 14
    234 F I F K T I A P L A 14
    238 T I A P L A A T R A 14
    366 R P A D L A G S G Y 14
    10 P L R A L H I V V E 13
    16 I V V E S I R D H S 13
    23 D H S G Q K M K Q D 13
    29 M K Q D K K V D L L 13
    47 I T Q G A K D F G H 13
    68 S N D G E H W T V Y 13
    75 T V Y Q D E K Q R K 13
    88 L L G R K A V V V S 13
    102 N I S G S F C R N K 13
    105 G S F C R N K L K Y 13
    123 N T N P S R R P Y H 13
    124 T N P S R R P Y H F 13
    131 Y H F Q V P S R I F 13
    138 R I F W R Q E K A D 13
    152 C P Q G H A S E A Y 13
    182 A T L E E K R K E K 13
    216 K I D K Y T E S P G 13
    237 K T I A P L A A T R 13
    256 R T P R A G S S A H 13
    275 P V P A A S P A A W 13
    288 R T P W T R P S S C 13
    291 W T R P S S C P T g 13
    295 S S C P T S S S T Y 13
    352 K P K S E N N S W Y 13
    377 G A L W K A I E S L 13
    381 K A I E S L E E G L 13
    384 E S L E E G L G G K 13
    4 H T T K T F P L R A 12
    17 V V E S I R D H S G 12
    32 D K K V D L L V P T 12
    34 K V D L L V P T K V 12
    94 V V V S C E G I N I 12
    163 K V C L S G A P H E 12
    168 G A P H E V G W K Y 12
    180 V T A T L E E K R K 12
    220 Y T E S P G G G S P 12
    225 G G G S P R G L G F 12
    302 S T Y D S L S P Y G 12
    342 N V L A R G K P Q R 12
    356 E N N S W Y V E N G 12
    3 E H T T K T F P L R 11
    8 T F P L R A L H I V 11
    28 K M K Q D K K V D L 11
    38 L V P T K V T G I I 11
    43 V T G I I T Q G A K 11
    46 I I T Q G A K D F G 11
    70 D G E H W T V Y Q D 11
    74 W T V Y Q D E K Q R 11
    86 K V L L G R K A V V 11
    87 V L L G R K A V V V 11
    98 C E G I N I S G S F 11
    179 A V T A T L E E K R 11
    183 T L E E K R K E K A 11
    222 E S P G G G S P R G 11
    223 S P G G G S P R G L 11
    227 G S P R G L G F I F 11
    247 A T R I G H P G G R 11
    306 S L S P Y G P R N P 11
    320 R H S P S G G G G L 11
    343 V L A R G K P Q R K 11
    382 A I E S L E E G L G 11
    385 S L E E G L G G K Q 11
    389 G L G G K Q K D K E 11
    399 R K A E N G P H L L 11
    64 K L A Y S N D G E H 10
    93 A V V V S C E G I N 10
    100 G I N I S G S F C R 10
    103 I S G S F C R N K L 10
    114 Y L A F L H K R M N 10
    116 A F L H K R M N T N 10
    117 F L H K R M N T N P 10
    122 M N T N P S R R P Y 10
    165 C L S G A P H E V G 10
    175 W K Y Q A V T A T L 10
    201 Q L M R L Q K Q A E 10
    241 P L A A T R A T R I 10
    249 R I G H P G G R T P 10
    261 G S S A H R P P A L 10
    276 V P A A S P A A W L 10
    278 A A S P A A W L P L 10
    315 P L P N P R H S P S 10
    328 G L K K P A R H C Q 10
    335 H C Q G Q K H N V L 10
    370 L A G S G Y C G A L 10
    378 A L W K A I E S L E 10
    13 A L H I V V E S I R 9
    19 E S I R D H S G Q K 9
    99 E G I N I S G S F C 9
    113 K Y L A F L H K R Y 9
    147 D G G S C C P Q G H 9
    157 A S E A Y K K V C L 9
    185 E E K R K E K A E I 9
    194 I H Y R K N K Q L M 9
    269 A L S A R A P V P A 9
    284 W L P L R T P W T R 9
    305 D S L S P Y G P R N 9
    307 L S P Y G P R N P L 9
    1 M L E H T T K T F P 8
    2 L E H T T K T F P L 8
    97 S C E G I N I S G S 8
    101 I N I S G S F C R N 8
    144 E K A D G G S C C P 8
    159 E A Y K K V C L S G 8
    160 A Y K K V C L S G A 8
    171 H E V G W K Y Q A V 8
    207 K Q A E K N M K K K 8
    231 G L G F I F K T I A 8
    235 I F K T I A P L A A 8
    264 A H R P P A L S A R 8
    286 P L R T P W T R P S 8
    364 N G R P A D L A G S 8
    387 E E G L G G K Q K D 8
    388 E G L G G K Q K D K 8
    11 L R A L H I V V E S 7
    61 G S Y K L A Y S N D 7
    72 E H W T V Y Q D E K 7
    82 Q R K D K V L L G R 7
    83 R K D K V L L G R K 7
    85 D K V L L G R K A V 7
    89 L G R K A V V V S C 7
    127 S R R P Y H F Q V P 7
    139 I F W R Q E K A D G 7
    155 G H A S E A Y K K V 7
    167 S G A P H E V G W K 7
    186 E K R K E K A E I H 7
    218 D K Y T E S P G G G 7
    270 L S A R A P V P A A 7
    310 Y G P R N P L P N P 7
    323 P S G G G G L K K P 7
    338 G Q K H N V L A R G 7
    363 E N G R P A D L A G 7
    396 D K E R K A E N G P 7
    31 Q D K K V D L L V P 6
    33 K K V D L L V P T K 6
    51 A K D F G H V Q F V 6
    57 V Q F V G S Y K L A 6
    90 G R K A V V V S C E 6
    129 R P Y H F Q V P S R 6
    132 H F Q V P S R I F W 6
    133 F Q V P S R I F W R 6
    174 G W K Y Q A V T A T 6
    199 N K Q L M R L Q K Q 6
    210 E K N M K K K I D K 6
    214 K K K I D K Y T E S 6
    226 G G S P R G L G F I 6
    228 S P R G L G F I F K 6
    230 R G L G F I F K T I 6
    236 F K T I A P L A A T 6
    279 A S P A A W L P L R 6
    337 Q G Q K H N V L A R 6
    355 S E N N S W Y V E N 6
    380 W K A I E S L E E G 6
    12 R A L H I V V E S I 5
    41 T K V T G I I T Q G 5
    48 T Q G A K D F G H V 5
    71 G E H W T V Y Q D E 5
    81 K Q R K D K V L L G 5
    112 L K Y L A F L H K R 5
    158 S E A Y K K V C L g 5
    178 Q A V T A T L E E K 5
    188 R K E K A E I H Y R 5
    197 R K N K Q L M R L Q 5
    229 P R G L G F I F K T 5
    248 T R I G H P G G R T 5
    251 G H P G G R T P R A 5
    265 H R P P A L S A R A 5
    272 A R A P V P A A S P 5
    281 P A A W L P L R T P 5
    346 R G K P Q R K P K S 5
    373 S G Y C G A L W K A 5
    44 T G I I T Q G A K D 4
    52 K D F G H V Q F V G 4
    115 L A F L H K R M N T 4
    125 N P S R R P Y H F Q 4
    146 A D G G S C C P Q G 4
    150 S C C P Q G H A S E 4
    151 C C P Q G H A S E A 4
    215 K K I D K Y T E S P 4
    255 G R T P R A G S S A 4
    258 P R A G S S A H R P 4
    274 A P V P A A S P A A 4
    287 L R T P W T R P S S 4
    304 Y D S L S P Y G P R 4
    312 P R N P L P N P R H 4
    316 L P N P R H S P S G 4
    325 G G G G L K K P A R 4
    329 L K K P A R H C Q G 4
    350 Q R K P K S E N N g 4
    360 W Y V E N G R P A D 4
    394 Q K D K E R K A E N 4
    395 K D K E R K A E N G 4
    14 L H I V V E S I R D 3
    22 R D H S G Q K M K Q 3
    69 N D G E H W T V Y Q 3
    77 Y Q D E K Q R K D K 3
    96 V S C E G I N I S G 3
    137 S R I F W R Q E K A 3
    141 W R Q E K A D G G g 3
    145 K A D G G S C C P Q 3
    192 A E I H Y R K N K Q 3
    198 K N K Q L M R L Q K 3
    205 L Q K Q A E K N M K 3
    217 I D K Y T E S P G G 3
    219 K Y T E S P G G G S 3
    221 T E S P G G G S P R 3
    232 L G F I F K T I A P 3
    252 H P G G R T P R A G 3
    283 A W L P L R T P W T 3
    292 T R P S S C P T S S 3
    293 R P S S C P T S S S 3
    303 T Y D S L S P Y G P 3
    308 S P Y G P R N P L P 3
    314 N P L P N P R H S P 3
    317 P N P R H S P S G G 3
    322 S P S G G G G L K K 3
    330 K K P A R H C Q 3 Q 3
    344 L A R G K P Q R K P 3
    347 G K P Q R K P K S E 3
    351 R K P K S E N N S W 3
    371 A G S G Y C G A L W 3
    374 G Y C G A L W K A I 3
    386 L E E G L G G K Q K 3
    391 G G K Q K D K E R K 3
    393 K Q K D K E R K A E 3
    18 V E S I R D H S G Q 2
    21 I R D H S G Q K M K 2
    24 H S G Q K M K Q D K 2
    25 S G Q K M K Q D K K 2
    26 G Q K M K Q D K K V 2
    30 K Q D K K V D L L V 2
    49 Q G A K D F G H V Q 2
    55 G H V Q F V G S Y K 2
    65 L A Y S N D G E H W 2
    76 V Y Q D E K Q R K D 2
    78 Q D E K Q R K D K V 2
    84 K D K V L L G R K A 2
    91 R K A V V V S C E G 2
    119 H K R M N T N P S R 2
    120 K R M N T N P S R R 2
    128 R R P Y H F Q V P S 2
    130 P Y H F Q V P S R I 2
    136 P S R I F W R Q E K 2
    140 F W R Q E K A D G G 2
    142 R Q E K A D G G S C 2
    143 Q E K A D G G S C C 2
    156 H A S E A Y K K V C 2
    161 Y K K V C L S G A P 2
    164 V C L S G A P H E V 2
    166 L S G A P H E V G W 2
    169 A P H E V G W K Y Q 2
    173 V G W K Y Q A V T A 2
    177 Y Q A V T A T L E E 2
    184 L E E K R K E K A E 2
    189 K E K A E I H Y R K 2
    195 H Y R K N K Q L M R 2
    202 L M R L Q K Q A E K 2
    203 M R L Q K Q A E K N 2
    206 Q K Q A E K N M K K 2
    208 Q A E K N M K K K I 2
    212 N M K K K I D K Y T 2
    213 M K K K I D K Y T E 2
    224 P G G G S P R G L G 2
    239 I A P L A A T R A T 2
    246 R A T R I G H P G G 2
    250 I G H P G G R T P R 2
    252 P G G R T P R A G S 2
    257 T P R A G S S A H R 2
    260 A G S S A H R P P A 2
    262 S S A H R P P A L S 2
    266 R P P A L S A R A P 2
    267 P P A L S A R A P V 2
    268 P A L S A R A P V P 2
    271 S A R A P V P A A S 2
    273 R A P V P A A S P A 2
    277 P A A S P A A W L P 2
    280 S P A A W L P L R T 2
    294 P S S C P T S S S T 2
    299 T S S S T Y D S L S 2
    309 P Y G P R N P L P N 2
    313 R N P L P N P R H S 2
    319 P R H S P S G G G G 2
    321 H S P S G G G G L K 2
    324 S G G G G L K K P A 2
    326 G G G L K K P A R H 2
    327 G G L K K P A R H C 2
    331 K P A R H C Q G Q K 2
    332 P A R H C Q G Q K H 2
    334 R H C Q G Q K H N V 2
    336 C Q G Q K H N V L A 2
    348 K P Q R K P K S E N 2
    349 P Q R K P K S E N N 2
    353 P K S E N N S W Y V 2
    362 V E N G R P A D L A 2
    365 G R P A D L A G S G 2
    376 C G A L W K A I E g 2
    379 L W K A I E S L E E 2
    390 L G G K Q K D K E R 2
    392 G K Q K D K E R K A 2
    6 T K T F P L R A L H 1
    27 Q K M K Q D K K V D 1
    39 V P T K V T G I I T 1
    60 V G S Y K L A Y S N 1
    62 S Y K L A Y S N D G 1
    63 Y K L A Y S N D G E 1
    67 Y S N D G E H W T V 1
    73 H W T V Y Q D E K Q 1
    92 K A V V V S C E G I 1
    110 N K L K Y L A F L H 1
    118 L H K R M N T N P g 1
    121 R M N T N P S R R P 1
    126 P S R R P Y H F Q V 1
    135 V P S R I F W R Q E 1
    148 G G S C C P Q G H A 1
    149 G S C C P Q G H A C 1
    153 P Q G H A S E A Y K 1
    154 Q G H A S E A Y K K 1
    162 K K V C L S G A P H 1
    170 P H E V G W K Y Q A 1
    181 T A T L E E K R K E 1
    191 K A E I H Y R K M K 1
    200 K Q L M R L Q K Q A 1
    209 A E K N M K K K I D 1
    240 A P L A A T R A T R 1
    242 L A A T R A T R I G 1
    243 A A T R A T R I G H 1
    245 T R A T R I G H P G 1
    254 G G R T P R A G S S 1
    259 R A G S S A H R P P 1
    263 S A H R P P A L S A 1
    285 L P L R T P W T R P 1
    289 T P W T R P S S C P 1
    296 S C P T S S S T Y D 1
    297 C P T S S S T Y D S 1
    300 S S S T Y D S L S P 1
    318 N P R H S P S G G G 1
    333 A R H C Q G Q K H N 1
    339 Q K H N V L A R G K 1
    340 K H N V L A R G K P 1
    345 A R G K P Q R K P K 1
    357 N N S W Y V E N G R 1
    358 N S W Y V E N G R P 1
    367 P A D L A G S G Y C 1
    375 Y C G A L W K A I E 1
    383 I E S L E E G L G G 1
    397 K E R K A E N G P H 1
  • [0841]
    TABLE XLI
    SEQ.
    ID
    Pos
    1 2 3 4 5 6 7 8 9 0 score NO.
    151P3D4 v.1: HLA Peptide Scoring Results B*0702 10-mers SYFPEITHI
    59 L P C K F Y R D P T 19
    326 S P T E A A V R F V 18
    266 H P T K L T Y D E A 17
    105 Y G G Y Q G R V F L 15
    145 L E D D T V V V A L 15
    224 E P C G G Q N T V P 15
    122 A S L V I T D L T L 14
    320 R P R R R C S P T E 14
    337 F P D K K H K L Y G 14
    115 K G G S D S D A S L 13
    221 K P R E P C G G Q N 13
    9 L I S I C W A D H L 12
    15 A D H L S D N Y T L 12
    31 H I Q A E N G P H L 12
    32 I Q A E N G P H L L 12
    50 F S H R G G N V T L 12
    80 K W T K L T S D Y L 12
    120 S D A S L V I T D L 12
    147 D D T V V V A L D L 12
    158 G V V F P Y F P R L 12
    164 F P R L G R Y N L N 12
    217 Y P I T K P R E P C 12
    232 V P G V R N Y G F W 12
    271 T Y D E A V Q A C L 12
    35 E N G P H L L V E A 11
    37 G P H L L V E A E Q 11
    66 D P T A F G S G I H 11
    75 H K I R I K W T K L 11
    136 R Y K C E V I E 6 L 11
    143 E G L E D D T V V V 11
    163 Y F P R L G R Y N L 11
    173 N F H E A Q Q A C L 11
    185 D A V I A S F D Q L 11
    193 Q L Y D A W R G G L 11
    201 G L D W C N A G W L 11
    245 K S R Y D V F C F T 11
    255 S N F N G R F Y Y L 11
    261 F Y Y L I H P T K L 11
    300 G Y D R C D A G W L 11
    309 L A D G S V R Y P I 11
    316 Y P I S R P R R R C 11
    322 R R R C S P T E A A 11
    328 T E A A V R F V G F 11
    335 V G F P D K K H K L 11
    1 M K S L L L L V L I 10
    70 F G S G I H K I R I 10
    76 K I R I K W T K L T 10
    87 D Y L K E V D V F V 10
    104 T Y G G Y Q G R V F 10
    117 G S D S D A S L V I 10
    118 S D S D A S L V I T 10
    142 I K G L E D D T V V 10
    144 G L E D D T V V V A 10
    155 D L Q G V V F P Y F 10
    161 F P Y F P R L G R Y 10
    165 P R L G R Y N L N F 10
    180 A C L D Q D A V I A 10
    210 L S D G S V Q Y P I 10
    280 L N D G A Q I A K V 10
    290 G Q I F A A W K X L 10
    297 K I L G Y D R C D A 10
    49 V F S H R G G N V T 9
    85 T S D Y L K E V D V 9
    89 L K E V D V F V S M 9
    103 K T Y G G Y Q G R V 9
    121 D A S L V I T D L T 9
    132 E D Y G R Y K C E V 9
    152 V A L D L Q G V V F 9
    177 A Q Q A C L D Q D A 9
    188 I A S F D Q L Y D A 9
    198 W R G G L D W C N A 9
    226 C G G Q N T V P G V 9
    242 D K D K S R Y D V F 9
    244 D K S R Y D V F C F 9
    269 K L T Y D E A V Q A 9
    275 A V Q A C L N D G A 9
    284 A Q I A K V G Q I F 9
    285 Q I A K V G Q I F A 9
    321 P R R R C S P T E A 9
    323 R R C S P T E A A V 9
    343 K L Y G V Y C F R A 9
    33 Q A E N G P H L L V 8
    41 L V E A E Q A K V F 8
    61 C K F Y R D P T A F 8
    68 T A F G S G I H K I 8
    86 S D Y L K E V D V F 8
    95 F V S M G Y H K K T 8
    113 F L K G G S D S D A 8
    116 G G S D S D A S L V 8
    133 D Y G R Y K C E V I 8
    141 V I E G L E D D T V 8
    151 V V A L D L Q G V V 8
    178 Q Q A C L D Q D A V 8
    179 Q A C L D Q D A V I 8
    211 S D G S V Q Y P I T 8
    231 T V P G V R N Y G F 8
    256 N F N G R F Y Y L I 8
    278 A C L N D G A Q I A 8
    286 I A K V G Q I F A A 8
    301 Y D R C D A G W L A 8
    325 C S P T E A A V R F 8
    341 K H K L Y G V Y C F 8
    14 W A D H L S D N Y T 7
    21 H Y T L D H D R A I 7
    23 T L D H D R A I H I 7
    25 D H D R A I H I Q A 7
    34 A E N G P H L L V E 7
    40 L L V E A E Q A K V 7
    48 K V F S H R G G N V 7
    52 H R G G N V T L P C 7
    60 P C K F Y R D P T A 7
    65 R D P T A F G S G I 7
    73 G I H K I R I K W T 7
    83 K L T S D Y L K E V 7
    140 E V I E G L E D D T 7
    150 V V V A L D L Q G V 7
    153 A L D L Q G V V F P 7
    168 G R Y N L N F H E A 7
    182 L D Q D A V I A S F 7
    206 N A G W L S D G S V 7
    222 P R E P C G G Q N T 7
    223 R E P C G G Q N T V 7
    225 P C G G Q N T V P G 7
    241 W D K D K S R Y D V 7
    248 Y D V F C F T S N F 7
    259 G R F Y Y L I H P T 7
    262 Y Y L I H P T K L T 7
    267 P T K L T Y D E A V 7
    277 Q A C L N D G A Q I 7
    283 G A Q I A K V G Q I 7
    287 A K V G Q I F A A W 7
    305 D A G W L A D G S V 7
    319 S R P R R R C S P T 7
    338 P D K K H K L Y G V 7
    3 S L L L L V L I S I 6
    6 L L V L I S I C W A 6
    20 D N Y T L D H D R A 6
    38 P H L L V E A E Q A 6
    51 S H R G G N V T L P 6
    54 G G N V T L P C K F 6
    171 N L N F H E A Q Q A 6
    197 A W R G G L D W C N 6
    252 C F T S N F N G R F 6
    289 V G Q I F A A W K I 6
    324 R C S P T E A A V R 6
    331 A V R F V G F P D K 6
    17 H L S D N Y T L D H 5
    107 G Y Q G R V F L K G 5
    292 I F A A W K I L G Y 5
    318 I S R P R R R C S P 5
    2 K S L L L L V L I g 4
    26 H D R A I H I Q A E 4
    42 V E A E Q A K V F S 4
    44 A K Q A K V F S H R 4
    62 K F Y R D P T A F G 4
    77 I R I K W T K L T S 4
    114 L K G G S D S D A C 4
    134 Y G R Y K C E V I E 4
    146 E D D T V V V A L D 4
    243 K D K S R Y D V F C 4
    247 R Y D V F C F T S N 4
    303 R C D A G W L A D G 4
    310 A D G S V R Y P I g 4
    329 E A A V R F V G F P 4
    340 K K H K L Y G V Y C 4
    45 E Q A K V F S H R G 3
    47 A K V F S H R G G N 3
    53 R G G N V T L P C K 3
    64 Y R D P T A F G S G 3
    69 A F G S G I H K I R 3
    84 L T S D Y L K E V D 3
    96 V S M G Y H K K T Y 3
    119 D S D A S L V I T D 3
    124 L V I T D L T L E D 3
    138 K C E V I E G L E D 3
    160 V F P Y F P R L G R 3
    166 R L G R Y N L N F H 3
    175 H E A Q Q A C L D Q 3
    181 C L D Q D A V I A S 3
    183 D Q D A V I A S F D 3
    186 A V I A S F D Q L Y 3
    187 V I A S F D Q L Y D 3
    189 A S F D Q L Y D A W 3
    195 Y D A W R G G L D W 3
    199 R G G L D W C N A G 3
    205 C N A G W L S D G S 3
    207 A G W L S D G S V Q 3
    209 W L S D G S V Q Y P 3
    234 G V R N Y G F W D K 3
    236 R N Y G F W D K D K 3
    253 F T S N F N G R F Y 3
    257 F N G R F Y Y L I H 3
    273 D E A V Q A C L N D 3
    281 N D G A Q I A K V G 3
    282 D G A Q I A K V G Q 3
    288 K V G Q I F A A W K 3
    294 A A W K I L G Y D R 3
    298 I L G Y D R C D A G 3
    302 D R C D A G W L A D 3
    304 C D A G W L A D G S 3
    306 A G W L A D G S V R 3
    307 G W L A D G S V R Y 3
    313 S V R Y P I S R P R 3
    314 V R Y P I S R P R R 3
    317 P I S R P R R R C S 3
    327 P T E A A V R F V G 3
    330 A A V R F V G F P D 3
    333 R F V G F P D K K H 3
    344 L Y G V Y C F R A Y 3
    11 S I C W A D H L S D 2
    12 I C W A D H L S D N 2
    22 Y T L D H D R A I H 2
    27 D R A I H I Q A E N 2
    29 A I H I Q A E N G P 2
    30 I H I Q A E N G P H 2
    36 N G P H L L V E A E 2
    43 E A E Q A K V F S H 2
    57 V T L P C K F Y R D 2
    63 F Y R D P T A F G S 2
    78 R I K W T K L T S D 2
    79 I K W T K L T S D Y 2
    82 T K L T S D Y L K E 2
    88 Y L K E V D V F V S 2
    90 K E V D V F V S M G 2
    91 E V D V F V S M G Y 2
    97 S M G Y H K K T Y G 2
    109 Q G R V F L K G G S 2
    126 I T D L T L E D Y G 2
    135 G R Y K C E V I E G 2
    149 T V V V A L D L Q G 2
    154 L D L Q G V V F P Y 2
    156 L Q G V V F P Y F P 2
    167 L G R Y N L N F H E 2
    169 R Y N L N F H E A Q 2
    190 S F D Q L Y D A W R 2
    194 L Y D A W R G G L D 2
    203 D W C N A G W L S D 2
    208 G W L S D G S V Q Y 2
    212 D G S V Q Y p I T K 2
    214 S V Q Y P I T K P R 2
    215 V Q Y P I T K P R E 2
    218 P I T K P R E P C G 2
    219 I T K P R E P C G G 2
    228 G Q N T V P G V R N 2
    230 N T V P G V R N Y G 2
    240 F W D K D K S R Y D 2
    258 N G R F Y Y L I H P 2
    260 R F Y Y L I H P T K 2
    263 Y L I H P T K L T Y 2
    264 L I H P T K L T Y D 2
    265 I H P T K L T Y D E 2
    268 T K L T Y D E A V Q 2
    270 L T Y D E A V Q A C 2
    276 V Q A C L N D G A Q 2
    295 A W K I L G Y D R C 2
    308 W L A D G S V R Y P 2
    311 D G S V R Y P I S R 2
    345 Y G V Y C F R A Y N 2
    7 L V L I S I C W A D 1
    8 V L I S I C W A D H 1
    10 I S I C W A D H L S 1
    13 C W A D H L S D N Y 1
    16 D H L S D N Y T L D 1
    18 L S D N Y T L D H D 1
    28 R A I H I Q A E N G 1
    39 H L L V E A E Q A K 1
    55 G N V T L P C K F Y 1
    67 P T A F G S G I H K 1
    71 G S G I H K I R I K 1
    72 S G I H K I R I K W 1
    74 I H K I R I K W T K 1
    98 M G Y H K K T Y G G 1
    99 G Y H K K T Y G G Y 1
    100 Y H K K T Y G G Y Q 1
    102 K K T Y G G Y Q G R 1
    106 G G Y Q G R V F L K 1
    108 Y Q G R V F L K G G 1
    111 R V F L K G G S D S 1
    112 V F L K G G S D S D 1
    123 S L V I T D L T L E 1
    130 T L E D Y G R Y K C 1
    131 L E D Y G R Y K C E 1
    157 Q G V V F P Y F P R 1
    159 V V F P Y F P R L G 1
    162 P Y F P R L G R Y N 1
    170 Y N L N F H E A Q Q 1
    172 L N F H E A Q Q A C 1
    174 F H E A Q Q A C L D 1
    176 E A Q Q A C L D Q D 1
    184 Q D A V I A S F D Q 1
    200 G G L D W C N A G W 1
    204 W C N A G W L S D G 1
    213 G S V Q Y P I T K P 1
    227 G G Q N T V P G V R 1
    229 Q N T V P G V R N Y 1
    237 N Y G F W D K D K S 1
    249 D V F C F T S N F N 1
    251 F C F T S N F N G R 1
    254 T S N F N G R F Y Y 1
    272 Y D E A V Q A C L N 1
    274 E A V Q A C L N D G 1
    279 C L N D G A Q I A K 1
    291 Q I F A A W K I L G 1
    293 F A A W K I L G Y D 1
    299 L G Y D R C D A G W 1
    315 R Y P I S R P R R R 1
    334 F V G F P D K K H K 1
    339 D K K H K L Y G V Y 1
    342 H X L Y G V Y C F R 1
    v.2: HLA Peptide Scoring Results B*0702 10-mers SYFPEITHI
    223 S P G G G S P R G L 23
    276 V P A A S P A A W L 23
    274 A P V P A A S P A A 21
    267 P P A L S A R A P V 20
    280 S P A A W L P L R T 20
    278 A A S P A A W L P L 18
    9 F P L R A L H I V V 17
    39 V P T K V T G I I T 17
    228 S P R G L G F I F K 16
    322 S P S G G G G L K K 16
    157 A S E A Y K K V C L 15
    240 A P L A A T R A T R 15
    261 G S S A H R P P A L 15
    252 H P G G R T P R A G 14
    257 T P R A G S S A H R 14
    269 A L S A R A P V P A 14
    293 R P S S C P T S S S 14
    320 R H S P S G G G G L 14
    28 K M K Q D K K V D L 13
    80 E K Q R K D K V L L 13
    103 I S G S F C R N K L 13
    109 R N K L K Y L A F L 13
    125 N P S R R P Y H F Q 13
    129 R P Y H F Q V P S R 13
    152 C P Q G H A S E A Y 13
    260 A G S S A H R P P A 13
    266 R P P A L S A R A P 13
    308 S P Y G P R N P L P 13
    311 G P R N P L P N P R 13
    335 H C Q G Q K H N V L 13
    398 E R K A E N G P H L 13
    2 L E H T T K T F P L 12
    135 V P S R I F W R Q E 12
    169 A P H E V G W K Y Q 12
    175 W K Y Q A V T A T L 12
    233 G F I F K T I A P L 12
    298 P T S S S T Y D S L 12
    307 L S P Y G P R N P L 12
    314 N P L P N P R H S P 12
    316 L P N P R H S P S G 12
    318 N P R H S P S G G G 12
    331 K P A R H C Q G Q K 12
    366 R P A D L A G S G Y 12
    370 L A G S G Y C G A L 12
    399 R K A E N G P H L L 12
    5 T T K T F P L R A L 11
    29 M K Q D K K V D L L 11
    30 K Q D K K V D L L V 11
    51 A K D F G H V Q F V 11
    79 D E K Q R K D K V L 11
    87 V L L G R K A V V V 11
    193 E I H Y R K N K Q L 11
    283 A W L P L R T P W T 11
    285 L P L R T P W T R P 11
    297 C P T S S S T Y D S 11
    348 K P Q R K P K S E N 11
    352 K P K S E N N S W Y 11
    361 Y V E N G R P A D L 11
    381 K A I E S L E E G L 11
    7 K T F P L R A L H I 10
    42 K V T G I I T Q G A 10
    56 H V Q F V G S Y K L 10
    66 A Y S N D G E H W T 10
    106 3 F C R N K L K Y L 10
    108 C R N K L K Y L A F 10
    172 E V G W K Y Q A V T 10
    196 Y R K N K Q L M R L 10
    226 G G S P R G L G F I 10
    230 R G L G F I F K T I 10
    235 I F K T I A P L A A 10
    251 G H P G G R T P R A 10
    270 L S A R A P V P A A 10
    289 T P W T R P S S C P 10
    324 S G G G G L K K P A 10
    377 G A L W K A I E S L 10
    4 H T T K T F P L R A 9
    32 D K K V D L L V P T 9
    34 K V D L L V P T K V 9
    37 L L V P T K V T G I 9
    48 T Q G A K D F G H V 9
    86 K V L L G R K A V V 9
    160 A Y K K V C L S G A 9
    171 H E V G W K Y Q A V 9
    173 V G W K Y Q A V T A 9
    174 G W K Y Q A V T A T 9
    225 G G G S P R G L G F 9
    238 T I A P L A A T R A 9
    239 I A P L A A T R A T 9
    241 P L A A T R A T R I 9
    336 C Q G Q K H N V L A 9
    369 D L A G S G Y C G A 9
    374 G Y C G A L W K A I 9
    12 R A L H I V V E S I 8
    20 S I R D H S G Q K M 8
    35 V D L L V P T K V T 8
    50 G A K D F G H V Q F 8
    85 D K V L L G R K A V 8
    107 F C R N K L K Y L A 8
    113 K Y L A F L H K R M 8
    126 P S R R P Y H F Q V 8
    148 G G S C C P Q G H A 8
    185 E E K R K E K A E I 8
    204 R L Q K Q A E K N M 8
    231 G L G F I F K T I A 8
    234 F I F K T I A P L A 8
    236 F K T I A P L A A T 8
    248 T R I G H P G G R T 8
    263 S A H R P P A L S A 8
    265 H R P P A L S A R A 8
    273 R A P V P A A S P A 8
    294 P S S C P T S S S T 8
    353 P K S E N N S W Y V 8
    362 V E N G R P A D L A 8
    38 L V P T K V T G I I 7
    78 Q D E K Q R K D K V 7
    81 K Q R K D K V L L G 7
    84 K D K V L L G R K A 7
    92 K A V V V S C E G I 7
    98 C E G I N I S G S F 7
    115 L A F L H K R M N T 7
    155 G H A S E A Y K K V 7
    194 I H Y R K N K Q L M 7
    200 K Q L M R L Q K Q A 7
    208 Q A E K N M K K K I 7
    212 N M K K K I D K Y T 7
    229 P R G L G F I F K T 7
    255 G R T P R A G S S A 7
    290 P W T R P S S C P T 7
    334 R H C Q G Q K H N V 7
    359 S W Y V E N G R P A 7
    371 A G S G Y C G A L W 7
    392 G K Q K D K E R K A 7
    8 T F P L R A L H I V 6
    10 P L R A L H I V V E 6
    26 G Q K M K Q D K K V 6
    45 G I I T Q G A K D F 6
    57 V Q F V G S Y K L A 6
    67 Y S N D G E H W T V 6
    89 L 6 R K A V V V S C 6
    94 V V V S C E G I N I 6
    124 T N P S R R P Y H F 6
    130 P Y H F Q V P S R I 6
    131 Y H F Q V P S R I F 6
    137 S R I F W R Q E K A 6
    146 A D G G S C C P Q G 6
    151 C C P Q G H A S E A 6
    164 V C L S G A P H E V 6
    170 P H E V G W K Y Q A 6
    183 T L E E K R K E K A 6
    227 G S P R G L G F I F 6
    264 A H R P P A L S A R 6
    345 A R G K P Q R K P K 6
    373 S G Y C G A L W K A 6
    58 Q P V G S Y K L A Y 5
    68 S H D G E H W T V Y 5
    88 L L G R K A V V V S 5
    127 S R R P Y H F Q V P 5
    145 K A D G G S C C P Q 5
    165 C L S G A P H E V G 5
    195 H Y R K N K Q L M R 5
    244 A T R A T R I G H P 5
    250 I 6 H P G G R T P R 5
    271 S A R A P V P A A S 5
    272 A R A P V P A A S P 5
    282 A A W L P L R T P W 5
    309 P Y G P R N P L P N 5
    325 G 6 G G L K K P A R 5
    337 Q 6 Q K H N V L A R 5
    363 E N G R P A D L A G 5
    383 I E S L E E G L 6 G 5
    397 K E R K A E N G P H 5
    11 L R A L H I V V E C 4
    23 D H S G Q K M K Q D 4
    31 Q D K K V D L L V P 4
    52 K D F G H V Q F V G 4
    53 D F G H V Q F V G C 4
    69 N D G E H W T V Y Q 4
    102 N I S G S F C R N K 4
    111 K L K Y L A F L H K 4
    128 R R P Y H F Q V P C 4
    159 E A Y K K V C L S G 4
    166 L S G A P H E V G W 4
    177 Y Q A V T A T L E E 4
    186 E K R K E K A E I H 4
    198 K N K Q L M R L Q K 4
    216 K I D K Y T E S P G 4
    221 T E S P G G G S P R 4
    222 E S P G G G S P R G 4
    224 P G G G S P R G L G 4
    247 A T R I G H P G G R 4
    279 A S P A A W L P L R 4
    286 P L R T P W T R P S 4
    291 W T R P S S C P T S 4
    300 S S S T Y D S L S P 4
    344 L A R G K P Q R K P 4
    364 N G R P A D L A G S 4
    3 E H T T K T F P L R 3
    27 Q K M K Q D K K V D 3
    33 K K V D L L V P T K 3
    47 I T Q G A K D F G H 3
    49 Q G A K D F G H V Q 3
    83 R K D K V L L G R K 3
    119 H K R M N T N P S R 3
    123 N T N P S R R P Y H 3
    136 P S R I F W R Q E K 3
    156 H A S E A Y K K V C 3
    162 K K V C L S G A P H 3
    167 S G A P H E V G W K 3
    176 K Y Q A V T A T L E 3
    179 A V T A T L E E K R 3
    182 A T L E E K R K E K 3
    202 L M R L Q K Q A E K 3
    211 K N M K K K I D K Y 3
    237 K T I A P L A A T R 3
    243 A A T R A T R I G H 3
    253 P G G R T P R A G S 3
    258 P R A G S S A H R P 3
    259 R A G S S A H R P P 3
    275 P V P A A S P A A W 3
    287 L R T P W T R P S S 3
    304 Y D S L S P Y G P R 3
    306 S L S P Y G P R N P 3
    323 P S G G G G L K K P 3
    346 R G K P Q R K P K S 3
    349 P Q R K P K S E N N 3
    360 W Y V E N G R P A D 3
    368 A D L A G S G Y C G 3
    372 G S G Y C G A L W K 3
    375 Y C G A L W K A I E 3
    378 A L W K A I E S L E 3
    379 L W K A I E S L E E 3
    388 E G L G G K Q K D K 3
    389 G L G G K Q K D K E 3
    393 K Q K D K E R K A E 3
    394 Q K D K E R K A E N 3
    1 M L E H T T K T F P 2
    6 T K T F P L R A L H 2
    13 A L H I V V E S I R 2
    16 I V V E S I R D H S 2
    18 V K S I R D H S G Q 2
    21 I R D H S G Q K M K 2
    36 D L L V P T K V T G 2
    43 V T G I I T Q G A K 2
    46 I I T Q G A K D F G 2
    59 F V G S Y K L A Y S 2
    60 V G S Y K L A Y S N 2
    64 K L A Y S N D G E H 2
    77 Y Q D E K Q R K D K 2
    82 Q R K D K V L L G R 2
    90 G R K A V V V S C E 2
    91 R K A V V V S C E G 2
    93 A V V V S C E G I N 2
    95 V V S C E G I N I S 2
    97 S C E G I N I S G C 2
    99 E G I N I S G S F C 2
    101 I N I S G S F C R N 2
    104 S G S F C R N K L K 2
    105 G S F C R N K L K Y 2
    116 A F L H K R M N T N 2
    117 F L H K R M N T N P 2
    118 L H K R M N T N P S 2
    120 K R M N T N P S R R 2
    122 M N T N P S R R P Y 2
    132 H F Q V P S R I F W 2
    138 R I F W R Q E K A D 2
    139 I F W R Q E K A D G 2
    140 F W R Q E K A D G G 2
    142 R Q E K A D G G S C 2
    144 E K A D G G S C C P 2
    150 S C C P Q G H A S E 2
    153 P Q G H A S E A Y K 2
    158 S K A Y K K V C L S 2
    163 K V C L S G A P H E 2
    184 L E E K R K E K A E 2
    188 R K E K A E I H Y R 2
    189 K E K A E I H Y R K 2
    190 E K A E I H Y R K N 2
    191 K A E I H Y R K N K 2
    192 A E I H Y R K N K Q 2
    197 R K N K Q L M R L Q 2
    201 Q L M R L Q K Q A E 2
    207 K Q A E K N M K K K 2
    209 A E K N M K K K I D 2
    214 K K K I D K Y T E C 2
    215 K K I D K Y T E S P 2
    217 I D K Y T E S P G G 2
    232 L G F I F K T I A P 2
    242 L A A T R A T R I G 2
    245 T R A T R I G H P G 2
    246 R A T R I G H P G G 2
    249 R I G H P G G R T P 2
    254 G G R T P R A G S S 2
    256 R T P R A G S S A H 2
    262 S S A H R P P A L S 2
    268 P A L S A R A P V P 2
    299 T S S S T Y D S L S 2
    312 P R N P L P N P R H 2
    326 G G G L K K P A R H 2
    328 G L K K P A R H C Q 2
    330 K K P A R H C Q G Q 2
    332 P A R H C Q G Q K H 2
    333 A R H C Q G Q K H N 2
    340 K H N V L A R G K P 2
    342 N V L A R G K P Q R 2
    351 R K P K S E N N S W 2
    354 K S E N N S W Y V E 2
    355 S E N N S W Y V E N 2
    356 E N N S W Y V E N G 2
    357 N N S W Y V E N G R 2
    382 A I E S L E E G L G 2
    386 L E E G L G G K Q K 2
    387 E E G L G G K Q K D 2
    390 L G G K Q K D K E R 2
    19 E S I R D H S G Q K 1
    22 R D H S G Q K M K Q 1
    24 H S G Q K M K Q D K 1
    25 S G Q K M K Q D K K 1
    41 T K V T G I I T Q G 1
    44 T G I I T Q G A K D 1
    54 F G H V Q F V G S Y 1
    61 G S Y K L A Y S N D 1
    63 Y K L A Y S N D G E 1
    70 D G E H W T V Y Q D 1
    72 E H W T V Y Q D E K 1
    110 W K L K Y L A F L H 1
    114 Y L A F L H K R M N 1
    121 R M N T N P S R R P 1
    133 F Q V P S R I F W R 1
    134 Q V P S R I F W R Q 1
    143 Q E K A D G G S C C 1
    147 D G G S C C P Q G H 1
    149 G S C C P Q G H A S 1
    154 Q G H A S E A Y K K 1
    161 Y K K V C L S G A P 1
    180 V T A T L E E K R K 1
    187 K R K E K A E I H Y 1
    206 Q K Q A E K N M K K 1
    210 E K N M K K K I D K 1
    213 M K K K I D K Y T E 1
    219 K Y T E S P G G G C 1
    277 P A A S P A A W L P 1
    281 P A A W L P L R T P 1
    288 R T P W T R P S S C 1
    292 T R P s S C P T S S 1
    295 S S C P T S S S T Y 1
    296 S C P T S S S T Y D 1
    301 S S T Y D S L S P Y 1
    302 S T Y D S L S P Y G 1
    303 T Y D S L S P Y G P 1
    305 D S L S P Y G P R N 1
    310 Y G P R N P L P N P 1
    313 R N P L P N P R H S 1
    315 P L P N P R H S P S 1
    327 G G L K K P A R H C 1
    329 L K K P A R H C Q G 1
    338 G Q K H N V L A R G 1
    341 H N V L A R G K P Q 1
    343 V L A R G K P Q R K 1
    350 Q R K P K S E N N S 1
    365 G R P A D L A G S G 1
    367 P A D L A G S G Y C 1
    376 C G A L W K A I E S 1
    380 W K A I E S L E E G 1
    384 E S L E E G L G G K 1
    395 K D K E R K A E N G 1
  • [0842]
    TABLE XLII
    SEQ.
    ID
    Pos
    1 2 3 4 5 6 7 8 9 0 score NO.
    151P3D4: HLA Peptide Scoring Results B*08 10-mers SYFPEITHI
    NO DATA
  • [0843]
    TABLE XLIII
    SEQ.
    ID
    Pos
    1 2 3 4 5 6 7 8 9 0 score NO.
    151P3D4: HLA Peptide Scoring Results B*1510 10-mers SYFPEITHI
    NO DATA
  • [0844]
    TABLE XLIV
    SEQ.
    ID
    Pos
    1 2 3 4 5 6 7 8 9 0 score NO.
    151P3D4: HLA Peptide Scoring Results B*2705 10-mers SYFPEITHI
    NO DATA
  • [0845]
    TABLE XLV
    SEQ.
    ID
    Pos
    1 2 3 4 5 6 7 8 9 0 score NO.
    151P3D4: HLA Peptide Scoring Results B*2709 10-mers SYFPEITHI
    NO DATA
  • [0846]
    TABLE XLVI
    SEQ.
    ID
    Pos
    1 2 3 4 5 6 7 8 9 0 score NO.
