DESCRIPTION
METHOD AND REAGENT FOR THE MODULATION AND DIAGNOSIS OF CD20
AND NOGO GENE EXPRESSION
Background Of The Invention
This invention claims priority from Blatt, USSN (60/181,797), filed February 11, 2000, entitled "METHOD AND REAGENT FOR THE INHIBITION OF NOGO GENE", from Blatt, USSN (60/185,516), filed February 28, 2000, and also from Usman, USSN (60/187,128), filed March 6, 2000. These patent applications are hereby incorporated by reference herein in their entirety including the drawings.
The present invention concerns compounds, compositions, and methods for the study, diagnosis, and treatment of conditions and diseases that respond to the modulation of genes, including CD20 and NOGO genes. Specifically, the instant invention provides for compositions and methods for the treatment of diseases associated with the level of CD20 and NOGO. Diagnostic systems and methods for detecting the presence of nucleic acids are further disclosed.
The following is a brief description of the current understanding of CD20 and NOGO, their corresponding biological function, and therapeutic relevance. The discussion is not meant to be complete and is provided only for understanding the invention that follows. The summary is not an admission that any of the work described below is prior art to the claimed invention.
The vertebrate immune system has evolved to include a number of organs and cell types which specifically recognize foreign antigens (e.g., antibody generators) from invading pathogens. The immune response, which is mediated by lymphocytes, seeks out and destroys the invading foreign bodies through specific recognition of antibodies and subsequent destruction of foreign bodies. Lymphocytes, which represent about 30% of the total number of white blood cells in the adult human circulatory system, are produced in the primary lymphoid organs, the thymus, spleen, and bone marrow. The two major sub-types of lymphocytes are B-cells and T- cells.
T-cells, which develop in the thymus, are responsible for cell-mediated immunity. B-cells, which develop in the adult bone marrow (or fetal liver), produce antibodies and are responsible for humoral immunity. T-cells are activated by the binding of major histocompatability complex (MHC) glycoproteins on the surface of an antigenic cell to T-cell receptors. Activated T-cells release regulatory molecules, such as interleukins, that can stimulate B-cell differentiation. Activated B-cells develop into antibody secreting cells which are filled with an extensive rough
endoplasmic reticulum for the production of immunoglobulins against an antigen. B-cell diversity is central to the effective functioning to the immune system. An activated B-cell can produce large quantities of antibody in response to a given antigen. Normally, this antibody production is modulated in response to the neutralization of the antigen. However, when the production of B-cells is dysregulated, such proliferation can result in B-cell lymphoma.
CD20 is a 35 kDa cell surface phosphoprotein expressed exclusively in mature B lymphocytes (Rosenthal et al, 1983, J. Immunol, 131, 232-237; Stashenko et al, 1980, J. Immunol, 125, 1678-1685). This B-cell lineage specific antigen is found on all tumor cells within most B-cell lymphomas. The increased expression of CD20 appears to be associated with tumor cell proliferation, although the magnitude of expression varies among different types of lymphoid tumors. CD20 is a transmembrane protein with four transmembrane domains with both C- and N-terminals located in the cytoplasm. The primary structure of CD20 has been determined by molecular cloning (Einfeld et al, 1986, EMBO J., 7, 711-717; Tedder et al, 1988, PNAS USA, 85, 208-212) and resembles those of ion channel and ion transporter proteins. When expressed in fibroblasts, CD20 functions as a calcium-permeable cation channel which is activated by the insulin-like growth factor-I (IGF-I) receptor (Kanzaki et al, 1997, J Biol Chem., 272, 4964-69). Modulation of cell growth is observed in fibroblasts expressing CD20. In CD20 expressing Balb/c 3T3 fibroblasts, CD20 expression accelerates cell cycle progression through the G^ phase and enables cells to enter S phase in cell culture medium containing low extracellular calcium (Kanzaki et al, 1995, J. Biol Chem., 270, 13099-04). In B-lymphocytes, CD20 appears to function directly in the regulation of transmembrane Ca2+ conductance (Bubien et al, 1993, J Cell. Biol, 121, 1121-1132). In lymphocytes, CD20 has been shown to be associated with src family tyrosine kinases, and is phosphorylated by protein kinases such as calmodulin-dependant protein kinase. Monoclonal antibody (n AB) binding to CD20 alters cell cycle progression and differentiation in B-lymphocytes, thus indicating that CD20 plays an essential role in B-cell function (for a review of CD20 function, see Tedder and Engel, 1994, Immunol Today, 15(9), 450-4).
As such, CD20 has the potential for providing a molecular target for the treatment of diseases such as B-cell lymphomas. The use of monoclonal antibodies targeting CD20 has been extensively described (for a review, see Weiner, 1999, Semin. Oncol, 26, 43-51; Gopal and Press, 1999, J. Lab. Clin. Med., 134, 445-450; White et al, 1999, Pharm. Sci. Technol. Today, 2, 95-101). Rituxan™ is an chimeric anti-CD20 monoclonal antibody which has been used widely both as a single agent and together with chemotherapy in patients with newly diagnosed and relapsed lymphomas (Davis et al, 1999, J Clin. Oncol, 17, 1851-1857; Solal-Celigny et al, 1999, Blood, 94, abstract 2802; Foran et al, 2000, J. Clin. Oncol, 18, 317-324). In addition, the use of radiolabeled antibody conjugates has been described. Bexxar™ is an 1-131 conjugated antibody which is believed to work through a dual mechanism of action resulting from the
immune system activity of the niAB and the therapeutic effects of the iodine (1-131) radioisotope. The use of Bexxar in patients with transformed low-grade lymphoma is described by Zelenetz et al, 1999, Blood, 94, abstract 2806. Zevalin™ is an anti-CD20 murine IgGl kappa monoclonal antibody, conjugated to tiuxetan, which can be conjugated with either In-Ill for imaging/dosimetry or yttrium-90 for therapeutic use. A controlled study of Zevalin compared to Rituxan for patients with B-cell lymphoma is reported by Witzig et al, 1999, Blood, 94, abstract 2805.