    151P3D4 v.1: HLA Peptide Scoring Results B*4402 10-mers SYFPEITHI
    145 L K D D T V V V A L 26
    328 T E A A V R F V G F 22
    189 A S F D Q L Y D A W 18
    34 A E N G P H L L V E 17
    72 S G I H K I R I K W 17
    186 A V I A S F D Q L Y 17
    287 A K V G Q I F A A W 17
    335 V G F P D K K H K L 17
    68 T A F G S G I H K I 16
    122 A S L V I T D L T L 16
    284 A Q I A K V G Q I F 16
    15 A D H L S D N Y T L 15
    61 C K F Y R D P T A F 15
    75 H K I R I K W T K L 15
    96 V S M G Y H K K T Y 15
    255 S N F N G R F Y Y L 15
    263 Y L I H P T K L T Y 15
    290 G Q I F A A W K I L 15
    336 G F P D K K H K L Y 15
    41 L V E A E Q A K V F 14
    44 A E Q A K V F S H R 14
    86 S D Y L K E V D V F 14
    120 S D A S L V I T D L 14
    152 V A L D L Q G V V F 14
    182 L D Q D A V I A S F 14
    292 I F A A W K I L G Y 14
    325 C S P T E A A V R F 14
    344 L Y G V Y C F R A Y 14
    1 M K S L L L L V L I 13
    3 S L L L L V L I S I 13
    21 N Y T L D H D R A I 13
    32 I Q A E N G P H L L 13
    50 F S H R G G N V T L 13
    55 G N V T L P C K F Y 13
    90 K E V D V F V S M G 13
    91 E V D V F V S M G Y 13
    104 T Y G G Y Q G R V F 13
    131 L E D Y G R Y K C E 13
    136 R Y K C E V I E G L 13
    163 Y F P R L G R Y N L 13
    165 P R L G R Y N L N F 13
    208 G W L S D G S V Q Y 13
    223 R E P C G G Q N T V 13
    244 D K S R Y D V F C F 13
    253 F T S N F N G R F Y 13
    261 F Y Y L I H P T K L 13
    300 G Y D R C D A G W L 13
    341 K H K L Y G V Y C F 13
    3 L L L V L I S I C W 12
    9 L I S I C W A D H L 12
    54 G G N V T L P C K F 12
    79 I K W T K L T S D Y 12
    105 Y G G Y Q G R V F L 12
    125 V I T D L T L E D Y 12
    142 I E G L E D D T V V 12
    147 D D T V V V A L D L 12
    154 L D L Q G V V F P Y 12
    155 D L Q G V V F P Y F 12
    185 D A V I A S F D Q L 12
    193 Q L Y D A W R G G L 12
    200 G G L D W C N A G W 12
    201 G L D W C N A G W L 12
    229 Q N T V P G V R N Y 12
    231 T V P G V R N Y G F 12
    242 D K D K S R Y D V F 12
    307 G W L A D G S V R Y 12
    13 C W A D H L S D N Y 11
    23 T L D H D R A I H I 11
    42 V H A E Q A K V F S 11
    70 F G S G I H K I R I 11
    80 K W T K L T S D Y L 11
    115 K G G S D S D A S L 11
    117 G S D S D A S L V I 11
    128 D L T L E D Y G R Y 11
    139 C E V I E G L E D D 11
    158 G V V F P Y F P R L 11
    161 F P Y F P R L G R Y 11
    173 N F H E A Q Q A C L 11
    175 H E A Q Q A C L D Q 11
    195 Y D A W R G G L D W 11
    239 G F W D K D K S R Y 11
    248 Y D V F C F T S N F 11
    254 T S N F N G R F Y Y 11
    256 N F N G R F Y Y L I 11
    271 T Y D E A V Q A C L 11
    273 D E A V Q A C L N D 11
    299 L G Y D R C D A G W 11
    309 L A D G S V R Y P I 11
    339 D K K H K L Y G V Y 11
    31 H I Q A E N G P H L 10
    65 R D P T A F G S G I 10
    99 G y H K K T Y G G Y 10
    133 D Y G R Y K C E V I 10
    179 Q A C L D Q D A V I 10
    210 L S D G S V Q Y P I 10
    232 V P G V R N Y G F W 10
    252 C F T S N F N G R F 10
    277 Q A C L N D G A Q I 10
    283 G A Q I A K V G Q I 10
    289 V G Q I F A A W K I 10
    159 V V F P Y F P R L G 8
    35 E N G P H L L V E A 7
    153 A L D L Q G V V F P 7
    180 A C L D Q D A V I A 7
    124 L V I T D L T L E D 6
    143 E G L E D D T V V V 6
    146 E D D T V V V A L D 6
    162 P y F P R L G R Y N 6
    230 N T V P G V R N Y G 6
    259 G R F Y Y L I H P T 6
    278 A C L N D G A Q I A 6
    280 L N D G A Q I A K V 6
    324 R C S P T E A A V R 6
    2 K S L L L L V L I S 5
    4 L L L L V L I S I C 5
    10 I S I C W A D H L S 5
    24 L D H D R A I H I Q 5
    26 H D R A I H I Q A E 5
    36 N G P H L L V E A E 5
    57 V T L P C K F Y R D 5
    64 Y R D P T A F G S G 5
    69 A F G S G I H K I R 5
    73 G I H K I R I K W T 5
    76 K I R I K W T K L T 5
    77 I R I K W T K L T S 5
    118 S D S D A S L V I T 5
    140 E V I E G L E D D T 5
    181 C L D Q D A V I A S 5
    207 A G W L S D G S V Q 5
    217 Y P I T K P R E P C 5
    251 F C F T S N F N G R 5
    262 Y Y L I H P T K L T 5
    281 N D G A Q I A K V G 5
    286 I A K V G Q I F A A 5
    296 W K I L G Y D R C D 5
    306 A G W L A D G S V R 5
    316 Y P I S R P R R R C 5
    6 L L V L I S I C W A 4
    17 H L S D N Y T L D H 4
    25 D H D R A I H I Q A 4
    28 R A I H I Q A E N G 4
    29 A I H I Q A E N G P 4
    38 P H L L V E A E Q A 4
    47 A K V F S H R G G N 4
    51 S H R G G N V T L P 4
    71 G S G I H K I R I K 4
    82 T K L T S D Y L K E 4
    83 K L T S D Y L K E V 4
    95 F V S M G Y H K K T 4
    107 G Y Q G R V F L K G 4
    108 Y Q G R V F L K G G 4
    116 G G S D S D A S L V 4
    119 D S D A S L V I T D 4
    121 D A S L V I T D L T 4
    144 G L E D D T V V V A 4
    172 L N F H E A Q Q A C 4
    176 E A Q Q A C L D Q D 4
    197 A W R G G L D W C N 4
    199 R G G L D W C N A G 4
    212 D G S V Q Y P I T K 4
    213 G S V Q Y P I T K P 4
    214 S V Q Y P I T K P R 4
    219 I T K P R E P C G G 4
    224 E P C G G Q N T V P 4
    238 Y G F W D K D K S R 4
    264 L X H P T K L T Y D 4
    269 K L T Y D E A V Q A 4
    270 L T Y D E A V Q A C 4
    274 E A V Q A C L N D G 4
    279 C L N D G A Q I A K 4
    291 Q I F A A W K I L G 4
    297 K I L G Y D R C D A 4
    302 D R C D A G W L A D 4
    312 G S V R Y P I S R P 4
    314 V R Y P I S R P R R 4
    317 P I S R P R R R C S 4
    318 I S R P R R R C S P 4
    330 A A V R F V G F P D 4
    331 A V R F V G F P D K 4
    332 V R F V G F P D K K 4
    333 R F V G F P D K K H 4
    7 L V L I S I C W A D 3
    8 V L I S I C W A D H 3
    18 L S D N Y T L D H D 3
    22 Y T L D H D R A I H 3
    30 I H I Q A E N G P H 3
    33 Q A E N G P H L L V 3
    39 H L L V E A E Q A K 3
    43 E A E Q A K V F S H 3
    45 E Q A K V F S H R G 3
    48 K V F S H R G G N V 3
    49 V F S H R G G N V T 3
    52 H R G G N V T L P C 3
    62 K F Y R D P T A F G 3
    84 L T S D Y L K E V D 3
    111 R V F L K G G S D S 3
    114 L K G G S D S D A Q 3
    123 S L V I T D L T L E 3
    130 T L E D Y G R Y K C 3
    132 E D Y G R Y K C E V 3
    160 V F P Y F P R L G R 3
    164 F P R L G R Y N L N 3
    166 R L G R Y N L N F H 3
    168 G R Y N L N F H E A 3
    169 R Y N L N F H E A Q 3
    170 Y N L N F H E A Q Q 3
    171 N L N F H E A Q Q A 3
    177 A Q Q A C L D Q D A 3
    209 W L S D G S V Q Y P 3
    215 V Q Y P I T K P R E 3
    216 Q Y P I T K P R E P 3
    222 P R E P C G G Q N T 3
    225 P C G G Q N T V P G 3
    227 G G Q N T V P G V R 3
    236 R N Y G F W D K D K 3
    246 S R Y D V F C F T S 3
    249 D V F C F T S N F N 3
    258 N G R F Y Y L I H P 3
    265 I H P T K L T Y D E 3
    267 P T K L T Y D E A V 3
    268 T K L T Y D E A V Q 3
    275 A V Q A C L N D G A 3
    294 A A W K I L G Y D R 3
    295 A W K I L G Y D R C 3
    308 W L A D G S V R Y P 3
    310 A D G S V R Y P I S 3
    311 D G S V R Y P I S R 3
    315 R Y P I S R P R R R 3
    319 S R P R R R C S P T 3
    322 R R R C S P T E A A 3
    326 S P T E A A V R F V 3
    329 E A A V R F V G F P 3
    11 S I C W A D H L S D 2
    14 W A D H L S D N Y T 2
    16 D H L S D N Y T L D 2
    19 S D N Y T L D H D R 2
    53 R G G N V T L P C K 2
    56 N V T L P C K F Y R 2
    58 T L P C K F Y R D P 2
    63 F Y R D P T A F G S 2
    81 W T K L T S D Y L K 2
    85 T S D Y L K E V D V 2
    87 D Y L K E V D V F V 2
    88 Y L K E V D V F V S 2
    89 L K E V D V F V S M 2
    93 D V F V S M G Y H K 2
    94 V F V S M G Y H K K 2
    101 H K K T Y G G Y Q G 2
    103 K T Y G G Y Q G R V 2
    106 G G Y Q G R V F L K 2
    126 I T D L T L E D Y G 2
    127 T D L T L E D Y G R 2
    129 L T L E D Y G R Y K 2
    135 G R Y K C E V I E G 2
    138 K C E V I E G L E D 2
    141 V I E G L E D D T V 2
    148 D T V V V A L D L Q 2
    149 T V V V A L D L Q G 2
    151 V V A L D L Q G V V 2
    174 F H E A Q Q A C L D 2
    178 Q Q A C L D Q D A V 2
    183 D Q D A V I A S F D 2
    188 I A S F D Q L Y D A 2
    190 S F D Q L Y D A W R 2
    191 F D Q L Y D A W R G 2
    192 D Q L Y D A W R G G 2
    194 L Y D A W R G G L D 2
    196 D A W R G G L D W C 2
    203 D W C N A G W L S D 2
    220 T K P R E P C G G Q 2
    221 K P R E P C G G Q N 2
    228 G Q N T V P G V R N 2
    234 G V R N Y G F W D K 2
    237 N Y G F W D K D K S 2
    240 F W D K D K S R Y D 2
    241 W D K D K S R Y D V 2
    243 K D K S R Y D V F C 2
    245 K S R Y D V F C F T 2
    247 R Y D V F C F T S N 2
    257 F N G R F Y Y L I H 2
    272 Y D E A V Q A C L N 2
    276 V Q A C L N D G A Q 2
    288 K V G Q I F A A W K 2
    298 I L G Y D R C D A G 2
    303 R C D A G W L A D G 2
    304 C D A G W L A D G S 2
    313 S V R Y P I S R P R 2
    320 R P R R R C S P T E 2
    321 P R R R C S P T K A 2
    323 R R C S P T E A A V 2
    327 P T E A A V R F V G 2
    334 F V G F P D K K H K 2
    337 F P D K K H K L Y G 2
    340 K K H K L Y G V Y C 2
    343 K L Y G V Y C F R A 2
    12 I C W A D H L S D N 1
    20 D N Y T L D H D R A 1
    37 G P H L L V E A E Q 1
    40 L L V E A E Q A K V 1
    46 Q A K V F S H R G G 1
    59 L P C K F Y R D P T 1
    60 P C K F Y R D P T A 1
    67 P T A F G S G I H K 1
    74 I H K I R I K W T K 1
    78 R I K W T K L T S D 1
    97 S M G Y H K K T Y G 1
    98 M G Y H K K T Y G G 1
    102 K K T Y G G Y Q G R 1
    112 V F L K G G S D S D 1
    113 F L K G G S D S D A 1
    134 Y G R Y K C E V I E 1
    137 Y K C E V I E G L E 1
    150 V V V A L D L Q G V 1
    156 L Q G V V F P Y F P 1
    187 V I A S F D Q L Y D 1
    198 W R G G L D W C N A 1
    202 L D W C N A G W L S 1
    204 W C N A G W L S D G 1
    205 C N A G W L S D G C 1
    206 N A G W L S D G S V 1
    211 S D G S V Q Y P I T 1
    226 C G G Q N T V P G V 1
    233 P G V R N Y G F W D 1
    235 V R N Y G F W D K D 1
    260 R F Y Y L I H P T K 1
    282 D G A Q I A K V G Q 1
    285 Q X A K V G Q I F A 1
    293 F A A W K I L G Y D 1
    301 Y D R C D A G W L A 1
    338 P D K K H K L Y G V 1
    342 H K L Y G V Y C F R 1
    345 Y G V Y C F R A Y N 1
    151P3D4 v.2: HLA Peptide Scoring Results B*4402 10-mers SYFPEITHI
    79 D E K Q R K D K V L 23
    2 L E H T T K T F P L 22
    185 E E K R K E K A E I 21
    98 C E G I N I S G S F 20
    192 A E I H Y R K N K Q 18
    278 A A S P A A W L P L 18
    45 G I I T Q G A K D F 17
    7 K T F P L R A L H I 16
    209 A E K N M K K K I D 16
    211 K N M K K K I D K Y 16
    233 G F I F K T I A P L 16
    371 A G S G Y C G A L W 16
    5 T T K T F P L R A L 15
    80 E K Q R K D K V L L 15
    106 S F C R N K L K Y L 15
    193 E I H Y R K N K Q L 15
    282 A A W L P L R T P W 15
    295 S S C P T S S S T Y 15
    58 Q F V G S Y K L A Y 14
    68 S N D G E H W T V Y 14
    105 G S F C R N K L K Y 14
    157 A S E A Y K K V C L 14
    184 L E E K R K E K A E 14
    221 T E S P G G G S P R 14
    223 S P G G G S P R G L 14
    230 R G L G F I F K T I 14
    261 G S S A H R P P A L 14
    275 P V P A A S P A A W 14
    320 R H S P S G G G G L 14
    377 G A L W K A I E S L 14
    381 K A I E S L E E G L 14
    386 L E E G L G G K Q K 14
    387 E E G L G G K Q K D 14
    29 M K Q D K K V D L L 13
    50 G A K D F G H V Q F 13
    103 I S G S F C R N K L 13
    108 C R N K L K Y L A F 13
    122 M N T N P S R R P Y 13
    131 Y H F Q V P S R I F 13
    152 C P Q G H A S E A Y 13
    158 S E A Y K K V C L S 13
    171 H E V G W K Y Q A V 13
    226 G G S P R G L G F I 13
    307 L S P Y G P R N P L 13
    335 H C Q G Q K H N V L 13
    355 S E N N S W Y V E N 13
    362 V E N G R P A D L A 13
    374 G Y C G A L W K A I 13
    383 I E S L E E G L G G 13
    399 R K A E N G P H L L 13
    28 K M K Q D K K V D L 12
    37 L L V P T K V T G I 12
    109 R N K L K Y L A F L 12
    124 T N P S R R P Y H F 12
    132 H F Q V P S R I F W 12
    168 G A P H E V G W K Y 12
    175 W K Y Q A V T A T L 12
    187 K R K E K A E I H Y 12
    196 Y R K N K Q L M R L 12
    227 G S P R G L G F I F 12
    301 S S T Y D S L S P Y 12
    351 R K P K S E N N S W 12
    361 Y V E N G R P A D L 12
    370 L A G S G Y C G A L 12
    398 E R K A E N G P H L 12
    18 V E S I R D H S G Q 11
    38 L V P T K V T G I I 11
    54 F 6 H V Q F V G S Y 11
    56 H V Q F V G S Y K L 11
    166 L S G A P H E V G W 11
    189 K E K A E I H Y R K 11
    208 Q A E K N M K K K I 11
    225 G G G S P R G L G F 11
    276 V P A A S P A A W L 11
    298 P T S S S T Y D S L 11
    352 K P K S E N N S W Y 11
    366 R P A D L A G S G Y 11
    397 K E R K A E N G P H 11
    12 R A L H I V V E S I 10
    65 L A Y S N D G E H W 10
    71 G E H W T V Y Q D E 10
    143 Q E K A D G G S C C 10
    92 K A V V V S C E G I 9
    94 V V V S C E G I N I 9
    130 P Y H F Q V P S R I 9
    241 P L A A T R A T R I 9
    264 A H R P P A L S A R 9
    274 A P V P A A S P A A 8
    283 A W L P L R T P W T 8
    19 E S I R D H S G Q K 7
    182 A T L E E K R K E K 7
    272 A R A P V P A A S P 7
    306 S L S P Y G P R N P 7
    314 N P L P N P R H S P 7
    393 K Q K D K E R K A E 7
    35 V D L L V P T K V T 6
    66 A Y S N D G E H W T 6
    85 D K V L L G R K A V 6
    99 E G I N I S G S F C 6
    116 A F L H K R M N T N 6
    127 S R R P Y H F Q V P 6
    133 F Q V P S R I F W R 6
    138 R I F W R Q E K A D 6
    215 K K I D K Y T E S P 6
    232 L G F I F K T I A P 6
    237 K T I A P L A A T R 6
    239 I A P L A A T R A T 6
    240 A P L A A T R A T R 6
    243 A A T R A T R I G H 6
    244 A T R A T R I G H P 6
    269 A L S A R A P V P A 6
    279 A S P A A W L P L R 6
    345 A R G K P Q R K P K 6
    363 E N G R P A D L A G 6
    388 E G L G G K Q K D K 6
    3 E H T T K T F P L R 5
    10 P L R A L H I V V E 5
    23 D H S G Q K M K Q D 5
    34 K V D L L V P T K V S
    40 P T K V T G I I T Q 5
    41 T K V T G I I T Q G 5
    51 A K D F G H V Q F V 5
    52 K D F G H V Q F V G 5
    57 V Q F V G S Y K L A 5
    87 V L L G R K A V V V 5
    95 V V S C E G I N I S 5
    97 S C E G I N I S G S 5
    104 S G S F C R N K L K 5
    123 N T N P S R R P Y H 5
    137 S R I F W R Q E K A 5
    146 A D G G S C C P Q G 5
    167 S G A P H E V G W K 5
    169 A P H E V G W K Y Q 5
    200 K Q L M R L Q K Q A 5
    229 P R G L G F I F K T 5
    235 I F K T I A P L A A 5
    252 H P G G R T P R A G 5
    260 A G S S A H R P P A 5
    266 R P P A L S A R A P 5
    309 P Y G P R N P L P N 5
    322 S P S G G G G L K K 5
    323 P S G G G G L K K P 5
    333 A R H C Q G Q K H N 5
    364 N 6 R P A D L A 6 S 5
    8 T F P L R A L H I V 4
    9 F P L R A L H I V V 4
    14 L H I V V E S I R D 4
    15 H I V V E S I R D H 4
    27 Q K M K Q D K K V D 4
    30 K Q D K K V D L L V 4
    33 K K V D L L V P T K 4
    44 T 6 I I T Q G A K D 4
    77 Y Q D E K Q R K D K 4
    81 K Q R K D K V L L G 4
    86 K V L L G R K A V V 4
    88 L L G R K A V V V S 4
    101 I N I S G S F C R N 4
    102 N I S G S F C R N K 4
    110 N K L K Y L A F L H 4
    112 L K Y L A F L H K R 4
    113 K Y L A F L H K R M 4
    115 L A F L H K R M N T 4
    120 K R M N T N P S R R 4
    125 N P S R R P Y H F Q 4
    135 V P S R I F W R Q E 4
    150 S C C P Q G H A S E 4
    156 H A S E A Y K K V C 4
    160 A Y K K V C L S G A 4
    179 A V T A T L E E K R 4
    188 R K E K A E T H Y R 4
    190 E K A E I H Y R K W 4
    191 K A E I H Y R K N K 4
    198 K N K Q L M R L Q K 4
    199 N K Q L M R L Q K Q 4
    201 Q L M R L Q K Q A E 4
    207 K Q A E K N M K K K 4
    222 E S P G G G S P R G 4
    228 S P R G L G F I F K 4
    234 F I F K T I A P L A 4
    238 T I A P L A A T R A 4
    247 A T R I G H P G G R 4
    248 T R I G H P G G R T 4
    250 I G H P G G R T P R 4
    256 R T P R A G S S A H 4
    263 S A H R P P A L S A 4
    265 H R P P A L S A R A 4
    270 L S A R A P V P A A 4
    271 S A R A P V P A A C 4
    284 W L P L R T P W T R 4
    287 L R T P W T R P S S 4
    291 W T R P S S C P T C 4
    300 S S S T Y D S L S P 4
    313 R N P L P N P R H S 4
    324 S 6 G G G L K K P A 4
    325 L K K P A R H C Q G 4
    337 Q G Q K H N V L A R 4
    346 R G K P Q R K P K S 4
    347 G K P Q R K P K S E 4
    350 Q R K P K S E N N S 4
    368 A D L A G S G Y C G 4
    378 A L W K A I E S L E 4
    382 A I E S L E E G L G 4
    384 E S L E E G L G G K 4
    11 L R A L H I V V E S 3
    13 A L H I V V E S I R 3
    20 S I R D H S G Q K M 3
    21 I R D H S G Q K M K 3
    26 G Q K M K Q D K K V 3
    31 Q D K K V D L L V P 3
    36 D L L V P T K V T G 3
    42 K V T G I I T Q G A 3
    62 S Y K L A Y S N D G 3
    69 N D G E H W T V Y Q 3
    72 E H W T V Y Q D E K 3
    74 W T V Y Q D E K Q R 3
    76 V Y Q D E K Q R K D 3
    82 Q R K D K V L L G R 3
    84 K D K V L L G R K A 3
    93 A V V V S C E G I N 3
    111 K L K Y L A F L H K 3
    118 L H K R M N T N P S 3
    144 E K A D G G S C C P 3
    145 K A D G G S C C P Q 3
    149 G S C C P Q G H A C 3
    155 G H A S E A Y K K V 3
    159 E A Y K K V C L S G 3
    163 K V C L S G A P H E 3
    164 V C L S G A P H E V 3
    165 C L S G A P H E V G 3
    172 E V G W K Y Q A V T 3
    173 V G W K Y Q A V T A 3
    174 G W K Y Q A V T A T 3
    176 K Y Q A V T A T L E 3
    180 V T A T L E E K R K 3
    181 T A T L E E K R K E 3
    186 E K R K E K A E I H 3
    203 M R L Q K Q A E K N 3
    210 E K N M K K K I D K 3
    212 N M K K K I D K Y T 3
    224 P G G G S P R G L G 3
    236 F K T I A P L A A T 3
    242 L A A T R A T R I G 3
    251 G H P G G R T P R A 3
    255 G R T P R A G S S A 3
    258 P R A G S S A H R P 3
    262 S S A H R P P A L C 3
    268 P A L S A R A P V P 3
    280 S P A A W L P L R T 3
    281 P A A W L P L R T P 3
    286 P L R T P W T R P S 3
    296 S C P T S S S T Y D 3
    308 S P Y G P R N P L P 3
    310 Y 6 P R N P L P N P 3
    311 G P R N P L P N P R 3
    312 P R N P L P N P R H 3
    316 L P N P R H S P S G 3
    317 P N P R H S P S G G 3
    325 G 6 G G L K K P A R 3
    327 G G L K K P A R H C 3
    331 K P A R H C Q G Q K 3
    339 Q K H N V L A R G K 3
    340 K H N V L A R G K P 3
    341 H N V L A R G K P Q 3
    342 N V L A R G K P Q R 3
    344 L A R G K P Q R K P 3
    354 K S E N N S W Y V E 3
    356 E N N S W Y V E N G 3
    357 N N S W Y V E N G R 3
    360 W Y V E N G R P A D 3
    373 S G Y C G A L W K A 3
    376 C G A L W K A I E S 3
    4 H T T K T F P L R A 2
    6 T K T F P L R A L H 2
    25 S 6 Q K M K Q D K K 2
    32 D K K V D L L V P T 2
    43 V T G I I T Q G A K 2
    49 Q 6 A K D F G H V Q 2
    53 D F G H V Q F V G c 2
    60 V G S Y K L A Y S N 2
    67 Y S N D G E H W T V 2
    70 D G E H W T V Y Q D 2
    83 R K D K V L L G R K 2
    89 L G R K A V V V S C 2
    107 F C R N K L K Y L A 2
    121 R M N T N P S R R P 2
    126 P S R R P Y H F Q V 2
    128 R R P Y H F Q V P S 2
    134 Q V P S R I F W R Q 2
    151 C C P Q G H A S E A 2
    154 Q G H A S E A Y K K 2
    161 Y K K V C L S G A P 2
    177 Y Q A V T A T L E E 2
    178 Q A V T A T L E E K 2
    194 I H Y R K N K Q L M 2
    197 R K N K Q L M R L Q 2
    204 R L Q K Q A E K N M 2
    216 K I D K Y T E S P G 2
    218 D K Y T E S P G G G 2
    245 T R A T R I G H P G 2
    249 R I G H P G G R T P 2
    253 P G G R T P R A G S 2
    254 G G R T P R A G S S 2
    267 P P A L S A R A P V 2
    273 R A P V P A A S P A 2
    277 P A A S P A A W L P 2
    285 L P L R T P W T R P 2
    288 R T P W T R P S S C 2
    292 T R P S S C P T S S 2
    293 R P S S C P T S S S 2
    299 T S S S T Y D S L S 2
    302 S T Y D S L S P Y G 2
    303 T Y D S L S P Y G P 2
    304 Y D S L S P Y G P R 2
    315 P L P N P R H S P S 2
    321 H S P S G G G G L K 2
    326 G G G L K K P A R H 2
    328 G L K K P A R H C Q 2
    330 K K P A R H C Q G Q 2
    336 C Q G Q K H N V L A 2
    343 V L A R G K P Q R K 2
    348 K P Q R K P K S E N 2
    359 S W Y V E N G R P A 2
    365 G R P A D L A G S G 2
    367 P A D L A G S G Y C 2
    372 G S G Y C G A L W K 2
    385 S L E E G L G G K Q 2
    389 G L G G K Q K D K E 2
    390 L G G K Q K D K H R 2
    392 G K Q K D K E R K A 2
    395 K D K E R K A E N G 2
    396 D K E R K A E N G P 2
    16 I V V E S I R D H S 1
    17 V V E S I R D H S G 1
    22 R D H S G Q K M K Q 1
    39 V P T K V T G I I T 1
    47 I T Q G A K D F G H 1
    48 T Q G A K D F G H V 1
    59 F V G S Y K L A Y S 1
    63 Y K L A Y S N D G E 1
    64 K L A Y S N D G E H 1
    73 H W T V Y Q D E K Q 1
    78 Q D E K Q R K D K V 1
    90 G R K A V V V S C E 1
    96 V S C E G I N I S G 1
    114 Y L A F L H K R M N 1
    129 R P Y H F Q V P S R 1
    136 P S R I F W R Q E K 1
    139 I F W R Q E K A D G 1
    140 F W R Q E K A D G G 1
    147 D G G S C C P Q G H 1
    148 G G S C C P Q G H A 1
    162 K K V C L S G A P H 1
    170 P H E V G W K Y Q A 1
    183 T L E E K R K E K A 1
    195 H Y R K N K Q L M R 1
    202 L M R L Q K Q A E K 1
    205 L Q K Q A E K N M K 1
    206 Q K Q A E K N M K K 1
    213 M K K K I D K Y T E 1
    214 K K K I D K Y T E S 1
    219 K Y T E S P G G G S 1
    246 R A T R I G H P G G 1
    259 R A G S S A H R P P 1
    289 T P W T R P S S C P 1
    290 P W T R P S S C P T 1
    294 P S S C P T S S S T 1
    297 C P T S S S T Y D S 1
    305 D S L S P Y G P R N 1
    318 N P R H S P S G G G 1
    332 P A R H C Q G Q K H 1
    334 R H C Q G Q K H N V 1
    338 G Q K H N V L A R G 1
    353 P K S E N N S W Y V 1
    358 N S W Y V E N G R P 1
    369 D L A G S G Y C G A 1
    379 L W K A I E S L E E 1
    380 W K A I E S L E E G 1
    394 Q K D K E R K A E N 1
  • [0847]
    TABLE XLVII
    SEQ.
    ID
    Pos
    1 2 3 4 5 6 7 8 9 0 score NO.
    151P3D4: HLA Peptide Scoring Results B*5101 10-mers SYFPEITHI
    NO DATA
  • [0848]
    TABLE XLVIII
    SEQ.
    ID
    Pos
    1 2 3 4 5 6 1 8 9 0 1 2 3 4 5 score NO.
    151P3D4 v.1: HLA Peptide Scoring Results DRB1*0101 15-mers SYFPEITHI
    78 R I K W T K L T S D Y L K E V 35
    259 G R F Y Y L I H P T K L T Y D 33
    61 C K F Y R D P T A F G S G I H 30
    214 S V Q Y P I T K P R E P C G G 28
    7 L V L I S I C W A D H L S D N 27
    27 D R A I H I Q A E N G P H L L 27
    102 K K T Y G G Y Q G R V F L K G 27
    148 D T V V V A L D L Q G V V F P 27
    161 P P Y F P R L G R Y N L N F H 27
    169 R Y N L N F H E A Q Q A C L D 27
    109 Q G R V F L K G G S D S D A S 26
    267 P T K L T Y D E A V Q A C L N 26
    298 I L G Y D R C D A G W L A D G 26
    1 M K S L L L L V L I S I C W A 25
    39 H L L V E A E Q A K V F S H R 25
    139 C E V I E G L E D D T V V V A 25
    283 G A Q I A K V G Q I F A A W K 25
    4 L L L L V L I S I C W A D H L 24
    21 N Y T L D H D R A I H I Q A E 24
    29 A I H I Q A E N G P H L L V E 24
    36 N G P H L L V E A E Q A K V F 24
    46 Q A K V F S H R G G N V T L P 24
    150 V V V A L D L Q G V V F P Y F 24
    151 V V A L D L Q G V V F P Y F P 24
    199 R G G L D W C N A G W L S D G 24
    229 Q N T V P G V R N Y G F W D K 24
    86 S D Y L K E V D V F V S M G Y 23
    145 L E D D T V V V A L D L Q G V 23
    293 F A A W K I L G Y D R C D A G 23
    3 S L L L L V L I S I C W A D H 22
    153 A L D L Q G V V F P Y F P R L 22
    178 Q Q A C L D Q D A V I A S F D 22
    286 I A K V G Q I F A A W K I L G 22
    19 S D N Y T L D H D R A I H I Q 21
    134 Y G R Y K C E V I E G L E D D 21
    74 I H K I R I K W T K L T S D Y 20
    85 T S D Y L K E V D V F V S M G 20
    154 L D L Q G V V F P Y F P R L G 20
    235 V R N Y G F W D K D K S R Y D 20
    260 R F Y Y L I H P T K L T Y D E 20
    287 A K V 6 Q I F A A W K I L G Y 20
    313 S V R Y P I S R P R R R C S P 20
    38 P H L L V E A E Q A K V F S H 19
    47 A K V F S H R G G N V T L P C 19
    92 V D V F V S M G Y H K K T Y G 19
    110 G R V F L K G G S D S D A S L 19
    160 V F P Y F P R L G R Y N L N F 19
    238 Y G F W D K D K S R Y D V F C 19
    250 V F C F T S N F N G R F Y Y L 19
    254 T S N F N G R F Y Y L I H P T 19
    264 L I H P T K L T Y D E A V Q A 19
    63 F Y R D P T A F G S G I H K I 18
    81 W T K L T S D Y L K E V D V F 18
    108 Y Q G R V F L K G G S D S D A 18
    131 L E D Y G R Y K C E V I E G L 18
    156 L Q G V V F P Y F P R L G R Y 18
    171 N L N F H E A Q Q A C L D Q D 18
    188 I A S F D Q L Y D A W R G G L 18
    191 F D Q L Y D A W R G G L D W C 18
    192 D Q L Y D A W R G G L D W C N 18
    258 N G R F Y Y L I H P T K L T Y 18
    269 K L T Y D E A V Q A C L N D G 18
    273 D E A V Q A C L N D G A Q I A 18
    299 L G Y D R C D A G W L A D G S 18
    302 D R C D A G W L A D G S V R Y 18
    329 E A A V R F V G F P D K K H K 18
    338 P D K K H K L Y G V Y C F R A 18
    56 N V T L P C K F Y R D P T A F 17
    71 G S G I H K I R I K W T K L T 17
    111 R V F L K G G S D S D A S L V 17
    118 S D S D A S L V I T D L T L E 17
    123 S L V I T D L T L E D Y G R Y 17
    149 T V V V A L D L Q G V V F P Y 17
    206 N A G W L S D G S V Q Y P I T 17
    275 A V Q A C L N D G A Q I A K V 17
    276 V Q A C L N D G A Q I A K V G 17
    305 D A G W L A D G S V R Y P I S 17
    306 A G W L A D G S V R Y P I S R 17
    311 D G S V R Y P I S R P R R R C 17
    315 R Y P I S R P R R R C S P T E 17
    319 S R P R R R C S P T E A A V R 17
    11 S I C W A D H L S D N Y T L D 16
    18 L S D N Y T L D H D R A I H I 16
    52 H R G G N V T L P C K F Y R D 16
    60 P C K F Y R D P T A F G S G I 16
    73 G I H K I R I K W T K L T S D 16
    83 K L T S D Y L K E V D V F V S 16
    89 L K E V D V F V S M G Y H K K 16
    91 E V D V F V S M G Y H K K T Y 16
    114 L K G G S D S D A S L V I T D 16
    142 I E G L E D D T V V V A L D L 16
    166 R L G R Y N L N F H E A Q Q A 16
    176 E A Q Q A C L D Q D A V I A S 16
    179 Q A C L D Q D A V I A S F D Q 16
    196 D A W R G G L D W C N A G W L 16
    200 G G L D W C N A G W L S D G S 16
    203 D W C N A G W L S D G S V Q Y 16
    204 W C N A G W L S D G S V Q Y P 16
    207 A G W L S D G S V Q Y P I T K 16
    246 S R Y D V F C F T S N F N G R 16
    282 D G A Q I A K V G Q I F A A W 16
    292 I F A A W K I L G Y D R C D A 16
    295 A W K I L G Y D R C D A G W L 16
    303 R C D A G W L A D G S V R Y P 16
    320 R P R R R C S P T E A A V R F 16
    323 R R C S P T E A A V R F V G F 16
    326 S P T E A A V R F V G F P D K 16
    2 K S L L L L V L I S I C W A D 15
    30 I H I Q A E N G P H L L V E A 15
    59 L P C K F Y R D P T A F G S G 15
    103 K T Y S G Y Q G R V F L K G G 15
    136 R Y K C E V I E G L E D D T V 15
    157 Q G V V F P Y F P R L G R Y N 15
    212 D G S V Q Y P I T K P R E P C 15
    226 C G G Q N T V P G V R N Y G F 15
    279 C L N D G A Q I A K V G Q I F 15
    6 L L V L I S I C W A D H L S D 14
    15 A D H L S D N Y T L D H D R A 14
    26 H D R A I H I Q A E N G P H L 14
    40 L L V E A E Q A K V F S H R G 14
    43 E A E Q A K V F S H R G G N V 14
    68 T A F G S G I H K I R I K W T 14
    97 S M G Y H K K T Y G G Y Q G R 14
    112 V F L K G G S D S D A S L V I 14
    115 K G G S D S D A S L V I T D L 14
    120 S D A S L V I T D L T L E D Y 14
    122 A S L V I T D L T L E D Y G R 14
    141 V I E G L E D D T V V V A L D 14
    172 L N F H E A Q Q A C L D Q D A 14
    181 C L D Q D A V I A S F D Q L Y 14
    244 D K S R Y D V F C F T S N F N 14
    247 R Y D V F C F T S N F N G R F 14
    270 L T Y D E A V Q A C L N D G A 14
    308 W L A D G S V R Y P I S R P R 14
    119 D S D A S L V I T D L T L E D 13
    121 D A S L V I T D L T L E D Y G 13
    331 A V R F V G F P D K K H K L Y 13
    336 G F P D K K H K L Y G V Y C F 13
    107 G Y Q G R V F L K G G S D S D 12
    158 G V V F P Y F P R L G R Y N L 12
    167 L G R Y N L N F H E A Q Q A C 12
    182 L D Q D A V I A S F D Q L Y D 12
    183 D Q D A V X A S F D Q L Y D A 12
    195 Y D A W R G G L D W C N A G W 12
    210 L S D G S V Q Y P I T K P R E 12
    223 R E P C G G Q N T V P G V R N 12
    290 G Q I F A A W K I L G Y D R C 12
    5 L L L V L I S I C W A D H L S 11
    49 V F S H R G G N V T L P C K F 11
    67 P T A F G S G I H K I R I K W 11
    93 D V F V S M G Y H K K T Y G G 11
    98 M G Y H K K T Y G G Y Q G R V 11
    105 Y G G Y Q G R V F L K G G S D 11
    125 V I T D L T L E D Y G R Y K C 11
    201 G L D W C N A G W L S D G S V 11
    211 S D G S V Q Y P I T K P R E P 11
    216 Q Y P I T K P R E P C G G Q N 11
    232 V P G V R N Y G F W D K D K S 11
    245 K S R Y D V F C F T S N F N G 11
    248 Y D V F C F T S N F N G R F Y 11
    256 N F N G R F Y Y L I H P T K L 11
    281 N D G A Q I A K V G Q I F A A 11
    334 F V G F P D K K H K L Y G V Y 11
    339 D K K H K L Y G V Y C F R A Y 11
    53 R G G N V T L P C K F Y R D P 10
    54 G G N V T L P C K F Y R D P T 10
    58 T L P C K F Y R D P T A F G S 10
    66 D P T A F G S G I H K I R I K 10
    75 H K I R I K W T K L T S D Y L 10
    76 K I R I K W T K L T S D Y L K 10
    84 L T S D Y L K E V D V F V S M 10
    99 G Y H K K T Y G G Y Q G R V F 10
    126 I T D L T L E D Y G R Y K C E 10
    128 D L T L E D Y G R Y K C E V I 10
    140 E V I E G L E D D T V V V A L 10
    217 Y P I T K P R E P C G G Q N T 10
    219 I T K P R E P C G G Q N T V P 10
    224 E P C G G Q N T V P G V R N Y 10
    237 N Y G F W D K D K S R Y D V F 10
    240 F W D K D K S R Y D V F C F T 10
    265 I H P T K L T Y D E A V Q A C 10
    288 K V G Q I F A A W K I L G Y D 10
    316 y P I S R P R R R C S P T E A 10
    324 R C S P T E A A V R F V G F P 10
    332 V R F V G F P D K K H K L Y G 10
    13 C W A D H L S D N Y T L D H D 9
    35 E N G P H L L V E A E Q A K V 9
    48 K V F S H R G G N V T L P C K 9
    65 R D P T A F G S G I H K I R I 9
    95 F V S M G Y H K K T Y G G Y Q 9
    106 G G Y Q G R V F L K G G S D S 9
    127 T D L T L E D Y G R Y K C E V 9
    147 D D T V V V A L D L Q G V V F 9
    177 A Q Q A C L D Q D A V I A S F 9
    186 A V I A S F D Q L Y D A W R G 9
    189 A S F D Q L Y D A W R G G L D 9
    193 Q L Y D A W R G G L D W C N A 9
    205 C N A G W L S D G S V Q Y P I 9
    220 T K P R E P C G G Q N T V P G 9
    221 K P R E P C G G Q N T V P G V 9
    222 P R E P C G G Q N T V P G V R 9
    231 T V P G V R N Y G F W D K D K 9
    239 G F W D K D K S R Y D V F C F 9
    251 F C F T S N F N G R F Y Y L I 9
    262 Y Y L I H P T K L T Y D E A V 9
    277 Q A C L N D G A Q I A K V G Q 9
    278 A C L N D G A Q I A K V G Q I 9
    284 A Q I A K V G Q I F A A W K I 9
    304 C D A G W L A D G S V R Y P I 9
    310 A D G S V R Y P I S R P R R R 9
    322 R R R C S P T E A A V R F V G 9
    328 T E A A V R F V G F P D K K H 9
    333 R F V G F P D K K H K L Y G V 9
    8 V L I S I C W A D H L S D N Y 8
    9 L I S I C W A D H L S D N Y T 8
    12 I C W A D H L S D N Y T L D H 8
    23 T L D H D R A I H I Q A E N G 8
    24 L D H D R A I H I Q A E N G P 8
    31 H I Q A E N G P H L L V E A E 8
    33 Q A E N G P H L L V E A E Q A 8
    34 A E N G P H L L V E A E Q A K 8
    37 G P H L L V E A E Q A K V F S 8
    64 Y R D P T A F G S G I H K I R 8
    87 D Y L K E V D V F V S M G Y H 8
    90 K E V D V F V S M G Y H K K T 8
    96 V S M G Y H K K T Y G G Y Q G 8
    101 H K K T Y G G Y Q G R V F L K 8
    113 F L K G G S D S D A S L V I T 8
    130 T L E D Y G R Y K C E V I E G 8
    138 K C E V I E G L E D D T V V V 8
    143 E G L E D D T V V V A L D L Q 8
    163 Y F P R L G R Y N L N F H E A 8
    164 F P R L G R Y N L N F H E A Q 8
    175 H E A Q Q A C L D Q D A V I A 8
    180 A C L D Q D A V I A S F D Q L 8
    184 Q D A V I A S F D Q L Y D A W 8
    185 D A V I A S F D Q L Y D A W R 8
    208 G W L S D G S V Q Y P I T K P 8
    242 D K D K S R Y D V F C F T S N 8
    253 F T S N F N G R F Y Y L I H P 8
    261 F Y Y L I H P T K L T Y D E A 8
    274 E A V Q A C L N D G A Q I A K 8
    280 L N D G A Q I A K V G Q I F A 8
    289 V G Q I F A A W K I L G Y D R 8
    296 W K I L G Y D R C D A G W L A 8
    307 G W L A D G S V R Y P I S R P 8
    318 I S R P R R R C S P T E A A V 8
    321 P R R R C S P T E A A V R F V 8
    327 P T E A A V R F V G F P D K K 8
    88 Y L K E V D V F V S M G Y H K 7
    146 E D D T V V V A L D L Q G V V 7
    285 Q I A K V G Q I F A A W K I L 7
    330 A A V R F V G F P D K K H K L 7
    50 F S H R G G N V T L P C K F Y 6
    51 S H R G G N V T L P C K F Y R 6
    77 I R I K W T K L T S D Y L K E 6
    135 G R Y K C E V I E G L E D D T 6
    144 G L E D D T V V V A L D L Q G 6
    173 N F H E A Q Q A C L D Q D A V 6
    187 V I A S F D Q L Y D A W R G G 6
    209 W L S D G S V Q Y P I T K P R 6
    213 G S V Q Y P I T K P R E P C G 6
    225 P C G G Q N T V P G V R N Y G 6
    263 Y L I H P T K L T Y D E A V Q 6
    271 T Y D E A V Q A C L N D G A Q 6
    309 L A D G S V R Y P I S R P R R 6
    312 G S V R Y P I S R P R R R C S 6
    137 Y K C E V I E G L E D D T V V 5
    44 A E Q A K V F S H R G G N V T 4
    45 E Q A K V F S H R G G N V T L 4
    69 A F G S G I H K I R I K W T K 4
    72 S G I H K I R I K W T K L T S 4
    100 Y H K K T Y G G Y Q G R V F L 4
    25 D H D R A I H I Q A E N G P H 3
    133 D Y G R Y K C E V I E G L E D 3
    162 P Y F P R L G R Y N L N F H E 3
    190 S F D Q L Y D A W R G G L D W 3
    227 G G Q N T V P G V R N Y G F W 3
    252 C F T S N F N G R F Y Y L I H 3
    57 V T L P C K F Y R D P T A F G 2
    79 I K W T K L T S D Y L K E V D 2
    132 E D Y G R Y K C E V I E G L E 2
    165 P R L G R Y N L N F H E A Q Q 2
    198 W R G G L D W C N A G W L S D 2
    218 P I T K P R E P C G G Q N T V 2
    233 P G V R N Y G F W D K D K S R 2
    243 K D K S R Y D V F C F T S N F 2
    249 D V F C F T S N F N G R F Y Y 2
    294 A A W K I L G Y D R C D A G W 2
    297 K I L G Y D R C D A G W L A D 2
    335 V G F P D K K H K L Y G V Y C 2
    14 W A D H L S D N Y T L D H D R 1
    17 H L S D N Y T L D H D R A I H 1
    28 R A I H I Q A E N G P H L L V 1
    32 I Q A E N G P H L L V E A E Q 1
    70 F G S G I H K I R I K W T K L 1
    80 K W T K L T S D Y L K E V D V 1
    94 V F V S M G Y H K K T Y G G Y 1
    124 L V I T D L T L E D Y G R Y K 1
    129 L T L E D Y G R Y K C E V I E 1
    155 D L Q G V V F P Y F P R L G R 1
    159 V V F P Y F P R L G R Y N L N 1
    194 L Y D A W R G G L D W C N A G 1
    197 A W R G G L D W C N A G W L S 1
    202 L D W C N A G W L S D G S V Q 1
    228 G Q N T V P G V R N Y G F W D 1
    234 G V R N Y G F W D K D K S R Y 1
    236 R N Y G F W D K D K S R Y D V 1
    241 W D K D K S R Y D V F C F T S 1
    272 Y D E A V Q A C L N D G A Q I 1
    300 G Y D R C D A G W L A D G S V 1
    314 V R Y P I S R P R R R C S P T 1
    337 P P D K K H K L Y G V Y C F R 1
    TABLE XLVIII 151P3D4 v.2: HLA Peptide Scoring Results DRB1*0101 15-mers SYFPEITHI
    301 S S T Y D S L S P Y G P R N P 34
    32 D K K V D L L V P T K V T G I 33
    236 F K T I A P L A A T R A T R I 33
    43 V T G I I T Q G A K D F G H V 32
    40 P T K V T G I I T Q G A K D F 31
    54 F G H V Q F V G S Y K L A Y S 31
    128 R R P Y H F Q V P S R I F W R 31
    233 G F I F K T I A P L A A T R A 31
    158 S E A Y K K V C L S G A P H E 29
    217 I D K Y T E S P G G G S P R G 29
    18 V E S I R D H S G Q K M K Q D 27
    82 Q R K D K V L L G R K A V V V 27
    357 N N S W Y V E N G R P A D L A 27
    51 A K D F G H V Q F V G S Y K L 26
    92 K A V V V S C E G I N I S G S 26
    232 L G F I F K T I A P L A A T R 26
    247 A T R I G H P G G R T P R A G 26
    174 G W K Y Q A V T A T L E E K R 25
    202 L M R L Q K Q A E K N M K K K 25
    239 I A P L A A T R A T R I G H P 25
    264 A H R P P A L S A R A P V P A 25
    284 W L P L R T P W T R P S S C P 25
    5 T T K T F P L R A L H I V V E 24
    85 D K V L L G R K A V V V S C E 24
    119 H K R M N T N P S R R P Y H F 24
    229 P R G L G F I F K T I A P L A 24
    281 P A A W L P L R T P W T R P S 24
    304 Y D S L S P Y G P R N P L P N 24
    377 G A L W K A I E S L E E G L G 24
    36 D L L V P T K V T G I I T Q G 22
    138 R I F W R Q E K A D G G S C C 22
    267 P P A L S A R A P V P A A S P 22
    270 L S A R A P V P A A S P A A W 22
    359 S W Y V E N G R P A D L A G S 22
    116 A F L H K R M N T N P S R R P 21
    129 R P Y H F Q V P S R I F W R Q 21
    35 V D L L V P T K V T G I I T Q 20
    83 R K D K V L L G R K A V V V S 20
    6 T K T F P L R A L H I V V E S 19
    98 C E G I N X S G S F C R N K L 19
    104 S G S F C R N K L K Y L A F L 19
    106 S F C R N K L K Y L A F L H K 19
    111 K L K Y L A F L H K R M N T N 19
    115 L A F L H K R M N T N P S R R 19
    231 G L G F I F K T I A P L A A T 19
    318 N P R H S P S G G G G L K K P 19
    367 P A D L A G S G Y C G A L W K 19
    372 G S G Y C G A L W K A I E S L 19
    8 T F P L R A L H I V V E S I R 18
    60 V G S Y K L A Y S N D G E H W 18
    112 L K Y L A F L H K R M N T N P 18
    161 y K K V C L S G A P H E V G W 18
    171 H E V G W K Y Q A V T A T L E 18
    172 E V G W K Y Q A V T A T L E E 18
    223 S P G G G S P R G L G F I F K 18
    252 H P G G R T P R A G S S A H R 18
    338 G Q K H N V L A R G K P Q R K 18
    364 N G R P A D L A G S G Y C G A 18
    384 E S L E E G L G G K Q K D K E 18
    2 L E H T T K T F P L R A L H I 17
    11 L R A L H I V V E S I R D H S 17
    14 L H I V V E S I R D H S G Q K 17
    26 G Q K M K Q D K K V D L L V P 17
    29 M K Q D K K V D L L V P T K V 17
    37 L L V P T K V T G I I T Q G A 17
    76 V Y Q D E K Q R K D K V L L G 17
    84 K D K V L L G R K A V V V S C 17
    90 G R K A V V V S C E G I N I S 17
    93 A V V V S C E G I N I S G S F 17
    96 V S C E G I N I S G S F C R N 17
    109 R N K L K Y L A P L H K R M N 17
    137 S R I F W R Q E K A D G G S C 17
    160 A Y K K V C L S G A P H E V G 17
    181 T A T L E E K R K E K A E I H 17
    191 K A E I H Y R K N K Q L M R L 17
    200 K Q L M R L Q K Q A E K N M K 17
    218 D K Y T E S P G G G S P R G L 17
    221 T E S P G G G S P R G L G F I 17
    230 R G L G F I F K T I A P L A A 17
    253 P G G R T P R A G S S A H R P 17
    279 A S P A A W L P L R T P W T R 17
    288 R T P W T R P S S C P T S S S 17
    337 Q G Q K H N V L A R G K P Q R 17
    360 W Y V K N G R P A D L A G S G 17
    374 G Y C G A L W K A I E S L E E 17
    380 W K A I E S L E E G L G G K Q 17
    383 I E S L E H G L G G K Q K D K 17
    396 D K E R K A E N G P H L L V E 17
    57 V Q F V G S Y K L A Y S N D G 16
    86 K V L L G R K A V V V S C E G 16
    95 V V S C E G I N I S G S F C R 16
    147 D G G S C C P Q G H A S E A Y 16
    149 G S C C P Q G H A S E A Y K K 16
    199 N K Q L M R L Q K Q A E K N M 16
    225 G G G S P R G L G F I F K T I 16
    256 R T P R A G S S A H R P P A L 16
    261 G S S A H R P P A L S A R A P 16
    266 R P P A L S A R A P V P A A S 16
    269 A L S A R A P V P A A S P A A 16
    271 S A R A P V P A A S P A A W L 16
    274 A P V P A A S P A A W L P L R 16
    275 P V P A A S P A A W L P L R T 16
    307 L S P Y G P R N P L P N P R H 16
    311 G P R N P L P N P R H S P S G 16
    313 R N P L P N P R H S P S G G G 16
    344 L A R G K P Q R K P K S E N N 16
    142 R Q E K A D G G S C C P Q G H 15
    159 E A Y K K V C L S G A P H E V 15
    272 A R A P V P A A S P A A W L P 15
    282 A A W L P L R T P W T R P S S 15
    290 P W T R P S S C P T S S S T Y 15
    295 S S C P T S S S T Y D S L S P 15
    356 E N N S W Y V E N G R P A D L 15
    397 K E R K A E N G P H L L V E A 15
    10 P L R A L H I V V E S I R D H 14
    15 H I V V E S I R D H S G Q K M 14
    33 K K V D L L V P T K V T G I I 14
    97 S C E G I N I S G S F C R N K 14
    122 M N T N P S R R P Y H F Q V P 14
    162 K K V C L S G A P H E V G W K 14
    173 V G W K Y Q A V T A T L E E K 14
    193 E I H Y R K N K Q L M R L Q K 14
    213 M K K K I D K Y T E S P G G G 14
    249 R I G H P G G R T P R A G S S 14
    259 R A G S S A H R P P A L S A R 14
    260 A G S S A H R P P A L S A R A 14
    263 S A H R P P A L S A R A P V P 14
    273 R A P V P A A S P A A W L P L 14
    287 L R T P W T R P S S C P T S S 14
    291 W T R P S S C P T S S S T Y D 14
    298 P T S S S T Y D S L S P Y G P 14
    333 A R H C Q G Q K H N V L A R G 14
    341 H N V L A R G K P Q R K P K S 14
    351 R K P K S E N N S W Y V E N G 14
    12 R A L H I V V E S I R D H S G 13
    212 N M K K K I D K Y T E S P G G 13
    245 T R A T R I G H P G G R T P R 13
    24 H S G Q K M K Q D K K V D L L 12
    42 K V T G I I T Q G A K D F G H 12
    71 G E H W T V Y Q D E K Q R K D 12
    74 W T V Y Q D E K Q R K D K V L 12
    89 L G R K A V V V S C E G I N I 12
    184 L E E K R K E K A E I H Y R K 12
    206 Q K Q A E K N M K K K I D K Y 12
    210 E K N M K K K I D K Y T E S P 12
    342 N V L A R G K P Q R K P K S E 12
    358 N S W Y V E N G R P A D L A G 12
    362 V E N G R P A D L A G S G Y C 12
    381 K A I E S L E E G L G G K Q K 12
    390 L G G K Q K D K E R K A E N G 12
    56 H V Q F V G S Y K L A Y S N D 11
    64 K L A Y S N D G E H W T V Y Q 11
    226 G G S P R G L G F I F K T I A 11
    321 H S P S G G G G L K K P A R H 11
    325 G G G G L K K P A R H C Q G Q 11
    326 G G G L K K P A R H C Q G Q K 11
    330 K K P A R H C Q G Q K H N V L 11
    339 Q K H N V L A R G K P Q R K P 11
    3 E H T T K T F P L R A L H I V 10
    13 A L H I V V E S I R D H S G Q 10
    28 K M K Q D K K V D L L V P T K 10
    47 I T Q G A K D F G H V Q F V G 10
    48 T Q G A K D F G H V Q F V G S 10
    59 F V G S Y K L A Y S N D G E H 10
    65 L A Y S N D G E H W T V Y Q D 10
    77 Y Q D E K Q R K D K V L L G R 10
    105 G S F C R N K L K Y L A F L H 10
    107 F C R N K L K Y L A F L H K R 10
    108 C R N K L K Y L A F L H K R M 10
    114 Y L A F L H K R M N T N P S R 10
    124 T N P S R R P Y H F Q V P S R 10
    125 N P S R R P Y H F Q V P S R I 10
    130 P Y H F Q V P S R I F W R Q E 10
    135 V P S R I F W R Q E K A D G G 10
    139 I F W R Q E K A D G G S C C P 10
    140 F W R Q E K A D G G S C C P Q 10
    141 W R Q K K A D G G S C C P Q G 10
    152 C P Q G H A S E A Y K K V C L 10
    153 P Q G H A S E A Y K K V C L S 10
    177 Y Q A V T A T L E E K R K E K 10
    178 Q A V T A T L E E K R K E K A 10
    183 T L E E K R K E K A E I H Y R 10
    195 H Y R K N K Q L M R L Q K Q A 10
    198 K N K Q L M R L Q K Q A E K N 10
    214 K K K I D K Y T E S P G G G S 10
    215 K K I D K Y T E S P G G G S P 10
    242 L A A T R A T R I G H P G G R 10
    244 A T R A T R I G H P G G R T P 10
    251 G H P G G R T P R A G S S A H 10
    289 T P W T R P S S C P T S S S T 10
    316 L P N P R H S P S G G G G L K 10
    317 P N P R H S P S G G G G L K K 10
    320 R H S P S G G G G L K K P A R 10
    347 6 K P Q R K P K S E N N S W Y 10
    376 C G A L W K A I E S L E E G L 10
    379 L W K A I E S L E E G L G G K 10
    394 Q K D K E R K A E N G P H L L 10
    9 F P L R A L H I V V E S I R D 9
    23 D H S G Q K M K Q D K K V D L 9
    25 S G Q K M K Q D K K V D L L V 9
    31 Q D K K V D L L V P T K V T G 9
    41 T K V T G I I T Q G A K D F G 9
    44 T G I I T Q G A K D F G H V Q 9
    49 Q G A K D F G H V Q F V G S Y 9
    53 D F G H V Q F V G S Y K L A Y 9
    55 G H V Q F V G S Y K L A Y S N 9
    73 H W T V Y Q D E K Q R K D K V 9
    91 R K A V V V S C E G I N I S G 9
    100 G I N I S G S F C R N K L K Y 9
    101 I N I S G S F C R N K L K Y L 9
    136 P S R I F W R Q E K A D G G S 9
    166 L S G A P H E V G W K Y Q A V 9
    169 A P H E V G W K Y Q A V T A T 9
    194 I H Y R K N K Q L M R L Q K Q 9
    196 Y R K N K Q L M R L Q K Q A E 9
    201 Q L M R L Q K Q A E K N M K K 9
    211 K N M K K K I D K Y T E S P G 9
    219 K Y T E S P G G G S P R G L G 9
    224 P G G G S P R G L G F I F K T 9
    228 S P R G L G F I F K T I A P L 9
    257 T P R A G S S A H R P P A L S 9
    265 H R P P A L S A R A P V P A A 9
    283 A W L P L R T P W T R P S S C 9
    285 L P L R T P W T R P S S C P T 9
    310 Y G P R N P L P N P R H S P S 9
    319 P R H S P S G G G G L K K P A 9
    322 S P S G G G G L K K P A R H C 9
    340 K H N V L A R G K P Q R K P K 9
    348 K P Q R K P K S E N N S W Y V 9
    370 L A G S G Y C G A L W K A I E 9
    371 A G S G Y C G A L W K A I E S 9
    387 E E G L G G K Q K D K E R K A 9
    388 E G L G G K Q K D K E R K A E 9
    393 K Q K D K E R K A E N G P H L 9
    7 K T F P L R A L H I V V E S I 8
    27 Q K M K Q D K K V D L L V P T 8
    34 K V D L L V P T K V T G I I T 8
    46 I I T Q G A K D F G H V Q F V 8
    58 Q F V G S Y K L A Y S N D G E 8
    62 S Y K L A Y S N D G E H W T V 8
    63 y K L A Y S N D G E H W T V Y 8
    72 E H W T V Y Q D E K Q R K D K 8
    78 Q D E K Q R K D K V L L G R K 8
    81 K Q R K D K V L L G R K A V V 8
    126 P S R R P Y H F Q V P S R I F 8
    132 H F Q V P S R I F W R Q E K A 8
    145 K A D G G S C C P Q G H A S E 8
    146 A D G G S C C P Q G H A S E A 8
    155 G H A S E A Y K K V C L S G A 8
    156 K A S E A Y K K V C L S G A P 8
    163 K V C L S G A P H E V G W K Y 8
    167 S G A P H E V G W K Y Q A V T 8
    168 G A P H E V G W K Y Q A V T A 8
    170 P H E V G W K Y Q A V T A T L 8
    188 R K E K A E I H Y R K N K Q L 8
    192 A E I H Y R K N K Q L M R L Q 8
    197 R K N K Q L M R L Q K Q A E K 8
    207 K Q A E K N M K K K I D K Y T 8
    216 K I D K Y T E S P G G G S P R 8
    235 I F K T I A P L A A T R A T R 8
    237 K T I A P L A A T R A T R I G 8
    243 A A T R A T R I G H P G G R T 8
    246 R A T R I G H P G G R T P R A 8
    255 G R T P R A G S S A H R P P A 8
    258 P R A G S S A H R P P A L S A 8
    268 P A L S A R A P V P A A S P A 8
    276 V P A A S P A A W L P L R T P 8
    296 S C P T S S S T Y D S L S P Y 8
    297 C P T S S S T Y D S L S P Y G 8
    303 T Y D S L S P Y G P R N P L P 8
    305 D S L S P Y G P R N P L P N P 8
    306 S L S P Y G P R N P L P N P R 8
    308 S P Y G P R N P L P N P R H S 8
    309 P Y G P R N P L P N P R H S P 8
    312 P R N P L P N P R H S P S G G 8
    315 P L P N P R H S P S G G G G L 8
    323 P S G G G G L K K P A R H C Q 8
    331 K P A R H C Q G Q K H N V L A 8
    332 P A R H C Q G Q K H N V L A R 8
    334 R H C Q G Q K H N V L A R G K 8
    363 E N G R P A D L A G S G Y C G 8
    365 G R P A D L A G S G Y C G A L 8
    366 R P A D L A G S G Y C G A L W 8
    368 A D L A G S G Y C G A L W K A 8
    369 D L A G S G Y C G A L W K A I 8
    373 S G Y C G A L W K A I E S L E 8
    375 Y C G A L W K A I E S L E E G 8
    398 E R K A E N G P H L L V E A E 8
    400 K A E N G P H L L V E A E Q A 8
    21 I R D H S G Q K M K Q D K K V 7
    88 L L G R K A V V V S C E G I N 7
    133 F Q V P S R I F W R Q E K A D 7
    148 G G S C C P Q G H A S E A Y K 7
    220 Y T E S P G G G S P R G L G F 7
    240 A P L A A T R A T R I G H P G 7
    250 I G H P G G R T P R A G S S A 7
    254 G G R T P R A G S S A H R P P 7
    294 P S S C P T S S S T Y D S L S 7
    314 N P L P N P R H S P S G G G G 7
    324 S G G G G L K K P A R H C Q G 7
    345 A R G K P Q R K P K S E N N S 7
    17 V V E S I R D H S G Q K M K Q 6
    52 K D F G H V Q F V G S Y K L A 6
    67 Y S N D G E H W T V Y Q D E K 6
    70 D G E H W T V Y Q D E K Q R K 6
    118 L H K R M N T N P S R R P Y H 6
    150 S C C P Q G H A S E A Y K K V 6
    175 W K Y Q A V T A T L E E K R K 6
    278 A A S P A A W L P L R T P W T 6
    286 P L R T P W T R P S S C P T S 6
    292 T R P S S C P T S S S T Y D S 6
    293 R P S S C P T S S S T Y D S L 6
    300 S S S T Y D S L S P Y G P R N 6
    16 I V V E S I R D H S G Q K M K 5
    134 Q V P S R I F W R Q E K A D G 5
    179 A V T A T L E E K R K E K A E 5
    395 K D K E R K A E N G P H L L V 5
    79 D E K Q R K D K V L L G R K A 4
    87 V L L G R K A V V V S C E G I 4
    189 K E K A E I H Y R K N K Q L M 4
    234 F I F K T I A P L A A T R A T 4
    80 E K Q R K D K V L L G R K A V 3
    117 F L H K R M N T N P S R R P Y 3
    182 A T L E E K R K E K A E I H Y 3
    186 E K R K E K A E I H Y R K N K 3
    209 A E K N M K K K I D K Y T E S 3
    241 P L A A T R A T R I G H P G G 3
    343 V L A R G K P Q R K P K S E N 3
    349 P Q R K P K S E N N S W Y V E 3
    378 A L W K A I E S L E E G L G G 3
    382 A I E S L E E G L G G K Q K D 3
    385 S L E E G L G G K Q K D K E R 3
    391 G G K Q K D K E R K A E N G P 3
    4 H T T K T F P L R A L H I V V 2
    19 E S I R D H S G Q K M K Q D K 2
    38 L V P T K V T G I I T Q G A K 2
    39 V P T K V T G I I T Q G A K D 2
    45 G I I T Q G A K D F G H V Q F 2
    61 G S Y K L A Y S N D G E H W T 2
    102 N I S G S F C R N K L K Y L A 2
    110 N K L K Y L A F L H K R M N T 2
    120 K R M N T N P S R R P Y H F Q 2
    157 A S E A Y K K V C L S G A P H 2
    164 V C L S G A P H E V G W K Y Q 2
    203 M R L Q K Q A E K N M K K K I 2
    205 L Q K Q A E K N M K K K I D K 2
    208 Q A E K N M K K K I D K Y T E 2
    227 G S P R G L G F I F K T I A P 2
    248 T R I G H P G G R T P R A G S 2
    262 S S A H R P P A L S A R A P V 2
    280 S P A A W L P L R T P W T R P 2
    328 G L K K P A R H C Q G Q K H N 2
    335 H C Q G Q K H N V L A R G K P 2
    355 S E N N S W Y V E N G R P A D 2
    392 G K Q K D K E R K A E N G P H 2
    1 M L E H T T K T F P L R A L H 1
    20 S I R D H S G Q K M K Q D K K 1
    30 K Q D K K V D L L V P T K V T 1
    66 A Y S N D G E H W T V Y Q D E 1
    75 T V Y Q D E K Q R K D K V L L 1
    103 I S G S F C R N K L K Y L A F 1
    113 K Y L A F L H K R M N T N P S 1
    121 R M N T N P S R R P Y H F Q V 1
    131 Y H F Q V P S R I F W R Q E K 1
    154 Q G H A S E A Y K K V C L S G 1
    165 C L S G A P H E V G W K Y Q A 1
    176 K Y Q A V T A T L E E K R K E 1
    180 V T A T L E E K R K E K A E I 1
    185 E E K R K E K A E I H Y R K N 1
    187 K R K E K A E I H Y R K N K Q 1
    190 E K A E I H Y R K N K Q L M R 1
    204 R L Q K Q A E K N M K K K I D 1
    299 T S S S T Y D S L S P Y G P R 1
    302 S T Y D S L S P Y G P R N P L 1
    327 G G L K K P A R H C Q G Q K H 1
    336 C Q G Q K H N V L A R G K P Q 1
    350 Q R K P K S E N N S W Y V E N 1
    353 P K S E N N S W Y V E N G R P 1
    354 K S E N N S W Y V E N G R P A 1
    386 L E E G L G G K Q K D K E R K 1
    389 G L G G K Q K D K E R K A E N 1
    399 R K A E N G P H L L V E A E Q 1
  • [0849]
    TABLE XLIX
    SEQ.
    ID
    Pos
    1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 score NO.
    151P3D4 v.1: HLA Peptide Scoring Results DRB1*0301 15 - mers SYFPEITHI
    149 T V V V A L D L Q G V V F P Y 28
    333 R F V G F P D K K H K L Y G V 27
    261 F Y Y L I H P T K L T Y D E A 26
    161 F P Y F P R L G R Y N L N F H 24
    171 N L N F H E A Q Q A C L D Q D 24
    191 F D Q L Y D A W R G G L D W C 24
    229 Q N T V P G V R N Y G F W D K 24
    250 V F C F T S N F N G R F Y Y L 24
    122 A S L V I T D L T L E D Y G R 23
    206 N A G W L S D G S V Q Y P I T 23
    267 P T K L T Y D E A V Q A C L N 23
    81 W T K L T S D Y L K E V D V F 22
    237 N Y G F W D K D K S R Y D V F 22
    305 D A G W L A D G S V R Y P I S 22
    38 P H L L V E A E Q A K V F S H 21
    113 F L K G G S D S D A S L V I T 21
    142 I E G L E D D T V V V A L D L 21
    179 Q A C L D Q D A V I A S F D Q 21
    184 Q D A V I A S F D Q L Y D A W 21
    296 W K I L G Y D R C D A G W L A 21
    21 N Y T L D H D R A I H I Q A E 20
    37 G P H L L V E A E Q A K V F S 20
    60 P C K F Y R D P T A F G S G I 20
    126 I T D L T L E D Y G R Y K C E 20
    123 S L V I T D L T L E D Y G R Y 19
    138 K C E V I E G L E D D T V V V 19
    156 L Q G V V F P Y F P R L G R Y 19
    7 L V L I S I C W A D H L S D N 18
    29 A I H I Q A E N G P H L L V E 18
    39 H L L V E A E Q A K V F S H R 18
    54 G G N V T L P C K F Y R D P T 18
    89 L K E V D V F V S M G Y H K K 18
    128 D L T L E D Y G R Y K C E V I 18
    153 A L D L Q G V V F P Y F P R L 18
    163 Y F P R L G R Y N L N F H E A 18
    185 D A V I A S F D Q L Y D A W R 18
    199 R G G L D W C N A G W L S D G 18
    290 G Q I F A A W K I L G Y D R C 18
    295 A W K I L G Y D R C D A G W L 18
    334 F V G F P D K K H K L Y G V Y 18
    27 D R A I H I Q A E N G P H L L 17
    95 F V S M G Y H K K T Y G G Y Q 17
    216 Q Y P I T K P R E P C G G Q N 17
    273 D E A V Q A C L N D G A Q I A 17
    277 Q A C L N D G A Q I A K V G Q 17
    283 G A Q I A K V G Q I F A A W K 17
    289 V G Q I F A A W K I L G Y D R 17
    48 K V F S H R G G N V T L P C K 16
    103 K T Y G G Y Q G R V F L K G G 16
    158 G V V F P Y F P R L G R Y N L 16
    248 Y D V F C F T S N F N G R F Y 16
    269 K L T Y D E A V Q A C L N D G 16
    315 R Y P I S R P R R R C S P T E 16
    332 V R F V G F P D K K H K L Y G 16
    13 C W A D H L S D N Y T L D H D 15
    252 C F T S N F N G R F Y Y L I H 15
    2 K S L L L L V L I S I C W A D 14
    14 W A D H L S D N Y T L D H D R 14
    94 V F V S M G Y H K K T Y G G Y 14
    141 V I E G L E D D T V V V A L D 14
    276 V Q A C L N D G A Q I A K V G 14
    1 M K S L L L L V L I S I C W A 13
    4 L L L L V L I S I C W A D H L 13
    5 L L L V L I S I C W A D H L S 13
    6 L L V L I S I C W A D H L S D 13
    19 S D N Y T L D H D R A I H I Q 13
    127 T D L T L E D Y G R Y K C E V 13
    147 D D T V V V A L D L Q G V V F 13
    151 V V A L D L Q G V V F P Y F P 13
    197 A W R G G L D W C N A G W L S 13
    3 S L L L L V L I S I C W A D H 12
    46 Q A K V F S H R G G N V T L P 12
    74 I H K I R I K W T K L T S D Y 12
    76 K I R I K W T K L T S D Y L K 12
    86 S D Y L K E V D V F V S M G Y 12
    92 V D V F V S M G Y H K K T Y G 12
    93 D V F V S M G Y H K K T Y G G 12
    109 Q G R V F L K G G S D S D A S 12
    111 R V F L K G G S D S D A S L V 12
    115 K G G S D S D A S L V I T D L 12
    121 D A S L V I T D L T L E D Y G 12
    148 D T V V V A L D L Q G V V F P 12
    157 Q G V V F P Y F P R L G R Y N 12
    169 R Y N L N F H E A Q Q A C L D 12
    177 A Q Q A C L D Q D A V I A S F 12
    190 S F D Q L Y D A W R G G L D W 12
    207 A G W L S D G S V Q Y P I T K 12
    232 V P G V R N Y G F W D K D K S 12
    262 Y Y L I H P T K L T Y D E A V 12
    299 L G Y D R C D A G W L A D G S 12
    329 E A A V R F V G F P D K K H K 12
    9 L I S I C W A D H L S D N Y T 11
    15 A D H L S D N Y T L D H D R A 11
    30 I H I Q A E N G P H L L V E A 11
    73 G I H K I R I K W T K L T S D 11
    87 D Y L K E V D V F V S M G Y H 11
    110 G R V F L K G G S D S D A S L 11
    120 S D A S L V I T D L T L E D Y 11
    139 C E V I E G L E D D T V V V A 11
    150 V V V A L D L Q G V V F P Y F 11
    164 F P R L G R Y N L N F H E A Q 11
    227 G G Q N T V P G V R N Y G F W 11
    236 R N Y G F W D K D K S R Y D V 11
    238 Y G F W D K D K S R Y D V F C 11
    243 K D K S R Y D V F C F T S N F 11
    247 R Y D V F C F T S N F N G R F 11
    286 I A K V G Q I F A A W K I L G 11
    306 A G W L A D G S V R Y P I S R 11
    311 D G S V R Y P I S R P R R R C 11
    331 A V R F V G F P D K K H K L Y 11
    339 D K K H K L Y G V Y C F R A Y 11
    10 I S I C W A D H L S D N Y T L 10
    11 S I C W A D H L S D N Y T L D 10
    47 A K V F S H R G G N V T L P C 10
    52 H R G G N V T L P C K F Y R D 10
    53 R G G N V T L P C K F Y R D P 10
    56 N V T L P C K F Y R D P T A F 10
    71 G S G I H K I R I K W T K L T 10
    84 L T S D Y L K E V D V F V S M 10
    91 E V D V F V S M G Y H K K T Y 10
    143 E G L E D D T V V V A L D L Q 10
    145 L E D D T V V V A L D L Q G V 10
    152 V A L D L Q G V V F P Y F P R 10
    183 D Q D A V I A S F D Q L Y D A 10
    186 A V I A S F D Q L Y D A W R G 10
    212 D G S V Q Y P I T K P R E P C 10
    246 S R Y D V F C F T S N F N G R 10
    259 G R F Y Y L I H P T K L T Y D 10
    282 D G A Q I A K V G Q I F A A W 10
    337 F P D K K H K L Y G V Y C F R 10
    20 D N Y T L D H D R A I H I Q A 9
    59 L P C K F Y R D P T A F G S G 9
    67 P T A F G S G I H K I R I K W 9
    77 I R I K W T K L T S D Y L K E 9
    78 R I K W T K L T S D Y L K E V 9
    118 S D S D A S L V I T D L T L E 9
    134 Y G R Y K C E V I E G L E D D 9
    168 G R Y N L N F H E A Q Q A C L 9
    180 A C L D Q D A V I A S F D Q L 9
    188 I A S F D Q L Y D A W R G G L 9
    198 W R G G L D W C N A G W L S D 9
    228 G Q N T V P G V R N Y G F W D 9
    254 T S N F N G R F Y Y L I H P T 9
    266 H P T K L T Y D E A V Q A C L 9
    288 K V G Q I F A A W K I L G Y D 9
    314 V R Y P I S R P R R R C S P T 9
    321 P R R R C S P T E A A V R F V 9
    323 R R C S P T E A A V R F V G F 9
    326 S P T E A A V R F V G F P D K 9
    28 R A I H I Q A E N G P H L L V 8
    35 E N G P H L L V E A E Q A K V 8
    40 L L V E A E Q A K V F S H R G 8
    70 F G S G I H K I R I K W T K L 8
    75 H K I R I K W T K L T S D Y L 8
    83 K L T S D Y L K E V D V F V S 8
    97 S M G Y H K K T Y G G Y Q G R 8
    102 K K T Y G G Y Q G R V F L K G 8
    107 G Y Q G R V F L K G G S D S D 8
    124 L V I T D L T L E D Y G R Y K 8
    132 E D Y G R Y K C E V I E G L E 8
    135 G R Y K C E V I E G L E D D T 8
    159 V V F P Y F P R L G R Y N L N 8
    165 P R L G R Y N L N F H E A Q Q 8
    170 Y N L N F H E A Q Q A C L D Q 8
    215 V Q Y P I T K P R E P C G G Q 8
    221 K P R E P C G G Q N T V P G V 8
    239 G F W D K D K S R Y D V F C F 8
    240 F W D K D K S R Y D V F C F T 8
    242 D K D K S R Y D V F C F T S N 8
    251 F C F T S N F N G R F Y Y L I 8
    253 F T S N F N G R F Y Y L I H P 8
    258 N G R F Y Y L I H P T K L T Y 8
    298 I L G Y D R C D A G W L A D G 8
    312 G S V R Y P I S R P R R R C S 8
    316 Y P I S R P R R R C S P T E A 8
    25 D H D R A I H I Q A E N G P H 7
    45 E Q A K V F S H R G G N V T L 7
    72 S G I H K I R I K W T K L T S 7
    82 T K L T S D Y L K E V D V F V 7
    176 E A Q Q A C L D Q D A V I A S 7
    213 G S V Q Y P I T K P R E P C G 7
    235 V R N Y G F W D K D K S R Y D 7
    280 L N D G A Q I A K V G Q I F A 7
    335 V G F P D K K H K L Y G V Y C 7
    57 V T L P C K F Y R D P T A F G 6
    68 T A F G S G I H K I R I K W T 6
    101 H K K T Y G G Y Q G R V F L K 6
    130 T L E D Y G R Y K C E V I E G 6
    208 G W L S D G S V Q Y P I T K P 6
    222 P R E P C G G Q N T V P G V R 6
    307 G W L A D G S V R Y P I S R P 6
    325 C S P T E A A V R F V G F P D 6
    36 N G P H L L V E A E Q A K V F 4
    55 G N V T L P C K F Y R D P T A 4
    79 I K W T K L T S D Y L K E V D 4
    80 K W T K L T S D Y L K E V D V 4
    162 P Y F P R L G R Y N L N F H E 4
    220 T K P R E P C G G Q N T V P G 4
    260 R F Y Y L I H P T K L T Y D E 4
    24 L D H D R A I H I Q A E N G P 3
    31 H I Q A E N G P H L L V E A E 3
    33 Q A E N G P H L L V E A E Q A 3
    85 T S D Y L K E V D V F V S M G 3
    100 Y H K K T Y G G Y Q G R V F L 3
    125 V I T D L T L E D Y G R Y K C 3
    178 Q Q A C L D Q D A V I A S F D 3
    211 S D G S V Q Y P I T K P R E P 3
    217 Y P I T K P R E P C G G Q N T 3
    241 W D K D K S R Y D V F C F T S 3
    265 I H P T K L T Y D E A V Q A C 3
    285 Q I A K V G Q I F A A W K I L 3
    300 G Y D R C D A G W L A D G S V 3
    320 R P R R R C S P T E A A V R F 3
    322 R R R C S P T E A A V R F V G 3
    8 V L I S I C W A D H L S D N Y 2
    12 I C W A D H L S D N Y T L D H 2
    26 H D R A I H I Q A E N G P H L 2
    34 A E N G P H L L V E A E Q A K 2
    44 A E Q A K V F S H R G G N V T 2
    49 V F S H R G G N V T L P C K F 2
    64 Y R D P T A F G S G I H K I R 2
    66 D P T A F G S G I H K I R I K 2
    90 K E V D V F V S M G Y H K K T 2
    99 G Y H K K T Y G G Y Q G R V F 2
    105 Y G G Y Q G R V F L K G G S D 2
    108 Y Q G R V F L K G G S D S D A 2
    116 G G S D S D A S L V I T D L T 2
    119 D S D A S L V I T D L T L E D 2
    136 R Y K C E V I E G L E D D T V 2
    137 Y K C E V I E G L E D D T V V 2
    144 G L E D D T V V V A L D L Q G 2
    146 E D D T V V V A L D L Q G V V 2
    155 D L Q G V V F P Y F P R L G R 2
    160 V F P Y F P R L G R Y N L N F 2
    167 L G R Y N L N F H E A Q Q A C 2
    175 H E A Q Q A C L D Q D A V I A 2
    187 V I A S F D Q L Y D A W R G G 2
    193 Q L Y D A W R G G L D W C N A 2
    195 Y D A W R G G L D W C N A G W 2
    201 G L D W C N A G W L S D G S V 2
    219 I T K P R E P C G G Q N T V P 2
    226 C G G Q N T V P G V R N Y G F 2
    268 T K L T Y D E A V Q A C L N D 2
    271 T Y D E A V Q A C L N D G A Q 2
    272 Y D E A V Q A C L N D G A Q I 2
    275 A V Q A C L N D G A Q I A K V 2
    278 A C L N D G A Q I A K V G Q I 2
    284 A Q I A K V G Q I F A A W K I 2
    293 F A A W K I L G Y D R C D A G 2
    294 A A W K I L G Y D R C D A G W 2
    310 A D G S V R Y P I S R P R R R 2
    319 S R P R R R C S P T E A A V R 2
    324 R C S P T E A A V R F V G F P 2
    336 G F P D K K H K L Y G V Y C F 2
    340 K K H K L Y G V Y C F R A Y N 2
    17 H L S D N Y T L D H D R A I H 1
    32 I Q A E N G P H L L V E A E Q 1
    41 L V E A E Q A K V F S H R G G 1
    50 F S H R G G N V T L P C K F Y 1
    58 T L P C K F Y R D P T A F G S 1
    61 C K F Y R D P T A F G S G I H 1
    62 K F Y R D P T A F G S G I H K 1
    65 R D P T A F G S G I H K I R I 1
    69 A F G S G I H K I R I K W T K 1
    88 Y L K E V D V F V S M G Y H K 1
    96 V S M G Y H K K T Y G G Y Q G 1
    98 M G Y H K K T Y G G Y Q G R V 1
    104 T Y G G Y Q G R V F L K G G S 1
    112 V F L K G G S D S D A S L V I 1
    114 L K G G S D S D A S L V I T D 1
    117 G S D S D A S L V I T D L T L 1
    131 L E D Y G R Y K C E V I E G L 1
    133 D Y G R Y K C E V I E G L E D 1
    140 E V I E G L E D D T V V V A L 1
    172 L N F H E A Q Q A C L D Q D A 1
    173 N F H E A Q Q A C L D Q D A V 1
    189 A S F D Q L Y D A W R G G L D 1
    192 D Q L Y D A W R G G L D W C N 1
    194 L Y D A W R G G L D W C N A G 1
    196 D A W R G G L D W C N A G W L 1
    200 G G L D W C N A G W L S D G S 1
    203 D W C N A G W L S D G S V Q Y 1
    204 W C N A G W L S D G S V Q Y P 1
    205 C N A G W L S D G S V Q Y P I 1
    209 W L S D G S V Q Y P I T K P R 1
    214 S V Q Y P I T K P R E P C G G 1
    218 P I T K P R E P C G G Q N T V 1
    223 R E P C G G Q N T V P G V R N 1
    231 T V P G V R N Y G F W D K D K 1
    233 P G V R N Y G F W D K D K S R 1
    249 D V F C F T S N F N G R F Y Y 1
    255 S N F N G R F Y Y L I H P T K 1
    256 N F N G R F Y Y L I H P T K L 1
    257 F N G R F Y Y L I H P T K L T 1
    263 Y L I H P T K L T Y D E A V Q 1
    264 L I H P T K L T Y D E A V Q A 1
    270 L T Y D E A V Q A C L N D G A 1
    274 E A V Q A C L N D G A Q I A K 1
    281 N D G A Q I A K V G Q I F A A 1
    287 A K V G Q I F A A W K I L G Y 1
    292 I F A A W K I L G Y D R C D A 1
    297 K I L G Y D R C D A G W L A D 1
    301 Y D R C D A G W L A D G S V R 1
    302 D R C D A G W L A D G S V R Y 1
    304 C D A G W L A D G S V R Y P I 1
    308 W L A D G S V R Y P I S R P R 1
    318 I S R P R R R C S P T E A A V 1
    328 T E A A V R F V G F P D K K H 1
    330 A A V R F V G F P D K K H K L 1
    338 P D K K H K L Y G V Y C F R A 1
    151P3D4 v.2: HLA Peptide Scoring Results DRB1*0301 15 - mers SYFPEITHI
    26 G Q K M K Q D K K V D L L V P 37
    73 H W T V Y Q D E K Q R K D K V 28
    56 H V Q F V G S Y K L A Y S N D 25
    191 K A E I H Y R K N K Q L M R L 25
    43 V T G I I T Q G A K D F G H V 20
    54 F G H V Q F V G S Y K L A Y S 20
    84 K D K V L L G R K A V V V S C 20
    200 K Q L M R L Q K Q A E K N M K 20
    299 T S S S T Y D S L S P Y G P R 20
    34 K V D L L V P T K V T G I I T 19
    177 Y Q A V T A T L E E K R K E K 19
    340 K H N V L A R G K P Q R K P K 19
    359 S W Y V E N G R P A D L A G S 19
    380 W K A I E S L E E G L G G K Q 19
    14 L H I V V E S I R D H S G Q K 18
    181 T A T L E E K R K E K A E I H 18
    199 N K Q L M R L Q K Q A E K N M 18
    231 G L G F I F K T I A P L A A T 18
    390 L G G K Q K D K E R K A E N G 18
    44 T G I I T Q G A K D F G H V Q 17
    64 K L A Y S N D G E H W T V Y Q 17
    91 R K A V V V S C E G I N I S G 17
    101 I N I S G S F C R N K L K Y L 17
    104 S G S F C R N K L K Y L A F L 17
    115 L A F L H K R M N T N P S R R 17
    136 P S R I F W R Q E K A D G G S 17
    170 P H E V G W K Y Q A V T A T L 17
    202 L M R L Q K Q A E K N M K K K 17
    326 G G G L K K P A R H C Q G Q K 17
    376 C G A L W K A I E S L E E G L 17
    379 L W K A I E S L E E G L G G K 17
    387 E E G L G G K Q K D K E R K A 17
    11 L R A L H I V V E S I R D H S 16
    78 Q D E K Q R K D K V L L G R K 16
    103 I S G S F C R N K L K Y L A F 16
    112 L K Y L A F L H K R M N T N P 16
    120 K R M N T N P S R R P Y H F Q 16
    137 S R I F W R Q E K A D G G S C 16
    155 G H A S E A Y K K V C L S G A 16
    185 E E K R K E K A E I H Y R K N 16
    214 K K K I D K Y T E S P G G G S 16
    229 P R G L G F I F K T I A P L A 16
    305 D S L S P Y G P R N P L P N P 16
    350 Q R K P K S E N N S W Y V E N 16
    130 P Y H F Q V P S R I F W R Q E 15
    18 V E S I R D H S G Q K M K Q D 14
    79 D E K Q R K D K V L L G R K A 14
    85 D K V L L G R K A V V V S C E 14
    92 K A V V V S C E G I N I S G S 14
    30 K Q D K K V D L L V P T K V T 13
    35 V D L L V P T K V T G I I T Q 13
    57 V Q F V G S Y K L A Y S N D G 13
    273 R A P V P A A S P A A W L P L 13
    304 Y D S L S P Y G P R N P L P N 13
    383 I E S L E E G L G G K Q K D K 13
    8 T F P L R A L H I V V E S I R 12
    13 A L H I V V E S I R D H S G Q 12
    32 D K K V D L L V P T K V T G I 12
    40 P T K V T G I I T Q G A K D F 12
    93 A V V V S C E G I N I S G S F 12
    109 R N K L K Y L A F L H K R M N 12
    141 W R Q E K A D G G S C C P Q G 12
    161 Y K K V C L S G A P H E V G W 12
    212 N M K K K I D K Y T E S P G G 12
    341 H N V L A R G K P Q R K P K S 12
    3 E H T T K T F P L R A L H I V 11
    15 H I V V E S I R D H S G Q K M 11
    17 V V E S I R D H S G Q K M K Q 11
    48 T Q G A K D F G H V Q F V G S 11
    86 K V L L G R K A V V V S C E G 11
    98 C E G I N I S G S F C R N K L 11
    100 G I N I S G S F C R N K L K Y 11
    106 S F C R N K L K Y L A F L H K 11
    107 F C R N K L K Y L A F L H K R 11
    114 Y L A F L H K R M N T N P S R 11
    119 H K R M N T N P S R R P Y H F 11
    132 H F Q V P S R I F W R Q E K A 11
    163 K V C L S G A P H E V G W K Y 11
    210 E K N M K K K I D K Y T E S P 11
    232 L G F I F K T I A P L A A T R 11
    233 G F I F K T I A P L A A T R A 11
    236 F K T I A P L A A T R A T R I 11
    247 A T R I G H P G G R T P R A G 11
    267 P P A L S A R A P V P A A S P 11
    282 A A W L P L R T P W T R P S S 11
    284 W L P L R T P W T R P S S C P 11
    348 K P Q R K P K S E N N S W Y V 11
    363 E N G R P A D L A G S G Y C G 11
    367 P A D L A G S G Y C G A L W K 11
    397 K E R K A E N G P H L L V E A 11
    4 H T T K T F P L R A L H I V V 10
    27 Q K M K Q D K K V D L L V P T 10
    36 D L L V P T K V T G I I T Q G 10
    47 I T Q G A K D F G H V Q F V G 10
    62 S Y K L A Y S N D G E H W T V 10
    77 Y Q D E K Q R K D K V L L G R 10
    83 R K D K V L L G R K A V V V S 10
    179 A V T A T L E E K R K E K A E 10
    180 V T A T L E E K R K E K A E I 10
    198 K N K Q L M R L Q K Q A E K N 10
    209 A E K N M K K K I D K Y T E S 10
    223 S P G G G S P R G L G F I F K 10
    239 I A P L A A T R A T R I G H P 10
    274 A P V P A A S P A A W L P L R 10
    276 V P A A S P A A W L P L R T P 10
    293 R P S S C P T S S S T Y D S L 10
    312 P R N P L P N P R H S P S G G 10
    313 R N P L P N P R H S P S G G G 10
    318 N P R H S P S G G G G L K K P 10
    333 A R H C Q G Q K H N V L A R G 10
    358 N S W Y V E N G R P A D L A G 10
    368 A D L A G S G Y C G A L W K A 10
    375 Y C G A L W K A I E S L E E G 10
    385 S L E E G L G G K Q K D K E R 10
    6 T K T F P L R A L H I V V E S 9
    51 A K D F G H V Q F V G S Y K L 9
    61 G S Y K L A Y S N D G E H W T 9
    105 G S F C R N K L K Y L A F L H 9
    113 K Y L A F L H K R M N T N P S 9
    122 M N T N P S R R P Y H F Q V P 9
    129 R P Y H F Q V P S R I F W R Q 9
    150 S C C P Q G H A S E A Y K K V 9
    166 L S G A P H E V G W K Y Q A V 9
    173 V G W K Y Q A V T A T L E E K 9
    183 T L E E K R K E K A E I H Y R 9
    190 E K A E I H Y R K N K Q L M R 9
    193 E I H Y R K N K Q L M R L Q K 9
    194 I H Y R K N K Q L M R L Q K Q 9
    203 M R L Q K Q A E K N M K K K I 9
    221 T E S P G G G S P R G L G F I 9
    225 G G G S P R G L G F I F K T I 9
    238 T I A P L A A T R A T R I G H 9
    259 R A G S S A H R P P A L S A R 9
    296 S C P T S S S T Y D S L S P Y 9
    342 N V L A R G K P Q R K P K S E 9
    344 L A R G K P Q R K P K S E N N 9
    386 L E E G L G G K Q K D K E R K 9
    391 G G K Q K D K E R K A E N G P 9
    396 D K E R K A E N G P H L L V E 9
    20 S I R D H S G Q K M K Q D K K 8
    23 D H S G Q K M K Q D K K V D L 8
    52 K D F G H V Q F V G S Y K L A 8
    66 A Y S N D G E H W T V Y Q D E 8
    74 W T V Y Q D E K Q R K D K V L 8
    96 V S C E G I N I S G S F C R N 8
    117 F L H K R M N T N P S R R P Y 8
    134 Q V P S R I F W R Q E K A D G 8
    135 V P S R I F W R Q E K A D G G 8
    151 C C P Q G H A S E A Y K K V C 8
    182 A T L E E K R K E K A E I H Y 8
    192 A E I H Y R K N K Q L M R L Q 8
    196 Y R K N K Q L M R L Q K Q A E 8
    204 R L Q K Q A E K N M K K K I D 8
    207 K Q A E K N M K K K I D K Y T 8
    208 Q A E K N M K K K I D K Y T E 8
    222 E S P G G G S P R G L G F I F 8
    248 T R I G H P G G R T P R A G S 8
    251 G H P G G R T P R A G S S A H 8
    265 H R P P A L S A R A P V P A A 8
    280 S P A A W L P L R T P W T R P 8
    285 L P L R T P W T R P S S C P T 8
    310 Y G P R N P L P N P R H S P S 8
    323 P S G G G G L K K P A R H C Q 8
    334 R H C Q G Q K H N V L A R G K 8
    349 P Q R K P K S E N N S W Y V E 8
    364 N G R P A D L A G S G Y C G A 8
    395 K D K E R K A E N G P H L L V 8
    19 E S I R D H S G Q K M K Q D K 7
    22 R D H S G Q K M K Q D K K V D 7
    41 T K V T G I I T Q G A K D F G 7
    72 E H W T V Y Q D E K Q R K D K 7
    75 T V Y Q D E K Q R K D K V L L 7
    76 V Y Q D E K Q R K D K V L L G 7
    94 V V V S C E G I N I S G S F C 7
    102 N I S G S F C R N K L K Y L A 7
    121 R M N T N P S R R P Y H F Q V 7
    126 P S R R P Y H F Q V P S R I F 7
    146 A D G G S C C P Q G H A S E A 7
    154 Q G H A S E A Y K K V C L S G 7
    164 V C L S G A P H E V G W K Y Q 7
    178 Q A V T A T L E E K R K E K A 7
    189 K E K A E I H Y R K N K Q L M 7
    206 Q K Q A E K N M K K K I D K Y 7
    211 K N M K K K I D K Y T E S P G 7
    241 P L A A T R A T R I G H P G G 7
    258 P R A G S S A H R P P A L S A 7
    306 S L S P Y G P R N P L P N P R 7
    322 S P S G G G G L K K P A R H C 7
    331 K P A R H C Q G Q K H N V L A 7
    332 P A R H C Q G Q K H N V L A R 7
    338 G Q K H N V L A R G K P Q R K 7
    346 R G K P Q R K P K S E N N S W 7
    355 S E N N S W Y V E N G R P A D 7
    356 E N N S W Y V E N G R P A D L 7
    373 S G Y C G A L W K A I E S L E 7
    389 G L G G K Q K D K E R K A E N 7
    392 G K Q K D K E R K A E N G P H 7
    394 Q K D K E R K A E N G P H L L 7
    25 S G Q K M K Q D K K V D L L V 6
    50 G A K D F G H V Q F V G S Y K 6
    70 D G E H W T V Y Q D E K Q R K 6
    168 G A P H E V G W K Y Q A V T A 6
    329 L K K P A R H C Q G Q K H N V 6
    343 V L A R G K P Q R K P K S E N 6
    33 K K V D L L V P T K V T G I I 4
    108 C R N K L K Y L A F L H K R M 4
    169 A P H E V G W K Y Q A V T A T 4
    234 F I F K T I A P L A A T R A T 4
    382 A I E S L E E G L G G K Q K D 4
    393 K Q K D K E R K A E N G P H L 4
    7 K T F P L R A L H I V V E S I 3
    24 H S G Q K M K Q D K K V D L L 3
    42 K V T G I I T Q G A K D F G H 3
    60 V G S Y K L A Y S N D G E H W 3
    82 Q R K D K V L L G R K A V V V 3
    99 E G I N I S G S F C R N K L K 3
    111 K L K Y L A F L H K R M N T N 3
    125 N P S R R P Y H F Q V P S R I 3
    148 G G S C C P Q G H A S E A Y K 3
    159 E A Y K K V C L S G A P H E V 3
    160 A Y K K V C L S G A P H E V G 3
    162 K K V C L S G A P H E V G W K 3
    197 R K N K Q L M R L Q K Q A E K 3
    201 Q L M R L Q K Q A E K N M K K 3
    217 I D K Y T E S P G G G S P R G 3
    235 I F K T I A P L A A T R A T R 3
    255 G R T P R A G S S A H R P P A 3
    260 A G S S A H R P P A L S A R A 3
    262 S S A H R P P A L S A R A P V 3
    263 S A H R P P A L S A R A P V P 3
    266 R P P A L S A R A P V P A A S 3
    269 A L S A R A P V P A A S P A A 3
    270 L S A R A P V P A A S P A A W 3
    272 A R A P V P A A S P A A W L P 3
    281 P A A W L P L R T P W T R P S 3
    283 A W L P L R T P W T R P S S C 3
    289 T P W T R P S S C P T S S S T 3
    295 S S C P T S S S T Y D S L S P 3
    303 T Y D S L S P Y G P R N P L P 3
    309 P Y G P R N P L P N P R H S P 3
    319 P R H S P S G G G G L K K P A 3
    320 R H S P S G G G G L K K P A R 3
    324 S G G G G L K K P A R H C Q G 3
    325 G G G G L K K P A R H C Q G Q 3
    330 K K P A R H C Q G Q K H N V L 3
    347 G K P Q R K P K S E N N S W Y 3
    362 V E N G R P A D L A G S G Y C 3
    366 R P A D L A G S G Y C G A L W 3
    377 G A L W K A I E S L E E G L G 3
    381 K A I E S L E E G L G G K Q K 3
    398 E R K A E N G P H L L V E A E 3
    400 K A E N G P H L L V E A E Q A 3
    1 M L E H T T K T F P L R A L H 2
    2 L E H T T K T F P L R A L H I 2
    5 T T K T F P L R A L H I V V E 2
    9 F P L R A L H I V V E S I R D 2
    10 P L R A L H I V V E S I R D H 2
    12 R A L H I V V E S I R D H S G 2
    28 K M K Q D K K V D L L V P T K 2
    29 M K Q D K K V D L L V P T K V 2
    31 Q D K K V D L L V P T K V T G 2
    38 L V P T K V T G I I T Q G A K 2
    55 G H V Q F V G S Y K L A Y S N 2
    67 Y S N D G E H W T V Y Q D E K 2
    71 G E H W T V Y Q D E K Q R K D 2
    80 E K Q R K D K V L L G R K A V 2
    87 V L L G R K A V V V S C E G I 2
    90 G R K A V V V S C E G I N I S 2
    97 S C E G I N I S G S F C R N K 2
    110 N K L K Y L A F L H K R M N T 2
    116 A F L H K R M N T N P S R R P 2
    131 Y H F Q V P S R I F W R Q E K 2
    138 R I F W R Q E K A D G G S C C 2
    145 K A D G G S C C P Q G H A S E 2
    152 C P Q G H A S E A Y K K V C L 2
    153 P Q G H A S E A Y K K V C L S 2
    156 H A S E A Y K K V C L S G A P 2
    165 C L S G A P H E V G W K Y Q A 2
    167 S G A P H E V G W K Y Q A V T 2
    172 E V G W K Y Q A V T A T L E E 2
    184 L E E K R K E K A E I H Y R K 2
    188 R K E K A E I H Y R K N K Q L 2
    195 H Y R K N K Q L M R L Q K Q A 2
    205 L Q K Q A E K N M K K K I D K 2
    215 K K I D K Y T E S P G G G S P 2
    218 D K Y T E S P G G G S P R G L 2
    219 K Y T E S P G G G S P R G L G 2
    224 P G G G S P R G L G F I F K T 2
    226 G G S P R G L G F I F K T I A 2
    227 G S P R G L G F I F K T I A P 2
    228 S P R G L G F I F K T I A P L 2
    230 R G L G F I F K T I A P L A A 2
    237 K T I A P L A A T R A T R I G 2
    244 A T R A T R I G H P G G R T P 2
    246 R A T R I G H P G G R T P R A 2
    253 P G G R T P R A G S S A H R P 2
    254 G G R T P R A G S S A H R P P 2
    261 G S S A H R P P A L S A R A P 2
    264 A H R P P A L S A R A P V P A 2
    268 P A L S A R A P V P A A S P A 2
    275 P V P A A S P A A W L P L R T 2
    278 A A S P A A W L P L R T P W T 2
    288 R T P W T R P S S C P T S S S 2
    291 W T R P S S C P T S S S T Y D 2
    297 C P T S S S T Y D S L S P Y G 2
    301 S S T Y D S L S P Y G P R N P 2
    302 S T Y D S L S P Y G P R N P L 2
    307 L S P Y G P R N P L P N P R H 2
    308 S P Y G P R N P L P N P R H S 2
    316 L P N P R H S P S G G G G L K 2
    317 P N P R H S P S G G G G L K K 2
    321 H S P S G G G G L K K P A R H 2
    327 G G L K K P A R H C Q G Q K H 2
    335 H C Q G Q K H N V L A R G K P 2
    336 C Q G Q K H N V L A R G K P Q 2
    339 Q K H N V L A R G K P Q R K P 2
    354 K S E N N S W Y V E N G R P A 2
    360 W Y V E N G R P A D L A G S G 2
    361 Y V E N G R P A D L A G S G Y 2
    365 G R P A D L A G S G Y C G A L 2
    369 D L A G S G Y C G A L W K A I 2
    370 L A G S G Y C G A L W K A I E 2
    372 G S G Y C G A L W K A I E S L 2
    374 G Y C G A L W K A I E S L E E 2
    21 I R D H S G Q K M K Q D K K V 1
    37 L L V P T K V T G I I T Q G A 1
    39 V P T K V T G I I T Q G A K D 1
    45 G I I T Q G A K D F G H V Q F 1
    49 Q G A K D F G H V Q F V G S Y 1
    53 D F G H V Q F V G S Y K L A Y 1
    58 Q F V G S Y K L A Y S N D G E 1
    59 F V G S Y K L A Y S N D G E H 1
    63 Y K L A Y S N D G E H W T V Y 1
    65 L A Y S N D G E H W T V Y Q D 1
    69 N D G E H W T V Y Q D E K Q R 1
    81 K Q R K D K V L L G R K A V V 1
    88 L L G R K A V V V S C E G I N 1
    123 N T N P S R R P Y H F Q V P S 1
    124 T N P S R R P Y H F Q V P S R 1
    139 I F W R Q E K A D G G S C C P 1
    142 R Q E K A D G G S C C P Q G H 1
    143 Q E K A D G G S C C P Q G H A 1
    147 D G G S C C P Q G H A S E A Y 1
    157 A S E A Y K K V C L S G A P H 1
    158 S E A Y K K V C L S G A P H E 1
    171 H E V G W K Y Q A V T A T L E 1
    174 G W K Y Q A V T A T L E E K R 1
    175 W K Y Q A V T A T L E E K R K 1
    176 K Y Q A V T A T L E E K R K E 1
    186 E K R K E K A E I H Y R K N K 1
    187 K R K E K A E I H Y R K N K Q 1
    213 M K K K I D K Y T E S P G G G 1
    216 K I D K Y T E S P G G G S P R 1
    220 Y T E S P G G G S P R G L G F 1
    242 L A A T R A T R I G H P G G R 1
    245 T R A T R I G H P G G R T P R 1
    250 I G H P G G R T P R A G S S A 1
    252 H P G G R T P R A G S S A H R 1
    256 R T P R A G S S A H R P P A L 1
    257 T P R A G S S A H R P P A L S 1
    277 P A A S P A A W L P L R T P W 1
    279 A S P A A W L P L R T P W T R 1
    287 L R T P W T R P S S C P T S S 1
    290 P W T R P S S C P T S S S T Y 1
    294 P S S C P T S S S T Y D S L S 1
    298 P T S S S T Y D S L S P Y G P 1
    300 S S S T Y D S L S P Y G P R N 1
    311 G P R N P L P N P R H S P S G 1
    314 N P L P N P R H S P S G G G G 1
    315 P L P N P R H S P S G G G G L 1
    328 G L K K P A R H C Q G Q K H N 1
    337 Q G Q K H N V L A R G K P Q R 1
    345 A R G K P Q R K P K S E N N S 1
    351 R K P K S E N N S W Y V E N G 1
    352 K P K S E N N S W Y V E N G R 1
    353 P K S E N N S W Y V E N G R P 1
    371 A G S G Y C G A L W K A I E S 1
    378 A L W K A I E S L E E G L G G 1
    384 E S L E E G L G G K Q K D K E 1
    388 E G L G G K Q K D K E R K A E 1
    399 R K A E N G P H L L V E A E Q 1
  • [0850]
    TABLE L
    SEQ.