Although the use of monoclonal antibodies and conjugates has provided therapeutic value in the treatment of lymphomas, their efficacy and safety are by no means ideal. The use of monoclonal antibodies can be limiting due to factors including but not limited to toxicity, immunogenicity, and tumor resistance. In addition, radioisotope conjugated mABs can potentially damage non-pathogenic tissues, resulting in malignancy outside the scope of the original pathology. The route of administration of many of these compounds is intravenous infusion. Infusion related side effects can be problematic. Winkler et al, 1999, Blood, 94(7), 2217-2224, describe Cytokine-release syndrome and poor overall efficacy in patients with B-cell chronic lymphocytic leukemia and high lymphocyte counts after treatment with an anti-CD20 monoclonal antibody (rituximab). As such, there exists a need for safe and effective therapeutics in order to replace or compliment existing lymphoma treatment strategies.
The ceased growth of neurons following development has severe implications for lesions of the central nervous system (CNS) caused by neurodegenerative disorders and traumatic accidents. Although CNS neurons have the capacity to rearrange their axonal and dendritic foci in the developed brain, the regeneration of severed CNS axons spanning distance does not exist. Axonal growth following CNS injury is limited by the local tissue environment rather than intrinsic factors, as indicated by transplantation experiments (Richardson et al, 1980, Nature, 284, 264-265). Non-neuronal glial cells of the CNS, including oligodendrocytes and astrocytes, have been shown to inhibit the axonal growth of dorsal root ganglion neurons in culture (Schwab and Thoenen,1985, J. Neurosci., 5, 2415-2423). Cultured dorsal root ganglion cells can extend their axons across glial cells from the peripheral nervous system, (ie; Schwann cells), but are inhibited by oligodendrocytes and yelin of the CNS (Schwab and Caroni, 1988, J. Neurosci., 8, 2381-2393).
The non-conductive properties of CNS tissue in adult vertebrates is thought to result from the existence of inhibitory factors rather than the lack of growth factors. The identification of proteins with neurite outgrowth inhibitory or repulsive properties include NI-35, NI-250 (Caroni and Schwab, 1988, Neuron, 1, 85-96), myelin-associated glycoprotein (Genebank Accession No M29273), tenascin-R (Genebank Accession No X98085), and NG-2 (Genebank Accession No X61945). Monoclonal antibodies (mAb IN-1) raised against NI-35/250 have been shown to partially neutralize the growth inhibitory effect of CNS myelin and oligodendrocytes. IN-1
treatment in vivo has resulted in long distance fiber regeneration in lesioned adult mammalian CNS tissue (Weibel et al, 1994, Brain Res., 642, 259-266). Additionally, IN-1 treatment in vivo has resulted in the recovery of specific reflex and locomotor functions after spinal cord injury in adult rats (Bregman et al, 1995, Nature, 378, 498-501).
Recently, the cloning of NOGO-A (Genebank Accession No AJ242961), the rat complementary DNA encoding NI-220/250 has been reported (Chen et al, 2000, Nature, 403, 434-439). The NOGO gene encodes at least three major protein products (NOGO-A, B, and C) resulting from both alternative promoter usage and alternative splicing. Recombinant NOGO-A inhibits neurite outgrowth from dorsal root ganglia and the spreading of 3T3 firboblasts. Monoclonal antibody IN-1 recognizes NOGO-A and neutralizes NOGO-A inhibition of neuronal growth in vitro. Evidence supports the proposal that NOGO-A is the previously described rat NI-250 since NOGO-A contains all six peptide sequences obtained from purified bNI-220, the bovine equivalent of rat NI-250 (Chen et al supra).
Prinjha et al, 2000, Nature, 403, 383-384, report the cloning of the human NOGO gene which encodes three different NOGO isoforms that are potent inhibitors of neurite outgrowth. Using oligonucleotide primers to amplify and clone overlapping regions of the open reading frame of NOGO cDNA, Phrinjha et al, supra identified three forms of cDNA clone corresponding to the three protein isoforms. The longest ORF of 1,192 amino acids corresponds to NOGO-A (Accession No. AJ251383). An intermediate-length splice variant that lacks residues 186-1,004 corresponds to NOGO-B (Accession No. AJ251384). The shortest splice variant, NOGO-C (Accession No. AJ251385), appears to be the previously described rat vp20 (Accession No. AF051335) and foocen-s (Accession No. AF132048), and also lacks residues 186-1,004. According to Prinjha et al, supra, the NOGO amino-terminal region shows no significant homology to any known protein, while the carboxy-terminal tail shares homology with neuroendicrine-specific proteins and other members of the reticulon gene family. In addition, the carboxy-terminal tail contains a consensus sequence that may serve as an endoplasmic-reticulum retention region. Based on the NOGO protein sequence, Prinjha et al, supra, postulate NOGO to be a membrane associated protein comprising a putative large extracellular domain of 1,024 residues with seven predicted N-linked glycosylation sites, two or three transmembrane domains, and a short carboxy-terminal region of 43 residues.
Grandpre et al, 2000, Nature, also report the identification of NOGO as a potent inhibitor of axon regeneration. The 4.1 kilobase NOGO human cDNA clone identified by Grandpre et al, supra, KIAA0886, is homologous to a cDNA derived from a previous effort to sequence random high molecular-weight brain derived cDNAs (Nagase et al, 1998, DNA Res., 31, 355-364). This cDNA clone encodes a protein that matches all six of the peptide sequences derived from bovine NOGO. Grandpre et al, supra demonstrate that NOGO expression is predominantly associated with the CNS and not the peripheral nervous system (PNS). Cellular localization of NOGO
protein appears to be predominantly reticluar in origin, however, NOGO is found on the surface of some oligodentrocytes. An active domain of NOGO has been identified, defined as residues 31-55 of a hydrophilic 66-residue lumenal/extracellular domain. A synthetic fragment corresponding to this sequence exhibits growth-cone collapsing and outgrowth inhibiting activities (Grandpre et al, supra).
Hauswirth and Flannery, International PCT Publication No. WO 98/48027, describe materials and methods for the specific expression of proteins in retinal photoreceptor cells consisting of an adeno-associated viral vector contacting a rod or cone-opsin promoter. In addition, ribozymes which degrade mutant mRNA are described for use in the treatment of retinitis pigmentosa.
Fechteler et al, International PCT Publication No. WO 00/03004 describe ribozymes targeting presenilin-2 RNA for the use in treating neurodegenerative diseases such as Alzheimer's disease.
Eldadah et al, 2000, J Neurosci., 20, 179-186, describe the protection of cerebellar granule cells from apoptosis induced by serum-potassium deprivation from ribozyme mediated inhibition of caspase-3.
Seidman et al, 1999, Antisense Nucleic Acid Drug Dev., 9, 333-340, describe in general terms, the use of antisense and ribozyme constructs for treatment of neurodegenerative diseases.
Denman et al, 1994, Nucleic Acids Research, 22, 2375-82, describe the ribozyme mediated degradation of beta-amyloid peptide precursor mRNA in COS-7 cells.
Summary Of The Invention
The invention features novel nucleic acid-based techniques [e.g., enzymatic nucleic acid molecules (ribozymes), antisense nucleic acids, 2-5A antisense chimeras, triplex DNA, antisense nucleic acids containing RNA cleaving chemical groups] and methods for their use to modulate the expression of genes, for example those encoding certain myelin proteins that inhibit or are involved in the inhibition of neurite growth, including axonal regeneration in the CNS. In addition, The invention also features novel nucleic acid-based techniques [e.g., enzymatic nucleic acid molecules (ribozymes), antisense nucleic acids, 2-5A antisense chimeras, triplex DNA, antisense nucleic acids containing RNA cleaving chemical groups] and methods for their use to modulate the expression of CD20. Specifically, the instant invention features nucleic-acid based techniques to inhibit the expression of NOGO-A (Accession No. AJ251383), B (Accession No. AJ251384), and/or C (Accession No. AJ251385), NI-35, 220, and/or 250, myelin-associated glycoprotein (Genebank Accession No M29273), tenascin-R (Genebank
Accession No X98085), NG-2 (Genebank Accession No X61945) and CD20 gene (an exemplary CD20 sequence is found at GenBank Accession No. X07203).
In a preferred embodiment, the invention features the use of one or more of the nucleic acid-based techniques independently or in combination to inhibit the expression of the gene(s) encoding NOGO-A, B, and/or C, NI-35, 220, and/or 250, myelin-associated glycoprotein, tenascin-R, NG-2, and/or CD20. Specifically, the invention features the use of nucleic acid- based techniques to specifically inhibit the expression of NOGO gene (GenBank Accession No. AB020693) and CD20 gene (GenBank Accession No. X07203).
The description below of the various aspects and embodiments is provided with reference to the exemplary gene CD20 and NOGO. However, the various aspects and embodiments are also directed to other genes, including those which express CD20-like proteins involved in B- cell proliferation and NOGO-like proteins involved in neurite outgrowth inhibition. Those additional genes can be analyzed for target sites using the methods described for CD20 and/or NOGO. Thus, the inhibition and the effects of such inhibition of the other genes can be performed as described herein.
In another preferred embodiment, the invention features the use of an enzymatic nucleic acid molecule, preferably in the hammerhead, NCH (Inozyme), G-cleaver, amberzyme, zinzyme and/or DNAzyme motif, to inhibit the expression of CD20 and/or NOGO genes.
By "inhibit" it is meant that the activity of CD20 and/or NOGO or level of RNAs or equivalent RNAs encoding one or more protein subunits of CD20 and/or NOGO is reduced below that observed in the absence of the nucleic acid molecules of the invention. In one embodiment, inhibition with enzymatic nucleic acid molecule preferably is below that level observed in the presence of an enzymatically inactive or attenuated molecule that is able to bind to the same site on the target RNA, but is unable to cleave that RNA. In another embodiment, inhibition with antisense oligonucleotides is preferably below that level observed in the presence of, for example, an oligonucleotide with scrambled sequence or with mismatches. In another embodiment, inhibition of CD20 and/or NOGO genes with the nucleic acid molecule of the instant invention is greater than in the presence of the nucleic acid molecule than in its absence.
By "enzymatic nucleic acid" is meant a nucleic acid molecule capable of catalyzing (altering the velocity and/or rate of) a variety of reactions including the ability to repeatedly cleave other separate nucleic acid molecules (endonuclease activity) or ligate other separate nucleic acid molecules (ligation activity) in a nucleotide base sequence-specific manner. Such a molecule with endonuclease and/or ligation activity may have complementarity in a substrate binding region to a specified gene target, and also has an enzymatic activity that specifically cleaves and/or ligates RNA or DNA in that target. That is, the nucleic acid molecule with
endonuclease and/or ligation activity is able to intramolecularly or intermolecularly cleave and/or ligate RNA or DNA and thereby inactivate or activate a target RNA or DNA molecule. This complementarity functions to allow sufficient hybridization of the enzymatic RNA molecule to the target RNA or DNA to allow the cleavage/ligation to occur. One hundred percent complementarity is preferred, but complementarity as low as 50-75% may also be useful in this invention (see for example Werner and Uhlenbeck, 1995, Nucleic Acids Research, 23, 2092-2096; Hammann et al, 1999, Antisense and Nucleic Acid Drug Dev., 9, 25-31). The nucleic acids can be modified at the base, sugar, and/or phosphate groups. The term enzymatic nucleic acid is used interchangeably with phrases such as ribozymes, catalytic RNA, enzymatic RNA, catalytic DNA, aptazyme or aptamer-binding ribozyme, regulatable ribozyme, catalytic oligonucleotides, nucleozyme, DNAzyme, RNA enzyme, endoribonuclease, endonuclease, minizyme, leadzyme, oligozyme or DNA enzyme. All of these terminologies describe nucleic acid molecules with enzymatic activity. The specific enzymatic nucleic acid molecules described in the instant application are not limiting in the invention and those skilled in the art will recognize that all that is important in an enzymatic nucleic acid molecule of this invention is that it has a specific substrate binding site which is complementary to one or more of the target nucleic acid regions, and that it have nucleotide sequences within or surrounding that substrate binding site which impart a nucleic acid cleaving and/or ligation activity to the molecule (Cech et al, U.S. Patent No. 4,987,071; Cech et al, 1988, 260 JAMA 3030).
By "nucleic acid molecule" as used herein is meant a molecule having nucleotides. The nucleic acid can be single, double, or multiple stranded and may comprise modified or unmodified nucleotides or non-nucleotides or various mixtures and combinations thereof.
By "enzymatic portion" or "catalytic domain" is meant that portion/region of the enzymatic nucleic acid molecule essential for cleavage of a nucleic acid substrate (for example, see Figures 1-5).