    ID
    Pos
    1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 score NO.
    151P3D4 v.1: HLA Peptide Scoring Results DRB1*0401 15-mers SYFPEITHI
    78 R I K W T K L T S D Y L K E V 28
    161 F P Y F P R L G R Y N L N F H 28
    171 N L N F H E A Q Q A C L D Q D 28
    258 N G R F Y Y L I H P T K L T Y 28
    269 K L T Y D E A V Q A C L N D G 28
    38 P H L L V E A E Q A K V F S H 26
    149 T V V V A L D L Q G V V F P Y 26
    191 F D Q L Y D A W R G G L D W C 26
    247 R Y D V F C F T S N F N G R F 26
    283 G A Q I A K V G Q I F A A W K 26
    19 S D N Y T L D H D R A I H I Q 22
    60 P C K F Y R D P T A F G S G I 22
    85 T S D Y L K E V D V F V S M G 22
    134 Y G R Y K C E V I E G L E D D 22
    158 G V V F P Y F P R L G R Y N L 22
    167 L G R Y N L N F H E A Q Q A C 22
    206 N A G W L S D G S V Q Y P I T 22
    238 Y G F W D K D K S R Y D V F C 22
    245 K S R Y D V F C F T S N F N G 22
    259 G R F Y Y L I H P T K L T Y D 22
    260 R F Y Y L I H P T K L T Y D E 22
    305 D A G W L A D G S V R Y P I S 22
    1 M K S L L L L V L I S I C W A 20
    3 S L L L L V L I S I C W A D H 20
    4 L L L L V L I S I C W A D H L 20
    9 L I S I C W A D H L S D N Y T 20
    21 N Y T L D H D R A I H I Q A E 20
    29 A I H I Q A E N G P H L L V E 20
    37 G P H L L V E A E Q A K V F S 20
    71 G S G I H K I R I K W T K L T 20
    81 W T K L T S D Y L K E V D V F 20
    86 S D Y L K E V D V F V S M G Y 20
    89 L K E V D V F V S M G Y H K K 20
    93 D V F V S M G Y H K K T Y G G 20
    122 A S L V I T D L T L E D Y G R 20
    139 C E V I E G L E D D T V V V A 20
    142 I E G L E D D T V V V A L D L 20
    148 D T V V V A L D L Q G V V F P 20
    179 Q A C L D Q D A V I A S F D Q 20
    185 D A V I A S F D Q L Y D A W R 20
    229 Q N T V P G V R N Y G F W D K 20
    267 P T K L T Y D E A V Q A C L N 20
    273 D E A V Q A C L N D G A Q I A 20
    111 Q A C L N D G A Q I A K V G Q 20
    286 I A K V G Q I F A A W K I L G 20
    295 A W K I L G Y D R C D A G W L 20
    315 R Y P I S R P R R R C S P T E 20
    329 E A A V R F V G F P D K K H K 20
    18 L S D N Y T L D H D R A I H I 18
    23 T L D H D R A I H I Q A E N G 18
    57 V T L P C K F Y R D P T A F G 18
    115 K G G S D S D A S L V I T D L 18
    119 D S D A S L V I T D L T L E D 18
    141 V I E G L E D D T V V V A L D 18
    176 E A Q Q A C L D Q D A V I A S 18
    182 L D Q D A V I A S F D Q L Y D 18
    11 S I C W A D H L S D N Y T L D 16
    61 C K F Y R D P T A F G S G I H 16
    67 P T A F G S G I H K I R I K W 16
    92 V D V F V S M G Y H K K T Y G 16
    110 G R V F L K G G S D S D A S L 16
    131 L E D Y G R Y K C E V I E G L 16
    188 I A S F D Q L Y D A W R G G L 16
    195 Y D A W R G G L D W C N A G W 16
    201 G L D W C N A G W L S D G S V 16
    235 V R N Y G F W D K D K S R Y D 16
    248 Y D V F C F T S N F N G R F Y 16
    250 V F C F T S N F N G R F Y Y L 16
    293 F A A W K I L G Y D R C D A G 16
    298 I L G Y D R C D A G W L A D G 16
    331 A V R F V G F P D K K H K L Y 16
    74 I H K I R I K W T K L T S D Y 15
    2 K S L L L L V L I S I C W A D 14
    6 L L V L I S I C W A D H L S D 14
    7 L V L I S I C W A D H L S D N 14
    15 A D H L S D N Y T L D H D R A 14
    39 H L L V E A E Q A K V F S H R 14
    46 Q A K V F S H R G G N V T L P 14
    91 E V D V F V S M G Y H K K T Y 14
    111 R V F L K G G S D S D A S L V 14
    123 S L V I T D L T L E D Y G R Y 14
    126 I T D L T L E D Y G R Y K C E 14
    128 D L T L E D Y G R Y K C E V I 14
    138 K C E V I E G L E D D T V V V 14
    147 D D T V V V A L D L Q G V V F 14
    153 A L D L Q G V V F P Y F P R L 14
    156 L Q G V V F P Y F P R L G R Y 14
    169 R Y N L N F H E A Q Q A C L D 14
    199 R G G L D W C N A G W L S D G 14
    212 D G S V Q Y P I T K P R E P C 14
    232 V P G V R N Y G F W D K D K S 14
    289 V G Q I F A A W K I L G Y D R 14
    296 W K I L G Y D R C D A G W L A 14
    311 D G S V R Y P I S R P R R R C 14
    332 V R F V G F P D K K H K L Y G 14
    10 I S I C W A D H L S D N Y T L 12
    12 I C W A D H L S D N Y T L D H 12
    13 C W A D H L S D N Y T L D H D 12
    25 D H D R A I H I Q A E N G P H 12
    28 R A I H I Q A E N G P H L L V 12
    31 H I Q A E N G P H L L V E A E 12
    35 E N G P H L L V E A E Q A K V 12
    36 N G P H L L V E A E Q A K V F 12
    43 E A E Q A K V F S H R G G N V 12
    44 A E Q A K V F S H R G G N V T 12
    45 E Q A K V F S H R G G N V T L 12
    48 K V F S H R G G N V T L P C K 12
    51 S H R G G N V T L P C K F Y R 12
    63 F Y R D P T A F G S G I H K I 12
    64 Y R D P T A F G S G I H K I R 12
    68 T A F G S G I H K I R I K W T 12
    73 G I H K I R I K W T K L T S D 12
    83 K L T S D Y L K E V D V F V S 12
    87 D Y L K E V D V F V S M G Y H 12
    101 H K K T Y G G Y Q G R V F L K 12
    103 K T Y G G Y Q G R V F L K G G 12
    107 G Y Q G R V F L K G G S D S D 12
    112 V F L K G G S D S D A S L V I 12
    113 F L K G G S D S D A S L V I T 12
    116 G G S D S D A S L V I T D L T 12
    118 S D S D A S L V I T D L T L E 12
    120 S D A S L V I T D L T L E D Y 12
    127 T D L T L E D Y G R Y K C E V 12
    140 E V I E G L E D D T V V V A L 12
    145 L E D D T V V V A L D L Q G V 12
    146 E D D T V V V A L D L Q G V V 12
    166 R L G R Y N L N F H E A Q Q A 12
    168 G R Y N L N F H E A Q Q A C L 12
    170 Y N L N F H E A Q Q A C L D Q 12
    177 A Q Q A C L D Q D A V I A S F 12
    183 D Q D A V I A S F D Q L Y D A 12
    186 A V I A S F D Q L Y D A W R G 12
    196 D A W R G G L D W C N A G W L 12
    203 D W C N A G W L S D G S V Q Y 12
    204 W C N A G W L S D G S V Q Y P 12
    208 G W L S D G S V Q Y P I T K P 12
    209 W L S D G S V Q Y P I T K P R 12
    218 P I T K P R E P C G G Q N T V 12
    221 K P R E P C G G Q N T V P G V 12
    226 C G G Q N T V P G V R N Y G F 12
    234 G V R N Y G F W D K D K S R Y 12
    243 K D K S R Y D V F C F T S N F 12
    244 D K S R Y D V F C F T S N F N 12
    264 L I H P T K L T Y D E A V Q A 12
    270 L T Y D E A V Q A C L N D G A 12
    274 E A V Q A C L N D G A Q I A K 12
    276 V Q A C L N D G A Q I A K V G 12
    278 A C L N D G A Q I A K V G Q I 12
    280 L N D G A Q I A K V G Q I F A 12
    281 N D G A Q I A K V G Q I F A A 12
    287 A K V G Q I F A A W K I L G Y 12
    288 K V G Q I F A A W K I L G Y D 12
    299 L G Y D R C D A G W L A D G S 12
    303 R C D A G W L A D G S V R Y P 12
    307 G W L A D G S V R Y P I S R P 12
    308 W L A D G S V R Y P I S R P R 12
    312 G S V R Y P I S R P R R R C S 12
    320 R P R R R C S P T E A A V R F 12
    324 R C S P T E A A V R F V G F P 12
    325 C S P T E A A V R F V G F P D 12
    333 R F V G F P D K K H K L Y G V 12
    47 A K V F S H R G G N V T L P C 11
    160 V F P Y F P R L G R Y N L N F 11
    254 T S N F N G R F Y Y L I H P T 11
    334 F V G F P D K K H K L Y G V Y 11
    102 K K T Y G G Y Q G R V F L K G 10
    192 D Q L Y D A W R G G L D W C N 10
    214 S V Q Y P I T K P R E P C G G 10
    290 G Q I F A A W K I L G Y D R C 10
    313 S V R Y P I S R P R R R C S P 10
    109 Q G R V F L K G G S D S D A S 9
    5 L L L V L I S I C W A D H L S 8
    27 D R A I H I Q A E N G P H L L 8
    54 G G N V T L P C K F Y R D P T 8
    76 K I R I K W T K L T S D Y L K 8
    95 F V S M G Y H K K T Y G G Y Q 8
    121 D A S L V I T D L T L E D Y G 8
    151 V V A L D L Q G V V F P Y F P 8
    157 Q G V V F P Y F P R L G R Y N 8
    164 F P R L G R Y N L N F H E A Q 8
    184 Q D A V I A S F D Q L Y D A W 8
    207 A G W L S D G S V Q Y P I T K 8
    216 Q Y P I T K P R E P C G G Q N 8
    261 F Y Y L I H P T K L T Y D E A 8
    262 Y Y L I H P T K L T Y D E A V 8
    306 A G W L A D G S V R Y P I S R 8
    239 G F W D K D K S R Y D V F C F 7
    8 V L I S I C W A D H L S D N Y 6
    14 W A D H L S D N Y T L D H D R 6
    20 D N Y T L D H D R A I H I Q A 6
    24 L D H D R A I H I Q A E N G P 6
    26 H D R A I H I Q A E N G P H L 6
    30 I H I Q A E N G P H L L V E A 6
    33 Q A E N G P H L L V E A E Q A 6
    34 A E N G P H L L V E A E Q A K 6
    40 L L V E A E Q A K V F S H R G 6
    41 L V E A E Q A K V F S H R G G 6
    50 F S H R G G N V T L P C K F Y 6
    53 R G G N V T L P C K F Y R D P 6
    58 T L P C K F Y R D P T A F G S 6
    65 R D P T A F G S G I H K I R I 6
    66 D P T A F G S G I H K I R I K 6
    69 A F G S G I H K I R I K W T K 6
    75 H K I R I K W T K L T S D Y L 6
    79 I K W T K L T S D Y L K E V D 6
    88 Y L K E V D V F V S M G Y H K 6
    90 K E V D V F V S M G Y H K K T 6
    98 M G Y H K K T Y G G Y Q G R V 6
    104 T Y G G Y Q G R V F L K G G S 6
    106 G G Y Q G R V F L K G G S D S 6
    108 Y Q G R V F L K G G S D S D A 6
    114 L K G G S D S D A S L V I T D 6
    125 V I T D L T L E D Y G R Y K C 6
    135 G R Y K C E V I E G L E D D T 6
    136 R Y K C E V I E G L E D D T V 6
    137 Y K C E V I E G L E D D T V V 6
    143 E G L E D D T V V V A L D L Q 6
    144 G L E D D T V V V A L D L Q G 6
    150 V V V A L D L Q G V V F P Y F 6
    154 L D L Q G V V F P Y F P R L G 6
    155 D L Q G V V F P Y F P R L G R 6
    162 P Y F P R L G R Y N L N F H E 6
    165 P R L G R Y N L N F H E A Q Q 6
    173 N F H E A Q Q A C L D Q D A V 6
    174 F H E A Q Q A C L D Q D A V I 6
    175 H E A Q Q A C L D Q D A V I A 6
    178 Q Q A C L D Q D A V I A S F D 6
    180 A C L D Q D A V I A S F D Q L 6
    181 C L D Q D A V I A S F D Q L Y 6
    190 S F D Q L Y D A W R G G L D W 6
    197 A W R G G L D W C N A G W L S 6
    198 W R G G L D W C N A G W L S D 6
    200 G G L D W C N A G W L S D G S 6
    205 C N A G W L S D G S V Q Y P I 6
    210 L S D G S V Q Y P I T K P R E 6
    213 G S V Q Y P I T K P R E P C G 6
    219 I T K P R E P C G G Q N T V P 6
    220 T K P R E P C G G Q N T V P G 6
    222 P R E P C G G Q N T V P G V R 6
    223 R E P C G G Q N T V P G V R N 6
    224 E P C G G Q N T V P G V R N Y 6
    228 G Q N T V P G V R N Y G F W D 6
    236 R N Y G F W D K D K S R Y D V 6
    246 S R Y D V F C F T S N F N G R 6
    251 F C F T S N F N G R F Y Y L I 6
    252 C F T S N F N G R F Y Y L I H 6
    253 F T S N F N G R F Y Y L I H P 6
    255 S N F N G R F Y Y L I H P T K 6
    257 F N G R F Y Y L I H P T K L T 6
    265 I H P T K L T Y D E A V Q A C 6
    266 H P T K L T Y D E A V Q A C L 6
    268 T K L T Y D E A V Q A C L N D 6
    272 Y D E A V Q A C L N D G A Q I 6
    275 A V Q A C L N D G A Q I A K V 6
    284 A Q I A K V G Q I F A A W K I 6
    292 I F A A W K I L G Y D R C D A 6
    300 G Y D R C D A G W L A D G S V 6
    302 D R C D A G W L A D G S V R Y 6
    304 C D A G W L A D G S V R Y P I 6
    319 S R P R R R C S P T E A A V R 6
    321 P R R R C S P T E A A V R F V 6
    323 R R C S P T E A A V R F V G F 6
    326 S P T E A A V R F V G F P D K 6
    328 T E A A V R F V G F P D K K H 6
    330 A A V R F V G F P D K K H K L 6
    336 G F P D K K H K L Y G V Y C F 6
    338 P D K K H K L Y G V Y C F R A 6
    97 S M G Y H K K T Y G G Y Q G R 5
    105 Y G G Y Q G R V F L K G G S D 5
    237 N Y G F W D K D K S R Y D V F 5
    56 N V T L P C K F Y R D P T A F 3
    22 Y T L D H D R A I H I Q A E N 1
    70 F G S G I H K I R I K W T K L 1
    72 S G I H K I R I K W T K L T S 1
    77 I R I K W T K L T S D Y L K E 1
    96 V S M G Y H K K T Y G G Y Q G 1
    130 T L E D Y G R Y K C E V I E G 1
    163 Y F P R L G R Y N L N F H E A 1
    215 V Q Y P I T K P R E P C G G Q 1
    263 Y L I H P T K L T Y D E A V Q 1
    314 V R Y P I S R P R R R C S P T 1
    316 Y P I S R P R R R C S P T E A 1
    317 P I S R P R R R C S P T E A A 1
    318 I S R P R R R C S P T E A A V 1
    42 V E A E Q A K V F S H R G G N −5
    59 L P C K F Y R D P T A F G S G −5
    84 L T S D Y L K E V D V F V S M −5
    132 E D Y G R Y K C E V I E G L E −5
    193 Q L Y D A W R G G L D W C N A −5
    217 Y P I T K P R E P C G G Q N T −5
    230 N T V P G V R N Y G F W D K D −5
    241 W D K D K S R Y D V F C F T S −5
    282 D G A Q I A K V G Q I F A A W −5
    291 Q I F A A W K I L G Y D R C D −5
    297 K I L G Y D R C D A G W L A D −5
    309 L A D G S V R Y P I S R P R R −5
    327 P T E A A V R F V G F P D K K −5
    335 V G F P D K K H K L Y G V Y C −5
    337 F P D K K H K L Y G V Y C F R −5
    151P3D4 v.2: HLA Peptide Scoring Results DRB1*0401 15 - mers SYFPEITHI
    111 K L K Y L A F L H K R M N T N 28
    281 P A A W L P L R T P W T R P S 28
    40 P T K V T G I I T Q G A K D F 26
    54 F G H V Q F V G S Y K L A Y S 26
    51 A K D F G H V Q F V G S Y K L 22
    60 V G S Y K L A Y S N D G E H W 22
    64 K L A Y S N D G E H W T V Y Q 22
    74 W T V Y Q D E K Q R K D K V L 22
    158 S E A Y K K V C L S G A P H E 22
    233 G F I F K T I A P L A A T R A 22
    288 R T P W T R P S S C P T S S S 22
    357 N N S W Y V E N G R P A D L A 22
    372 G S G Y C G A L W K A I E S L 22
    377 G A L W K A I E S L E E G L G 22
    14 L H I V V E S I R D H S G Q K 20
    26 G Q K M K Q D K K V D L L V P 20
    32 D K K V D L L V P T K V T G I 20
    73 H W T V Y Q D E K Q R K D K V 20
    93 A V V V S C E G I N I S G S F 20
    109 R N K L K Y L A F L H K R M N 20
    112 L K Y L A F L H K R M N T N P 20
    163 K V C L S G A P H E V G W K Y 20
    200 K Q L M R L Q K Q A E K N M K 20
    229 P R G L G F I F K T I A P L A 20
    236 F K T I A P L A A T R A T R I 20
    284 W L P L R T P W T R P S S C P 20
    313 R N P L P N P R H S P S G G G 20
    326 G G G L K K P A R H C Q G Q K 20
    7 K T F P L R A L H I V V E S I 18
    17 V V E S I R D H S G Q K M K Q 18
    33 K K V D L L V P T K V T G I I 18
    41 T K V T G I I T Q G A K D F G 18
    70 D G E H W T V Y Q D E K Q R K 18
    83 R K D K V L L G R K A V V V S 18
    101 I N I S G S F C R N K L K Y L 18
    134 Q V P S R I F W R Q E K A D G 18
    173 V G W K Y Q A V T A T L E E K 18
    180 V T A T L E E K R K E K A E I 18
    187 K R K E K A E I H Y R K N K Q 18
    196 Y R K N K Q L M R L Q K Q A E 18
    204 R L Q K Q A E K N M K K K I D 18
    237 K T I A P L A A T R A T R I G 18
    258 P R A G S S A H R P P A L S A 18
    263 S A H R P P A L S A R A P V P 18
    272 A R A P V P A A S P A A W L P 18
    71 G E H W T V Y Q D E K Q R K D 16
    104 S G S F C R N K L K Y L A F L 16
    128 R R P Y H F Q V P S R I F W R 16
    130 P Y H F Q V P S R I F W R Q E 16
    138 R I F W R Q E K A D G G S C C 16
    172 E V G W K Y Q A V T A T L E E 16
    174 G W K Y Q A V T A T L E E K R 16
    193 E I H Y R K N K Q L M R L Q K 16
    217 I D K Y T E S P G G G S P R G 16
    301 S S T Y D S L S P Y G P R N P 16
    358 N S W Y V E N G R P A D L A G 16
    36 D L L V P T K V T G I I T Q G 15
    170 P H E V G W K Y Q A V T A T L 15
    191 K A E I H Y R K N K Q L M R L 15
    8 T F P L R A L H I V V E S I R 14
    11 L R A L H I V V E S I R D H S 14
    13 A L H I V V E S I R D H S G Q 14
    15 H I V V E S I R D H S G Q K M 14
    18 V E S I R D H S G Q K M K Q D 14
    35 V D L L V P T K V T G I I T Q 14
    57 V Q F V G S Y K L A Y S N D G 14
    84 K D K V L L G R K A V V V S C 14
    91 R K A V V V S C E G I N I S G 14
    92 K A V V V S C E G I N I S G S 14
    98 C E G I N I S G S F C R N K L 14
    100 G I N I S G S F C R N K L K Y 14
    119 H K R M N T N P S R R P Y H F 14
    199 N K Q L M R L Q K Q A E K N M 14
    202 L M R L Q K Q A E K N M K K K 14
    232 L G F I F K T I A P L A A T R 14
    239 I A P L A A T R A T R I G H P 14
    273 R A P V P A A S P A A W L P L 14
    341 H N V L A R G K P Q R K P K S 14
    359 S W Y V E N G R P A D L A G S 14
    367 P A D L A G S G Y C G A L W K 14
    376 C G A L W K A I E S L E E G L 14
    380 W K A I E S L E E G L G G K Q 14
    383 I E S L E E G L G G K Q K D K 14
    3 E H T T K T F P L R A L H I V 12
    5 T T K T F P L R A L H I V V E 12
    10 P L R A L H I V V E S I R D H 12
    12 R A L H I V V E S I R D H S G 12
    19 E S I R D H S G Q K M K Q D K 12
    23 D H S G Q K M K Q D K K V D L 12
    30 K Q D K K V D L L V P T K V T 12
    31 Q D K K V D L L V P T K V T G 12
    37 L L V P T K V T G I I T Q G A 12
    47 I T Q G A K D F G H V Q F V G 12
    48 T Q G A K D F G H V Q F V G S 12
    53 D F G H V Q F V G S Y K L A Y 12
    65 L A Y S N D G E H W T V Y Q D 12
    67 Y S N D G E H W T V Y Q D E K 12
    81 K Q R K D K V L L G R K A V V 12
    82 Q R K D K V L L G R K A V V V 12
    89 L G R K A V V V S C E G I N I 12
    90 G R K A V V V S C E G I N I S 12
    95 V V S C E G I N I S G S F C R 12
    102 N I S G S F C R N K L K Y L A 12
    113 K Y L A F L H K R M N T N P S 12
    116 A F L H K R M N T N P S R R P 12
    124 T N P S R R P Y H F Q V P S R 12
    126 P S R R P Y H F Q V P S R I F 12
    129 R P Y H F Q V P S R I F W R Q 12
    135 V P S R I F W R Q E K A D G G 12
    146 A D G G S C C P Q G H A S E A 12
    151 C C P Q G H A S E A Y K K V C 12
    153 P Q G H A S E A Y K K V C L S 12
    167 S G A P H E V G W K Y Q A V T 12
    176 K Y Q A V T A T L E E K R K E 12
    178 Q A V T A T L E E K R K E K A 12
    188 R K E K A E I H Y R K N K Q L 12
    189 K E K A E I H Y R K N K Q L M 12
    203 M R L Q K Q A E K N M K K K I 12
    212 N M K K K I D K Y T E S P G G 12
    226 G G S P R G L G F I F K T I A 12
    228 S P R G L G F I F K T I A P L 12
    230 R G L G F I F K T I A P L A A 12
    234 F I F K T I A P L A A T R A T 12
    238 T I A P L A A T R A T R I G H 12
    241 P L A A T R A T R I G H P G G 12
    244 A T R A T R I G H P G G R T P 12
    249 R I G H P G G R T P R A G S S 12
    251 G H P G G R T P R A G S S A H 12
    254 G G R T P R A G S S A H R P P 12
    265 H R P P A L S A R A P V P A A 12
    268 P A L S A R A P V P A A S P A 12
    276 V P A A S P A A W L P L R T P 12
    285 L P L R T P W T R P S S C P T 12
    291 W T R P S S C P T S S S T Y D 12
    292 T R P S S C P T S S S T Y D S 12
    295 S S C P T S S S T Y D S L S P 12
    305 D S L S P Y G P R N P L P N P 12
    310 Y G P R N P L P N P R H S P S 12
    327 G G L K K P A R H C Q G Q K H 12
    329 L K K P A R H C Q G Q K H N V 12
    331 K P A R H C Q G Q K H N V L A 12
    333 A R H C Q G Q K H N V L A R G 12
    337 Q G Q K H N V L A R G K P Q R 12
    338 G Q K H N V L A R G K P Q R K 12
    339 Q K H N V L A R G K P Q R K P 12
    343 V L A R G K P Q R K P K S E N 12
    347 G K P Q R K P K S E N N S W Y 12
    350 Q R K P K S E N N S W Y V E N 12
    351 R K P K S E N N S W Y V E N G 12
    356 E N N S W Y V E N G R P A D L 12
    362 V E N G R P A D L A G S G Y C 12
    365 G R P A D L A G S G Y C G A L 12
    382 A I E S L E E G L G G K Q K D 12
    384 K S L E E G L G G K Q K D K E 12
    386 L E E G L G G K Q K D K E R K 12
    390 L G G K Q K D K E R K A E N G 12
    392 G K Q K D K E R K A E N G P H 12
    395 K D K E R K A E N G P H L L V 12
    396 D K E R K A E N G P H L L V E 12
    398 E R K A E N G P H L L V E A E 12
    6 T K T F P L R A L H I V V E S 11
    114 Y L A F L H K R M N T N P S R 11
    231 G L G F I F K T I A P L A A T 11
    307 L S P Y G P R N P L P N P R H 11
    56 H V Q F V G S Y K L A Y S N D 10
    137 S R I F W R Q E K A D G G S C 10
    85 D K V L L G R K A V V V S C E 9
    86 K V L L G R K A V V V S C E G 9
    115 L A F L H K R M N T N P S R R 9
    132 H F Q V P S R I F W R Q E K A 9
    181 T A T L E E K R K E K A E I H 9
    210 E K N M K K K I D K Y T E S P 9
    267 P P A L S A R A P V P A A S P 9
    34 K V D L L V P T K V T G I I T 8
    43 V T G I I T Q G A K D F G H V 8
    44 T G I I T Q G A K D F G H V Q 8
    62 S Y K L A Y S N D G E H W T V 8
    161 Y K K V C L S G A P H E V G W 8
    177 Y Q A V T A T L E E K R K E K 8
    214 K K K I D K Y T E S P G G G S 8
    247 A T R I G H P G G R T P R A G 8
    304 Y D S L S P Y G P R N P L P N 8
    16 I V V E S I R D H S G Q K M K 7
    75 T V Y Q D E K Q R K D K V L L 7
    198 K N K Q L M R L Q K Q A E K N 7
    334 R H C Q G Q K H N V L A R G K 7
    2 L E H T T K T F P L R A L H I 6
    4 H T T K T F P L R A L H I V V 6
    9 F P L R A L H I V V E S I R D 6
    20 S I R D H S G Q K M K Q D K K 6
    29 M K Q D K K V D L L V P T K V 6
    38 L V P T K V T G I I T Q G A K 6
    45 G I I T Q G A K D F G H V Q F 6
    49 Q G A K D F G H V Q F V G S Y 6
    50 G A K D F G H V Q F V G S Y K 6
    55 G H V Q F V G S Y K L A Y S N 6
    59 F V G S Y K L A Y S N D G E H 6
    61 G S Y K L A Y S N D G E H W T 6
    66 A Y S N D G E H W T V Y Q D E 6
    76 V Y Q D E K Q R K D K V L L G 6
    79 D E K Q R K D K V L L G R K A 6
    87 V L L G R K A V V V S C E G I 6
    88 L L G R K A V V V S C E G I N 6
    94 V V V S C E G I N I S G S F C 6
    96 V S C E G I N I S G S F C R N 6
    97 S C E G I N I S G S F C R N K 6
    99 E G I N I S G S F C R N K L K 6
    106 S F C R N K L K Y L A F L H K 6
    110 N K L K Y L A F L H K R M N T 6
    117 F L H K R M N T N P S R R P Y 6
    120 K R M N T N P S R R P Y H F Q 6
    121 R M N T N P S R R P Y H F Q V 6
    127 S R R P Y H F Q V P S R I F W 6
    133 F Q V P S R I F W R Q E K A D 6
    140 F W R Q E K A D G G S C C P Q 6
    141 W R Q E K A D G G S C C P Q G 6
    142 R Q E K A D G G S C C P Q G H 6
    143 Q E K A D G G S C C P Q G H A 6
    147 D G G S C C P Q G H A S E A Y 6
    148 G G S C C P Q G H A S E A Y K 6
    149 G S C C P Q G H A S E A Y K K 6
    150 S C C P Q G H A S E A Y K K V 6
    152 C P Q G H A S E A Y K K V C L 6
    154 Q G H A S E A Y K K V C L S G 6
    155 G H A S E A Y K K V C L S G A 6
    159 E A Y K K V C L S G A P H E V 6
    160 A Y K K V C L S G A P H E V G 6
    162 K K V C L S G A P H E V G W K 6
    165 C L S G A P H E V G W K Y Q A 6
    166 L S G A P H E V G W K Y Q A V 6
    168 G A P H E V G W K Y Q A V T A 6
    169 A P H E V G W K Y Q A V T A T 6
    171 H E V G W K Y Q A V T A T L E 6
    175 W K Y Q A V T A T L E E K R K 6
    179 A V T A T L E E K R K E K A E 6
    184 L E E K R K E K A E I H Y R K 6
    186 E K R K E K A E I H Y R K N K 6
    190 E K A E I H Y R K N K Q L M R 6
    195 H Y R K N K Q L M R L Q K Q A 6
    197 R K N K Q L M R L Q K Q A E K 6
    206 Q K Q A E K N M K K K I D K Y 6
    211 K N M K K K I D K Y T E S P G 6
    215 K K I D K Y T E S P G G G S P 6
    216 K I D K Y T E S P G G G S P R 6
    220 Y T E S P G G G S P R G L G F 6
    221 T E S P G G G S P R G L G F I 6
    222 E S P G G G S P R G L G F I F 6
    227 G S P R G L G F I F K T I A P 6
    246 R A T R I G H P G G R T P R A 6
    248 T R I G H P G G R T P R A G S 6
    252 H P G G R T P R A G S S A H R 6
    255 G R T P R A G S S A H R P P A 6
    257 T P R A G S S A H R P P A L S 6
    259 R A G S S A H R P P A L S A R 6
    261 G S S A H R P P A L S A R A P 6
    264 A H R P P A L S A R A P V P A 6
    266 R P P A L S A R A P V P A A S 6
    269 A L S A R A P V P A A S P A A 6
    270 L S A R A P V P A A S P A A W 6
    271 S A R A P V P A A S P A A W L 6
    274 A P V P A A S P A A W L P L R 6
    277 P A A S P A A W L P L R T P W 6
    278 A A S P A A W L P L R T P W T 6
    279 A S P A A W L P L R T P W T R 6
    280 S P A A W L P L R T P W T R P 6
    289 T P W T R P S S C P T S S S T 6
    290 P W T R P S S C P T S S S T Y 6
    293 R P S S C P T S S S T Y D S L 6
    294 P S S C P T S S S T Y D S L S 6
    296 S C P T S S S T Y D S L S P Y 6
    297 C P T S S S T Y D S L S P Y G 6
    298 P T S S S T Y D S L S P Y G P 6
    299 T S S S T Y D S L S P Y G P R 6
    300 S S S T Y D S L S P Y G P R N 6
    303 T Y D S L S P Y G P R N P L P 6
    306 S L S P Y G P R N P L P N P R 6
    311 G P R N P L P N P R H S P S G 6
    312 P R N P L P N P R H S P S G G 6
    316 L P N P R H S P S G G G G L K 6
    318 N P R H S P S G G G G L K K P 6
    319 P R H S P S G G G G L K K P A 6
    320 R H S P S G G G G L K K P A R 6
    322 S P S G G G G L K K P A R H C 6
    323 P S G G G G L K K P A R H C Q 6
    332 P A R H C Q G Q K H N V L A R 6
    344 L A R G K P Q R K P K S E N N 6
    349 P Q R K P K S E N N S W Y V E 6
    353 P K S E N N S W Y V E N G R P 6
    363 E N G R P A D L A G S G Y C G 6
    364 N G R P A D L A G S G Y C G A 6
    368 A D L A G S G Y C G A L W K A 6
    370 L A G S G Y C G A L W K A I E 6
    371 A G S G Y C G A L W K A I E S 6
    373 S G Y C G A L W K A I E S L E 6
    374 G Y C G A L W K A I E S L E E 6
    378 A L W K A I E S L E E G L G G 6
    379 L W K A I E S L E E G L G G K 6
    381 K A I E S L E E G L G G K Q K 6
    397 K E R K A E N G P H L L V E A 6
    400 K A E N G P H L L V E A E Q A 6
    136 P S R I F W R Q E K A D G G S 3
    282 A A W L P L R T P W T R P S S 3
    340 K H N V L A R G K P Q R K P K 3
    387 E E G L G G K Q K D K E R K A 3
    22 R D H S G Q K M K Q D K K V D 1
    24 H S G Q K M K Q D K K V D L L 1
    27 Q K M K Q D K K V D L L V P T 1
    28 K M K Q D K K V D L L V P T K 1
    46 I I T Q G A K D F G H V Q F V 1
    58 Q F V G S Y K L A Y S N D G E 1
    77 Y Q D E K Q R K D K V L L G R 1
    78 Q D E K Q R K D K V L L G R K 1
    105 G S F C R N K L K Y L A F L H 1
    107 F C R N K L K Y L A F L H K R 1
    123 N T N P S R R P Y H F Q V P S 1
    139 I F W R Q E K A D G G S C C P 1
    156 H A S E A Y K K V C L S G A P 1
    183 T L E E K R K E K A E I H Y R 1
    192 A E I H Y R K N K Q L M R L Q 1
    194 I H Y R K N K Q L M R L Q K Q 1
    201 Q L M R L Q K Q A E K N M K K 1
    205 L Q K Q A E K N M K K K I D K 1
    208 Q A E K N M K K K I D K Y T E 1
    213 M K K K I D K Y T E S P G G G 1
    224 P G G G S P R G L G F I F K T 1
    240 A P L A A T R A T R I G H P G 1
    253 P G G R T P R A G S S A H R P 1
    260 A G S S A H R P P A L S A R A 1
    287 L R T P W T R P S S C P T S S 1
    314 N P L P N P R H S P S G G G G 1
    328 G L K K P A R H C Q G Q K H N 1
    342 N V L A R G K P Q R K P K S E 1
    346 R G K P Q R K P K S E N N S W 1
    348 K P Q R K P K S E N N S W Y V 1
    360 W Y V E N G R P A D L A G S G 1
    375 Y C G A L W K A I E S L E E G 1
    389 G L G G K Q K D K E R K A E N 1
    391 G G K Q K D K E R K A E N G P 1
    1 M L E H T T K T F P L R A L H −5
    80 E K Q R K D K V L L G R K A V −5
    103 I S G S F C R N K L K Y L A F −5
    122 M N T N P S R R P Y H F Q V P −5
    157 A S E A Y K K V C L S G A P H −5
    182 A T L E E K R K E K A E I H Y −5
    185 E E K R K E K A E I H Y R K N −5
    209 A E K N M K K K I D K Y T E S −5
    243 A A T R A T R I G H P G G R T −5
    250 I G H P G G R T P R A G S S A −5
    324 S G G G G L K K P A R H C Q G −5
    325 G G G G L K K P A R H C Q G Q −5
    345 A R G K P Q R K P K S E N N S −5
    393 K Q K D K E R K A E N G P H L −5
    394 Q K D K E R K A E N G P H L L −5
  • [0851]
    TABLE LI
    SEQ.