By "substrate binding arm" or "substrate binding domain" is meant that portion region of a enzymatic nucleic acid which is able to interact, for example via complementarity (i.e., able to base-pair with), with a portion of its substrate. Preferably, such complementarity is 100%, but can be less if desired. For example, as few as 10 bases out of 14 can be base-paired (see for example Werner and Uhlenbeck, 1995, Nucleic Acids Research, 23, 2092-2096; Hammann et al, 1999, Antisense and Nucleic Acid Drug Dev., 9, 25-31). Examples of such arms are shown generally in Figures 1-5. That is, these arms contain sequences within a enzymatic nucleic acid which are intended to bring enzymatic nucleic acid and target RNA together through complementary base-pairing interactions. The enzymatic nucleic acid of the invention can have binding arms that are contiguous or non-contiguous and can be of varying lengths. The length of the binding aπn(s) are preferably greater than or equal to four nucleotides and of sufficient length to stably interact with the target RNA; preferably 12-100 nucleotides; more preferably 14-24
nucleotides long (see for example Werner and Uhlenbeck, supra; Hamman et al, supra; Hampel et al, EP0360257; Berzal-Herrance et al, 1993, EMBOJ., 12, 2567-73). If two binding arms are chosen, the design is such that the length of the binding arms are symmetrical (i.e., each of the binding arms is of the same length; e.g., five and five nucleotides, or six and six nucleotides, or seven and seven nucleotides long) or asymmetrical (i.e., the binding arms are of different length; e.g., six and three nucleotides; three and six nucleotides long; four and five nucleotides long; four and six nucleotides long; four and seven nucleotides long; and the like).
By "Inozyme" or "NCH" motif is meant, an enzymatic nucleic acid molecule comprising a motif as is generally described as NCH Rz in Figure 2. Inozymes possess endonuclease activity to cleave RNA substrates having a cleavage triplet NCH/, where N is a nucleotide, C is cytidine and H is adenosine, uridine or cytidine, and / represents the cleavage site. H is used interchangeably with X. Inozymes can also possess endonuclease activity to cleave RNA substrates having a cleavage triplet NCN/, where N is a nucleotide, C is cytidine, and / represents the cleavage site. "I" in Figure 2 represents an Inosine nucleotide, preferably a ribo-Inosine or xylo-Inosine nucleoside.
By "G-cleaver" motif is meant, an enzymatic nucleic acid molecule comprising a motif as is generally described as G-cleaver Rz in Figure 2. G-cleavers possess endonuclease activity to cleave RNA substrates having a cleavage triplet NYN/, where N is a nucleotide, Y is uridine or cytidine and / represents the cleavage site. G-cleavers can be chemically modified as is generally shown in Figure 2.
By "amberzyme" motif is meant, an enzymatic nucleic acid molecule comprising a motif as is generally described in Figure 3. Amberzymes possess endonuclease activity to cleave RNA substrates having a cleavage triplet NG/N, where N is a nucleotide, G is guanosine, and / represents the cleavage site. Amberzymes can be chemically modified to increase nuclease stability through substitutions as are generally shown in Figure 3. In addition, differing nucleoside and/or non-nucleoside linkers can be used to substitute the 5'-gaaa-3' loops shown in the figure. Amberzymes represent a non-limiting example of an enzymatic nucleic acid molecule that does not require a ribonucleotide (2' -OH) group within its own nucleic acid sequence for activity.
By "zinzyme" motif is meant, an enzymatic nucleic acid molecule comprising a motif as is generally described in Figure 4. Zinzymes possess endonuclease activity to cleave RNA substrates having a cleavage triplet including but not limited to YG/Y, where Y is uridine or cytidine, and G is guanosine and / represents the cleavage site. Zinzymes can be chemically modified to increase nuclease stability through substitutions as are generally shown in Figure 4, including substituting 2'-O-methyl guanosine nucleotides for guanosine nucleotides. In addition, differing nucleotide and/or non-nucleotide linkers can be used to substitute the 5'-gaaa-2' loop
shown in the figure. Zinzymes represent a non- limiting example of an enzymatic nucleic acid molecule that does not require a ribonucleotide (2' -OH) group within its own nucleic acid sequence for activity.
By 'DNAzyme' is meant, an enzymatic nucleic acid molecule that does not require the presence of a 2' -OH group for its activity. In particular embodiments the enzymatic nucleic acid molecule can have an attached linker(s) or other attached or associated groups, moieties, or chains containing one or more nucleotides with 2' -OH groups. DNAzymes can be synthesized chemically or expressed endogenously in vivo, by means of a single stranded DNA vector or equivalent thereof. An example of a DNAzyme is shown in Figure 5 and is generally reviewed in Usman et al., International PCT Publication No. WO 95/11304; Chartrand et al, 1995, NAR 23, 4092; Breaker et al, 1995, Chem. Bio. 2, 655; Santoro et al, 1997, PNAS 94, 4262; Breaker, 1999, Nature Biotechnology, 17, 422-423; and Santoro et. al, 2000, J. Am. Chem. Soc, 122, 2433-39. Additional DNAzyme motifs can be selected for using techniques similar to those described in these references, and hence, are within the scope of the present invention.
By "sufficient length" is meant an oligonucleotide of greater than or equal to 3 nucleotides that is of a length great enough to provide the intended function under the expected condition. For example, for binding arms of enzymatic nucleic acid "sufficient length" means that the binding arm sequence is long enough to provide stable binding to a target site under the expected binding conditions. Preferably, the binding arms are not so long as to prevent useful turnover of the nucleic acid molecule.
By "stably interact" is meant interaction of the oligonucleotides with target nucleic acid (e.g., by forming hydrogen bonds with complementary nucleotides in the target under physiological conditions) that is sufficient to the intended purpose (e.g., cleavage of target RNA by an enzyme).
By "equivalent" RNA to CD20 and/or NOGO is meant to include those naturally occurring RNA molecules having homology (partial or complete) to CD20 and/or NOGO proteins or encoding for proteins with similar function as CD20 and/or NOGO in various organisms, including but not limited to parasites, human, rodent, primate, rabbit, and pig. The equivalent RNA sequence also includes in addition to the coding region, regions such as 5 '-untranslated region, 3 '-untranslated region, introns, intron-exon junction and the like.
By "degree of homology" is meant the nucleotide sequence of two or more nucleic acid molecules is partially or completely identical.
By "antisense nucleic acid", it is meant a non-enzymatic nucleic acid molecule that binds to target RNA by means of RNA-RNA or RNA-DNA or RNA-PNA (protein nucleic acid; Egholm et al, 1993 Nature 365, 566) interactions and alters the activity of the target RNA (for a
review, see Stein and Cheng, 1993 Science 261, 1004 and Woolf et al, US patent No. 5,849,902). Typically, antisense molecules are complementary to a target sequence along a single contiguous sequence of the antisense molecule. However, in certain embodiments, an antisense molecule can bind to substrate such that the substrate molecule forms a loop, and/or an antisense molecule can bind such that the antisense molecule forms a loop. Thus, the antisense molecule can complementary to two (or even more) non-contiguous substrate sequences or two (or even more) non-contiguous sequence portions of an antisense molecule can complementary to a target sequence or both. For a review of current antisense strategies, see Schmajuk et al, 1999, J. Biol. Chem., 274, 21783-21789, Delihas et al, 1997, Nature, 15, 751-753, Stein et al,
1997, Antisense N A. Drug Dev., 1, 151, Crooke, 2000, Methods Enzymol, 313, 3-45; Crooke,
1998, Biotech. Genet. Eng. Rev., 15, 121-157, Crooke, 1997, Ad. Pharmacol, 40, 1-49. In addition, antisense DNA can be used to target RNA by means of DNA-RNA interactions, thereby activating RNase H, which digests the target RNA in the duplex. The antisense oligonucleotides can comprise one or more RNAse H activating region, which is capable of activating RNAse H cleavage of a target RNA. Antisense DNA can be synthesized chemically or expressed via the use of a single stranded DNA expression vector or equivalent thereof.
By "RNase H activating region" is meant a region (generally greater than or equal to 4-25 nucleotides in length, preferably from 5-11 nucleotides in length) of a nucleic acid molecule capable of binding to a target RNA to form a non-covalent complex that is recognized by cellular RNase H enzyme (see for example Arrow et al, US 5,849,902; Arrow et al, US 5,989,912). The RNase H enzyme binds to the nucleic acid molecule-target RNA complex and cleaves the target RNA sequence. The RNase H activating region comprises, for example, phosphodiester, phosphorothioate (preferably at least four of the nucleotides are phosphorothiote substitutions; more specifically, 4-11 of the nucleotides are phosphorothiote substitutions); phosphorodithioate, 5'-thiophosphate, or methylphosphonate backbone chemistry or a combination thereof. In addition to one or more backbone chemistries described above, the RNase H activating region can also comprise a variety of sugar chemistries. For example, the RNase H activating region can comprise deoxyribose, arabino, fluoroarabino or a combination thereof, nucleotide sugar chemistry. Those skilled in the art will recognize that the foregoing are non-limiting examples and that any combination of phosphate, sugar and base chemistry of a nucleic acid that supports the activity of RNase H enzyme is within the scope of the definition of the RNase H activating region and the instant invention.
By "2-5A antisense chimera" is meant an antisense oligonucleotide containing a 5'- phosphorylated 2'-5 '-linked adenylate residue. These chimeras bind to target RNA in a sequence-specific manner and activate a cellular 2-5A-dependent ribonuclease which, in turn, cleaves the target RNA (Torrence et al, 1993 Proc. Natl Acad. Sci. USA 90, 1300; Silverman et
al, 2000, Methods Enzymol, 313, 522-533; Player and Torrence, 1998, Pharmacol. Ther., 78, 55-113).
By "triplex forming oligonucleotides" is meant an oligonucleotide that can bind to a double-stranded DNA in a sequence-specific manner to form a triple-strand helix. Formation of such triple helix structure has been shown to inhibit transcription of the targeted gene (Duval- Valentin et al, 1992 Proc. Natl Acad. Sci. USA 89, 504; Fox, 2000, Curr. Med. Chem., 7, 17-37; Praseuth et. al, 2000, Biochim. Biophys. Acta, 1489, 181-206).
By "gene" it is meant a nucleic acid that encodes an RNA, for example, nucleic acid sequences including but not limited to structural genes encoding a polypeptide.
"Complementarity" refers to the ability of a nucleic acid to form hydrogen bond(s) with another RNA sequence by either traditional Watson-Crick or other non-traditional types. In reference to the nucleic molecules of the present invention, the binding free energy for a nucleic acid molecule with its target or complementary sequence is sufficient to allow the relevant function of the nucleic acid to proceed, e.g., enzymatic nucleic acid cleavage, antisense or triple helix inhibition. Determination of binding free energies for nucleic acid molecules is well known in the art (see, e.g., Turner et al., 1987, CSH Symp. Quant. Biol. LII pp.123-133; Frier et al, 1986, Proc. Nat. Acad. Sci. USA 83:9373-9377; Turner et al, 1987, J. Am. Chem. Soc. 109:3783-3785). A percent complementarity indicates the percentage of contiguous residues in a nucleic acid molecule which can form hydrogen bonds (e.g., Watson-Crick base pairing) with a second nucleic acid sequence (e.g., 5, 6, 7, 8, 9, 10 out of 10 being 50%, 60%, 70%, 80%, 90%, and 100% complementary). "Perfectly complementary" means that all the contiguous residues of a nucleic acid sequence will hydrogen bond with the same number of contiguous residues in a second nucleic acid sequence.
By "RNA" is meant a molecule comprising at least one ribonucleotide residue. By "ribonucleotide" or "2' -OH" is meant a nucleotide with a hydroxyl group at the 2' position of a β-D-ribo-furanose moiety.
By "decoy RNA" is meant a RNA molecule that mimics the natural binding domain for a ligand. The decoy RNA therefore competes with natural binding target for the binding of a specific ligand. For example, it has been shown that over-expression of HIV trans-activation response (TAR) RNA can act as a "decoy" and efficiently binds HIV tat protein, thereby preventing it from binding to TAR sequences encoded in the HIN RΝA (Sullenger et al., 1990, Cell, 63, 601-608). This is but a specific example and those in the art will recognize that other embodiments can be readily generated using techniques generally known in the art.