    ID
    Pos
    1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 score NO.
    151P3D4 v.1: HLA Peptide Scoring Results DRB1*1101 15-mers SYFPEITHI
    235 V R N Y G F W D K D K S R Y D 25
    161 F P Y F P R L G R Y N L N F H 24
    258 N G R F Y Y L I H P T K L T Y 24
    18 L S D N Y T L D H D R A I H I 22
    289 V G Q I F A A W K I L G Y D R 22
    315 R Y P I S R P R R R C S P T E 21
    95 F V S M G Y H K K T Y G G Y Q 20
    237 N Y G F W D K D K S R Y D V F 20
    295 A W K I L G Y D R C D A G W L 20
    67 P T A F G S G I H K I R I K W 19
    86 S D Y L K E V D V F V S M G Y 19
    105 Y G G Y Q G R V F L K G G S D 19
    334 F V G F P D K K H K L Y G V Y 19
    4 L L L L V L I S I C W A D H L 18
    78 R I K W T K L T S D Y L K E V 18
    158 G V V F P Y F P R L G R Y N L 18
    167 L G R Y N L N F H E A Q Q A C 18
    283 G A Q I A K V G Q I F A A W K 18
    293 F A A W K I L G Y D R C D A G 18
    92 V D V F V S M G Y H K K T Y G 17
    214 S V Q Y P I T K P R E P C G G 17
    259 G R F Y Y L I H P T K L T Y D 17
    325 C S P T E A A V R F V G F P D 17
    44 A E Q A K V F S H R G G N V T 16
    54 G G N V T L P C K F Y R D P T 16
    60 P C K F Y R D P T A F G S G I 16
    61 C K F Y R D P T A F G S G I H 16
    68 T A F G S G I H K I R I K W T 16
    188 I A S F D Q L Y D A W R G G L 16
    213 G S V Q Y P I T K P R E P C G 16
    228 G Q N T V P G V R N Y G F W D 16
    248 Y D V F C F T S N F N G R F Y 16
    312 G S V R Y P I S R P R R R C S 16
    93 D V F V S M G Y H K K T Y G G 15
    107 G Y Q G R V F L K G G S D S D 15
    128 D L T L E D Y G R Y K C E V I 15
    157 Q G V V F P Y F P R L G R Y N 15
    1 M K S L L L L V L I S I C W A 14
    9 L I S I C W A D H L S D N Y T 14
    23 T L D H D R A I H I Q A E N G 14
    40 L L V E A E Q A K V F S H R G 14
    43 E A E Q A K V F S H R G G N V 14
    75 H K I R I K W T K L T S D Y L 14
    123 S L V I T D L T L E D Y G R Y 14
    153 A L D L Q G V V F P Y F P R L 14
    191 F D Q L Y D A W R G G L D W C 14
    216 Q Y P I T K P R E P C G G Q N 14
    250 V F C F T S N F N G R F Y Y L 14
    261 F Y Y L I H P T K L T Y D E A 14
    264 L I H P T K L T Y D E A V Q A 14
    267 P T K L T Y D E A V Q A C L N 14
    280 L N D G A Q I A K V G Q I F A 14
    316 Y P I S R P R R R C S P T E A 14
    332 V R F V G F P D K K H K L Y G 14
    335 V G F P D K K H K L Y G V Y C 14
    2 K S L L L L V L I S I C W A D 13
    3 S L L L L V L I S I C W A D H 13
    19 S D N Y T L D H D R A I H I Q 13
    56 N V T L P C K F Y R D P T A F 13
    109 Q G R V F L K G G S D S D A S 13
    142 I E G L E D D T V V V A L D L 13
    147 D D T V V V A L D L Q G V V F 13
    154 L D L Q G V V F P Y F P R L G 13
    306 A G W L A D G S V R Y P I S R 13
    308 W L A D G S V R Y P I S R P R 13
    313 S V R Y P I S R P R R R C S P 13
    6 L L V L I S I C W A D H L S D 12
    26 H D R A I H I Q A E N G P H L 12
    27 D R A I H I Q A E N G P H L L 12
    36 N G P H L L V E A E Q A K V F 12
    71 G S G I H K I R I K W T K L T 12
    85 T S D Y L K E V D V F V S M G 12
    88 Y L K E V D V F V S M G Y H K 12
    102 K K T Y G G Y Q G R V F L K G 12
    106 G G Y Q G R V F L K G G S D S 12
    111 R V F L K G G S D S D A S L V 12
    134 Y G R Y K C E V I E G L E D D 12
    139 C E V I E G L E D D T V V V A 12
    148 D T V V V A L D L Q G V V F P 12
    151 V V A L D L Q G V V F P Y F P 12
    160 V F P Y F P R L G R Y N L N F 12
    166 R L G R Y N L N F H E A Q Q A 12
    169 R Y N L N F H E A Q Q A C L D 12
    179 Q A C L D Q D A V I A S F D Q 12
    196 D A W R G G L D W C N A G W L 12
    207 A G W L S D G S V Q Y P I T K 12
    229 Q N T V P G V R N Y G F W D K 12
    244 D K S R Y D V F C F T S N F N 12
    269 K L T Y D E A V Q A C L N D G 12
    273 D E A V Q A C L N D G A Q I A 12
    286 I A K V G Q I F A A W K I L G 12
    296 W K I L G Y D R C D A G W L A 12
    305 D A G W L A D G S V R Y P I S 12
    329 E A A V R F V G F P D K K H K 12
    47 A K V F S H R G G N V T L P C 11
    131 L E D Y G R Y K C E V I E G L 11
    145 L E D D T V V V A L D L Q G V 11
    192 D Q L Y D A W R G G L D W C N 11
    238 Y G F W D K D K S R Y D V F C 11
    245 K S R Y D V F C F T S N F N G 11
    254 T S N F N G R F Y Y L I H P T 11
    260 R F Y Y L I H P T K L T Y D E 11
    314 V R Y P I S R P R R R C S P T 11
    331 A V R F V G F P D K K H K L Y 11
    11 S I C W A D H L S D N Y T L D 10
    97 S M G Y H K K T Y G G Y Q G R 10
    110 G R V F L K G G S D S D A S L 10
    126 I T D L T L E D Y G R Y K C E 10
    171 N L N F H E A Q Q A C L D Q D 10
    195 Y D A W R G G L D W C N A G W 10
    201 G L D W C N A G W L S D G S V 10
    206 N A G W L S D G S V Q Y P I T 10
    290 G Q I F A A W K I L G Y D R C 10
    298 I L G Y D R C D A G W L A D G 10
    307 G W L A D G S V R Y P I S R P 10
    333 R F V G F P D K K H K L Y G V 10
    20 D N Y T L D H D R A I H I Q A 9
    31 H I Q A E N G P H L L V E A E 9
    70 F G S G I H K I R I K W T K L 9
    82 T K L T S D Y L K E V D V F V 9
    89 L K E V D V F V S M G Y H K K 9
    144 G L E D D T V V V A L D L Q G 9
    35 E N G P H L L V E A E Q A K V 8
    45 E Q A K V F S H R G G N V T L 8
    57 V T L P C K F Y R D P T A F G 8
    72 S G I H K I R I K W T K L T S 8
    81 W T K L T S D Y L K E V D V F 8
    91 E V D V F V S M G Y H K K T Y 8
    94 V F V S M G Y H K K T Y G G Y 8
    103 K T Y G G Y Q G R V F L K G G 8
    118 S D S D A S L V I T D L T L E 8
    130 T L E D Y G R Y K C E V I E G 8
    146 E D D T V V V A L D L Q G V V 8
    156 L Q G V V F P Y F P R L G R Y 8
    189 A S F D Q L Y D A W R G G L D 8
    215 V Q Y P I T K P R E P C G G Q 8
    226 C G G Q N T V P G V R N Y G F 8
    239 G F W D K D K S R Y D V F C F 8
    252 C F T S N F N G R F Y Y L I H 8
    310 A D G S V R Y P I S R P R R R 8
    8 V L I S I C W A D H L S D N Y 7
    37 G P H L L V E A E Q A K V F S 7
    38 P H L L V E A E Q A K V F S H 7
    39 H L L V E A E Q A K V F S H R 7
    46 Q A K V F S H R G G N V T L P 7
    49 V F S H R G G N V T L P C K F 7
    73 G I H K I R I K W T K L T S D 7
    74 I H K I R I K W T K L T S D Y 7
    119 D S D A S L V I T D L T L E D 7
    120 S D A S L V I T D L T L E D Y 7
    121 D A S L V I T D L T L E D Y G 7
    135 G R Y K C E V I E G L E D D T 7
    136 R Y K C E V I E G L E D D T V 7
    149 T V V V A L D L Q G V V F P Y 7
    150 V V V A L D L Q G V V F P Y F 7
    178 Q Q A C L D Q D A V I A S F D 7
    182 L D Q D A V I A S F D Q L Y D 7
    184 Q D A V I A S F D Q L Y D A W 7
    190 S F D Q L Y D A W R G G L D W 7
    200 G G L D W C N A G W L S D G S 7
    209 W L S D G S V Q Y P I T K P R 7
    211 S D G S V Q Y P I T K P R E P 7
    222 P R E P C G G Q N T V P G V R 7
    247 R Y D V F C F T S N F N G R F 7
    270 L T Y D E A V Q A C L N D G A 7
    276 V Q A C L N D G A Q I A K V G 7
    279 C L N D G A Q I A K V G Q I F 7
    284 A Q I A K V G Q I F A A W K I 7
    299 L G Y D R C D A G W L A D G S 7
    311 D G S V R Y P I S R P R R R C 7
    327 P T E A A V R F V G F P D K K 7
    5 L L L V L I S I C W A D H L S 6
    7 L V L I S I C W A D H L S D N 6
    12 I C W A D H L S D N Y T L D H 6
    15 A D H L S D N Y T L D H D R A 6
    21 N Y T L D H D R A I H I Q A E 6
    24 L D H D R A I H I Q A E N G P 6
    29 A I H I Q A E N G P H L L V E 6
    33 Q A E N G P H L L V E A E Q A 6
    34 A E N G P H L L V E A E Q A K 6
    51 S H R G G N V T L P C K F Y R 6
    53 R G G N V T L P C K F Y R D P 6
    58 T L P C K F Y R D P T A F G S 6
    62 K F Y R D P T A F G S G I H K 6
    76 K I R I K W T K L T S D Y L K 6
    83 K L T S D Y L K E V D V F V S 6
    90 K E V D V F V S M G Y H K K T 6
    96 V S M G Y H K K T Y G G Y Q G 6
    99 G Y H K K T Y G G Y Q G R V F 6
    108 Y Q G R V F L K G G S D S D A 6
    112 V F L K G G S D S D A S L V I 6
    122 A S L V I T D L T L E D Y G R 6
    124 L V I T D L T L E D Y G R Y K 6
    125 V I T D L T L E D Y G R Y K C 6
    133 D Y G R Y K C E V I E G L E D 6
    138 K C E V I E G L E D D T V V V 6
    164 F P R L G R Y N L N F H E A Q 6
    175 H E A Q Q A C L D Q D A V I A 6
    176 E A Q Q A C L D Q D A V I A S 6
    181 C L D Q D A V I A S F D Q L Y 6
    185 D A V I A S F D Q L Y D A W R 6
    186 A V I A S F D Q L Y D A W R G 6
    197 A W R G G L D W C N A G W L S 6
    199 R G G L D W C N A G W L S D G 6
    202 L D W C N A G W L S D G S V Q 6
    203 D W C N A G W L S D G S V Q Y 6
    204 W C N A G W L S D G S V Q Y P 6
    212 D G S V Q Y P I T K P R E P C 6
    217 Y P I T K P R E P C G G Q N T 6
    223 R E P C G G Q N T V P G V R N 6
    232 V P G V R N Y G F W D K D K S 6
    256 N F N G R F Y Y L I H P T K L 6
    262 Y Y L I H P T K L T Y D E A V 6
    272 Y D E A V Q A C L N D G A Q I 6
    274 E A V Q A C L N D G A Q I A K 6
    277 Q A C L N D G A Q I A K V G Q 6
    292 I F A A W K I L G Y D R C D A 6
    301 Y D R C D A G W L A D G S V R 6
    302 D R C D A G W L A D G S V R Y 6
    303 R C D A G W L A D G S V R Y P 6
    319 S R P R R R C S P T E A A V R 6
    320 R P R R R C S P T E A A V R F 6
    326 S P T E A A V R F V G F P D K 6
    338 P D K K H K L Y G V Y C F R A 6
    227 G G Q N T V P G V R N Y G F W 4
    64 Y R D P T A F G S G I H K I R 3
    87 D Y L K E V D V F V S M G Y H 3
    225 P C G G Q N T V P G V R N Y G 3
    282 D G A Q I A K V G Q I F A A W 3
    324 R C S P T E A A V R F V G F P 3
    330 A A V R F V G F P D K K H K L 3
    42 V E A E Q A K V F S H R G G N 2
    50 F S H R G G N V T L P C K F Y 2
    52 H R G G N V T L P C K F Y R D 2
    55 G N V T L P C K F Y R D P T A 2
    66 D P T A F G S G I H K I R I K 2
    69 A F G S G I H K I R I K W T K 2
    100 Y H K K T Y G G Y Q G R V F L 2
    101 H K K T Y G G Y Q G R V F L K 2
    143 E G L E D D T V V V A L D L Q 2
    152 V A L D L Q G V V F P Y F P R 2
    159 V V F P Y F P R L G R Y N L N 2
    180 A C L D Q D A V I A S F D Q L 2
    208 G W L S D G S V Q Y P I T K P 2
    243 K D K S R Y D V F C F T S N F 2
    323 R R C S P T E A A V R F V G F 2
    328 T E A A V R F V G F P D K K H 2
    340 K K H K L Y G V Y C F R A Y N 2
    14 W A D H L S D N Y T L D H D R 1
    22 Y T L D H D R A I H I Q A E N 1
    30 I H I Q A E N G P H L L V E A 1
    32 I Q A E N G P H L L V E A E Q 1
    59 L P C K F Y R D P T A F G S G 1
    79 I K W T K L T S D Y L K E V D 1
    80 K W T K L T S D Y L K E V D V 1
    84 L T S D Y L K E V D V F V S M 1
    104 T Y G G Y Q G R V F L K G G S 1
    114 L K G G S D S D A S L V I T D 1
    115 K G G S D S D A S L V I T D L 1
    116 G G S D S D A S L V I T D L T 1
    127 T D L T L E D Y G R Y K C E V 1
    132 E D Y G R Y K C E V I E G L E 1
    140 E V I E G L E D D T V V V A L 1
    141 V I E G L E D D T V V V A L D 1
    155 D L Q G V V F P Y F P R L G R 1
    162 P Y F P R L G R Y N L N F H E 1
    170 Y N L N F H E A Q Q A C L D Q 1
    172 L N F H E A Q Q A C L D Q D A 1
    177 A Q Q A C L D Q D A V I A S F 1
    187 V I A S F D Q L Y D A W R G G 1
    205 C N A G W L S D G S V Q Y P I 1
    210 L S D G S V Q Y P I T K P R E 1
    230 N T V P G V R N Y G F W D K D 1
    233 P G V R N Y G F W D K D K S R 1
    236 R N Y G F W D K D K S R Y D V 1
    240 F W D K D K S R Y D V F C F T 1
    249 D V F C F T S N F N G R F Y Y 1
    251 F C F T S N F N G R F Y Y L I 1
    253 F T S N F N G R F Y Y L I H P 1
    255 S N F N G R F Y Y L I H P T K 1
    257 F N G R F Y Y L I H P T K L T 1
    266 H P T K L T Y D E A V Q A C L 1
    271 T Y D E A V Q A C L N D G A Q 1
    278 A C L N D G A Q I A K V G Q I 1
    287 A K V G Q I F A A W K I L G Y 1
    288 K V G Q I F A A W K I L G Y D 1
    294 A A W K I L G Y D R C D A G W 1
    304 C D A G W L A D G S V R Y P I 1
    309 L A D G S V R Y P I S R P R R 1
    322 R R R C S P T E A A V R F V G 1
    337 F P D K K H K L Y G V Y C F R 1
    151P3D4 v.2: HLA Peptide Scoring Results DRB1*1101 15-mers SYFPEITHI
    229 P R G L G F I F K T I A P L A 27
    137 S R I F W R Q E K A D G G S C 24
    44 T G I I T Q G A K D F G H V Q 22
    51 A K D F G H V Q F V G S Y K L 22
    158 S E A Y K K V C L S G A P H E 22
    233 G F I F K T I A P L A A T R A 22
    244 A T R A T R I G H P G G R T P 22
    301 S S T Y D S L S P Y G P R N P 22
    338 G Q K H N V L A R G K P Q R K 22
    34 K V D L L V P T K V T G I I T 21
    112 L K Y L A F L H K R M N T N P 21
    163 K V C L S G A P H E V G W K Y 21
    181 T A T L E E K R K E K A E I H 21
    14 L H I V V E S I R D H S G Q K 20
    40 P T K V T G I I T Q G A K D F 20
    111 K L K Y L A F L H K R M N T N 20
    199 N K Q L M R L Q K Q A E K N M 20
    236 F K T I A P L A A T R A T R I 20
    313 R N P L P N P R H S P S G G G 20
    130 P Y H F Q V P S R I F W R Q E 19
    380 W K A I E S L E E G L G G K Q 19
    15 H I V V E S I R D H S G Q K M 18
    56 H V Q F V G S Y K L A Y S N D 18
    217 I D K Y T E S P G G G S P R G 18
    357 N N S W Y V E N G R P A D L A 18
    358 N S W Y V E N G R P A D L A G 18
    174 G W K Y Q A V T A T L E E K R 17
    60 V G S Y K L A Y S N D G E H W 16
    73 H W T V Y Q D E K Q R K D K V 16
    138 R I F W R Q E K A D G G S C C 16
    281 P A A W L P L R T P W T R P S 16
    285 L P L R T P W T R P S S C P T 16
    377 G A L W K A I E S L E E G L G 16
    11 L R A L H I V V E S I R D H S 15
    32 D K K V D L L V P T K V T G I 15
    82 Q R K D K V L L G R K A V V V 15
    84 K D K V L L G R K A V V V S C 15
    89 L G R K A V V V S C E G I N I 15
    105 G S F C R N K L K Y L A F L H 15
    119 H K R M N T N P S R R P Y H F 15
    168 G A P H E V G W K Y Q A V T A 15
    207 K Q A E K N M K K K I D K Y T 15
    222 E S P G G G S P R G L G F I F 15
    257 T P R A G S S A H R P P A L S 15
    344 L A R G K P Q R K P K S E N N 15
    373 S G Y C G A L W K A I E S L E 15
    387 E E G L G G K Q K D K E R K A 15
    26 G Q K M K Q D K K V D L L V P 14
    71 G E H W T V Y Q D E K Q R K D 14
    83 R K D K V L L G R K A V V V S 14
    128 R R P Y H F Q V P S R I F W R 14
    196 Y R K N K Q L M R L Q K Q A E 14
    211 K N M K K K I D K Y T E S P G 14
    232 L G F I F K T I A P L A A T R 14
    251 G H P G G R T P R A G S S A H 14
    258 P R A G S S A H R P P A L S A 14
    312 P R N P L P N P R H S P S G G 14
    322 S P S G G G G L K K P A R H C 14
    323 P S G G G G L K K P A R H C Q 14
    326 G G G L K K P A R H C Q G Q K 14
    327 G G L K K P A R H C Q G Q K H 14
    340 K H N V L A R G K P Q R K P K 14
    356 E N N S W Y V E N G R P A D L 14
    8 T F P L R A L H I V V E S I R 13
    29 M K Q D K K V D L L V P T K V 13
    54 F G H V Q F V G S Y K L A Y S 13
    86 K V L L G R K A V V V S C E G 13
    93 A V V V S C E G I N I S G S F 13
    247 A T R I G H P G G R T P R A G 13
    264 A H R P P A L S A R A P V P A 13
    279 A S P A A W L P L R T P W T R 13
    284 W L P L R T P W T R P S S C P 13
    304 Y D S L S P Y G P R N P L P N 13
    57 V Q F V G S Y K L A Y S N D G 12
    74 W T V Y Q D E K Q R K D K V L 12
    95 V V S C E G I N I S G S F C R 12
    109 R N K L K Y L A F L H K R M N 12
    115 L A F L H K R M N T N P S R R 12
    116 A F L H K R M N T N P S R R P 12
    179 A V T A T L E E K R K E K A E 12
    214 K K K I D K Y T E S P G G G S 12
    267 P P A L S A R A P V P A A S P 12
    270 L S A R A P V P A A S P A A W 12
    288 R T P W T R P S S C P T S S S 12
    367 P A D L A G S G Y C G A L W K 12
    4 H T T K T F P L R A L H I V V 11
    6 T K T F P L R A L H I V V E S 11
    120 K R M N T N P S R R P Y H F Q 11
    2 L E H T T K T F P L R A L H I 10
    50 G A K D F G H V Q F V G S Y K 10
    64 K L A Y S N D G E H W T V Y Q 10
    103 I S G S F C R N K L K Y L A F 10
    104 S G S F C R N K L K Y L A F L 10
    114 Y L A F L H K R M N T N P S R 10
    172 E V G W K Y Q A V T A T L E E 10
    187 K R K E K A E I H Y R K N K Q 10
    193 E I H Y R K N K Q L M R L Q K 10
    231 G L G F I F K T I A P L A A T 10
    241 P L A A T R A T R I G H P G G 10
    307 L S P Y G P R N P L P N P R H 10
    336 C Q G Q K H N V L A R G K P Q 10
    372 G S G Y C G A L W K A I E S L 10
    389 G L G G K Q K D K E R K A E N 10
    7 K T F P L R A L H I V V E S I 9
    12 R A L H I V V E S I R D H S G 9
    20 S I R D H S G Q K M K Q D K K 9
    25 S G Q K M K Q D K K V D L L V 9
    36 D L L V P T K V T G I I T Q G 9
    37 L L V P T K V T G I I T Q G A 9
    55 G H V Q F V G S Y K L A Y S N 9
    76 V Y Q D E K Q R K D K V L L G 9
    78 Q D E K Q R K D K V L L G R K 9
    101 I N I S G S F C R N K L K Y L 9
    113 K Y L A F L H K R M N T N P S 9
    129 R P Y H F Q V P S R I F W R Q 9
    154 Q G H A S E A Y K K V C L S G 9
    177 Y Q A V T A T L E E K R K E K 9
    190 E K A E I H Y R K N K Q L M R 9
    192 A E I H Y R K N K Q L M R L Q 9
    206 Q K Q A E K N M K K K I D K Y 9
    333 A R H C Q G Q K H N V L A R G 9
    385 S L E E G L G G K Q K D K E R 9
    398 E R K A E N G P H L L V E A E 9
    10 P L R A L H I V V E S I R D H 8
    13 A L H I V V E S I R D H S G Q 8
    16 I V V E S I R D H S G Q K M K 8
    22 R D H S G Q K M K Q D K K V D 8
    48 T Q G A K D F G H V Q F V G S 8
    65 L A Y S N D G E H W T V Y Q D 8
    75 T V Y Q D E K Q R K D K V L L 8
    81 K Q R K D K V L L G R K A V V 8
    88 L L G R K A V V V S C E G I N 8
    91 R K A V V V S C E G I N I S G 8
    121 R M N T N P S R R P Y H F Q V 8
    124 T N P S R R P Y H F Q V P S R 8
    132 H F Q V P S R I F W R Q E K A 8
    134 Q V P S R I F W R Q E K A D G 8
    148 G G S C C P Q G H A S E A Y K 8
    155 G H A S E A Y K K V C L S G A 8
    157 A S E A Y K K V C L S G A P H 8
    178 Q A V T A T L E E K R K E K A 8
    180 V T A T L E E K R K E K A E I 8
    183 T L E E K R K E K A E I H Y R 8
    188 R K E K A E I H Y R K N K Q L 8
    189 K E K A E I H Y R K N K Q L M 8
    203 M R L Q K Q A E K N M K K K I 8
    208 Q A E K N M K K K I D K Y T E 8
    220 Y T E S P G G G S P R G L G F 8
    238 T I A P L A A T R A T R I G H 8
    239 I A P L A A T R A T R I G H P 8
    240 A P L A A T R A T R I G H P G 8
    248 T R I G H P G G R T P R A G S 8
    249 R I G H P G G R T P R A G S S 8
    253 P G G R T P R A G S S A H R P 8
    256 R T P R A G S S A H R P P A L 8
    263 S A H R P P A L S A R A P V P 8
    265 H R P P A L S A R A P V P A A 8
    269 A L S A R A P V P A A S P A A 8
    280 S P A A W L P L R T P W T R P 8
    283 A W L P L R T P W T R P S S C 8
    295 S S C P T S S S T Y D S L S P 8
    305 D S L S P Y G P R N P L P N P 8
    310 Y G P R N P L P N P R H S P S 8
    332 P A R H C Q G Q K H N V L A R 8
    341 H N V L A R G K P Q R K P K S 8
    342 N V L A R G K P Q R K P K S E 8
    343 V L A R G K P Q R K P K S E N 8
    346 R G K P Q R K P K S E N N S W 8
    390 L G G K Q K D K E R K A E N G 8
    391 G G K Q K D K E R K A E N G P 8
    392 G K Q K D K E R K A E N G P H 8
    5 T T K T F P L R A L H I V V E 7
    18 V E S I R D H S G Q K M K Q D 7
    23 D H S G Q K M K Q D K K V D L 7
    33 K K V D L L V P T K V T G I I 7
    79 D E K Q R K D K V L L G R K A 7
    85 D K V L L G R K A V V V S C E 7
    90 G R K A V V V S C E G I N I S 7
    100 G I N I S G S F C R N K L K Y 7
    125 N P S R R P Y H F Q V P S R I 7
    133 F Q V P S R I F W R Q E K A D 7
    135 V P S R I F W R Q E K A D G G 7
    136 P S R I F W R Q E K A D G G S 7
    156 H A S E A Y K K V C L S G A P 7
    159 E A Y K K V C L S G A P H E V 7
    170 P H E V G W K Y Q A V T A T L 7
    197 R K N K Q L M R L Q K Q A E K 7
    230 R G L G F I F K T I A P L A A 7
    250 I G H P G G R T P R A G S S A 7
    260 A G S S A H R P P A L S A R A 7
    266 R P P A L S A R A P V P A A S 7
    271 S A R A P V P A A S P A A W L 7
    275 P V P A A S P A A W L P L R T 7
    297 C P T S S S T Y D S L S P Y G 7
    306 S L S P Y G P R N P L P N P R 7
    311 G P R N P L P N P R H S P S G 7
    321 H S P S G G G G L K K P A R H 7
    334 R H C Q G Q K H N V L A R G K 7
    337 Q G Q K H N V L A R G K P Q R 7
    360 W Y V E N G R P A D L A G S G 7
    371 A G S G Y C G A L W K A I E S 7
    376 C G A L W K A I E S L E E G L 7
    383 I E S L E E G L G G K Q K D K 7
    9 F P L R A L H I V V E S I R D 6
    31 Q D K K V D L L V P T K V T G 6
    35 V D L L V P T K V T G I I T Q 6
    39 V P T K V T G I I T Q G A K D 6
    41 T K V T G I I T Q G A K D F G 6
    43 V T G I I T Q G A K D F G H V 6
    59 F V G S Y K L A Y S N D G E H 6
    62 S Y K L A Y S N D G E H W T V 6
    70 D G E H W T V Y Q D E K Q R K 6
    92 K A V V V S C E G I N I S G S 6
    94 V V V S C E G I N I S G S F C 6
    97 S C E G I N I S G S F C R N K 6
    98 C E G I N I S G S F C R N K L 6
    106 S F C R N K L K Y L A F L H K 6
    126 P S R R P Y H F Q V P S R I F 6
    139 I F W R Q E K A D G G S C C P 6
    142 R Q E K A D G G S C C P Q G H 6
    144 E K A D G G S C C P Q G H A S 6
    146 A D G G S C C P Q G H A S E A 6
    147 D G G S C C P Q G H A S E A Y 6
    149 G S C C P Q G H A S E A Y K K 6
    160 A Y K K V C L S G A P H E V G 6
    161 Y K K V C L S G A P H E V G W 6
    167 S G A P H E V G W K Y Q A V T 6
    171 H E V G W K Y Q A V T A T L E 6
    191 K A E I H Y R K N K Q L M R L 6
    198 K N K Q L M R L Q K Q A E K N 6
    200 K Q L M R L Q K Q A E K N M K 6
    202 L M R L Q K Q A E K N M K K K 6
    210 E K N M K K K I D K Y T E S P 6
    212 N M K K K I D K Y T E S P G G 6
    213 M K K K I D K Y T E S P G G G 6
    215 K K I D K Y T E S P G G G S P 6
    216 K I D K Y T E S P G G G S P R 6
    218 D K Y T E S P G G G S P R G L 6
    226 G G S P R G L G F I F K T I A 6
    242 L A A T R A T R I G H P G G R 6
    243 A A T R A T R I G H P G G R T 6
    252 H P G G R T P R A G S S A H R 6
    261 G S S A H R P P A L S A R A P 6
    268 P A L S A R A P V P A A S P A 6
    272 A R A P V P A A S P A A W L P 6
    273 R A P V P A A S P A A W L P L 6
    282 A A W L P L R T P W T R P S S 6
    287 L R T P W T R P S S C P T S S 6
    289 T P W T R P S S C P T S S S T 6
    290 P W T R P S S C P T S S S T Y 6
    291 W T R P S S C P T S S S T Y D 6
    298 P T S S S T Y D S L S P Y G P 6
    300 S S S T Y D S L S P Y G P R N 6
    308 S P Y G P R N P L P N P R H S 6
    314 N P L P N P R H S P S G G G G 6
    315 P L P N P R H S P S G G G G L 6
    316 L P N P R H S P S G G G G L K 6
    317 P N P R H S P S G G G G L K K 6
    348 K P Q R K P K S E N N S W Y V 6
    354 K S E N N S W Y V E N G R P A 6
    359 S W Y V E N G R P A D L A G S 6
    361 Y V E N G R P A D L A G S G Y 6
    362 V E N G R P A D L A G S G Y C 6
    363 E N G R P A D L A G S G Y C G 6
    364 N G R P A D L A G S G Y C G A 6
    366 R P A D L A G S G Y C G A L W 6
    374 G Y C G A L W K A I E S L E E 6
    378 A L W K A I E S L E E G L G G 6
    381 K A I E S L E E G L G G K Q K 6
    384 E S L E E G L G G K Q K D K E 6
    393 K Q K D K E R K A E N G P H L 6
    394 Q K D K E R K A E N G P H L L 6
    400 K A E N G P H L L V E A E Q A 6
    1 M L E H T T K T F P L R A L H 3
    28 K M K Q D K K V D L L V P T K 3
    166 L S G A P H E V G W K Y Q A V 3
    53 D F G H V Q F V G S Y K L A Y 2
    69 N D G E H W T V Y Q D E K Q R 2
    80 E K Q R K D K V L L G R K A V 2
    87 V L L G R K A V V V S C E G I 2
    99 E G I N I S G S F C R N K L K 2
    118 L H K R M N T N P S R R P Y H 2
    173 V G W K Y Q A V T A T L E E K 2
    194 I H Y R K N K Q L M R L Q K Q 2
    195 H Y R K N K Q L M R L Q K Q A 2
    234 F I F K T I A P L A A T R A T 2
    246 R A T R I G H P G G R T P R A 2
    278 A A S P A A W L P L R T P W T 2
    299 T S S S T Y D S L S P Y G P R 2
    303 T Y D S L S P Y G P R N P L P 2
    324 S G G G G L K K P A R H C Q G 2
    355 S E N N S W Y V E N G R P A D 2
    3 E H T T K T F P L R A L H I V 1
    24 H S G Q K M K Q D K K V D L L 1
    27 Q K M K Q D K K V D L L V P T 1
    30 K Q D K K V D L L V P T K V T 1
    38 L V P T K V T G I I T Q G A K 1
    42 K V T G I I T Q G A K D F G H 1
    47 I T Q G A K D F G H V Q F V G 1
    52 K D F G H V Q F V G S Y K L A 1
    66 A Y S N D G E H W T V Y Q D E 1
    77 Y Q D E K Q R K D K V L L G R 1
    102 N I S G S F C R N K L K Y L A 1
    108 C R N K L K Y L A F L H K R M 1
    110 N K L K Y L A F L H K R M N T 1
    152 C P Q G H A S E A Y K K V C L 1
    153 P Q G H A S E A Y K K V C L S 1
    175 W K Y Q A V T A T L E E K R K 1
    184 L E E K R K E K A E I H Y R K 1
    201 Q L M R L Q K Q A E K N M K K 1
    204 R L Q K Q A E K N M K K K I D 1
    205 L Q K Q A E K N N K K K I D K 1
    209 A E K N M K K K I D K Y T E S 1
    221 T E S P G G G S P R G L G F I 1
    225 G G G S P R G L G F I F K T I 1
    227 G S P R G L G F I F K T I A P 1
    237 K T I A P L A A T R A T R I G 1
    277 P A A S P A A W L P L R T P W 1
    319 P R H S P S G G G G L K K P A 1
    320 R H S P S G G G G L K K P A R 1
    325 G G G G L K K P A R H C Q G Q 1
    330 K K P A R H C Q G Q K H N V L 1
    352 K P K S E N N S W Y V E N G R 1
    369 D L A G S G Y C G A L W K A I 1
    397 K E R K A E N G P H L L V E A 1
    399 R K A K N G P H L L V E A E Q 1
  • [0852]
    TABLE LII
    Exon Number Start End
    (A). Exon compositions of 151P3D4 v.1
    Exon 1 1 289
    Exon 2 290 415
    Exon 3 416 787
    Exon 4 788 1090
    Exon 5 1091 1957
    (B). Exon compositions of 151P3D4 v.2
    Exon 1 1 102
    Exon 2 103 258
    Exon 3 259 425
    Exon 4 426 667
    Exon 5 668 863
    Exon 6 864 999
    Exon 7 1000 1201
    Exon 8 1202 1573
    Exon 9 1574 1876
    Exon 10 1877 2166
  • [0853]
    TABLE LIII
    Nucleotide sequence of transcript variant 151P3D4 v.2
    atgttggagc atactactaa gacattcccc ttaagagcac tgcacatagt tgtggaaagc 60
    attagggacc acagtggcca aaaaatgaag caggataaga aggtggatct tcttgttcca 120
    accaaagtga ctggcatcat tacacaagga gctaaagatt ttggtcatgt acagtttgtt 180
    ggctcctaca aactggctta cagcaatgat ggagaacact ggactgtata ccaggatgaa 240
    aagcaaagaa aagataaggt actgctgggc cggaaggcgg tggtcgtaag ctgcgaaggc 300
    atcaacattt ctggcagttt ctgcagaaac aagttgaagt acctggcttt cctccacaag 360
    cggatgaaca ccaacccttc tcgacgcccc taccacttcc aggtccccag ccgcatcttc 420
    tggcgacaag aaaaagcaga tggtggttcc tgctgccctc aaggtcatgc gtctgaagcc 480
    tacaagaaag tttgcctatc tggggcgcct cacgaggttg gctggaagta ccaggcagtg 540
    acagccaccc tggaggaaaa gaggaaagag aaagccgaga tccactaccg gaagaataaa 600
    cagctcatga ggctacagaa acaggccgag aagaacatga agaagaaaat tgacaaatac 660
    acagagagtc caggaggagg cagtccccgt ggcttaggct ttatctttaa gacaatagcg 720
    ccgctcgccg ccacccgcgc gactcggatc gggcatcccg gcggccgcac cccgcgcgct 780
    ggctcatctg cacaccggcc acctgcattg tcggccagag cccccgtccc ggcggcttcc 840
    ccagcagctt ggctgcccct caggacgccc tggacccgcc catcctcctg ccccactagc 900
    tcatcgactt acgactccct cagtccctac ggcccacgga accctctccc caacccgcgc 960
    cacagcccga gcggcggcgg cggccttaag aagcccgcaa gacactgtca aggtcaaaag 1020
    cacaatgtgc tagccagggg gaaaccccag agaaagccaa aatctgaaaa taacagctgg 1080
    tatgtagaaa acggcagacc tgctgacttg gcaggctcag gatattgtgg tgctctttgg 1140
    aaggcaatag agtccttgga ggaaggactt ggaggaaaac aaaaggacaa ggaaaggaaa 1200
    gcagaaaatg gcccccatct acttgtggaa gcagagcaag ccaaggtgtt ttcacacaga 1260
    ggtggcaatg ttacactgcc atgtaaattt tatcgagacc ctacagcatt tggctcagga 1320
    atccataaaa tccgaattaa gtggaccaag ctaacttcgg attacctcaa ggaagtggat 1380
    gtttttgttt ccatgggata ccacaaaaaa acctatggag gctaccaggg tagagtgttt 1440
    ctgaagggag gcagtgatag tgatgcttct ctggtcatca cagacctcac tctggaagat 1500
    tatgggagat ataagtgtga ggtgattgaa ggattagaag atgatactgt tgtggtagca 1560
    ctggacttac aaggtgtggt attcccttac tttccacgac tggggcgcta caatctcaat 1620
    tttcacgagg cgcagcaggc gtgtctggac caggatgctg tgatcgcctc cttcgaccag 1680
    ctgtacgacg cctggcgggg cgggctggac tggtgcaatg ccggctggct cagtgatggc 1740
    tctgtgcaat atcccatcac aaagcccaga gagccctgtg gggggcagaa cacagtgccc 1800
    ggagtcagga actacggatt ttgggataaa gataaaagca gatatgatgt tttctgtttt 1860
    acatccaatt tcaatggccg tttttactat ctgatccacc ccaccaaact gacctatgat 1920
    gaagcggtgc aagcttgtct caatgatggt gctcagattg caaaagtggg ccagatattt 1980
    gctgcctgga aaattctcgg atatgaccgc tgtgatgcgg gctggttggc ggatggcagc 2040
    gtccgctacc ccatctctag gccaagaagg cgctgcagtc ctactgaggc tgcagtgcgc 2100
    ttcgtgggtt tcccagataa aaagcataag ctgtatggtg tctactgctt cagagcatac 2160
    aactga 2166
  • [0854]
    TABLE LIV
    Nucleotide sequence alignment of 1Z1P1F1 v.1 and 151P3D4 v.2
    151P3D4v.1 ------------------------------------------------------------
    151P3D4v.2 ATGTTGGAGCATACTACTAAGACATTCCCCTTAAGAGCACTGCACATAGTTGTGGAAAGC 60
    151P3D4v.1 ------------------------------------------------------------
    151P3D4v.2 ATTAGGGACCACAGTGGCCAAAAAATGAAGCAGGATAAGAAGGTGGATCTTCTTGTTCCA 120
    151P3D4v.1 ------------------------------------------------------------
    151P3D4v.2 ACCAAAGTGACTGGCATCATTACACAAGGAGCTAAAGATTTTGGTCATGTACAGTTTGTT 180
    151P3D4v.1 ------------------------------------------------------------
    151P3D4v.2 GGCTCCTACAAACTGGCTTACAGCAATGATGGAGAACACTGGACTGTATACCAGGATGAA 240
    151P3D4v.1 ------------------------------------------------------------
    151P3D4v.2 AAGCAAAGAAAAGATAAGGTACTGCTGGGCCGGAAGGCGCTGGTCGTAAGCTGCGAAGGC 300
    151P3D4v.1 ------------------------------------------------------------
    151P3D4v.2 ATCAACATTTCTGGCAGTTTCTGCAGAAACAAGTTGAAGTACCTGGCTTTCCTCCACAAG 360
    151P3D4v.1 ------------------------------------------------------------
    151P3D4v.2 CGGATGAACACCAACCCTTCTCGACCCCCCTACCACTTCCAGCTCCCCAGCCGCATCTTC 420
    151P3D4V.1 ------------------------------------------------------------
    151P3D4v.2 TGGCGACAAGAAAAAGCACATGGTGGTTCCTGCTCCCCTCAAGGTCATGCGTCTGAAGCC 480
    151P3D4v.1 ------------------------------------------------------------
    151P3D4v.2 TACAAGAAAGTTTGCCTATCTGGGGCGCCTCACGAGGTTGGCTGGAAGTACCAGGCAGTG 540
    151P3D4v.1 ------------------------------------------------------------
    151P3D4v.2 ACAGCCACCCTGCAGGAAAAGAGGAAAGAGAAAGCCGAGATCCACTACCGGAAGAATAAA 600
    151P3D4v.1 ------------------------------------------------------------
    151P3D4v.2 ACAGCCACCCTGGAGGAAAAGAGGAAAGAGAAAGCCGAGATCCACTACCGGAAGAATAAA 660
    151P3D4v.1 ------------------------------------------------------------
    151P3D4v.2 ACAGAGAGTCCAGGAGGAGGCAGTCCCCGTCGCTTAGGCTTTATCTTTAAGACAATAGCG 720
    151P3D4v.1 ----------------------------------------------TTAGGCTGTA-ATT 13
    151P3D4v.2 CCGCTCGCCGCCACCCOCGCGACTCGGATCGGGCATCCCCGCGGCCGCACCCCGCGCGCT 780
                                                    *  * *     *
    151P3D4v.1 AGGGGATTTGGGAGGAGA--ACTTTCCTGGTGACGCTTTGCTTTTCTTCTGCT--CTTGG 69
    151P3D4v.2 GGCTCATCTGCACACCGGCCACCTGCATTATCGGCCAGAGCCCCCGTCCCGGCGGCTTCC 840
     *   ** **      *   ** * * * **     *   **    * * *    ***
    151P3D4v.1 TCAGAAAGT-GCCTCCTTCTTCCCAGGATCAGGACCT--CTGCCATCCAGCGCCACAA-- 124
    151P3D4v.2 CCAGCAGCTTGGCTGCCCCTCAGGACGCCCTGGACCCGCCCATCCTCCTGCCCCACTAGC 900
      ** *  * * ** *  **    * *  * *****   *   * *** ** **** *
    151P3D4v.1 --AGAGACATTCTGCACACACACTCACACACACACACACACACACACTCTCACACTCCC- 181
    151P3D4V.2 TCATCGACTTACGACTCCCTCAGTCCCTACGGCCCACGGA-ACCCTCTCCCCAACCCGCG 959
      *  *** * *  * * * ** ** *     * ***  * ** * *** *  ** ***
    151P3D4v.1 CCAGAGACAAACTTAACGTGAGG-----AGAAAGAGCGCTA--CGTTCACTTCATCTCCA 234
    151P3D4V.2 CCACAGCCCGAGCGGCGGCGGCGGCCTTAAGAAGCCCGCAAGACACTGTCAAGGTCAAAA 1019
    *** ** *  *  ** *  *        *  ***  *** *  *  *  *  * **   *
    151P3D4v.1 GC------TTCCAACTTAAGCAGAACTTGAGAGCATCCGAACTCCTGGATTTCAGGACAA 288
    151P3D4v.2 GCACAATGTGCTAGCCAGGGGGAAACCCCAGAGAAAGCCAAAATCTGAAAATAACAGCTG 1079
    **      * * * *    *   ***   **** *  * **   *** *  * *   *
    151P3D4v.1 GTGAAGAAGATTCTTTGGGC-TATAAAGATGA-AGAGTCTACTTCTTCTGGTGCTGATTT 346
    151P3D4v.2 GTATGTAGAAAACGGCAGACCTCCTCACTTGGCAGGCTCAGGATATTGTGGTGCTCTTTG 1139
    **    *  *  *    * * *    *  **  **  **    * ** *******  **
    151P3D4v.1 CAATCTGCTGGGCTGATCATCTTTCAGACAACTATACTCTGGATCATGACAGAGCTATTC 406
    151P3D4v.2 GAAGGCAATACA------GTCCTTGGAGGAAGGACTTGGAGGAAAACAAAAGGACAAGGA 1193
     **     * *        ** **     **  *      ***  *  * **  * *
    151P3D4v.1 ACATCCAAGCAGAAAATGGCCCCCATCTACTTGTGGAAGCAGAGCAAGCCAAGGTGTTTT 466
    151P3D4v.2 A-AGGAAAGCAGAAAATGGCCCCCATCTACTTGTGGAAGCAGAOCAAGCCAAGGTGTTTT 1252
    * *   ******************************************************
    151P3D4v.1 CACACAGAGGTGGCAATGTTACACTGCCATGTAAATTTTATCGAGACCCTACAGCATTTG 526
    151P3D4v.2 CACACAGAGGTGGCAATGTTACACTCCCATGTAAATTTTATCGAGACCCTACAGCATTTG 1312
    ************************************************************
    151P3D4v.1 GCTCAGGAATCCATAAAATCCGAATTAAGTGGACCAAGCTAACTTCGGATTACCTCAAGG 586
    151P3D4v.2 GCTCAGGAATCCATAAAATCCGAATTAAGTGGACCAAGCTAACTTCGGATTACCTCAAGG 1372
    ************************************************************
    151P3D4v.1 AAGTGGATGTTTTTGTTTCCATGGGATACCACAAAAAAACCTATGGAGGCTACCAGGGTA 646
    151P3D4v.2 AAGTGGATGTTTTTGTTTCCATGGGATACCACAAAAAAACCTATGGAGGCTACCAGGGTA 1432
    ************************************************************
    151P3D4v.1 GAGTGTTTCTGAAGGGAGGCAGTGATAGTGATGCTTCTCTGGTCATCACAGACCTCACTC 706
    151P3D4v.2 GAGTGTTTCTGAAGGGAGGCAGTGATAGTGATGCTTCTCTGGTCATCACAGACCTCACTC 1492
    ************************************************************
    151P3D4v.1 TGGAAGATTAGGGGAGATATAAGTGTGAGGTGATTGAAGGATTAGAAGATGATACTGTTG 766
    151P3D4v.2 TGGAAGATTATGGGAGATATAAGTGTGAGCTGATTGAAGGATTAGAAGATCATACTGTTG 1552
    ************************************************************
    151P3D4v.1 TGGTAGCACTGCACTTACAAGGTGTCGTATTCCCTTACTTTCCACGACTCGGGCGCTACA 826
    151P3D4v.2 TGGTAGCACTGGACTTACAAGGTCTGGTATTCCCTTACTTTCCACGACTGGGGCGCTACA 1612
    ************************************************************
    151P3D4v.1 ATCTCAATTTTCACGAGCCGCAGCAGGCGTGTCTGGACCAGGATGCTGTGATCGCCTCCT 886
    151P3D4v.2 ATCTCAATTTTCACGAGGCGCAGCAGGCGTGTCTGGACCAGGATGCTGTGATCGCCTCCT 1672
    ************************************************************
    151P3D4v.1 TCGACCAGCTGTACGACGCCTGGCGGGGCGGGCTGGACTGGTGCAATGCCCGCTGGCTCA 946
    151P3D4v.2 TCGACCAGCTGTACGACGCCTGGCGGGGCGGGCTGGACTGGTGCAATGCCGGCTGGCTCA 1732
    ************************************************************
    151P3D4v.1 GTGATGGCTCTGTGCAATATCCCATCACAAAGCCCAGAGAGCCCTGTGGGGGCCAGAACA 1006
    151P3D4v.2 GTGATGGCTCTGTGCAATATCCCATCACAAAGCCCAGAGAGCCCTGTGGGGGGCAGAACA 1792
    **************************************************** *******
    151P3D4v.1 CAGTGCCCGGAGTCAGGAACTACGGATTTTGGGATAAAGATAAAAGCAGATATGATGTTT 1066
    151P3D4v.2 CAGTGCCCGGAGTCAGGAACTACCGATTTTGGGATAAAGATAAAAGCAGATATGATGTTT 1852
    ************************************************************
    151P3D4v.1 TCTGTTTTACATCCAATTTCAATGGCCGTTTTTACTATCTGATCCACCCCACCAAACTGA 1126
    151P3D4v.2 TCTGTTTTACATCCAATTTCAATGGCCGTTTTTACTATCTGATCCACCCCACCAAACTGA 1912
    ************************************************************
    151P3D4v.1 CCTATGATGAAGCGGTGCAAGCTTGTCTCAATGATGGTGCTCAGATTGCAAAAGTGGGCC 1186
    151P3D4v.2 CCTATGATGAAGCGGTGCAACCTTGTCTCAATGATGGTGCTCAGATTGCAAAAGTGGGCC 1972
    ************************************************************
    151P3D4v.1 AGATATTTGCTCCCTGGAAAATTCTCGGATATCACCGCTGTGATGCGGGCTGGTTGGCGG 1246
    151P3D4v.2 AGATATTTGCTGCCTGGAAAATTCTCGGATATGACCGCTGTGATGCGGGCTGGTTGGCGG 2032
    ************************************************************
    151P3D4v.1 ATGGCAGCGTCCGCTACCCCATCTCTAGGCCAAGAAGGCGCTGCAGTCCTACTGAGGCTG 1306
    151P3D4v.2 ATGGCAGCGTCCGCTACCCCATCTCTAGGCCAAGAAGGCGCTGCAGTCCTACTGACGCTG 2092
    ************************************************************
    151P3D4v.1 CAGTGCGCTTCGTGGGTTTCCCAGATAAAAAGCATAAGCTGTATGGTGTCTACTGCTTCA 1366
    151P3D4v.2 CAGTGCGCTTCGTGGGTTTCCCAGATAAAAAGCATAAGCTGTATGGTGTCTACTGCTTCA 2152
    ************************************************************
    151P3D4v.1 GAGCATACAACTGAATGTGCCCTTAGAGCGCATCAGTTTTAAAGTCATTAAGAACATGTG 1426
    151P3D4v.2 GAGCATACAACTGA---------------------------------------------- 2166
    **************
    151P3D4v.1 AAAGGTGTTTTTTTTTTCCAATATGAACTCATGCAAGTTACCAAAACTGTGATAACCCTT 1486
    151P3D4v.2 ------------------------------------------------------------
    151P3D4v.1 TTTTACTTACTGTAAAGAGTCATTTTCATAAGATCAATTCATTGATTTGTTTTTTGTAAA 1546
    151P3D4v.2 ------------------------------------------------------------
    151P3D4v.1 GCTATCATTCAATATATATTATAAATTAATATAAATTTAAGGCAAGCTCTATGTAAGGAG 1606
    151P3D4v.2 ------------------------------------------------------------
    151P3D4v.1 ACTTAGAGCCAAACTGTTTAAGCTGTATCATCCCAACAAAGTATCCTTTCATGAACGGGG 1666
    151PSD4v.2 ------------------------------------------------------------
    151P3D4v.1 CATGCAATAGCTTAAGAATTGCTACGATTAAATTAAGGAAACTAAAGCTACTCAGAGCAA 1726
    151P3D4v.2 ------------------------------------------------------------
    151P2D4v.1 CAGGTTCCACAAGCACAAACTTTACACATTTGTACAATTTTCAAATGCACTACAATAAAC 1786
    151P3D4v.2 ------------------------------------------------------------
    151P3D4v.1 AAATTAGAGCAACACATTTGAAATACAGGCTTCTTTACATAAACTGAGAGGTTATACAAA 1846
    151P3D4v.2 ------------------------------------------------------------
    151P3D4v.1 ACTCAGTTTCACAAGGGAACAATCTATACCTTTCTAAAAGTTAATATTTCAAGTCTCTAA 1906
    151PSD4v.2 ------------------------------------------------------------
    151P3D4v.1 TAGGCAGAATATTTTACTCTTTAAAATCCTGCCTTTCTGACCAAAAAAAAA 1957
    151P3D4v.2 ---------------------------------------------------
  • [0855]
    TABLE LV
    Amino acid sequence alignment of 121PJF1v.1 and 151P3D4v.2
    151P3D4v.1 ------------------------------------------------------------
    151P3D4v.2 MLEHTTKTFPLRALHIVVESIRDNSGQKNKQDKKVDLLVPTKVTGIITQGAKDFGHVQFV 60
    151P3D4v.1 ------------------------------------------------------------
    151P3D4v.2 GSYKLAYSNDGEHWTVYQDEKQRKDKVLLGRKAVVVSCEGINISGSFCRNKLKYLAFLHK 120
    151P3D4v.1 -------MKSLLLLVLISICWAdHLSDN-------------------------------- 21
    151P3D4v.2 RMNTNPSRRPYHFQVPSRIFWRQEKADGGSCCPQGHASEAYKKVCLSGAPHEVGWKYQAV 180
            :.  : *   * * :. :*.