Several in vitro selection (evolution) strategies (Orgel, 1979, Proc. R. Soc. London, B 205, 435) have been used to evolve new nucleic acid catalysts capable of catalyzing cleavage and
ligation of phosphodiester linkages (Joyce, 1989, Gene, 82, 83-87; Beaudry et al, 1992, Science 257, 635-641; Joyce, 1992, Scientific American 267, 90-97; Breaker et al, 1994, TIBTECH 12, 268; Bartel et α/., 1993, Science 261:1411-1418; Szostak, 1993, TIBS 17, 89-93; Kumar et al, 1995, FASEB , 9, 1183; Breaker, 1996, Curr. Op. Biotech., 7, 442; Santoro et al, 1997, Proc. Natl Acad. Sci., 94, 4262; Tang et al, 1997, RNA 3, 914; Nakamaye & Eckstein, 1994, supra; Long & Uhlenbeck, 1994, supra; Ishizaka et al., 1995, supra; Vaish et al, 1997, Biochemistry 36, 6495; all of these are incorporated by reference herein).
Several varieties of naturally occurring enzymatic RNAs are known presently. Each can catalyze the hydrolysis of RNA phosphodiester bonds in trans (and thus can cleave other RNA molecules) under physiological conditions. Table I summarizes some of the characteristics of these ribozymes. In general, enzymatic nucleic acids act by first binding to a target RNA. Such binding occurs through the target binding portion of a enzymatic nucleic acid which is held in close proximity to an enzymatic portion of the molecule that acts to cleave the target RNA. Thus, the enzymatic nucleic acid first recognizes and then binds a target RNA through complementary base-pairing, and once bound to the correct site, acts enzymatically to cut the target RNA. Strategic cleavage of such a target RNA will destroy its ability to direct synthesis of an encoded protein. After an enzymatic nucleic acid has bound and cleaved its RNA target, it is released from that RNA to search for another target and can repeatedly bind and cleave new targets. Thus, a single ribozyme molecule is able to cleave many molecules of target RNA. In addition, the ribozyme is a highly specific inhibitor of gene expression, with the specificity of inhibition depending not only on the base-pairing mechanism of binding to the target RNA, but also on the mechanism of target RNA cleavage. Single mismatches, or base-substitutions, near the site of cleavage can completely eliminate catalytic activity of a ribozyme.
The enzymatic nucleic acid molecules that cleave the specified sites in CD20-specific RNAs represent a novel therapeutic approach to treat a variety of pathologic indications, including but not limited to lymphoma, leukemia, and inflammatory arthropathy. Specifically, the enzymatic nucleic acid molecules of the instant invention can be used to treat lymphoma, leukemia, and arthropathy, including but not limited to B-cell lymphoma, low-grade or follicular non-Hodgkin's lymphoma (NHL), bulky low-grade or follicular NHL, lypmphocytic leukemia, HIV associated NHL, mantle-cell lymphoma (MCL), immunocytoma (IMC), small B-cell lymphocytic lymphoma, immune thrombocytopenia, and inflammatory arthropathy.
The enzymatic nucleic acid molecule that cleave the specified sites in NOGO-specific RNAs represent a novel therapeutic approach to treat a variety of pathologic indications, including but not limited to CNS injury and cerebrovascular accident (CVA, stroke), Alzheimer's disease, dementia, multiple sclerosis (MS), chemotherapy-induced neuropathy, amyotrophic lateral sclerosis (ALS), Parkinson's disease, ataxia, Huntington's disease,
Creutzfeldt- akob disease, muscular dystrophy, and/or other neurodegenerative disease states which respond to the modulation of NOGO expression
In one of the preferred embodiments of the inventions described herein, the enzymatic nucleic acid molecule is formed in a hammerhead or hairpin motif, but can also be formed in the motif of a hepatitis delta virus, group I intron, group II intron or RNase P RNA (in association with an RNA guide sequence), Neurospora NS RΝA, DNAzymes, NCH cleaving motifs, or G- cleavers. Examples of such hammerhead motifs are described by Dreyfus, supra, Rossi et al, 1992, AIDS Research and Human Retroviruses 8, 183. Examples of hairpin motifs are described by Hampel et al, EP0360257, Hampel and Tritz, 1989 Biochemistry 28, 4929, Feldstein et al, 1989, Gene 82, 53, Haseloff and Gerlach, 1989, Gene, 82, 43, Hampel et al, 1990 Nucleic Acids Res. 18, 299; and Chowrira & McSwiggen, US. Patent No. 5,631,359. The hepatitis delta virus motif is described by Perrotta and Been, 1992 Biochemistry 31, 16. The RNase P motif is described by Guerrier-Takada et al, 1983 Cell 35, 849; Forster and Altman, 1990, Science 249, 783; and Li and Altman, 1996, Nucleic Acids Res. 24, 835. The Neurospora VS RNA ribozyme motif is described by Collins (Saville and Collins, 1990 Cell 61, 685-696; Saville and Collins, 1991 Proc. Natl Acad. Sci. USA 88, 8826-8830; Collins and Olive, 1993 Biochemistry 32, 2795- 2799; and Guo and Collins, 1995, EMBO. J. 14, 363). Group II introns are described by Griffin et al, 1995, Chem. Biol. 2, 761; Michels and Pyle, 1995, Biochemistry 34, 2965; and Pyle et al, International PCT Publication No. WO 96/22689. The Group I intron is described by Cech et al, U.S. Patent 4,987,071. DNAzymes are described by Usman et al, International PCT Publication No. WO 95/11304; Chartrand et al, 1995, NAR 23, 4092; Breaker et al, 1995, Chem. Bio. 2, 655; and Santoro et al, 1997, PNAS 94, 4262. NCH cleaving motifs are described in Ludwig & Sproat, International PCT Publication No. WO 98/58058; and G-cleavers are described in Kore et al, 1998, Nucleic Acids Research 26, 4116-4120 and Eckstein et al, International PCT Publication No. WO 99/16871. Additional motifs include the Aptazyme (Breaker et al, WO 98/43993), Amberzyme (Class I motif; Figure 3; Beigelman et al, International PCT publication No. WO 99/55857) and Zinzyme (Figure 4) (Beigelman et al, International PCT publication No. WO 99/55857), all these references are incorporated by reference herein in their totalities, including drawings and can also be used in the present invention. These specific motifs are not limiting in the invention and those skilled in the art will recognize that all that is important in an enzymatic nucleic acid molecule of this invention is that it has a specific substrate binding site which is complementary to one or more of the target gene RNA regions, and that it have nucleotide sequences within or surrounding that substrate binding site which impart an RNA cleaving activity to the molecule (Cech et al, U.S. Patent No. 4,987,071).
In preferred embodiments of the present invention, a nucleic acid molecule of the instant invention can be between 13 and 100 nucleotides in length. Exemplary enzymatic nucleic acid
molecules of the invention are shown in Tables III-XIV. For example, enzymatic nucleic acid molecules of the invention are preferably between 15 and 50 nucleotides in length, more preferably between 25 and 40 nucleotides in length, e.g., 34, 36, or 38 nucleotides in length (for example see Jarvis et al, 1996, J. Biol. Chem., 271, 29107-29112). Exemplary DNAzymes of the invention are preferably between 15 and 40 nucleotides in length, more preferably between 25 and 35 nucleotides in length, e.g., 29, 30, 31, or 32 nucleotides in length (see for example Santoro et al, 1998, Biochemistry, 37, 13330-13342; Chartrand et al, 1995, Nucleic Acids Research, 23, 4092-4096). Exemplary antisense molecules of the invention are preferably between 15 and 75 nucleotides in length, more preferably between 20 and 35 nucleotides in length, e.g., 25, 26, 27, or 28 nucleotides in length (see for example Woolf et al, 1992, PNAS., 89, 7305-7309; Milner et al, 1997, Nature Biotechnology, 15, 537-541). Exemplary triplex forming oligonucleotide molecules of the invention are preferably between 10 and 40 nucleotides in length, more preferably between 12 and 25 nucleotides in length, e.g., 18, 19, 20, or 21 nucleotides in length (see for example Maher et al, 1990, Biochemistry, 29, 8820-8826; Strobel and Dervan, 1990, Science, 249, 73-75). Those skilled in the art will recognize that all that is required is for the nucleic acid molecule are of length and conformation sufficient and suitable for the nucleic acid molecule to catalyze a reaction contemplated herein. The length of the nucleic acid molecules of the instant invention are not limiting within the general limits stated.
Preferably, a nucleic acid molecule that down regulates the replication of CD20 and/or NOGO comprises between 12 and 100 bases complementary to a RNA molecule of CD20 and/or NOGO. Even more preferably, a nucleic acid molecule that down regulates the replication of CD20 and/or NOGO comprises between 14 and 24 bases complementary to a RNA molecule of CD20 and/or NOGO.
In a preferred embodiment, the invention provides a method for producing a class of nucleic acid-based gene inhibiting agents which exhibit a high degree of specificity for the RNA of a desired target. For example, the enzymatic nucleic acid molecule is preferably targeted to a highly conserved sequence region of target RNAs encoding NOGO-A, B, C, and/or CD20 proteins (specifically NOGO and/or CD20 gene) such that specific treatment of a disease or condition can be provided with either one or several nucleic acid molecules of the invention. Such nucleic acid molecules can be delivered exogenously to specific tissues or cellular targets as required. Alternatively, the nucleic acid molecules (e.g., ribozymes and antisense) can be expressed from DNA and/or RNA vectors that are delivered to specific cells.
In a preferred embodiment, the invention features the use of nucleic acid-based inhibitors of the invention to specifically target genes that share homology with the CD20 and/or NOGO gene.
As used in herein "cell" is used in its usual biological sense, and does not refer to an entire multicellular organism, e.g., specifically does not refer to a human. The cell may be present in an organism which may be a human but is preferably a non-human multicellular organism, e.g., birds, plants and mammals such as cows, sheep, apes, monkeys, swine, dogs, and cats. The cell may be prokaryotic (e.g., bacterial cell) or eukaryotic (e.g., mammalian or plant cell).
By "CD20 proteins" is meant, a protein or a mutant protein derivative thereof, comprising a cell surface phosphoprotein which is expressed, for example, in mature B lymphocytes.
By "NOGO proteins" is meant, a protein or a mutant protein derivative thereof, comprising neuronal inhibitor activity, preferably CNS neuronal growth inhibitor activity.
By "highly conserved sequence region" is meant, a nucleotide sequence of one or more regions in a target gene does not vary significantly from one generation to the other or from one biological system to the other.
The nucleic acid-based inhibitors of CD20 expression are useful for the prevention and/or treatment of diseases and conditions such as lymphoma, leukemia, and arthropathy, including but not limited to B-cell lymphoma, low-grade or follicular non-Hodgkin's lymphoma (NHL), bulky low-grade or follicular NHL, lypmphocytic leukemia, HIV associated NHL, mantle-cell lymphoma (MCL), immunocytoma (IMC), small B-cell lymphocytic lymphoma, immune thrombocytopenia, inflammatory arthropathy, and any other diseases or conditions that are related to or will respond to the levels of CD20 in a cell or tissue, alone or in combination with other therapies.
The nucleic acid-based inhibitors of NOGO expression are useful for the prevention and/or treatment of diseases and conditions such CNS injury and cerebrovascular accident (CNA, stroke), Alzheimer's disease, dementia, multiple sclerosis (MS), chemotherapy-induced neuropathy, muscular dystrophy and any other diseases or conditions that are related to or will respond to the levels of ΝOGO in a cell or tissue, alone or in combination with other therapies. In addition, ΝOGO inhibition may be used as a therapeutic target for abrogating CΝS neuronal growth inhibition; a situation that may selectively regenerate damaged or lesioned CΝS tissue to restore specific reflex and/or locomotor functions.
By "related" is meant that the reduction of CD20 and/or ΝOGO expression (specifically CD20 and/or ΝOGO gene) RΝA levels and thus reduction in the level of the respective protein will relieve, to some extent, the symptoms of the disease or condition.
The nucleic acid-based inhibitors of the invention are added directly, or can be complexed with cationic lipids, packaged within liposomes, or otherwise delivered to target cells or tissues.
The nucleic acid or nucleic acid complexes can be locally administered to relevant tissues ex vivo, or in vivo through injection, infusion pump or stent, with or without their incorporation in biopolymers. In preferred embodiments, the enzymatic nucleic acid inhibitors comprise sequences, which are complementary to the substrate sequences in Tables III to XIV. Examples of such enzymatic nucleic acid molecules also are shown in Tables III to XIV. Examples of such enzymatic nucleic acid molecules consist essentially of sequences defined in these Tables.
h yet another embodiment, the invention features antisense nucleic acid molecules and 2- 5A chimera including sequences complementary to the substrate sequences shown in Tables III to XIV. Such nucleic acid molecules can include sequences as shown for the binding arms of the enzymatic nucleic acid molecules in Tables III to XIV. Similarly, triplex molecules can be provided targeted to the corresponding DNA target regions, and containing the DNA equivalent of a target sequence or a sequence complementary to the specified target (substrate) sequence. Typically, antisense molecules are complementary to a target sequence along a single contiguous sequence of the antisense molecule. However, in certain embodiments, an antisense molecule may bind to substrate such that the substrate molecule forms a loop, and/or an antisense molecule can bind such that the antisense molecule forms a loop. Thus, the antisense molecule can be complementary to two (or even more) non-contiguous substrate sequences or two (or even more) non-contiguous sequence portions of an antisense molecule may be complementary to a target sequence or both.