    151P3D4v.1 ---------------------------------------YT-------------------
    15123D4v.2 TATLEEKRKEKAEIHYRKNKQLMRLQKQAEKNMKKKIDKYTESPGCGSPRGLGFIFKTIA 240
    151P3D4v.1 -LDHDRAIMI-------------------------------------------------- 32
    151P3D4v.2 PLAATRATRIGHPGGRTPRAGSSAHRPPALSARAPVPAASPAAWLPLRTPWTRPSSCPTS 300
     *   ** :*
    151P3D4v.1 ------------------------------------------------------------
    151PSD4v.2 SSTYDSLSPYGPRNPLPNPRHSPSGGGGLKKPARHCQGQKHNVLARGKPQRKPKSENNSW 360
    151P3D4v.1 ---------------------------------------QAENGPHLLVEAEQAKVPSHR 53
    151P3D4V.2 YVENGRPADLAGSGYCGALWKAIESLEEGLGGKQKDKERKAENGPHLLVEAEQAKVFSHR 420
                                            ********************
    151P3D4v.1 GGNVTLPCKFYRDPTAFGSGIHKIRIKWTKLTSDYLKEVDVFVSMGYHKKTYGGYQGRVF 113
    151P3D4v.2 GGNVTLPCKFYRDPTAFGSGTHKIRIKWTKLTSDYLKEVDVFVSMGYNKKTYGGYQGRVF 480
    ************************************************************
    151P3D4v.1 LKGGSDSDASLVITDLTLEDYGRYKCEVIEGLEDDTVVVALDLQGVVFPYFPRLGRYNLN 173
    151P3D4v.2 LKGGSDSDASLVITDLTLEDYGRYKCEVIEGLEDDTVVVALDLQGVVFPYFPRLGRYNLN 540
    ************************************************************
    151P3D4v.1 FHEAQQACLDQDAVIASFDQLYDAWRGGLDWCNAGWLSDGSVQYPITKPREPCGGQNTVP 233
    151P3D4v.2 FHEAQQACLDQDAVIASFDQLYDAWRGGLDWCNAGWLSDGSVQYPITKPREPCGGQNTVP 600
    ************************************************************
    151P3D4v.1 GVRNYGFWDkDKSRYDVFCFTSNFNGRFYYLIHPTKLTYDEAVQACLNDGAQIAKVGQIF 293
    151P3D4v.2 GVRNYGFWDKDKSRYDVFCFTSNFNGRFYYLIHPTKLTYDEAVQACLNDGAQIAKVGQIF 660
    ************************************************************
    151P3D4v.1 AAWKILGYDRCDACWLADGSVRYPISRPRRRCSPTEAAVRFVGFPDKKHKLYGVYCFRAY 353
    151P3D4v.2 AAWKILGYDRCDAGWLADGSVRYPISRPRRRCSPTEAAVRPVGFPDKKNKLYGVYCFRAY 720
    ************************************************************
    151P3D4v.1 N 354
    151P3D4v.2 N 721
  • [0856]
  • 1 67 1 417 DNA Homo sapiens misc_feature 393 n = a, t, c, or g 1 gatccacccc accaaactga cctatgatga agcggtgcaa gcttgtctca atgatggtgc 60 tcagattgca aaagtgggcc agatatttgc tgcctggaaa attctcggat atgaccgctg 120 tgatgcgggc tggttggcgg atggcagcgt ccgctacccc atctctaggc caagaaggcg 180 ctgcagtcct actgaggctg cagtgcgctt cgtgggtttc ccagataaaa agcataagct 240 gtatggtgtc tactgcttca gagcatacaa ctgaatgtgc ccttagagcg catcagtttt 300 aaagtcatta agaacatgtg aaaggtgttt tttttttcca atatgaactc atgcaagtta 360 ccaaaactgt gataaccctt ttttacttac tgnaaagaag tcattttcat aaagatc 417 2 1957 DNA Homo sapiens CDS (316)...(1380) 2 ttaggctgta attaggggat ttgggaggag aactttcctg gtgacgcttt gcttttcttc 60 tgctcttggt gagaaagtgc ctccttcttc ccaggatcag gacctctgcc atccagcgcc 120 acaaagagac attctgcaca cacactcaca cacacacaca cacacacact ctcacactcg 180 cccagagaca aacttaaggt gaggagaaag agcgctacgt tcacttgatc tccagcttcc 240 aacttaagca gaacttgaga gcatccgaac tcctggattt caggacaagt gaagaagatt 300 ctttgggcta taaag atg aag agt cta ctt ctt ctg gtg ctg att tca atc 351 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile 1 5 10 tgc tgg gct gat cat ctt tca gac aac tat act ctg gat cat gac aga 399 Cys Trp Ala Asp His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg 15 20 25 gct att cac atc caa gca gaa aat ggc ccc cat cta ctt gtg gaa gca 447 Ala Ile His Ile Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala 30 35 40 gag caa gcc aag gtg ttt tca cac aga ggt ggc aat gtt aca ctg cca 495 Glu Gln Ala Lys Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro 45 50 55 60 tgt aaa ttt tat cga gac cct aca gca ttt ggc tca gga atc cat aaa 543 Cys Lys Phe Tyr Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys 65 70 75 atc cga att aag tgg acc aag cta act tcg gat tac ctc aag gaa gtg 591 Ile Arg Ile Lys Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val 80 85 90 gat gtt ttt gtt tcc atg gga tac cac aaa aaa acc tat gga ggc tac 639 Asp Val Phe Val Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr 95 100 105 cag ggt aga gtg ttt ctg aag gga ggc agt gat agt gat gct tct ctg 687 Gln Gly Arg Val Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu 110 115 120 gtc atc aca gac ctc act ctg gaa gat tat ggg aga tat aag tgt gag 735 Val Ile Thr Asp Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu 125 130 135 140 gtg att gaa gga tta gaa gat gat act gtt gtg gta gca ctg gac tta 783 Val Ile Glu Gly Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu 145 150 155 caa ggt gtg gta ttc cct tac ttt cca cga ctg ggg cgc tac aat ctc 831 Gln Gly Val Val Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu 160 165 170 aat ttt cac gag gcg cag cag gcg tgt ctg gac cag gat gct gtg atc 879 Asn Phe His Glu Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile 175 180 185 gcc tcc ttc gac cag ctg tac gac gcc tgg cgg ggc ggg ctg gac tgg 927 Ala Ser Phe Asp Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp 190 195 200 tgc aat gcc ggc tgg ctc agt gat ggc tct gtg caa tat ccc atc aca 975 Cys Asn Ala Gly Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr 205 210 215 220 aag ccc aga gag ccc tgt ggg ggc cag aac aca gtg ccc gga gtc agg 1023 Lys Pro Arg Glu Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg 225 230 235 aac tac gga ttt tgg gat aaa gat aaa agc aga tat gat gtt ttc tgt 1071 Asn Tyr Gly Phe Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys 240 245 250 ttt aca tcc aat ttc aat ggc cgt ttt tac tat ctg atc cac ccc acc 1119 Phe Thr Ser Asn Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr 255 260 265 aaa ctg acc tat gat gaa gcg gtg caa gct tgt ctc aat gat ggt gct 1167 Lys Leu Thr Tyr Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala 270 275 280 cag att gca aaa gtg ggc cag ata ttt gct gcc tgg aaa att ctc gga 1215 Gln Ile Ala Lys Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly 285 290 295 300 tat gac cgc tgt gat gcg ggc tgg ttg gcg gat ggc agc gtc cgc tac 1263 Tyr Asp Arg Cys Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr 305 310 315 ccc atc tct agg cca aga agg cgc tgc agt cct act gag gct gca gtg 1311 Pro Ile Ser Arg Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val 320 325 330 cgc ttc gtg ggt ttc cca gat aaa aag cat aag ctg tat ggt gtc tac 1359 Arg Phe Val Gly Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr 335 340 345 tgc ttc aga gca tac aac tga atgtgccctt agagcgcatc agttttaaag 1410 Cys Phe Arg Ala Tyr Asn * 350 tcattaagaa catgtgaaag gtgttttttt tttccaatat gaactcatgc aagttaccaa 1470 aactgtgata accctttttt acttactgta aagagtcatt ttcataagat caattcattg 1530 atttgttttt tgtaaagcta tcattcaata tatattataa attaatataa atttaaggga 1590 agctctatgt aaggagactt agagccaaac tgtttaagct gtatcatccc aacaaagtat 1650 cctttcatga acggggcatg caatagctta agaattgcta ggattaaatt aaggaaagta 1710 aagctactca gagcaacagg ttccacaagc acaaacttta cacatttgta caattttgaa 1770 atgcactaca ataaacaaat tagagcaaca catttgaaat acaggcttct ttacataaac 1830 tgagaggtta tacaaaactc agtttcacaa gggaacaatc tatacctttc taaaagttaa 1890 tatttcaagt ctctaatagg cagaatattt tactctttaa aatcctgcct ttctgaccaa 1950 aaaaaaa 1957 3 354 PRT Homo sapiens 3 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 4 2166 DNA Homo sapiens CDS (1)...(2166) 4 atg ttg gag cat act act aag aca ttc ccc tta aga gca ctg cac ata 48 Met Leu Glu His Thr Thr Lys Thr Phe Pro Leu Arg Ala Leu His Ile 1 5 10 15 gtt gtg gaa agc att agg gac cac agt ggc caa aaa atg aag cag gat 96 Val Val Glu Ser Ile Arg Asp His Ser Gly Gln Lys Met Lys Gln Asp 20 25 30 aag aag gtg gat ctt ctt gtt cca acc aaa gtg act ggc atc att aca 144 Lys Lys Val Asp Leu Leu Val Pro Thr Lys Val Thr Gly Ile Ile Thr 35 40 45 caa gga gct aaa gat ttt ggt cat gta cag ttt gtt ggc tcc tac aaa 192 Gln Gly Ala Lys Asp Phe Gly His Val Gln Phe Val Gly Ser Tyr Lys 50 55 60 ctg gct tac agc aat gat gga gaa cac tgg act gta tac cag gat gaa 240 Leu Ala Tyr Ser Asn Asp Gly Glu His Trp Thr Val Tyr Gln Asp Glu 65 70 75 80 aag caa aga aaa gat aag gta ctg ctg ggc cgg aag gcg gtg gtc gta 288 Lys Gln Arg Lys Asp Lys Val Leu Leu Gly Arg Lys Ala Val Val Val 85 90 95 agc tgc gaa ggc atc aac att tct ggc agt ttc tgc aga aac aag ttg 336 Ser Cys Glu Gly Ile Asn Ile Ser Gly Ser Phe Cys Arg Asn Lys Leu 100 105 110 aag tac ctg gct ttc ctc cac aag cgg atg aac acc aac cct tct cga 384 Lys Tyr Leu Ala Phe Leu His Lys Arg Met Asn Thr Asn Pro Ser Arg 115 120 125 cgc ccc tac cac ttc cag gtc ccc agc cgc atc ttc tgg cga caa gaa 432 Arg Pro Tyr His Phe Gln Val Pro Ser Arg Ile Phe Trp Arg Gln Glu 130 135 140 aaa gca gat ggt ggt tcc tgc tgc cct caa ggt cat gcg tct gaa gcc 480 Lys Ala Asp Gly Gly Ser Cys Cys Pro Gln Gly His Ala Ser Glu Ala 145 150 155 160 tac aag aaa gtt tgc cta tct ggg gcg cct cac gag gtt ggc tgg aag 528 Tyr Lys Lys Val Cys Leu Ser Gly Ala Pro His Glu Val Gly Trp Lys 165 170 175 tac cag gca gtg aca gcc acc ctg gag gaa aag agg aaa gag aaa gcc 576 Tyr Gln Ala Val Thr Ala Thr Leu Glu Glu Lys Arg Lys Glu Lys Ala 180 185 190 gag atc cac tac cgg aag aat aaa cag ctc atg agg cta cag aaa cag 624 Glu Ile His Tyr Arg Lys Asn Lys Gln Leu Met Arg Leu Gln Lys Gln 195 200 205 gcc gag aag aac atg aag aag aaa att gac aaa tac aca gag agt cca 672 Ala Glu Lys Asn Met Lys Lys Lys Ile Asp Lys Tyr Thr Glu Ser Pro 210 215 220 gga gga ggc agt ccc cgt ggc tta ggc ttt atc ttt aag aca ata gcg 720 Gly Gly Gly Ser Pro Arg Gly Leu Gly Phe Ile Phe Lys Thr Ile Ala 225 230 235 240 ccg ctc gcc gcc acc cgc gcg act cgg atc ggg cat ccc ggc ggc cgc 768 Pro Leu Ala Ala Thr Arg Ala Thr Arg Ile Gly His Pro Gly Gly Arg 245 250 255 acc ccg cgc gct ggc tca tct gca cac cgg cca cct gca ttg tcg gcc 816 Thr Pro Arg Ala Gly Ser Ser Ala His Arg Pro Pro Ala Leu Ser Ala 260 265 270 aga gcc ccc gtc ccg gcg gct tcc cca gca gct tgg ctg ccc ctc agg 864 Arg Ala Pro Val Pro Ala Ala Ser Pro Ala Ala Trp Leu Pro Leu Arg 275 280 285 acg ccc tgg acc cgc cca tcc tcc tgc ccc act agc tca tcg act tac 912 Thr Pro Trp Thr Arg Pro Ser Ser Cys Pro Thr Ser Ser Ser Thr Tyr 290 295 300 gac tcc ctc agt ccc tac ggc cca cgg aac cct ctc ccc aac ccg cgc 960 Asp Ser Leu Ser Pro Tyr Gly Pro Arg Asn Pro Leu Pro Asn Pro Arg 305 310 315 320 cac agc ccg agc ggc ggc ggc ggc ctt aag aag ccc gca aga cac tgt 1008 His Ser Pro Ser Gly Gly Gly Gly Leu Lys Lys Pro Ala Arg His Cys 325 330 335 caa ggt caa aag cac aat gtg cta gcc agg ggg aaa ccc cag aga aag 1056 Gln Gly Gln Lys His Asn Val Leu Ala Arg Gly Lys Pro Gln Arg Lys 340 345 350 cca aaa tct gaa aat aac agc tgg tat gta gaa aac ggc aga cct gct 1104 Pro Lys Ser Glu Asn Asn Ser Trp Tyr Val Glu Asn Gly Arg Pro Ala 355 360 365 gac ttg gca ggc tca gga tat tgt ggt gct ctt tgg aag gca ata gag 1152 Asp Leu Ala Gly Ser Gly Tyr Cys Gly Ala Leu Trp Lys Ala Ile Glu 370 375 380 tcc ttg gag gaa gga ctt gga gga aaa caa aag gac aag gaa agg aaa 1200 Ser Leu Glu Glu Gly Leu Gly Gly Lys Gln Lys Asp Lys Glu Arg Lys 385 390 395 400 gca gaa aat ggc ccc cat cta ctt gtg gaa gca gag caa gcc aag gtg 1248 Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys Val 405 410 415 ttt tca cac aga ggt ggc aat gtt aca ctg cca tgt aaa ttt tat cga 1296 Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr Arg 420 425 430 gac cct aca gca ttt ggc tca gga atc cat aaa atc cga att aag tgg 1344 Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys Trp 435 440 445 acc aag cta act tcg gat tac ctc aag gaa gtg gat gtt ttt gtt tcc 1392 Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val Ser 450 455 460 atg gga tac cac aaa aaa acc tat gga ggc tac cag ggt aga gtg ttt 1440 Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val Phe 465 470 475 480 ctg aag gga ggc agt gat agt gat gct tct ctg gtc atc aca gac ctc 1488 Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp Leu 485 490 495 act ctg gaa gat tat ggg aga tat aag tgt gag gtg att gaa gga tta 1536 Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly Leu 500 505 510 gaa gat gat act gtt gtg gta gca ctg gac tta caa ggt gtg gta ttc 1584 Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val Phe 515 520 525 cct tac ttt cca cga ctg ggg cgc tac aat ctc aat ttt cac gag gcg 1632 Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu Ala 530 535 540 cag cag gcg tgt ctg gac cag gat gct gtg atc gcc tcc ttc gac cag 1680 Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp Gln 545 550 555 560 ctg tac gac gcc tgg cgg ggc ggg ctg gac tgg tgc aat gcc ggc tgg 1728 Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly Trp 565 570 575 ctc agt gat ggc tct gtg caa tat ccc atc aca aag ccc aga gag ccc 1776 Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu Pro 580 585 590 tgt ggg ggg cag aac aca gtg ccc gga gtc agg aac tac gga ttt tgg 1824 Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe Trp 595 600 605 gat aaa gat aaa agc aga tat gat gtt ttc tgt ttt aca tcc aat ttc 1872 Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn Phe 610 615 620 aat ggc cgt ttt tac tat ctg atc cac ccc acc aaa ctg acc tat gat 1920 Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr Asp 625 630 635 640 gaa gcg gtg caa gct tgt ctc aat gat ggt gct cag att gca aaa gtg 1968 Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys Val 645 650 655 ggc cag ata ttt gct gcc tgg aaa att ctc gga tat gac cgc tgt gat 2016 Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys Asp 660 665 670 gcg ggc tgg ttg gcg gat ggc agc gtc cgc tac ccc atc tct agg cca 2064 Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg Pro 675 680 685 aga agg cgc tgc agt cct act gag gct gca gtg cgc ttc gtg ggt ttc 2112 Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly Phe 690 695 700 cca gat aaa aag cat aag ctg tat ggt gtc tac tgc ttc aga gca tac 2160 Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala Tyr 705 710 715 720 aac tga 2166 Asn * 5 721 PRT Homo sapiens 5 Met Leu Glu His Thr Thr Lys Thr Phe Pro Leu Arg Ala Leu His Ile 1 5 10 15 Val Val Glu Ser Ile Arg Asp His Ser Gly Gln Lys Met Lys Gln Asp 20 25 30 Lys Lys Val Asp Leu Leu Val Pro Thr Lys Val Thr Gly Ile Ile Thr 35 40 45 Gln Gly Ala Lys Asp Phe Gly His Val Gln Phe Val Gly Ser Tyr Lys 50 55 60 Leu Ala Tyr Ser Asn Asp Gly Glu His Trp Thr Val Tyr Gln Asp Glu 65 70 75 80 Lys Gln Arg Lys Asp Lys Val Leu Leu Gly Arg Lys Ala Val Val Val 85 90 95 Ser Cys Glu Gly Ile Asn Ile Ser Gly Ser Phe Cys Arg Asn Lys Leu 100 105 110 Lys Tyr Leu Ala Phe Leu His Lys Arg Met Asn Thr Asn Pro Ser Arg 115 120 125 Arg Pro Tyr His Phe Gln Val Pro Ser Arg Ile Phe Trp Arg Gln Glu 130 135 140 Lys Ala Asp Gly Gly Ser Cys Cys Pro Gln Gly His Ala Ser Glu Ala 145 150 155 160 Tyr Lys Lys Val Cys Leu Ser Gly Ala Pro His Glu Val Gly Trp Lys 165 170 175 Tyr Gln Ala Val Thr Ala Thr Leu Glu Glu Lys Arg Lys Glu Lys Ala 180 185 190 Glu Ile His Tyr Arg Lys Asn Lys Gln Leu Met Arg Leu Gln Lys Gln 195 200 205 Ala Glu Lys Asn Met Lys Lys Lys Ile Asp Lys Tyr Thr Glu Ser Pro 210 215 220 Gly Gly Gly Ser Pro Arg Gly Leu Gly Phe Ile Phe Lys Thr Ile Ala 225 230 235 240 Pro Leu Ala Ala Thr Arg Ala Thr Arg Ile Gly His Pro Gly Gly Arg 245 250 255 Thr Pro Arg Ala Gly Ser Ser Ala His Arg Pro Pro Ala Leu Ser Ala 260 265 270 Arg Ala Pro Val Pro Ala Ala Ser Pro Ala Ala Trp Leu Pro Leu Arg 275 280 285 Thr Pro Trp Thr Arg Pro Ser Ser Cys Pro Thr Ser Ser Ser Thr Tyr 290 295 300 Asp Ser Leu Ser Pro Tyr Gly Pro Arg Asn Pro Leu Pro Asn Pro Arg 305 310 315 320 His Ser Pro Ser Gly Gly Gly Gly Leu Lys Lys Pro Ala Arg His Cys 325 330 335 Gln Gly Gln Lys His Asn Val Leu Ala Arg Gly Lys Pro Gln Arg Lys 340 345 350 Pro Lys Ser Glu Asn Asn Ser Trp Tyr Val Glu Asn Gly Arg Pro Ala 355 360 365 Asp Leu Ala Gly Ser Gly Tyr Cys Gly Ala Leu Trp Lys Ala Ile Glu 370 375 380 Ser Leu Glu Glu Gly Leu Gly Gly Lys Gln Lys Asp Lys Glu Arg Lys 385 390 395 400 Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys Val 405 410 415 Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr Arg 420 425 430 Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys Trp 435 440 445 Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val Ser 450 455 460 Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val Phe 465 470 475 480 Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp Leu 485 490 495 Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly Leu 500 505 510 Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val Phe 515 520 525 Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu Ala 530 535 540 Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp Gln 545 550 555 560 Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly Trp 565 570 575 Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu Pro 580 585 590 Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe Trp 595 600 605 Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn Phe 610 615 620 Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr Asp 625 630 635 640 Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys Val 645 650 655 Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys Asp 660 665 670 Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg Pro 675 680 685 Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly Phe 690 695 700 Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala Tyr 705 710 715 720 Asn 6 1957 DNA Homo sapiens CDS (316)...(1380) 6 ttaggctgta attaggggat ttgggaggag aactttcctg gtgacgcttt gcttttcttc 60 tgctcttggt gagaaagtgc ctccttcttc ccaggatcag gacctctgcc atccagcgcc 120 acaaagagac attctgcaca cacactcaca cacgcacaca cacacacact ctcacactcg 180 cccagagaca aacttaaggt gaggagaaag agcgctacgt tcacttgatc tccagcttcc 240 aacttaagca gaacttgaga gcatccgaac tcctggattt caggacaagt gaagaagatt 300 ctttgggcta taaag atg aag agt cta ctt ctt ctg gtg ctg att tca atc 351 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile 1 5 10 tgc tgg gct gat cat ctt tca gac aac tat act ctg gat cat gac aga 399 Cys Trp Ala Asp His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg 15 20 25 gct att cac atc caa gca gaa aat ggc ccc cat cta ctt gtg gaa gca 447 Ala Ile His Ile Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala 30 35 40 gag caa gcc aag gtg ttt tca cac aga ggt ggc aat gtt aca ctg cca 495 Glu Gln Ala Lys Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro 45 50 55 60 tgt aaa ttt tat cga gac cct aca gca ttt ggc tca gga atc cat aaa 543 Cys Lys Phe Tyr Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys 65 70 75 atc cga att aag tgg acc aag cta act tcg gat tac ctc aag gaa gtg 591 Ile Arg Ile Lys Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val 80 85 90 gat gtt ttt gtt tcc atg gga tac cac aaa aaa acc tat gga ggc tac 639 Asp Val Phe Val Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr 95 100 105 cag ggt aga gtg ttt ctg aag gga ggc agt gat agt gat gct tct ctg 687 Gln Gly Arg Val Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu 110 115 120 gtc atc aca gac ctc act ctg gaa gat tat ggg aga tat aag tgt gag 735 Val Ile Thr Asp Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu 125 130 135 140 gtg att gaa gga tta gaa gat gat act gtt gtg gta gca ctg gac tta 783 Val Ile Glu Gly Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu 145 150 155 caa ggt gtg gta ttc cct tac ttt cca cga ctg ggg cgc tac aat ctc 831 Gln Gly Val Val Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu 160 165 170 aat ttt cac gag gcg cag cag gcg tgt ctg gac cag gat gct gtg atc 879 Asn Phe His Glu Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile 175 180 185 gcc tcc ttc gac cag ctg tac gac gcc tgg cgg ggc ggg ctg gac tgg 927 Ala Ser Phe Asp Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp 190 195 200 tgc aat gcc ggc tgg ctc agt gat ggc tct gtg caa tat ccc atc aca 975 Cys Asn Ala Gly Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr 205 210 215 220 aag ccc aga gag ccc tgt ggg ggc cag aac aca gtg ccc gga gtc agg 1023 Lys Pro Arg Glu Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg 225 230 235 aac tac gga ttt tgg gat aaa gat aaa agc aga tat gat gtt ttc tgt 1071 Asn Tyr Gly Phe Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys 240 245 250 ttt aca tcc aat ttc aat ggc cgt ttt tac tat ctg atc cac ccc acc 1119 Phe Thr Ser Asn Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr 255 260 265 aaa ctg acc tat gat gaa gcg gtg caa gct tgt ctc aat gat ggt gct 1167 Lys Leu Thr Tyr Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala 270 275 280 cag att gca aaa gtg ggc cag ata ttt gct gcc tgg aaa att ctc gga 1215 Gln Ile Ala Lys Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly 285 290 295 300 tat gac cgc tgt gat gcg ggc tgg ttg gcg gat ggc agc gtc cgc tac 1263 Tyr Asp Arg Cys Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr 305 310 315 ccc atc tct agg cca aga agg cgc tgc agt cct act gag gct gca gtg 1311 Pro Ile Ser Arg Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val 320 325 330 cgc ttc gtg ggt ttc cca gat aaa aag cat aag ctg tat ggt gtc tac 1359 Arg Phe Val Gly Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr 335 340 345 tgc ttc aga gca tac aac tga atgtgccctt agagcgcatc agttttaaag 1410 Cys Phe Arg Ala Tyr Asn * 350 tcattaagaa catgtgaaag gtgttttttt tttccaatat gaactcatgc aagttaccaa 1470 aactgtgata accctttttt acttactgta aagagtcatt ttcataagat caattcattg 1530 atttgttttt tgtaaagcta tcattcaata tatattataa attaatataa atttaaggga 1590 agctctatgt aaggagactt agagccaaac tgtttaagct gtatcatccc aacaaagtat 1650 cctttcatga acggggcatg caatagctta agaattgcta ggattaaatt aaggaaagta 1710 aagctactca gagcaacagg ttccacaagc acaaacttta cacatttgta caattttgaa 1770 atgcactaca ataaacaaat tagagcaaca catttgaaat acaggcttct ttacataaac 1830 tgagaggtta tacaaaactc agtttcacaa gggaacaatc tatacctttc taaaagttaa 1890 tatttcaagt ctctaatagg cagaatattt tactctttaa aatcctgcct ttctgaccaa 1950 aaaaaaa 1957 7 354 PRT Homo sapiens 7 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 8 1957 DNA Homo sapiens CDS (316)...(1380) 8 ttaggctgta attaggggat ttgggaggag aactttcctg gtgacgcttt gcttttcttc 60 tgctcttggt gagaaagtgc ctccttcttc ccaggatcag gacctctgcc atccagcgcc 120 acaaagagac attctgcaca cacactcaca cacacacaca cacacacact ctcacactcg 180 cccagagaca aacttaaggt gaggagaaag agcgctaggt tcacttgatc tccagcttcc 240 aacttaagca gaacttgaga gcatccgaac tcctggattt caggacaagt gaagaagatt 300 ctttgggcta taaag atg aag agt cta ctt ctt ctg gtg ctg att tca atc 351 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile 1 5 10 tgc tgg gct gat cat ctt tca gac aac tat act ctg gat cat gac aga 399 Cys Trp Ala Asp His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg 15 20 25 gct att cac atc caa gca gaa aat ggc ccc cat cta ctt gtg gaa gca 447 Ala Ile His Ile Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala 30 35 40 gag caa gcc aag gtg ttt tca cac aga ggt ggc aat gtt aca ctg cca 495 Glu Gln Ala Lys Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro 45 50 55 60 tgt aaa ttt tat cga gac cct aca gca ttt ggc tca gga atc cat aaa 543 Cys Lys Phe Tyr Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys 65 70 75 atc cga att aag tgg acc aag cta act tcg gat tac ctc aag gaa gtg 591 Ile Arg Ile Lys Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val 80 85 90 gat gtt ttt gtt tcc atg gga tac cac aaa aaa acc tat gga ggc tac 639 Asp Val Phe Val Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr 95 100 105 cag ggt aga gtg ttt ctg aag gga ggc agt gat agt gat gct tct ctg 687 Gln Gly Arg Val Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu 110 115 120 gtc atc aca gac ctc act ctg gaa gat tat ggg aga tat aag tgt gag 735 Val Ile Thr Asp Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu 125 130 135 140 gtg att gaa gga tta gaa gat gat act gtt gtg gta gca ctg gac tta 783 Val Ile Glu Gly Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu 145 150 155 caa ggt gtg gta ttc cct tac ttt cca cga ctg ggg cgc tac aat ctc 831 Gln Gly Val Val Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu 160 165 170 aat ttt cac gag gcg cag cag gcg tgt ctg gac cag gat gct gtg atc 879 Asn Phe His Glu Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile 175 180 185 gcc tcc ttc gac cag ctg tac gac gcc tgg cgg ggc ggg ctg gac tgg 927 Ala Ser Phe Asp Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp 190 195 200 tgc aat gcc ggc tgg ctc agt gat ggc tct gtg caa tat ccc atc aca 975 Cys Asn Ala Gly Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr 205 210 215 220 aag ccc aga gag ccc tgt ggg ggc cag aac aca gtg ccc gga gtc agg 1023 Lys Pro Arg Glu Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg 225 230 235 aac tac gga ttt tgg gat aaa gat aaa agc aga tat gat gtt ttc tgt 1071 Asn Tyr Gly Phe Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys 240 245 250 ttt aca tcc aat ttc aat ggc cgt ttt tac tat ctg atc cac ccc acc 1119 Phe Thr Ser Asn Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr 255 260 265 aaa ctg acc tat gat gaa gcg gtg caa gct tgt ctc aat gat ggt gct 1167 Lys Leu Thr Tyr Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala 270 275 280 cag att gca aaa gtg ggc cag ata ttt gct gcc tgg aaa att ctc gga 1215 Gln Ile Ala Lys Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly 285 290 295 300 tat gac cgc tgt gat gcg ggc tgg ttg gcg gat ggc agc gtc cgc tac 1263 Tyr Asp Arg Cys Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr 305 310 315 ccc atc tct agg cca aga agg cgc tgc agt cct act gag gct gca gtg 1311 Pro Ile Ser Arg Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val 320 325 330 cgc ttc gtg ggt ttc cca gat aaa aag cat aag ctg tat ggt gtc tac 1359 Arg Phe Val Gly Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr 335 340 345 tgc ttc aga gca tac aac tga atgtgccctt agagcgcatc agttttaaag 1410 Cys Phe Arg Ala Tyr Asn * 350 tcattaagaa catgtgaaag gtgttttttt tttccaatat gaactcatgc aagttaccaa 1470 aactgtgata accctttttt acttactgta aagagtcatt ttcataagat caattcattg 1530 atttgttttt tgtaaagcta tcattcaata tatattataa attaatataa atttaaggga 1590 agctctatgt aaggagactt agagccaaac tgtttaagct gtatcatccc aacaaagtat 1650 cctttcatga acggggcatg caatagctta agaattgcta ggattaaatt aaggaaagta 1710 aagctactca gagcaacagg ttccacaagc acaaacttta cacatttgta caattttgaa 1770 atgcactaca ataaacaaat tagagcaaca catttgaaat acaggcttct ttacataaac 1830 tgagaggtta tacaaaactc agtttcacaa gggaacaatc tatacctttc taaaagttaa 1890 tatttcaagt ctctaatagg cagaatattt tactctttaa aatcctgcct ttctgaccaa 1950 aaaaaaa 1957 9 354 PRT Homo sapiens 9 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 10 1957 DNA Homo sapiens CDS (316)...(1380) 10 ttaggctgta attaggggat ttgggaggag aactttcctg gtgacgcttt gcttttcttc 60 tgctcttggt gagaaagtgc ctccttcttc ccaggatcag gacctctgcc atccagcgcc 120 acaaagagac attctgcaca cacactcaca cacacacaca cacacacact ctcacactcg 180 cccagagaca aacttaaggt gaggagaaag agcgctacct tcacttgatc tccagcttcc 240 aacttaagca gaacttgaga gcatccgaac tcctggattt caggacaagt gaagaagatt 300 ctttgggcta taaag atg aag agt cta ctt ctt ctg gtg ctg att tca atc 351 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile 1 5 10 tgc tgg gct gat cat ctt tca gac aac tat act ctg gat cat gac aga 399 Cys Trp Ala Asp His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg 15 20 25 gct att cac atc caa gca gaa aat ggc ccc cat cta ctt gtg gaa gca 447 Ala Ile His Ile Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala 30 35 40 gag caa gcc aag gtg ttt tca cac aga ggt ggc aat gtt aca ctg cca 495 Glu Gln Ala Lys Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro 45 50 55 60 tgt aaa ttt tat cga gac cct aca gca ttt ggc tca gga atc cat aaa 543 Cys Lys Phe Tyr Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys 65 70 75 atc cga att aag tgg acc aag cta act tcg gat tac ctc aag gaa gtg 591 Ile Arg Ile Lys Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val 80 85 90 gat gtt ttt gtt tcc atg gga tac cac aaa aaa acc tat gga ggc tac 639 Asp Val Phe Val Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr 95 100 105 cag ggt aga gtg ttt ctg aag gga ggc agt gat agt gat gct tct ctg 687 Gln Gly Arg Val Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu 110 115 120 gtc atc aca gac ctc act ctg gaa gat tat ggg aga tat aag tgt gag 735 Val Ile Thr Asp Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu 125 130 135 140 gtg att gaa gga tta gaa gat gat act gtt gtg gta gca ctg gac tta 783 Val Ile Glu Gly Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu 145 150 155 caa ggt gtg gta ttc cct tac ttt cca cga ctg ggg cgc tac aat ctc 831 Gln Gly Val Val Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu 160 165 170 aat ttt cac gag gcg cag cag gcg tgt ctg gac cag gat gct gtg atc 879 Asn Phe His Glu Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile 175 180 185 gcc tcc ttc gac cag ctg tac gac gcc tgg cgg ggc ggg ctg gac tgg 927 Ala Ser Phe Asp Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp 190 195 200 tgc aat gcc ggc tgg ctc agt gat ggc tct gtg caa tat ccc atc aca 975 Cys Asn Ala Gly Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr 205 210 215 220 aag ccc aga gag ccc tgt ggg ggc cag aac aca gtg ccc gga gtc agg 1023 Lys Pro Arg Glu Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg 225 230 235 aac tac gga ttt tgg gat aaa gat aaa agc aga tat gat gtt ttc tgt 1071 Asn Tyr Gly Phe Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys 240 245 250 ttt aca tcc aat ttc aat ggc cgt ttt tac tat ctg atc cac ccc acc 1119 Phe Thr Ser Asn Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr 255 260 265 aaa ctg acc tat gat gaa gcg gtg caa gct tgt ctc aat gat ggt gct 1167 Lys Leu Thr Tyr Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala 270 275 280 cag att gca aaa gtg ggc cag ata ttt gct gcc tgg aaa att ctc gga 1215 Gln Ile Ala Lys Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly 285 290 295 300 tat gac cgc tgt gat gcg ggc tgg ttg gcg gat ggc agc gtc cgc tac 1263 Tyr Asp Arg Cys Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr 305 310 315 ccc atc tct agg cca aga agg cgc tgc agt cct act gag gct gca gtg 1311 Pro Ile Ser Arg Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val 320 325 330 cgc ttc gtg ggt ttc cca gat aaa aag cat aag ctg tat ggt gtc tac 1359 Arg Phe Val Gly Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr 335 340 345 tgc ttc aga gca tac aac tga atgtgccctt agagcgcatc agttttaaag 1410 Cys Phe Arg Ala Tyr Asn * 350 tcattaagaa catgtgaaag gtgttttttt tttccaatat gaactcatgc aagttaccaa 1470 aactgtgata accctttttt acttactgta aagagtcatt ttcataagat caattcattg 1530 atttgttttt tgtaaagcta tcattcaata tatattataa attaatataa atttaaggga 1590 agctctatgt aaggagactt agagccaaac tgtttaagct gtatcatccc aacaaagtat 1650 cctttcatga acggggcatg caatagctta agaattgcta ggattaaatt aaggaaagta 1710 aagctactca gagcaacagg ttccacaagc acaaacttta cacatttgta caattttgaa 1770 atgcactaca ataaacaaat tagagcaaca catttgaaat acaggcttct ttacataaac 1830 tgagaggtta tacaaaactc agtttcacaa gggaacaatc tatacctttc taaaagttaa 1890 tatttcaagt ctctaatagg cagaatattt tactctttaa aatcctgcct ttctgaccaa 1950 aaaaaaa 1957 11 354 PRT Homo sapiens 11 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 12 1957 DNA Homo sapiens CDS (316)...(1380) 12 ttaggctgta attaggggat ttgggaggag aactttcctg gtgacgcttt gcttttcttc 60 tgctcttggt gagaaagtgc ctccttcttc ccaggatcag gacctctgcc atccagcgcc 120 acaaagagac attctgcaca cacactcaca cacacacaca cacacacact ctcacactcg 180 cccagagaca aacttaaggt gaggagaaag agcgctacgt tcacttgatc tccagcttcc 240 aacttaagca gaacttgaga gcatccgaac tcctggattt caggacaagt gaagaagatt 300 ctttgggcta taaag atg aag agt cta ctt ctt ctg gtg ctg att tca atc 351 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile 1 5 10 tgc tgg gct gat cat ctt tca gac aac tat act ctg gat cat gac aga 399 Cys Trp Ala Asp His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg 15 20 25 gct att cac atc caa gca gaa aat ggc ccc cat cta ctt gtg gaa gca 447 Ala Ile His Ile Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala 30 35 40 gag caa gcc aag gtg ttt tca cac aga ggt ggc aat gtt aca ctg cca 495 Glu Gln Ala Lys Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro 45 50 55 60 tgt aaa ttt tat cga gac cct aca gca ttt ggc tca gga atc cat aaa 543 Cys Lys Phe Tyr Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys 65 70 75 atc cga att aag tgg acc aag cta act tcg gat tac ctc aag gaa gtg 591 Ile Arg Ile Lys Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val 80 85 90 gat gtt ttt gtt tcc atg gga tac cac aaa aaa acc tat gga ggc tac 639 Asp Val Phe Val Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr 95 100 105 cag ggt aga gtg ttt ctg aag gga ggc agt gat agt gat gct tct ctg 687 Gln Gly Arg Val Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu 110 115 120 gtc atc aca gac ctc act ctg gaa gat tat ggg aga tat aag tgt gag 735 Val Ile Thr Asp Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu 125 130 135 140 gtg att gaa gga tta gaa gat gat act gtt gtg gta gca ctg gac tta 783 Val Ile Glu Gly Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu 145 150 155 caa ggt gtg gta ttc cct tac ttt cca cga ctg ggg cgc tac aat ctc 831 Gln Gly Val Val Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu 160 165 170 aat ttt cac gag gcg cag cag gcg tgt ctg gac cag gat gct gtg atc 879 Asn Phe His Glu Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile 175 180 185 gcc tcc ttc gac cag ctg tac gac gcc tgg cgg ggc ggg ctg gac tgg 927 Ala Ser Phe Asp Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp 190 195 200 tgc aat gcc ggc tgg ctc agt gat ggc tct gtg caa tat ccc atc aca 975 Cys Asn Ala Gly Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr 205 210 215 220 aag ccc aga gag ccc tgt ggg ggg cag aac aca gtg ccc gga gtc agg 1023 Lys Pro Arg Glu Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg 225 230 235 aac tac gga ttt tgg gat aaa gat aaa agc aga tat gat gtt ttc tgt 1071 Asn Tyr Gly Phe Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys 240 245 250 ttt aca tcc aat ttc aat ggc cgt ttt tac tat ctg atc cac ccc acc 1119 Phe Thr Ser Asn Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr 255 260 265 aaa ctg acc tat gat gaa gcg gtg caa gct tgt ctc aat gat ggt gct 1167 Lys Leu Thr Tyr Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala 270 275 280 cag att gca aaa gtg ggc cag ata ttt gct gcc tgg aaa att ctc gga 1215 Gln Ile Ala Lys Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly 285 290 295 300 tat gac cgc tgt gat gcg ggc tgg ttg gcg gat ggc agc gtc cgc tac 1263 Tyr Asp Arg Cys Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr 305 310 315 ccc atc tct agg cca aga agg cgc tgc agt cct act gag gct gca gtg 1311 Pro Ile Ser Arg Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val 320 325 330 cgc ttc gtg ggt ttc cca gat aaa aag cat aag ctg tat ggt gtc tac 1359 Arg Phe Val Gly Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr 335 340 345 tgc ttc aga gca tac aac tga atgtgccctt agagcgcatc agttttaaag 1410 Cys Phe Arg Ala Tyr Asn * 350 tcattaagaa catgtgaaag gtgttttttt tttccaatat gaactcatgc aagttaccaa 1470 aactgtgata accctttttt acttactgta aagagtcatt ttcataagat caattcattg 1530 atttgttttt tgtaaagcta tcattcaata tatattataa attaatataa atttaaggga 1590 agctctatgt aaggagactt agagccaaac tgtttaagct gtatcatccc aacaaagtat 1650 cctttcatga acggggcatg caatagctta agaattgcta ggattaaatt aaggaaagta 1710 aagctactca gagcaacagg ttccacaagc acaaacttta cacatttgta caattttgaa 1770 atgcactaca ataaacaaat tagagcaaca catttgaaat acaggcttct ttacataaac 1830 tgagaggtta tacaaaactc agtttcacaa gggaacaatc tatacctttc taaaagttaa 1890 tatttcaagt ctctaatagg cagaatattt tactctttaa aatcctgcct ttctgaccaa 1950 aaaaaaa 1957 13 354 PRT Homo sapiens 13 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 14 1957 DNA Homo sapiens CDS (316)...(1380) 14 ttaggctgta attaggggat ttgggaggag aactttcctg gtgacgcttt gcttttcttc 60 tgctcttggt gagaaagtgc ctccttcttc ccaggatcag gacctctgcc atccagcgcc 120 acaaagagac attctgcaca cacactcaca cacacacaca cacacacact ctcacactcg 180 cccagagaca aacttaaggt gaggagaaag agcgctacgt tcacttgatc tccagcttcc 240 aacttaagca gaacttgaga gcatccgaac tcctggattt caggacaagt gaagaagatt 300 ctttgggcta taaag atg aag agt cta ctt ctt ctg gtg ctg att tca atc 351 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile 1 5 10 tgc tgg gct gat cat ctt tca gac aac tat act ctg gat cat gac aga 399 Cys Trp Ala Asp His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg 15 20 25 gct att cac atc caa gca gaa aat ggc ccc cat cta ctt gtg gaa gca 447 Ala Ile His Ile Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala 30 35 40 gag caa gcc aag gtg ttt tca cac aga ggt ggc aat gtt aca ctg cca 495 Glu Gln Ala Lys Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro 45 50 55 60 tgt aaa ttt tat cga gac cct aca gca ttt ggc tca gga atc cat aaa 543 Cys Lys Phe Tyr Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys 65 70 75 atc cga att aag tgg acc aag cta act tcg gat tac ctc aag gaa gtg 591 Ile Arg Ile Lys Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val 80 85 90 gat gtt ttt gtt tcc atg gga tac cac aaa aaa acc tat gga ggc tac 639 Asp Val Phe Val Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr 95 100 105 cag ggt aga gtg ttt ctg aag gga ggc agt gat agt gat gct tct ctg 687 Gln Gly Arg Val Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu 110 115 120 gtc atc aca gac ctc act ctg gaa gat tat ggg aga tat aag tgt gag 735 Val Ile Thr Asp Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu 125 130 135 140 gtg att gaa gga tta gaa gat gat act gtt gtg gta gca ctg gac tta 783 Val Ile Glu Gly Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu 145 150 155 caa ggt gtg gta ttc cct tac ttt cca cga ctg ggg cgc tac aat ctc 831 Gln Gly Val Val Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu 160 165 170 aat ttt cac gag gcg cag cag gcg tgt ctg gac cag gat gct gtg atc 879 Asn Phe His Glu Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile 175 180 185 gcc tcc ttc gac cag ctg tac gac gcc tgg cgg ggc ggg ctg gac tgg 927 Ala Ser Phe Asp Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp 190 195 200 tgc aat gcc ggc tgg ctc agt gat ggc tct gtg caa tat ccc atc aca 975 Cys Asn Ala Gly Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr 205 210 215 220 aag ccc aga gag ccc tgt ggg ggc cag aac aca gtg ccc gga gtc agg 1023 Lys Pro Arg Glu Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg 225 230 235 aac tac gga ttt tgg gat aaa gat aaa agc aga tat gat gtt ttc tgt 1071 Asn Tyr Gly Phe Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys 240 245 250 ttt aca tcc aat ttc aat ggc cgt ttt tac tat ctg atc cac ccc acc 1119 Phe Thr Ser Asn Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr 255 260 265 aaa ctg acc tat gat gaa gcg gtg caa gct tgt ctc aat gat ggt gct 1167 Lys Leu Thr Tyr Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala 270 275 280 cag att gca aaa gtg ggc cag ata ttt gct gcc tgg aaa att ctc gga 1215 Gln Ile Ala Lys Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly 285 290 295 300 tat gac cgc tgt gat gcg ggc tgg ttg gcg gat ggc agc gtc cgc tac 1263 Tyr Asp Arg Cys Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr 305 310 315 ccc atc tct agg cca aga agg cgc tgc agt cct act gag gct gca gtg 1311 Pro Ile Ser Arg Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val 320 325 330 cgc ttc gtg ggt ttt cca gat aaa aag cat aag ctg tat ggt gtc tac 1359 Arg Phe Val Gly Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr 335 340 345 tgc ttc aga gca tac aac tga atgtgccctt agagcgcatc agttttaaag 1410 Cys Phe Arg Ala Tyr Asn * 350 tcattaagaa catgtgaaag gtgttttttt tttccaatat gaactcatgc aagttaccaa 1470 aactgtgata accctttttt acttactgta aagagtcatt ttcataagat caattcattg 1530 atttgttttt tgtaaagcta tcattcaata tatattataa attaatataa atttaaggga 1590 agctctatgt aaggagactt agagccaaac tgtttaagct gtatcatccc aacaaagtat 1650 cctttcatga acggggcatg caatagctta agaattgcta ggattaaatt aaggaaagta 1710 aagctactca gagcaacagg ttccacaagc acaaacttta cacatttgta caattttgaa 1770 atgcactaca ataaacaaat tagagcaaca catttgaaat acaggcttct ttacataaac 1830 tgagaggtta tacaaaactc agtttcacaa gggaacaatc tatacctttc taaaagttaa 1890 tatttcaagt ctctaatagg cagaatattt tactctttaa aatcctgcct ttctgaccaa 1950 aaaaaaa 1957 15 354 PRT Homo sapiens 15 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 16 1957 DNA Homo sapiens CDS (316)...(1380) 16 ttaggctgta attaggggat ttgggaggag aactttcctg gtgacgcttt gcttttcttc 60 tgctcttggt gagaaagtgc ctccttcttc ccaggatcag gacctctgcc atccagcgcc 120 acaaagagac attctgcaca cacactcaca cacacacaca cacacacact ctcacactcg 180 cccagagaca aacttaaggt gaggagaaag agcgctacgt tcacttgatc tccagcttcc 240 aacttaagca gaacttgaga gcatccgaac tcctggattt caggacaagt gaagaagatt 300 ctttgggcta taaag atg aag agt cta ctt ctt ctg gtg ctg att tca atc 351 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile 1 5 10 tgc tgg gct gat cat ctt tca gac aac tat act ctg gat cat gac aga 399 Cys Trp Ala Asp His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg 15 20 25 gct att cac atc caa gca gaa aat ggc ccc cat cta ctt gtg gaa gca 447 Ala Ile His Ile Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala 30 35 40 gag caa gcc aag gtg ttt tca cac aga ggt ggc aat gtt aca ctg cca 495 Glu Gln Ala Lys Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro 45 50 55 60 tgt aaa ttt tat cga gac cct aca gca ttt ggc tca gga atc cat aaa 543 Cys Lys Phe Tyr Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys 65 70 75 atc cga att aag tgg acc aag cta act tcg gat tac ctc aag gaa gtg 591 Ile Arg Ile Lys Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val 80 85 90 gat gtt ttt gtt tcc atg gga tac cac aaa aaa acc tat gga ggc tac 639 Asp Val Phe Val Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr 95 100 105 cag ggt aga gtg ttt ctg aag gga ggc agt gat agt gat gct tct ctg 687 Gln Gly Arg Val Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu 110 115 120 gtc atc aca gac ctc act ctg gaa gat tat ggg aga tat aag tgt gag 735 Val Ile Thr Asp Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu 125 130 135 140 gtg att gaa gga tta gaa gat gat act gtt gtg gta gca ctg gac tta 783 Val Ile Glu Gly Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu 145 150 155 caa ggt gtg gta ttc cct tac ttt cca cga ctg ggg cgc tac aat ctc 831 Gln Gly Val Val Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu 160 165 170 aat ttt cac gag gcg cag cag gcg tgt ctg gac cag gat gct gtg atc 879 Asn Phe His Glu Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile 175 180 185 gcc tcc ttc gac cag ctg tac gac gcc tgg cgg ggc ggg ctg gac tgg 927 Ala Ser Phe Asp Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp 190 195 200 tgc aat gcc ggc tgg ctc agt gat ggc tct gtg caa tat ccc atc aca 975 Cys Asn Ala Gly Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr 205 210 215 220 aag ccc aga gag ccc tgt ggg ggc cag aac aca gtg ccc gga gtc agg 1023 Lys Pro Arg Glu Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg 225 230 235 aac tac gga ttt tgg gat aaa gat aaa agc aga tat gat gtt ttc tgt 1071 Asn Tyr Gly Phe Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys 240 245 250 ttt aca tcc aat ttc aat ggc cgt ttt tac tat ctg atc cac ccc acc 1119 Phe Thr Ser Asn Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr 255 260 265 aaa ctg acc tat gat gaa gcg gtg caa gct tgt ctc aat gat ggt gct 1167 Lys Leu Thr Tyr Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala 270 275 280 cag att gca aaa gtg ggc cag ata ttt gct gcc tgg aaa att ctc gga 1215 Gln Ile Ala Lys Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly 285 290 295 300 tat gac cgc tgt gat gcg ggc tgg ttg gcg gat ggc agc gtc cgc tac 1263 Tyr Asp Arg Cys Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr 305 310 315 ccc atc tct agg cca aga agg cgc tgc agt cct act gag gct gca gtg 1311 Pro Ile Ser Arg Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val 320 325 330 cgc ttc gtg ggt ttc cca gat aaa aag cat aag ctg tat ggt gtc tac 1359 Arg Phe Val Gly Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr 335 340 345 tgc ttc aga gca tac aac tga atgtgccctt agagcgcacc agttttaaag 1410 Cys Phe Arg Ala Tyr Asn * 350 tcattaagaa catgtgaaag gtgttttttt tttccaatat gaactcatgc aagttaccaa 1470 aactgtgata accctttttt acttactgta aagagtcatt ttcataagat caattcattg 1530 atttgttttt tgtaaagcta tcattcaata tatattataa attaatataa atttaaggga 1590 agctctatgt aaggagactt agagccaaac tgtttaagct gtatcatccc aacaaagtat 1650 cctttcatga acggggcatg caatagctta agaattgcta ggattaaatt aaggaaagta 1710 aagctactca gagcaacagg ttccacaagc acaaacttta cacatttgta caattttgaa 1770 atgcactaca ataaacaaat tagagcaaca catttgaaat acaggcttct ttacataaac 1830 tgagaggtta tacaaaactc agtttcacaa gggaacaatc tatacctttc taaaagttaa 1890 tatttcaagt ctctaatagg cagaatattt tactctttaa aatcctgcct ttctgaccaa 1950 aaaaaaa 1957 17 354 PRT Homo sapiens 17 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 18 1957 DNA Homo sapiens CDS (316)...(1380) 18 ttaggctgta attaggggat ttgggaggag aactttcctg gtgacgcttt gcttttcttc 60 tgctcttggt gagaaagtgc ctccttcttc ccaggatcag gacctctgcc atccagcgcc 120 acaaagagac attctgcaca cacactcaca cacacacaca cacacacact ctcacactcg 180 cccagagaca aacttaaggt gaggagaaag agcgctacgt tcacttgatc tccagcttcc 240 aacttaagca gaacttgaga gcatccgaac tcctggattt caggacaagt gaagaagatt 300 ctttgggcta taaag atg aag agt cta ctt ctt ctg gtg ctg att tca atc 351 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile 1 5 10 tgc tgg gct gat cat ctt tca gac aac tat act ctg gat cat gac aga 399 Cys Trp Ala Asp His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg 15 20 25 gct att cac atc caa gca gaa aat ggc ccc cat cta ctt gtg gaa gca 447 Ala Ile His Ile Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala 30 35 40 gag caa gcc aag gtg ttt tca cac aga ggt ggc aat gtt aca ctg cca 495 Glu Gln Ala Lys Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro 45 50 55 60 tgt aaa ttt tat cga gac cct aca gca ttt ggc tca gga atc cat aaa 543 Cys Lys Phe Tyr Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys 65 70 75 atc cga att aag tgg acc aag cta act tcg gat tac ctc aag gaa gtg 591 Ile Arg Ile Lys Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val 80 85 90 gat gtt ttt gtt tcc atg gga tac cac aaa aaa acc tat gga ggc tac 639 Asp Val Phe Val Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr 95 100 105 cag ggt aga gtg ttt ctg aag gga ggc agt gat agt gat gct tct ctg 687 Gln Gly Arg Val Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu 110 115 120 gtc atc aca gac ctc act ctg gaa gat tat ggg aga tat aag tgt gag 735 Val Ile Thr Asp Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu 125 130 135 140 gtg att gaa gga tta gaa gat gat act gtt gtg gta gca ctg gac tta 783 Val Ile Glu Gly Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu 145 150 155 caa ggt gtg gta ttc cct tac ttt cca cga ctg ggg cgc tac aat ctc 831 Gln Gly Val Val Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu 160 165 170 aat ttt cac gag gcg cag cag gcg tgt ctg gac cag gat gct gtg atc 879 Asn Phe His Glu Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile 175 180 185 gcc tcc ttc gac cag ctg tac gac gcc tgg cgg ggc ggg ctg gac tgg 927 Ala Ser Phe Asp Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp 190 195 200 tgc aat gcc ggc tgg ctc agt gat ggc tct gtg caa tat ccc atc aca 975 Cys Asn Ala Gly Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr 205 210 215 220 aag ccc aga gag ccc tgt ggg ggc cag aac aca gtg ccc gga gtc agg 1023 Lys Pro Arg Glu Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg 225 230 235 aac tac gga ttt tgg gat aaa gat aaa agc aga tat gat gtt ttc tgt 1071 Asn Tyr Gly Phe Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys 240 245 250 ttt aca tcc aat ttc aat ggc cgt ttt tac tat ctg atc cac ccc acc 1119 Phe Thr Ser Asn Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr 255 260 265 aaa ctg acc tat gat gaa gcg gtg caa gct tgt ctc aat gat ggt gct 1167 Lys Leu Thr Tyr Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala 270 275 280 cag att gca aaa gtg ggc cag ata ttt gct gcc tgg aaa att ctc gga 1215 Gln Ile Ala Lys Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly 285 290 295 300 tat gac cgc tgt gat gcg ggc tgg ttg gcg gat ggc agc gtc cgc tac 1263 Tyr Asp Arg Cys Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr 305 310 315 ccc atc tct agg cca aga agg cgc tgc agt cct act gag gct gca gtg 1311 Pro Ile Ser Arg Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val 320 325 330 cgc ttc gtg ggt ttc cca gat aaa aag cat aag ctg tat ggt gtc tac 1359 Arg Phe Val Gly Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr 335 340 345 tgc ttc aga gca tac aac tga atgtgccctt agagcgcatt agttttaaag 1410 Cys Phe Arg Ala Tyr Asn * 350 tcattaagaa catgtgaaag gtgttttttt tttccaatat gaactcatgc aagttaccaa 1470 aactgtgata accctttttt acttactgta aagagtcatt ttcataagat caattcattg 1530 atttgttttt tgtaaagcta tcattcaata tatattataa attaatataa atttaaggga 1590 agctctatgt aaggagactt agagccaaac tgtttaagct gtatcatccc aacaaagtat 1650 cctttcatga acggggcatg caatagctta agaattgcta ggattaaatt aaggaaagta 1710 aagctactca gagcaacagg ttccacaagc acaaacttta cacatttgta caattttgaa 1770 atgcactaca ataaacaaat tagagcaaca catttgaaat acaggcttct ttacataaac 1830 tgagaggtta tacaaaactc agtttcacaa gggaacaatc tatacctttc taaaagttaa 1890 tatttcaagt ctctaatagg cagaatattt tactctttaa aatcctgcct ttctgaccaa 1950 aaaaaaa 1957 19 354 PRT Homo sapiens 19 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 20 1957 DNA Homo sapiens CDS (316)...(1380) 20 ttaggctgta attaggggat ttgggaggag aactttcctg gtgacgcttt gcttttcttc 60 tgctcttggt gagaaagtgc ctccttcttc ccaggatcag gacctctgcc atccagcgcc 120 acaaagagac attctgcaca cacactcaca cacacacaca cacacacact ctcacactcg 180 cccagagaca aacttaaggt gaggagaaag agcgctacgt tcacttgatc tccagcttcc 240 aacttaagca gaacttgaga gcatccgaac tcctggattt caggacaagt gaagaagatt 300 ctttgggcta taaag atg aag agt cta ctt ctt ctg gtg ctg att tca atc 351 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile 1 5 10 tgc tgg gct gat cat ctt tca gac aac tat act ctg gat cat gac aga 399 Cys Trp Ala Asp His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg 15 20 25 gct att cac atc caa gca gaa aat ggc ccc cat cta ctt gtg gaa gca 447 Ala Ile His Ile Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala 30 35 40 gag caa gcc aag gtg ttt tca cac aga ggt ggc aat gtt aca ctg cca 495 Glu Gln Ala Lys Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro 45 50 55 60 tgt aaa ttt tat cga gac cct aca gca ttt ggc tca gga atc cat aaa 543 Cys Lys Phe Tyr Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys 65 70 75 atc cga att aag tgg acc aag cta act tcg gat tac ctc aag gaa gtg 591 Ile Arg Ile Lys Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val 80 85 90 gat gtt ttt gtt tcc atg gga tac cac aaa aaa acc tat gga ggc tac 639 Asp Val Phe Val Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr 95 100 105 cag ggt aga gtg ttt ctg aag gga ggc agt gat agt gat gct tct ctg 687 Gln Gly Arg Val Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu 110 115 120 gtc atc aca gac ctc act ctg gaa gat tat ggg aga tat aag tgt gag 735 Val Ile Thr Asp Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu 125 130 135 140 gtg att gaa gga tta gaa gat gat act gtt gtg gta gca ctg gac tta 783 Val Ile Glu Gly Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu 145 150 155 caa ggt gtg gta ttc cct tac ttt cca cga ctg ggg cgc tac aat ctc 831 Gln Gly Val Val Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu 160 165 170 aat ttt cac gag gcg cag cag gcg tgt ctg gac cag gat gct gtg atc 879 Asn Phe His Glu Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile 175 180 185 gcc tcc ttc gac cag ctg tac gac gcc tgg cgg ggc ggg ctg gac tgg 927 Ala Ser Phe Asp Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp 190 195 200 tgc aat gcc ggc tgg ctc agt gat ggc tct gtg caa tat ccc atc aca 975 Cys Asn Ala Gly Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr 205 210 215 220 aag ccc aga gag ccc tgt ggg ggc cag aac aca gtg ccc gga gtc agg 1023 Lys Pro Arg Glu Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg 225 230 235 aac tac gga ttt tgg gat aaa gat aaa agc aga tat gat gtt ttc tgt 1071 Asn Tyr Gly Phe Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys 240 245 250 ttt aca tcc aat ttc aat ggc cgt ttt tac tat ctg atc cac ccc acc 1119 Phe Thr Ser Asn Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr 255 260 265 aaa ctg acc tat gat gaa gcg gtg caa gct tgt ctc aat gat ggt gct 1167 Lys Leu Thr Tyr Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala 270 275 280 cag att gca aaa gtg ggc cag ata ttt gct gcc tgg aaa att ctc gga 1215 Gln Ile Ala Lys Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly 285 290 295 300 tat gac cgc tgt gat gcg ggc tgg ttg gcg gat ggc agc gtc cgc tac 1263 Tyr Asp Arg Cys Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr 305 310 315 ccc atc tct agg cca aga agg cgc tgc agt cct act gag gct gca gtg 1311 Pro Ile Ser Arg Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val 320 325 330 cgc ttc gtg ggt ttc cca gat aaa aag cat aag ctg tat ggt gtc tac 1359 Arg Phe Val Gly Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr 335 340 345 tgc ttc aga gca tac aac tga atgtgccctt agagcgcatc agttttaaag 1410 Cys Phe Arg Ala Tyr Asn * 350 tcattaagaa catgtgaaag gtgttttttt tttccaatat gaactcatgc aagttaccaa 1470 aactgtgata accctttttt acttactgta aagagtcatt ttcataagat caattcattg 1530 atttgttttt tgtaaagcta tcattcaata tatattataa attaatataa atttaaggga 1590 agctctatgt aaggagactt agagccaaac tgtttaagct gtatcatccc aacaaagtat 1650 cccttcatga acggggcatg caatagctta agaattgcta ggattaaatt aaggaaagta 1710 aagctactca gagcaacagg ttccacaagc acaaacttta cacatttgta caattttgaa 1770 atgcactaca ataaacaaat tagagcaaca catttgaaat acaggcttct ttacataaac 1830 tgagaggtta tacaaaactc agtttcacaa gggaacaatc tatacctttc taaaagttaa 1890 tatttcaagt ctctaatagg cagaatattt tactctttaa aatcctgcct ttctgaccaa 1950 aaaaaaa 1957 21 354 PRT Homo sapiens 21 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 22 1957 DNA Homo sapiens CDS (316)...(1380) 22 ttaggctgta attaggggat ttgggaggag aactttcctg gtgacgcttt gcttttcttc 60 tgctcttggt gagaaagtgc ctccttcttc ccaggatcag gacctctgcc atccagcgcc 120 acaaagagac attctgcaca cacactcaca cacacacaca cacacacact ctcacactcg 180 cccagagaca aacttaaggt gaggagaaag agcgctacgt tcacttgatc tccagcttcc 240 aacttaagca gaacttgaga gcatccgaac tcctggattt caggacaagt gaagaagatt 300 ctttgggcta taaag atg aag agt cta ctt ctt ctg gtg ctg att tca atc 351 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile 1 5 10 tgc tgg gct gat cat ctt tca gac aac tat act ctg gat cat gac aga 399 Cys Trp Ala Asp His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg 15 20 25 gct att cac atc caa gca gaa aat ggc ccc cat cta ctt gtg gaa gca 447 Ala Ile His Ile Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala 30 35 40 gag caa gcc aag gtg ttt tca cac aga ggt ggc aat gtt aca ctg cca 495 Glu Gln Ala Lys Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro 45 50 55 60 tgt aaa ttt tat cga gac cct aca gca ttt ggc tca gga atc cat aaa 543 Cys Lys Phe Tyr Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys 65 70 75 atc cga att aag tgg acc aag cta act tcg gat tac ctc aag gaa gtg 591 Ile Arg Ile Lys Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val 80 85 90 gat gtt ttt gtt tcc atg gga tac cac aaa aaa acc tat gga ggc tac 639 Asp Val Phe Val Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr 95 100 105 cag ggt aga gtg ttt ctg aag gga ggc agt gat agt gat gct tct ctg 687 Gln Gly Arg Val Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu 110 115 120 gtc atc aca gac ctc act ctg gaa gat tat ggg aga tat aag tgt gag 735 Val Ile Thr Asp Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu 125 130 135 140 gtg att gaa gga tta gaa gat gat act gtt gtg gta gca ctg gac tta 783 Val Ile Glu Gly Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu 145 150 155 caa ggt gtg gta ttc cct tac ttt cca cga ctg ggg cgc tac aat ctc 831 Gln Gly Val Val Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu 160 165 170 aat ttt cac gag gcg cag cag gcg tgt ctg gac cag gat gct gtg atc 879 Asn Phe His Glu Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile 175 180 185 gcc tcc ttc gac cag ctg tac gac gcc tgg cgg ggc ggg ctg gac tgg 927 Ala Ser Phe Asp Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp 190 195 200 tgc aat gcc ggc tgg ctc agt gat ggc tct gtg caa tat ccc atc aca 975 Cys Asn Ala Gly Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr 205 210 215 220 aag ccc aga gag ccc tgt ggg ggc cag aac aca gtg ccc gga gtc agg 1023 Lys Pro Arg Glu Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg 225 230 235 aac tac gga ttt tgg gat aaa gat aaa agc aga tat gat gtt ttc tgt 1071 Asn Tyr Gly Phe Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys 240 245 250 ttt aca tcc aat ttc aat ggc cgt ttt tac tat ctg atc cac ccc acc 1119 Phe Thr Ser Asn Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr 255 260 265 aaa ctg acc tat gat gaa gcg gtg caa gct tgt ctc aat gat ggt gct 1167 Lys Leu Thr Tyr Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala 270 275 280 cag att gca aaa gtg ggc cag ata ttt gct gcc tgg aaa att ctc gga 1215 Gln Ile Ala Lys Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly 285 290 295 300 tat gac cgc tgt gat gcg ggc tgg ttg gcg gat ggc agc gtc cgc tac 1263 Tyr Asp Arg Cys Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr 305 310 315 ccc atc tct agg cca aga agg cgc tgc agt cct act gag gct gca gtg 1311 Pro Ile Ser Arg Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val 320 325 330 cgc ttc gtg ggt ttc cca gat aaa aag cat aag ctg tat ggt gtc tac 1359 Arg Phe Val Gly Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr 335 340 345 tgc ttc aga gca tac aac tga atgtgccctt agagcgcatc agttttaaag 1410 Cys Phe Arg Ala Tyr Asn * 350 tcattaagaa catgtgaaag gtgttttttt tttccaatat gaactcatgc aagttaccaa 1470 aactgtgata accctttttt acttactgta aagagtcatt ttcataagat caattcattg 1530 atttgttttt tgtaaagcta tcattcaata tatattataa attaatataa atttaaggga 1590 agctctatgt aaggagactt agagccaaac tgtttaagct gtatcatccc aacaaagtat 1650 cctttcatga acggggcatg caatagctta agaattgcta ggattaaatt aaggaaagta 1710 aagctactca gagcagcagg ttccacaagc acaaacttta cacatttgta caattttgaa 1770 atgcactaca ataaacaaat tagagcaaca catttgaaat acaggcttct ttacataaac 1830 tgagaggtta tacaaaactc agtttcacaa gggaacaatc tatacctttc taaaagttaa 1890 tatttcaagt ctctaatagg cagaatattt tactctttaa aatcctgcct ttctgaccaa 1950 aaaaaaa 1957 23 354 PRT Homo sapiens 23 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 24 354 PRT Homo sapiens 24 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 25 721 PRT Homo sapiens 25 Met Leu Glu His Thr Thr Lys Thr Phe Pro Leu Arg Ala Leu His Ile 1 5 10 15 Val Val Glu Ser Ile Arg Asp His Ser Gly Gln Lys Met Lys Gln Asp 20 25 30 Lys Lys Val Asp Leu Leu Val Pro Thr Lys Val Thr Gly Ile Ile Thr 35 40 45 Gln Gly Ala Lys Asp Phe Gly His Val Gln Phe Val Gly Ser Tyr Lys 50 55 60 Leu Ala Tyr Ser Asn Asp Gly Glu His Trp Thr Val Tyr Gln Asp Glu 65 70 75 80 Lys Gln Arg Lys Asp Lys Val Leu Leu Gly Arg Lys Ala Val Val Val 85 90 95 Ser Cys Glu Gly Ile Asn Ile Ser Gly Ser Phe Cys Arg Asn Lys Leu 100 105 110 Lys Tyr Leu Ala Phe Leu His Lys Arg Met Asn Thr Asn Pro Ser Arg 115 120 125 Arg Pro Tyr His Phe Gln Val Pro Ser Arg Ile Phe Trp Arg Gln Glu 130 135 140 Lys Ala Asp Gly Gly Ser Cys Cys Pro Gln Gly His Ala Ser Glu Ala 145 150 155 160 Tyr Lys Lys Val Cys Leu Ser Gly Ala Pro His Glu Val Gly Trp Lys 165 170 175 Tyr Gln Ala Val Thr Ala Thr Leu Glu Glu Lys Arg Lys Glu Lys Ala 180 185 190 Glu Ile His Tyr Arg Lys Asn Lys Gln Leu Met Arg Leu Gln Lys Gln 195 200 205 Ala Glu Lys Asn Met Lys Lys Lys Ile Asp Lys Tyr Thr Glu Ser Pro 210 215 220 Gly Gly Gly Ser Pro Arg Gly Leu Gly Phe Ile Phe Lys Thr Ile Ala 225 230 235 240 Pro Leu Ala Ala Thr Arg Ala Thr Arg Ile Gly His Pro Gly Gly Arg 245 250 255 Thr Pro Arg Ala Gly Ser Ser Ala His Arg Pro Pro Ala Leu Ser Ala 260 265 270 Arg Ala Pro Val Pro Ala Ala Ser Pro Ala Ala Trp Leu Pro Leu Arg 275 280 285 Thr Pro Trp Thr Arg Pro Ser Ser Cys Pro Thr Ser Ser Ser Thr Tyr 290 295 300 Asp Ser Leu Ser Pro Tyr Gly Pro Arg Asn Pro Leu Pro Asn Pro Arg 305 310 315 320 His Ser Pro Ser Gly Gly Gly Gly Leu Lys Lys Pro Ala Arg His Cys 325 330 335 Gln Gly Gln Lys His Asn Val Leu Ala Arg Gly Lys Pro Gln Arg Lys 340 345 350 Pro Lys Ser Glu Asn Asn Ser Trp Tyr Val Glu Asn Gly Arg Pro Ala 355 360 365 Asp Leu Ala Gly Ser Gly Tyr Cys Gly Ala Leu Trp Lys Ala Ile Glu 370 375 380 Ser Leu Glu Glu Gly Leu Gly Gly Lys Gln Lys Asp Lys Glu Arg Lys 385 390 395 400 Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys Val 405 410 415 Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr Arg 420 425 430 Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys Trp 435 440 445 Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val Ser 450 455 460 Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val Phe 465 470 475 480 Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp Leu 485 490 495 Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly Leu 500 505 510 Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val Phe 515 520 525 Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu Ala 530 535 540 Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp Gln 545 550 555 560 Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly Trp 565 570 575 Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu Pro 580 585 590 Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe Trp 595 600 605 Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn Phe 610 615 620 Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr Asp 625 630 635 640 Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys Val 645 650 655 Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys Asp 660 665 670 Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg Pro 675 680 685 Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly Phe 690 695 700 Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala Tyr 705 710 715 720 Asn 26 1957 DNA Homo sapiens 26 ttaggctgta attaggggat ttgggaggag aactttcctg gtgacgcttt gcttttcttc 60 tgctcttggt gagaaagtgc ctccttcttc ccaggatcag gacctctgcc atccagcgcc 120 acaaagagac attctgcaca cacactcaca cacacacaca cacacacact ctcacactcg 180 cccagagaca aacttaaggt gaggagaaag agcgctacgt tcacttgatc tccagcttcc 240 aacttaagca gaacttgaga gcatccgaac tcctggattt caggacaagt gaagaagatt 300 ctttgggcta taaagatgaa gagtctactt cttctggtgc tgatttcaat ctgctgggct 360 gatcatcttt cagacaacta tactctggat catgacagag ctattcacat ccaagcagaa 420 aatggccccc atctacttgt ggaagcagag caagccaagg tgttttcaca cagaggtggc 480 aatgttacac tgccatgtaa attttatcga gaccctacag catttggctc aggaatccat 540 aaaatccgaa ttaagtggac caagctaact tcggattacc tcaaggaagt ggatgttttt 600 gtttccatgg gataccacaa aaaaacctat ggaggctacc agggtagagt gtttctgaag 660 ggaggcagtg atagtgatgc ttctctggtc atcacagacc tcactctgga agattatggg 720 agatataagt gtgaggtgat tgaaggatta gaagatgata ctgttgtggt agcactggac 780 ttacaaggtg tggtattccc ttactttcca cgactggggc gctacaatct caattttcac 840 gaggcgcagc aggcgtgtct ggaccaggat gctgtgatcg cctccttcga ccagctgtac 900 gacgcctggc ggggcgggct ggactggtgc aatgccggct ggctcagtga tggctctgtg 960 caatatccca tcacaaagcc cagagagccc tgtgggggcc agaacacagt gcccggagtc 1020 aggaactacg gattttggga taaagataaa agcagatatg atgttttctg ttttacatcc 1080 aatttcaatg gccgttttta ctatctgatc caccccacca aactgaccta tgatgaagcg 1140 gtgcaagctt gtctcaatga tggtgctcag attgcaaaag tgggccagat atttgctgcc 1200 tggaaaattc tcggatatga ccgctgtgat gcgggctggt tggcggatgg cagcgtccgc 1260 taccccatct ctaggccaag aaggcgctgc agtcctactg aggctgcagt gcgcttcgtg 1320 ggtttcccag ataaaaagca taagctgtat ggtgtctact gcttcagagc atacaactga 1380 atgtgccctt agagcgcatc agttttaaag tcattaagaa catgtgaaag gtgttttttt 1440 tttccaatat gaactcatgc aagttaccaa aactgtgata accctttttt acttactgta 1500 aagagtcatt ttcataagat caattcattg atttgttttt tgtaaagcta tcattcaata 1560 tatattataa attaatataa atttaaggga agctctatgt aaggagactt agagccaaac 1620 tgtttaagct gtatcatccc aacaaagtat cctttcatga acggggcatg caatagctta 1680 agaattgcta ggattaaatt aaggaaagta aagctactca gagcaacagg ttccacaagc 1740 acaaacttta cacatttgta caattttgaa atgcactaca ataaacaaat tagagcaaca 1800 catttgaaat acaggcttct ttacataaac tgagaggtta tacaaaactc agtttcacaa 1860 gggaacaatc tatacctttc taaaagttaa tatttcaagt ctctaatagg cagaatattt 1920 tactctttaa aatcctgcct ttctgaccaa aaaaaaa 1957 27 1492 DNA Homo sapiens 27 ttaggctgta attaggggat ttgggaggag aactttcctg gtgacgcttt gcttttcttc 60 tgctcttggt gagaaagtgc ctccttcttc ccaggatcag gacctctgcc atccagcgcc 120 acaaagagac attctgcaca cacactcaca cacacacaca cacacacact ctcacactcg 180 cccagagaca aacttaaggt gaggagaaag agcgctagct tcacttgatc tccagcttcc 240 aacttaagca gaacttgaga gcatccgaac tcctggattt caggacaagt gaagaagatt 300 ctttgggcta taaagatgaa gagtctactt cttctggtgc tgatttcaat ctgctgggct 360 gatcatcttt cagacaacta tactctggat catgacagag ctattcacat ccaagcagaa 420 aatggccccc atctacttgt ggaagcagag caagccaagg tgttttcaca cagaggtggc 480 aatgttacac tgccatgtaa attttatcga gaccctacag catttggctc aggaatccat 540 aaaatccgaa ttaagtggac caagctaact tcggattacc tcaaggaagt ggatgttttt 600 gtttccatgg gataccacaa aaaaacctat ggaggctacc agggtagagt gtttctgaag 660 ggaggcagtg atagtgatgc ttctctggtc atcacagacc tcactctgga agattatggg 720 agatataagt gtgaggtgat tgaaggatta gaagatgata ctgttgtggt agcactggac 780 ttacaaggtg tggtattccc ttactttcca cgactggggc gctacaatct caattttcac 840 gaggcgcagc aggcgtgtct ggaccaggat gctgtgatcg cctccttcga ccagctgtac 900 gacgcctggc ggggcgggct ggactggtgc aatgccggct ggctcagtga tggctctgtg 960 caatatccca tcacaaagcc cagagagccc tgtgggggcc agaacacagt gcccggagtc 1020 aggaactacg gattttggga taaagataaa agcagatatg atgttttctg ttttacatcc 1080 aatttcaatg gccgttttta ctatctgatc caccccacca aactgaccta tgatgaagcg 1140 gtgcaagctt gtctcaatga tggtgctcag attgcaaaag tgggccagat atttgctgcc 1200 tggaaaattc tcggatatga ccgctgtgat gcgggctggt tggcggatgg cagcgtccgc 1260 taccccatct ctaggccaag aaggcgctgc agtcctactg aggctgcagt gcgcttcgtg 1320 ggttttccag ataaaaagca taagctgtat ggtgtctact gcttcagagc atacaactga 1380 atgtgccctt agagcgcact agttttaaag tcattaagaa catgtgaaag gtgttttttt 1440 tttccaatat gaactcatgc aagttaccaa aactgtgata accctttttt ac 1492 28 354 PRT Homo sapiens 28 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 29 354 PRT Homo sapiens 29 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 30 354 PRT Homo sapiens 30 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 31 355 PRT Mus musculus 31 Met Arg Ser Leu Leu Leu Leu Val Leu Ile Ser Val Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Ser Tyr Thr Pro Pro Asp Gln Asp Arg Val Ile His 20 25 30 Ile Gln Ala Glu Asn Gly Pro Arg Leu Leu Val Glu Ala Glu Gln Ala 35 40 45 Lys Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe 50 55 60 Tyr Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile 65 70 75 80 Lys Trp Thr Lys Leu Thr Ser Asp Tyr Leu Arg Glu Val Asp Val Phe 85 90 95 Val Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg 100 105 110 Val Phe Leu Lys Gly Gly Ser Asp Asn Asp Ala Ser Leu Val Ile Thr 115 120 125 Asp Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu 130 135 140 Gly Leu Glu Asp Asp Thr Ala Val Val Ala Leu Glu Leu Gln Gly Val 145 150 155 160 Val Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His 165 170 175 Glu Ala Arg Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe 180 185 190 Asp Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala 195 200 205 Gly Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg 210 215 220 Glu Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly 225 230 235 240 Phe Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser 245 250 255 Asn Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr 260 265 270 Tyr Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala 275 280 285 Lys Val Gly Gln Ile Phe Ala Ala Trp Lys Leu Leu Gly Tyr Asp Arg 290 295 300 Cys Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser 305 310 315 320 Arg Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val 325 330 335 Gly Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg 340 345 350 Ala Tyr Asn 355 32 322 PRT Homo sapiens 32 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 1 5 10 15 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 20 25 30 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 35 40 45 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 50 55 60 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 65 70 75 80 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 85 90 95 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 100 105 110 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 115 120 125 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 130 135 140 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 145 150 155 160 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 165 170 175 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 180 185 190 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 195 200 205 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 210 215 220 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 225 230 235 240 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 245 250 255 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 260 265 270 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 275 280 285 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 290 295 300 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 305 310 315 320 Tyr Asn 33 322 PRT Homo sapiens 33 Lys Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 1 5 10 15 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 20 25 30 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 35 40 45 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 50 55 60 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 65 70 75 80 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 85 90 95 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 100 105 110 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 115 120 125 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 130 135 140 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 145 150 155 160 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 165 170 175 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 180 185 190 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 195 200 205 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 210 215 220 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 225 230 235 240 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 245 250 255 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 260 265 270 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 275 280 285 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 290 295 300 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 305 310 315 320 Tyr Asn 34 168 PRT Homo sapiens 34 Met Asn Thr Asn Pro Ser Arg Arg Pro Tyr His Phe Gln Val Pro Ser 1 5 10 15 Arg Ile Phe Trp Arg Gln Glu Lys Ala Asp Gly Gly Ser Cys Cys Pro 20 25 30 Gln Gly His Ala Ser Glu Ala Tyr Lys Lys Val Cys Leu Ser Gly Ala 35 40 45 Pro His Glu Val Gly Trp Lys Tyr Gln Ala Val Thr Ala Thr Leu Glu 50 55 60 Glu Lys Arg Lys Glu Lys Ala Glu Ile His Tyr Arg Lys Asn Lys Gln 65 70 75 80 Leu Met Arg Leu Gln Lys Gln Ala Glu Lys Asn Met Lys Lys Lys Ile 85 90 95 Asp Lys Tyr Thr Glu Ser Pro Gly Gly Gly Ser Pro Arg Gly Leu Gly 100 105 110 Phe Ile Phe Lys Thr Ile Ala Pro Leu Ala Ala Thr Arg Ala Thr Arg 115 120 125 Ile Gly His Pro Gly Gly Arg Thr Pro Arg Ala Gly Ser Ser Ala His 130 135 140 Arg Pro Pro Ala Leu Ser Ala Arg Ala Pro Val Pro Ala Ala Ser Pro 145 150 155 160 Ala Ala Trp Leu Pro Leu Arg Thr 165 35 168 PRT Homo sapiens 35 Met Asn Thr Asn Pro Ser Arg Arg Pro Tyr His Phe Gln Val Pro Ser 1 5 10 15 Arg Ile Phe Trp Arg Gln Glu Lys Ala Asp Gly Gly Ser Cys Cys Pro 20 25 30 Gln Gly His Ala Ser Glu Ala Tyr Lys Lys Val Cys Leu Ser Gly Ala 35 40 45 Pro His Glu Val Gly Trp Lys Tyr Gln Ala Val Thr Ala Thr Leu Glu 50 55 60 Glu Lys Arg Lys Glu Lys Ala Glu Ile His Tyr Arg Lys Asn Lys Gln 65 70 75 80 Leu Met Arg Leu Gln Lys Gln Ala Glu Lys Asn Met Lys Lys Lys Ile 85 90 95 Asp Lys Tyr Thr Glu Ser Pro Gly Gly Gly Ser Pro Arg Gly Leu Gly 100 105 110 Phe Ile Phe Lys Thr Ile Ala Pro Leu Ala Ala Thr Arg Ala Thr Arg 115 120 125 Ile Gly His Pro Gly Gly Arg Thr Pro Arg Ala Gly Ser Ser Ala His 130 135 140 Arg Pro Pro Ala Leu Ser Ala Arg Ala Pro Val Pro Ala Ala Ser Pro 145 150 155 160 Ala Ala Trp Leu Pro Leu Arg Ser 165 36 354 PRT Homo sapiens 36 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 37 354 PRT Homo sapiens 37 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Phe Cys Trp Ala Asp 1 5 10 15 His His Ser Asp Asn Tyr Thr Val Asp His Asp Arg Val Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro Arg Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser Arg Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Thr His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr His Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Asn Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Ala Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Ser Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Leu Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Ser Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 38 354 PRT Homo sapiens 38 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 39 354 PRT Rattus norvegicus 39 Met Arg Ser Leu Leu Phe Leu Val Leu Ile Ser Val Cys Arg Ala Asp 1 5 10 15 His Leu Ser Asp Ser Tyr Thr Pro Asp Gln Asp Arg Val Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro Arg Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Arg Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Asn Asp Ala Ser Leu Ile Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Ala Val Val Ala Leu Glu Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Arg Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Leu Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 40 201 PRT Homo sapiens 40 Lys Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 1 5 10 15 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 20 25 30 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 35 40 45 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 50 55 60 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 65 70 75 80 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 85 90 95 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 100 105 110 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 115 120 125 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 130 135 140 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 145 150 155 160 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 165 170 175 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 180 185 190 Pro Cys Gly Gly Gln Asn Thr Val Pro 195 200 41 201 PRT Homo sapiens 41 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 1 5 10 15 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 20 25 30 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 35 40 45 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 50 55 60 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 65 70 75 80 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 85 90 95 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 100 105 110 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 115 120 125 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 130 135 140 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 145 150 155 160 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 165 170 175 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 180 185 190 Pro Cys Gly Gly Gln Asn Thr Val Pro 195 200 42 354 PRT Homo sapiens 42 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 43 721 PRT Homo sapiens 43 Met Leu Glu His Thr Thr Lys Thr Phe Pro Leu Arg Ala Leu His Ile 1 5 10 15 Val Val Glu Ser Ile Arg Asp His Ser Gly Gln Lys Met Lys Gln Asp 20 25 30 Lys Lys Val Asp Leu Leu Val Pro Thr Lys Val Thr Gly Ile Ile Thr 35 40 45 Gln Gly Ala Lys Asp Phe Gly His Val Gln Phe Val Gly Ser Tyr Lys 50 55 60 Leu Ala Tyr Ser Asn Asp Gly Glu His Trp Thr Val Tyr Gln Asp Glu 65 70 75 80 Lys Gln Arg Lys Asp Lys Val Leu Leu Gly Arg Lys Ala Val Val Val 85 90 95 Ser Cys Glu Gly Ile Asn Ile Ser Gly Ser Phe Cys Arg Asn Lys Leu 100 105 110 Lys Tyr Leu Ala Phe Leu His Lys Arg Met Asn Thr Asn Pro Ser Arg 115 120 125 Arg Pro Tyr His Phe Gln Val Pro Ser Arg Ile Phe Trp Arg Gln Glu 130 135 140 Lys Ala Asp Gly Gly Ser Cys Cys Pro Gln Gly His Ala Ser Glu Ala 145 150 155 160 Tyr Lys Lys Val Cys Leu Ser Gly Ala Pro His Glu Val Gly Trp Lys 165 170 175 Tyr Gln Ala Val Thr Ala Thr Leu Glu Glu Lys Arg Lys Glu Lys Ala 180 185 190 Glu Ile His Tyr Arg Lys Asn Lys Gln Leu Met Arg Leu Gln Lys Gln 195 200 205 Ala Glu Lys Asn Met Lys Lys Lys Ile Asp Lys Tyr Thr Glu Ser Pro 210 215 220 Gly Gly Gly Ser Pro Arg Gly Leu Gly Phe Ile Phe Lys Thr Ile Ala 225 230 235 240 Pro Leu Ala Ala Thr Arg Ala Thr Arg Ile Gly His Pro Gly Gly Arg 245 250 255 Thr Pro Arg Ala Gly Ser Ser Ala His Arg Pro Pro Ala Leu Ser Ala 260 265 270 Arg Ala Pro Val Pro Ala Ala Ser Pro Ala Ala Trp Leu Pro Leu Arg 275 280 285 Thr Pro Trp Thr Arg Pro Ser Ser Cys Pro Thr Ser Ser Ser Thr Tyr 290 295 300 Asp Ser Leu Ser Pro Tyr Gly Pro Arg Asn Pro Leu Pro Asn Pro Arg 305 310 315 320 His Ser Pro Ser Gly Gly Gly Gly Leu Lys Lys Pro Ala Arg His Cys 325 330 335 Gln Gly Gln Lys His Asn Val Leu Ala Arg Gly Lys Pro Gln Arg Lys 340 345 350 Pro Lys Ser Glu Asn Asn Ser Trp Tyr Val Glu Asn Gly Arg Pro Ala 355 360 365 Asp Leu Ala Gly Ser Gly Tyr Cys Gly Ala Leu Trp Lys Ala Ile Glu 370 375 380 Ser Leu Glu Glu Gly Leu Gly Gly Lys Gln Lys Asp Lys Glu Arg Lys 385 390 395 400 Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys Val 405 410 415 Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr Arg 420 425 430 Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys Trp 435 440 445 Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val Ser 450 455 460 Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val Phe 465 470 475 480 Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp Leu 485 490 495 Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly Leu 500 505 510 Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val Phe 515 520 525 Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu Ala 530 535 540 Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp Gln 545 550 555 560 Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly Trp 565 570 575 Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu Pro 580 585 590 Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe Trp 595 600 605 Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn Phe 610 615 620 Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr Asp 625 630 635 640 Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys Val 645 650 655 Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys Asp 660 665 670 Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg Pro 675 680 685 Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly Phe 690 695 700 Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala Tyr 705 710 715 720 Asn 44 14 PRT Tetanus Toxoid 44 Gln Tyr Ile Lys Ala Asn Ser Lys Phe Ile Gly Ile Thr Glu 1 5 10 45 21 PRT Plasmodium falciparum 45 Asp Ile Glu Lys Lys Ile Ala Lys Met Glu Lys Ala Ser Ser Val Phe 1 5 10 15 Asn Val Val Asn Ser 20 46 16 PRT Streptococcus 46 Gly Ala Val Asp Ser Ile Leu Gly Gly Val Ala Thr Tyr Gly Ala Ala 1 5 10 15 47 13 PRT Artificial Sequence VARIANT 1, 13 Xaa = D-alanine 47 Xaa Lys Xaa Val Ala Ala Trp Thr Leu Lys Ala Ala Xaa 1 5 10 48 14 DNA Artificial Sequence Primer 48 ttttgatcaa gctt 14 49 42 DNA Artificial Sequence Primer 49 ctaatacgac tcactatagg gctcgagcgg ccgcccgggc ag 42 50 12 DNA Artificial Sequence Primer 50 gatcctgccc gg 12 51 40 DNA Artificial Sequence Primer 51 gtaatacgac tcactatagg gcagcgtggt cgcggccgag 40 52 10 DNA Artificial Sequence Primer 52 gatcctcggc 10 53 22 DNA Artificial Sequence PCR Primer 53 ctaatacgac tcactatagg gc 22 54 22 DNA Artificial Sequence Nested Primer 54 tcgagcggcc gcccgggcag ga 22 55 20 DNA Artificial Sequence Nested Primer 55 agcgtggtcg cggccgagga 20 56 25 DNA Artificial Sequence Primer 56 atatcgccgc gctcgtcgtc gacaa 25 57 26 DNA Artificial Sequence Primer 57 agccacacgc agctcattgt agaagg 26 58 24 DNA Artificial Sequence RT-PCR Primer 58 cccaccaaac tgacctatga tgaa 24 59 25 DNA Artificial Sequence RT-PCR Primer 59 tgtatgctct gaagcagtag acacc 25 60 24 DNA Artificial Sequence Primer 60 gattacaagg atgacgacga taag 24 61 2166 DNA Homo sapiens 61 atgttggagc atactactaa gacattcccc ttaagagcac tgcacatagt tgtggaaagc 60 attagggacc acagtggcca aaaaatgaag caggataaga aggtggatct tcttgttcca 120 accaaagtga ctggcatcat tacacaagga gctaaagatt ttggtcatgt acagtttgtt 180 ggctcctaca aactggctta cagcaatgat ggagaacact ggactgtata ccaggatgaa 240 aagcaaagaa aagataaggt actgctgggc cggaaggcgg tggtcgtaag ctgcgaaggc 300 atcaacattt ctggcagttt ctgcagaaac aagttgaagt acctggcttt cctccacaag 360 cggatgaaca ccaacccttc tcgacgcccc taccacttcc aggtccccag ccgcatcttc 420 tggcgacaag aaaaagcaga tggtggttcc tgctgccctc aaggtcatgc gtctgaagcc 480 tacaagaaag tttgcctatc tggggcgcct cacgaggttg gctggaagta ccaggcagtg 540 acagccaccc tggaggaaaa gaggaaagag aaagccgaga tccactaccg gaagaataaa 600 cagctcatga ggctacagaa acaggccgag aagaacatga agaagaaaat tgacaaatac 660 acagagagtc caggaggagg cagtccccgt ggcttaggct ttatctttaa gacaatagcg 720 ccgctcgccg ccacccgcgc gactcggatc gggcatcccg gcggccgcac cccgcgcgct 780 ggctcatctg cacaccggcc acctgcattg tcggccagag cccccgtccc ggcggcttcc 840 ccagcagctt ggctgcccct caggacgccc tggacccgcc catcctcctg ccccactagc 900 tcatcgactt acgactccct cagtccctac ggcccacgga accctctccc caacccgcgc 960 cacagcccga gcggcggcgg cggccttaag aagcccgcaa gacactgtca aggtcaaaag 1020 cacaatgtgc tagccagggg gaaaccccag agaaagccaa aatctgaaaa taacagctgg 1080 tatgtagaaa acggcagacc tgctgacttg gcaggctcag gatattgtgg tgctctttgg 1140 aaggcaatag agtccttgga ggaaggactt ggaggaaaac aaaaggacaa ggaaaggaaa 1200 gcagaaaatg gcccccatct acttgtggaa gcagagcaag ccaaggtgtt ttcacacaga 1260 ggtggcaatg ttacactgcc atgtaaattt tatcgagacc ctacagcatt tggctcagga 1320 atccataaaa tccgaattaa gtggaccaag ctaacttcgg attacctcaa ggaagtggat 1380 gtttttgttt ccatgggata ccacaaaaaa acctatggag gctaccaggg tagagtgttt 1440 ctgaagggag gcagtgatag tgatgcttct ctggtcatca cagacctcac tctggaagat 1500 tatgggagat ataagtgtga ggtgattgaa ggattagaag atgatactgt tgtggtagca 1560 ctggacttac aaggtgtggt attcccttac tttccacgac tggggcgcta caatctcaat 1620 tttcacgagg cgcagcaggc gtgtctggac caggatgctg tgatcgcctc cttcgaccag 1680 ctgtacgacg cctggcgggg cgggctggac tggtgcaatg ccggctggct cagtgatggc 1740 tctgtgcaat atcccatcac aaagcccaga gagccctgtg gggggcagaa cacagtgccc 1800 ggagtcagga actacggatt ttgggataaa gataaaagca gatatgatgt tttctgtttt 1860 acatccaatt tcaatggccg tttttactat ctgatccacc ccaccaaact gacctatgat 1920 gaagcggtgc aagcttgtct caatgatggt gctcagattg caaaagtggg ccagatattt 1980 gctgcctgga aaattctcgg atatgaccgc tgtgatgcgg gctggttggc ggatggcagc 2040 gtccgctacc ccatctctag gccaagaagg cgctgcagtc ctactgaggc tgcagtgcgc 2100 ttcgtgggtt tcccagataa aaagcataag ctgtatggtg tctactgctt cagagcatac 2160 aactga 2166 62 1957 DNA Homo sapiens 62 ttaggctgta attaggggat ttgggaggag aactttcctg gtgacgcttt gcttttcttc 60 tgctcttggt gagaaagtgc ctccttcttc ccaggatcag gacctctgcc atccagcgcc 120 acaaagagac attctgcaca cacactcaca cacacacaca cacacacact ctcacactcg 180 cccagagaca aacttaaggt gaggagaaag agcgctacgt tcacttgatc tccagcttcc 240 aacttaagca gaacttgaga gcatccgaac tcctggattt caggacaagt gaagaagatt 300 ctttgggcta taaagatgaa gagtctactt cttctggtgc tgatttcaat ctgctgggct 360 gatcatcttt cagacaacta tactctggat catgacagag ctattcacat ccaagcagaa 420 aatggccccc atctacttgt ggaagcagag caagccaagg tgttttcaca cagaggtggc 480 aatgttacac tgccatgtaa attttatcga gaccctacag catttggctc aggaatccat 540 aaaatccgaa ttaagtggac caagctaact tcggattacc tcaaggaagt ggatgttttt 600 gtttccatgg gataccacaa aaaaacctat ggaggctacc agggtagagt gtttctgaag 660 ggaggcagtg atagtgatgc ttctctggtc atcacagacc tcactctgga agattatggg 720 agatataagt gtgaggtgat tgaaggatta gaagatgata ctgttgtggt agcactggac 780 ttacaaggtg tggtattccc ttactttcca cgactggggc gctacaatct caattttcac 840 gaggcgcagc aggcgtgtct ggaccaggat gctgtgatcg cctccttcga ccagctgtac 900 gacgcctggc ggggcgggct ggactggtgc aatgccggct ggctcagtga tggctctgtg 960 caatatccca tcacaaagcc cagagagccc tgtgggggcc agaacacagt gcccggagtc 1020 aggaactacg gattttggga taaagataaa agcagatatg atgttttctg ttttacatcc 1080 aatttcaatg gccgttttta ctatctgatc caccccacca aactgaccta tgatgaagcg 1140 gtgcaagctt gtctcaatga tggtgctcag attgcaaaag tgggccagat atttgctgcc 1200 tggaaaattc tcggatatga ccgctgtgat gcgggctggt tggcggatgg cagcgtccgc 1260 taccccatct ctaggccaag aaggcgctgc agtcctactg aggctgcagt gcgcttcgtg 1320 ggtttcccag ataaaaagca taagctgtat ggtgtctact gcttcagagc atacaactga 1380 atgtgccctt agagcgcatc agttttaaag tcattaagaa catgtgaaag gtgttttttt 1440 tttccaatat gaactcatgc aagttaccaa aactgtgata accctttttt acttactgta 1500 aagagtcatt ttcataagat caattcattg atttgttttt tgtaaagcta tcattcaata 1560 tatattataa attaatataa atttaaggga agctctatgt aaggagactt agagccaaac 1620 tgtttaagct gtatcatccc aacaaagtat cctttcatga acggggcatg caatagctta 1680 agaattgcta ggattaaatt aaggaaagta aagctactca gagcaacagg ttccacaagc 1740 acaaacttta cacatttgta caattttgaa atgcactaca ataaacaaat tagagcaaca 1800 catttgaaat acaggcttct ttacataaac tgagaggtta tacaaaactc agtttcacaa 1860 gggaacaatc tatacctttc taaaagttaa tatttcaagt ctctaatagg cagaatattt 1920 tactctttaa aatcctgcct ttctgaccaa aaaaaaa 1957 63 2166 DNA Homo sapiens 63 atgttggagc atactactaa gacattcccc ttaagagcac tgcacatagt tgtggaaagc 60 attagggacc acagtggcca aaaaatgaag caggataaga aggtggatct tcttgttcca 120 accaaagtga ctggcatcat tacacaagga gctaaagatt ttggtcatgt acagtttgtt 180 ggctcctaca aactggctta cagcaatgat ggagaacact ggactgtata ccaggatgaa 240 aagcaaagaa aagataaggt actgctgggc cggaaggcgg tggtcgtaag ctgcgaaggc 300 atcaacattt ctggcagttt ctgcagaaac aagttgaagt acctggcttt cctccacaag 360 cggatgaaca ccaacccttc tcgacgcccc taccacttcc aggtccccag ccgcatcttc 420 tggcgacaag aaaaagcaga tggtggttcc tgctgccctc aaggtcatgc gtctgaagcc 480 tacaagaaag tttgcctatc tggggcgcct cacgaggttg gctggaagta ccaggcagtg 540 acagccaccc tggaggaaaa gaggaaagag aaagccgaga tccactaccg gaagaataaa 600 cagctcatga ggctacagaa acaggccgag aagaacatga agaagaaaat tgacaaatac 660 acagagagtc caggaggagg cagtccccgt ggcttaggct ttatctttaa gacaatagcg 720 ccgctcgccg ccacccgcgc gactcggatc gggcatcccg gcggccgcac cccgcgcgct 780 ggctcatctg cacaccggcc acctgcattg tcggccagag cccccgtccc ggcggcttcc 840 ccagcagctt ggctgcccct caggacgccc tggacccgcc catcctcctg ccccactagc 900 tcatcgactt acgactccct cagtccctac ggcccacgga accctctccc caacccgcgc 960 cacagcccga gcggcggcgg cggccttaag aagcccgcaa gacactgtca aggtcaaaag 1020 cacaatgtgc tagccagggg gaaaccccag agaaagccaa aatctgaaaa taacagctgg 1080 tatgtagaaa acggcagacc tgctgacttg gcaggctcag gatattgtgg tgctctttgg 1140 aaggcaatag agtccttgga ggaaggactt ggaggaaaac aaaaggacaa ggaaaggaaa 1200 gcagaaaatg gcccccatct acttgtggaa gcagagcaag ccaaggtgtt ttcacacaga 1260 ggtggcaatg ttacactgcc atgtaaattt tatcgagacc ctacagcatt tggctcagga 1320 atccataaaa tccgaattaa gtggaccaag ctaacttcgg attacctcaa ggaagtggat 1380 gtttttgttt ccatgggata ccacaaaaaa acctatggag gctaccaggg tagagtgttt 1440 ctgaagggag gcagtgatag tgatgcttct ctggtcatca cagacctcac tctggaagat 1500 tatgggagat ataagtgtga ggtgattgaa ggattagaag atgatactgt tgtggtagca 1560 ctggacttac aaggtgtggt attcccttac tttccacgac tggggcgcta caatctcaat 1620 tttcacgagg cgcagcaggc gtgtctggac caggatgctg tgatcgcctc cttcgaccag 1680 ctgtacgacg cctggcgggg cgggctggac tggtgcaatg ccggctggct cagtgatggc 1740 tctgtgcaat atcccatcac aaagcccaga gagccctgtg gggggcagaa cacagtgccc 1800 ggagtcagga actacggatt ttgggataaa gataaaagca gatatgatgt tttctgtttt 1860 acatccaatt tcaatggccg tttttactat ctgatccacc ccaccaaact gacctatgat 1920 gaagcggtgc aagcttgtct caatgatggt gctcagattg caaaagtggg ccagatattt 1980 gctgcctgga aaattctcgg atatgaccgc tgtgatgcgg gctggttggc ggatggcagc 2040 gtccgctacc ccatctctag gccaagaagg cgctgcagtc ctactgaggc tgcagtgcgc 2100 ttcgtgggtt tcccagataa aaagcataag ctgtatggtg tctactgctt cagagcatac 2160 aactga 2166 64 354 PRT Homo sapiens 64 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 65 721 PRT Homo sapiens 65 Met Leu Glu His Thr Thr Lys Thr Phe Pro Leu Arg Ala Leu His Ile 1 5 10 15 Val Val Glu Ser Ile Arg Asp His Ser Gly Gln Lys Met Lys Gln Asp 20 25 30 Lys Lys Val Asp Leu Leu Val Pro Thr Lys Val Thr Gly Ile Ile Thr 35 40 45 Gln Gly Ala Lys Asp Phe Gly His Val Gln Phe Val Gly Ser Tyr Lys 50 55 60 Leu Ala Tyr Ser Asn Asp Gly Glu His Trp Thr Val Tyr Gln Asp Glu 65 70 75 80 Lys Gln Arg Lys Asp Lys Val Leu Leu Gly Arg Lys Ala Val Val Val 85 90 95 Ser Cys Glu Gly Ile Asn Ile Ser Gly Ser Phe Cys Arg Asn Lys Leu 100 105 110 Lys Tyr Leu Ala Phe Leu His Lys Arg Met Asn Thr Asn Pro Ser Arg 115 120 125 Arg Pro Tyr His Phe Gln Val Pro Ser Arg Ile Phe Trp Arg Gln Glu 130 135 140 Lys Ala Asp Gly Gly Ser Cys Cys Pro Gln Gly His Ala Ser Glu Ala 145 150 155 160 Tyr Lys Lys Val Cys Leu Ser Gly Ala Pro His Glu Val Gly Trp Lys 165 170 175 Tyr Gln Ala Val Thr Ala Thr Leu Glu Glu Lys Arg Lys Glu Lys Ala 180 185 190 Glu Ile His Tyr Arg Lys Asn Lys Gln Leu Met Arg Leu Gln Lys Gln 195 200 205 Ala Glu Lys Asn Met Lys Lys Lys Ile Asp Lys Tyr Thr Glu Ser Pro 210 215 220 Gly Gly Gly Ser Pro Arg Gly Leu Gly Phe Ile Phe Lys Thr Ile Ala 225 230 235 240 Pro Leu Ala Ala Thr Arg Ala Thr Arg Ile Gly His Pro Gly Gly Arg 245 250 255 Thr Pro Arg Ala Gly Ser Ser Ala His Arg Pro Pro Ala Leu Ser Ala 260 265 270 Arg Ala Pro Val Pro Ala Ala Ser Pro Ala Ala Trp Leu Pro Leu Arg 275 280 285 Thr Pro Trp Thr Arg Pro Ser Ser Cys Pro Thr Ser Ser Ser Thr Tyr 290 295 300 Asp Ser Leu Ser Pro Tyr Gly Pro Arg Asn Pro Leu Pro Asn Pro Arg 305 310 315 320 His Ser Pro Ser Gly Gly Gly Gly Leu Lys Lys Pro Ala Arg His Cys 325 330 335 Gln Gly Gln Lys His Asn Val Leu Ala Arg Gly Lys Pro Gln Arg Lys 340 345 350 Pro Lys Ser Glu Asn Asn Ser Trp Tyr Val Glu Asn Gly Arg Pro Ala 355 360 365 Asp Leu Ala Gly Ser Gly Tyr Cys Gly Ala Leu Trp Lys Ala Ile Glu 370 375 380 Ser Leu Glu Glu Gly Leu Gly Gly Lys Gln Lys Asp Lys Glu Arg Lys 385 390 395 400 Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys Val 405 410 415 Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr Arg 420 425 430 Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys Trp 435 440 445 Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val Ser 450 455 460 Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val Phe 465 470 475 480 Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp Leu 485 490 495 Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly Leu 500 505 510 Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val Phe 515 520 525 Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu Ala 530 535 540 Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp Gln 545 550 555 560 Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly Trp 565 570 575 Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu Pro 580 585 590 Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe Trp 595 600 605 Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn Phe 610 615 620 Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr Asp 625 630 635 640 Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys Val 645 650 655 Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys Asp 660 665 670 Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg Pro 675 680 685 Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly Phe 690 695 700 Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala Tyr 705 710 715 720 Asn 66 354 PRT Homo sapiens 66 Met Lys Ser Leu Leu Leu Leu Val Leu Ile Ser Ile Cys Trp Ala Asp 1 5 10 15 His Leu Ser Asp Asn Tyr Thr Leu Asp His Asp Arg Ala Ile His Ile 20 25 30 Gln Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys 35 40 45 Val Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr 50 55 60 Arg Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys 65 70 75 80 Trp Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val 85 90 95 Ser Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val 100 105 110 Phe Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp 115 120 125 Leu Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly 130 135 140 Leu Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val 145 150 155 160 Phe Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu 165 170 175 Ala Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp 180 185 190 Gln Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly 195 200 205 Trp Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu 210 215 220 Pro Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe 225 230 235 240 Trp Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn 245 250 255 Phe Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr 260 265 270 Asp Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys 275 280 285 Val Gly Gln Ile Phe Ala Ala Trp Lys Ile Leu Gly Tyr Asp Arg Cys 290 295 300 Asp Ala Gly Trp Leu Ala Asp Gly Ser Val Arg Tyr Pro Ile Ser Arg 305 310 315 320 Pro Arg Arg Arg Cys Ser Pro Thr Glu Ala Ala Val Arg Phe Val Gly 325 330 335 Phe Pro Asp Lys Lys His Lys Leu Tyr Gly Val Tyr Cys Phe Arg Ala 340 345 350 Tyr Asn 67 721 PRT Homo sapiens 67 Met Leu Glu His Thr Thr Lys Thr Phe Pro Leu Arg Ala Leu His Ile 1 5 10 15 Val Val Glu Ser Ile Arg Asp His Ser Gly Gln Lys Met Lys Gln Asp 20 25 30 Lys Lys Val Asp Leu Leu Val Pro Thr Lys Val Thr Gly Ile Ile Thr 35 40 45 Gln Gly Ala Lys Asp Phe Gly His Val Gln Phe Val Gly Ser Tyr Lys 50 55 60 Leu Ala Tyr Ser Asn Asp Gly Glu His Trp Thr Val Tyr Gln Asp Glu 65 70 75 80 Lys Gln Arg Lys Asp Lys Val Leu Leu Gly Arg Lys Ala Val Val Val 85 90 95 Ser Cys Glu Gly Ile Asn Ile Ser Gly Ser Phe Cys Arg Asn Lys Leu 100 105 110 Lys Tyr Leu Ala Phe Leu His Lys Arg Met Asn Thr Asn Pro Ser Arg 115 120 125 Arg Pro Tyr His Phe Gln Val Pro Ser Arg Ile Phe Trp Arg Gln Glu 130 135 140 Lys Ala Asp Gly Gly Ser Cys Cys Pro Gln Gly His Ala Ser Glu Ala 145 150 155 160 Tyr Lys Lys Val Cys Leu Ser Gly Ala Pro His Glu Val Gly Trp Lys 165 170 175 Tyr Gln Ala Val Thr Ala Thr Leu Glu Glu Lys Arg Lys Glu Lys Ala 180 185 190 Glu Ile His Tyr Arg Lys Asn Lys Gln Leu Met Arg Leu Gln Lys Gln 195 200 205 Ala Glu Lys Asn Met Lys Lys Lys Ile Asp Lys Tyr Thr Glu Ser Pro 210 215 220 Gly Gly Gly Ser Pro Arg Gly Leu Gly Phe Ile Phe Lys Thr Ile Ala 225 230 235 240 Pro Leu Ala Ala Thr Arg Ala Thr Arg Ile Gly His Pro Gly Gly Arg 245 250 255 Thr Pro Arg Ala Gly Ser Ser Ala His Arg Pro Pro Ala Leu Ser Ala 260 265 270 Arg Ala Pro Val Pro Ala Ala Ser Pro Ala Ala Trp Leu Pro Leu Arg 275 280 285 Thr Pro Trp Thr Arg Pro Ser Ser Cys Pro Thr Ser Ser Ser Thr Tyr 290 295 300 Asp Ser Leu Ser Pro Tyr Gly Pro Arg Asn Pro Leu Pro Asn Pro Arg 305 310 315 320 His Ser Pro Ser Gly Gly Gly Gly Leu Lys Lys Pro Ala Arg His Cys 325 330 335 Gln Gly Gln Lys His Asn Val Leu Ala Arg Gly Lys Pro Gln Arg Lys 340 345 350 Pro Lys Ser Glu Asn Asn Ser Trp Tyr Val Glu Asn Gly Arg Pro Ala 355 360 365 Asp Leu Ala Gly Ser Gly Tyr Cys Gly Ala Leu Trp Lys Ala Ile Glu 370 375 380 Ser Leu Glu Glu Gly Leu Gly Gly Lys Gln Lys Asp Lys Glu Arg Lys 385 390 395 400 Ala Glu Asn Gly Pro His Leu Leu Val Glu Ala Glu Gln Ala Lys Val 405 410 415 Phe Ser His Arg Gly Gly Asn Val Thr Leu Pro Cys Lys Phe Tyr Arg 420 425 430 Asp Pro Thr Ala Phe Gly Ser Gly Ile His Lys Ile Arg Ile Lys Trp 435 440 445 Thr Lys Leu Thr Ser Asp Tyr Leu Lys Glu Val Asp Val Phe Val Ser 450 455 460 Met Gly Tyr His Lys Lys Thr Tyr Gly Gly Tyr Gln Gly Arg Val Phe 465 470 475 480 Leu Lys Gly Gly Ser Asp Ser Asp Ala Ser Leu Val Ile Thr Asp Leu 485 490 495 Thr Leu Glu Asp Tyr Gly Arg Tyr Lys Cys Glu Val Ile Glu Gly Leu 500 505 510 Glu Asp Asp Thr Val Val Val Ala Leu Asp Leu Gln Gly Val Val Phe 515 520 525 Pro Tyr Phe Pro Arg Leu Gly Arg Tyr Asn Leu Asn Phe His Glu Ala 530 535 540 Gln Gln Ala Cys Leu Asp Gln Asp Ala Val Ile Ala Ser Phe Asp Gln 545 550 555 560 Leu Tyr Asp Ala Trp Arg Gly Gly Leu Asp Trp Cys Asn Ala Gly Trp 565 570 575 Leu Ser Asp Gly Ser Val Gln Tyr Pro Ile Thr Lys Pro Arg Glu Pro 580 585 590 Cys Gly Gly Gln Asn Thr Val Pro Gly Val Arg Asn Tyr Gly Phe Trp 595 600 605 Asp Lys Asp Lys Ser Arg Tyr Asp Val Phe Cys Phe Thr Ser Asn Phe 610 615 620 Asn Gly Arg Phe Tyr Tyr Leu Ile His Pro Thr Lys Leu Thr Tyr Asp 625 630 635 640 Glu Ala Val Gln Ala Cys Leu Asn Asp Gly Ala Gln Ile Ala Lys Val

Claims (51)

1. A composition comprising:
a substance that a) modulates the status of a protein of FIG. 2 (SEQ ID NOS:______), or b) a molecule that is modulated by a protein of FIG. 2, whereby the status of a cell that expresses a protein of FIG. 2 is modulated.
2. A composition of claim 1, further comprising a physiologically acceptable carrier.
3. A pharmaceutical composition that comprises the composition of claim 1 in a human unit dose form.
4. A composition of claim 1 wherein the substance comprises an antibody or fragment thereof that specifically binds to a protein that is related to a protein of FIG. 2.
5. An antibody or fragment thereof of claim 4, which is monoclonal.
6. An antibody of claim 4, which is a human antibody, a humanized antibody or a chimeric antibody.
7. A non-human transgenic animal that produces an antibody of claim 4.
8. A hybridoma that produces an antibody of claim 5.
9. A method of delivering a cytotoxic agent or a diagnostic agent to a cell that expresses a protein of FIG. 2 (SEQ ID NOS: ______), said method comprising:
providing the cytotoxic agent or the diagnostic agent conjugated to an antibody or fragment thereof of claim 4; and,
exposing the cell to the antibody-agent or fragment-agent conjugate.
10. A composition of claim 1 wherein the substance comprises a polynucleotide that encodes an antibody or fragment thereof, either of which immunospecifically bind to a protein of FIG. 2.
11. A composition of claim 1 wherein the substance comprises a protein related to a protein of FIG. 2.
12. A protein of claim 11 that is at least 90% homologous to an entire amino acid sequence shown in FIG. 2 (SEQ ID NOS: ______).
13. A composition of claim 1 wherein the substance comprises:
a) a peptide of eight, nine, ten, or eleven contiguous amino acids of a protein of FIG. 2;
b) a peptide of Tables V to XVIII (SEQ ID NOS: ______);
c) a peptide of Tables XXII to XLVII (SEQ ID NOS: ______); or,
d) a peptide of Tables XLVIII to LI (SEQ ID NOS: ______).
14. A composition of claim 1 wherein the substance comprises a CTL polypeptide or an analog thereof, from the amino acid sequence of a protein of FIG. 2 (SEQ ID NOS: ______).
15. A composition of claim 14 further limited by a proviso that the epitope is not an entire amino acid sequence of FIG. 2 (SEQ ID NOS:).
16. A composition of claim 14 wherein the substance comprises a CTL polypeptide set forth in Tables V to XVIII (SEQ ID NOS: ______).
17. A composition of claim 16 further limited by a proviso that the polypeptide is not an entire amino acid sequence of a protein of FIG. 2 (SEQ ID NOS: ______).
18. A composition of claim 1 wherein the substance comprises an antibody polypeptide epitope from an amino acid sequence of FIG. 2 (SEQ ID NOS: ______).
19. A composition of claim 18 further limited by a proviso that the epitope is not an entire amino acid sequence of FIG. 2 (SEQ ID NOS: ______).
20. A composition of claim 18 wherein the antibody epitope comprises a peptide region of at least 5 amino acids of FIG. 2 (SEQ ID NOS: ______) in any whole number increment up to the end of said peptide, wherein the epitope comprises an amino acid position selected from:
a) an amino acid position having a value greater than 0.5 in the Hydrophilicity profile of FIG. 5,
b) an amino acid position having a value less than 0.5 in the Hydropathicity profile of FIG. 6;
c) an amino acid position having a value greater than 0.5 in the Percent Accessible Residues profile of FIG. 7;
d) an amino acid position having a value greater than 0.5 in the Average Flexibility profile of FIG. 8;
e) an amino acid position having a value greater than 0.5 in the Beta-turn profile of FIG. 9;
f) a combination of at least two of a) through e);
g) a combination of at least three of a) through e);
h) a combination of at least four of a) through e); or
i) a combination of five of a) through e).
21. A composition of claim 20 further limited by a proviso that the epitope is not an entire amino acid sequence of FIG. 2 (SEQ ID NOS: ______).
22. A polynucleotide that encodes a protein of claim 11.
23. A polynucleotide of claim 22 that comprises a nucleic acid molecule set forth in FIG. 2.
24. A polynucleotide of claim 22 further limited by a proviso that the encoded protein is not an entire amino acid sequence of FIG. 2 (SEQ ID NOS: ______).
25. A polynucleotide of claim 22 wherein T is substituted with U.
26. A composition of claim 1 wherein the substance comprises a polynucleotide that comprises a coding sequence of a nucleic acid sequence of FIG. 2 (SEQ ID NOS: ______).
27. A polynucleotide of claim 22 that further comprises an additional nucleotide sequence that encodes an additional protein of claim 11.
28. A composition comprising a polynucleotide that is fully complementary to a polynucleotide of claim 22.
29. A composition comprising a polynucleotide that is fully complementary to a polynucleotide of claim 25.
30. A composition comprising a polynucleotide that is fully complementary to a polynucleotide of claim 27.
31. A composition of claim 1 wherein the substance comprises a) a ribozyme that cleaves a polynucleotide having a 151P3D4 coding sequence, or b) a nucleic acid molecule that encodes the ribozyme; and, a physiologically acceptable carrier.
32. A composition of claim 1 wherein the substance comprises human T cells, wherein said T cells specifically recognize a 151P3D4 peptide subsequence in the context of a particular HLA molecule.
33. A method of inhibiting growth of cancer cells that express a protein of FIG. 2, the method comprising:
administering to the cells the composition of claim 1.
34. A method of claim 33 of inhibiting growth of cancer cells that express a protein of FIG. 2, the method comprising steps of:
administering to said cells an antibody or fragment thereof, either of which specifically bind to a 151P3D4-related protein.
35. A method of claim 33 of inhibiting growth of cancer cells that express a protein of FIG. 2, the method comprising steps of:
administering to said cells a 151P3D4-related protein.
36. A method of claim 33 of inhibiting growth of cancer cells that express a protein of FIG. 2, the method comprising steps of:
administering to said cells a polynucleotide comprising a coding sequence for a 151P3D4-related protein or comprising a polynucleotide complementary to a coding sequence for a 151P3D4-related protein.
37. A method of claim 33 of inhibiting growth of cancer cells that express a protein of FIG. 2, the method comprising steps of:
administering to said cells a ribozyme that cleaves a polynucleotide that encodes a protein of FIG. 2.
38. A method of claim 33 of inhibiting growth of cancer cells that express a protein of FIG. 2 and a particular HLA molecule, the method comprising steps of:
administering human T cells to said cancer cells, wherein said T cells specifically recognize a peptide subsequence of a protein of FIG. 2 while the subsequence is in the context of the particular HLA molecule.
39. A method of claim 33, the method comprising steps of:
administering a vector that delivers a nucleotide that encodes a single chain monoclonal antibody, whereby the encoded single chain antibody is expressed intracellularly within cancer cells that express a protein of FIG. 2.
40. A method of generating a mammalian immune response directed to a protein of FIG. 2, the method comprising:
exposing cells of the mammal's immune system to a portion of
a) a 151P3D4-related protein and/or
b) a nucleotide sequence that encodes said protein,
whereby an immune response is generated to said protein.
41. A method of generating an immune response of claim 40, said method comprising:
providing a 151P3D4-related protein that comprises at least one T cell or at least one B cell epitope; and,
contacting the epitope with a mammalian immune system T cell or B cell respectively, whereby the T cell or B cell is activated.
42. A method of claim 41 wherein the immune system cell is a B cell, whereby the induced B cell generates antibodies that specifically bind to the 151P3D4-related protein.
43. A method of claim 41 wherein the immune system cell is a T cell that is a cytotoxic T cell (CTL), whereby the activated CTL kills an autologous cell that expresses the 151P3D4-related protein.
44. A method of claim 41 wherein the immune system cell is a T cell that is a helper T cell (HTL), whereby the activated HTL secretes cytokines that facilitate the cytotoxic activity of a cytotoxic T cell (CTL) or the antibody-producing activity of a B cell.
45. A method for detecting, in a sample, the presence of a 151P3D4-related protein or a 151P3D4-related polynucleotide, comprising steps of:
contacting the sample with a substance of claim 1 that specifically binds to the 151P3D4-related protein or to the 151P3D4-related polynucleotide, respectively; and,
determining that there is a complex of the substance with the 151P3D4-related protein or the substance with the 151P3D4-related polynucleotide, respectively.
46. A method of claim 45 for detecting the presence of a 151P3D4-related protein in a sample comprising steps of:
contacting the sample with an antibody or fragment thereof either of which specifically bind to the 151P3D4-related protein; and,
determining that there is a complex of the antibody or fragment thereof and the 151P3D4-related protein.
47. A method of claim 45 further comprising a step of:
taking the sample from a patient who has or who is suspected of having cancer.
48. A method of claim 45 for detecting the presence of a protein of FIG. 2 mRNA in a sample comprising:
producing cDNA from the sample by reverse transcription using at least one primer;
amplifying the cDNA so produced using 151P3D4 polynucleotides as sense and antisense primers, wherein the 151P3D4 polynucleotides used as the sense and antisense primers serve to amplify a 151P3D4 cDNA; and,
detecting the presence of the amplified 151P3D4 cDNA.
49. A method of claim 45 for monitoring one or more 151P3D4 gene products in a biological sample from a patient who has or who is suspected of having cancer, the method comprising:
determining the status of one or more 151P3D4 gene products expressed by cells in a tissue sample from an individual;
comparing the status so determined to the status of one or more 151P3D4 gene products in a corresponding normal sample; and,
identifying the presence of one or more aberrant gene products of 151P3D4 in the sample relative to the normal sample.
50. The method of claim 49 further comprising a step of determining if there are one or more elevated gene products of a 151P3D4 mRNA or a 151P3D4 protein, whereby the presence of one or more elevated gene products in the test sample relative to the normal tissue sample indicates the presence or status of a cancer.
51. A method of claim 50 wherein the cancer occurs in a tissue set forth in Table I.
US10/120,907 2001-04-10 2002-04-09 Nucleic acid and corresponding protein entitled 151P3D4 useful in treatment and detection of cancer Abandoned US20040062761A1 (en)

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US11/833,918 US7667015B2 (en) 2001-04-10 2007-08-03 Nucleic acid and corresponding protein entitled 151P3D4 useful in treatment and detection of cancer
US12/687,768 US7960527B2 (en) 2001-04-10 2010-01-14 Nucleic acid and corresponding protein entitled 151P3D4 useful in treatment and detection of cancer
US13/016,639 US20110123539A1 (en) 2001-04-10 2011-01-28 Nucleic acid and corresponding protein entitled 151p3d4 useful in treatment and detection of cancer

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US11/368,284 Expired - Fee Related US7592149B2 (en) 2001-04-10 2006-03-02 Nucleic acid and corresponding protein entitled 184P1E2 useful in treatment and detection of cancer
US11/833,918 Expired - Fee Related US7667015B2 (en) 2001-04-10 2007-08-03 Nucleic acid and corresponding protein entitled 151P3D4 useful in treatment and detection of cancer
US12/357,154 Expired - Fee Related US7879570B2 (en) 2001-04-10 2009-01-21 Nucleic acid and corresponding protein entitled 184P1E2 useful in treatment and detection of cancer
US12/687,768 Expired - Fee Related US7960527B2 (en) 2001-04-10 2010-01-14 Nucleic acid and corresponding protein entitled 151P3D4 useful in treatment and detection of cancer
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US7879570B2 (en) 2011-02-01
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US8168187B2 (en) 2012-05-01
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