By "consists essentially of is meant that the active nucleic acid molecule of the invention, for example an enzymatic nucleic acid molecule, contains an enzymatic center or core equivalent to those in the examples, and binding arms able to bind RNA such that cleavage at the target site occurs. Other sequences can be present which do not interfere with such cleavage. Thus, a core region can, for example, include one or more loop, stem-loop structure, or linker which does not prevent enzymatic activity. The underlined regions in the sequences in Tables III, IV, IX and X can be such a loop, stem-loop, nucleotide linker, and/or non-nucleotide linker and can be represented generally as sequence "X". For example, a core sequence for a hammerhead enzymatic nucleic acid can comprise a conserved sequence, such as 5'-CUGAUGAG-3' and 5'- CGAA-3' connected by a sequence "X", where X is 5'-GCCGUUAGGC-3' (SEQ ID NO 9265), or any other stem II region known in the art, or a nucleotide and/or non-nucleotide linker. Similarly, for other nucleic acid molecules of the instant invention, such as Inozyme, G-cleaver, amberzyme, zinzyme, DNAzyme, antisense, 2-5A antisense, triplex forming nucleic acid, and decoy nucleic acids, other sequences or non-nucleotide linkers may be present that do not interfere with the function of the nucleic acid molecule.
Sequence X may be a linker of > 2 nucleotides in length, preferably 3, 4, 5, 6, 7, 8, 9, 10, 15, 20, 26, 30, where the nucleotides may preferably be internally base-paired to form a stem of preferably > 2 base pairs. Alternatively or in addition, X may be a non-nucleotide linker. In yet
another embodiment, the nucleotide linker X can be a nucleic acid aptamer, such as an ATP aptamer, HIN Rev aptamer (RRE), HIN Tat aptamer (TAR) and others (for a review see Gold et al, 1995, Annu. Rev. Biochem., 64, 763; and Szostak & Ellington, 1993, in The RNA World, ed. Gesteland and Atkins, pp. 511, CSH Laboratory Press). A "nucleic acid aptamer" as used herein is meant to indicate a nucleic acid sequence capable of interacting with a ligand. The ligand can be any natural or a synthetic molecule, including but not limited to a resin, metabolites, nucleosides, nucleotides, drugs, toxins, transition state analogs, peptides, lipids, proteins, amino acids, nucleic acid molecules, hormones, carbohydrates, receptors, cells, viruses, bacteria and others.
In yet another embodiment, the non-nucleotide linker X is as defined herein. The term "non-nucleotide" as used herein include either abasic nucleotide, polyether, polyamine, polyamide, peptide, carbohydrate, lipid, or polyhydrocarbon compounds. Specific examples include those described by Seela and Kaiser, Nucleic Acids Res. 1990, 75:6353 and Nucleic Acids Res. 1987, i5:3113; Cload and Schepartz, J. Am. Chem. Soc. 1991, 113:6324; Richardson and Schepartz, J. Am. Chem. Soc. 1991, 113:5109; Ma et al., Nucleic Acids Res. 1993, 2 :2585 and Biochemistry 1993, 32:1751; Durand et al., Nucleic Acids Res. 1990, 7S:6353; McCurdy et al., Nucleosides & Nucleotides 1991, 10:287; Jschke et al., Tetrahedron Lett. 1993, 54:301; Ono et al, Biochemistiy 1991, 30:9914; Arnold et al, International Publication No. WO 89/02439; Usman et al, International Publication No. WO 95/06731; Dudycz et al, International Publication No. WO 95/11910 and Ferentz and Verdine, J Am. Chem. Soc. 1991, 7 5:4000, all hereby incorporated by reference herein. A "non-nucleotide" further means any group or compound which can be incorporated into a nucleic acid chain in the place of one or more nucleotide units, including either sugar and/or phosphate substitutions, and allows the remaining bases to exhibit their enzymatic activity. The group or compound can be abasic in that it does not contain a commonly recognized nucleotide base, such as adenosine, guanine, cytosine, uracil or thymine. Thus, in a preferred embodiment, the invention features an enzymatic nucleic acid molecule having one or more non-nucleotide moieties, and having enzymatic activity to cleave an RNA or DNA molecule.
In another aspect of the invention, enzymatic nucleic acids or antisense molecules that interact with target RNA molecules and inhibit CD20 and/or NOGO (specifically CD20 and/or NOGO gene) activity are expressed from transcription units inserted into DNA or RNA vectors. The recombinant vectors are preferably DNA plasmids or viral vectors. Enzymatic nucleic acid or antisense expressing viral vectors can be constructed based on, but not limited to, adeno- associated virus, retrovirus, adenovirus, or alphavirus. Preferably, the recombinant vectors capable of expressing the enzymatic nucleic acids or antisense are delivered as described herein, and persist in target cells. Alternatively, viral vectors can be used that provide for transient expression of enzymatic nucleic acids or antisense. Such vectors can be repeatedly administered
as necessary. Once expressed, the enzymatic nucleic acids or antisense bind to the target RNA and inhibit its function or expression. Delivery of enzymatic nucleic acid or antisense expressing vectors can be systemic, such as by intravenous or intramuscular administration, by administration to target cells ex-planted from the patient followed by reintroduction into the patient, or by any other means that would allow for introduction into the desired target cell. Antisense DNA can be expressed via the use of a single stranded DNA intracellular expression vector.
By "vectors" is meant any nucleic acid- and/or viral-based technique used to deliver a desired nucleic acid.
By "patient" is meant an organism, which is a donor or recipient of explanted cells or the cells themselves. "Patient" also refers to an organism to which the nucleic acid molecules of the invention can be administered. Preferably, a patient is a mammal or mammalian cells. More preferably, a patient is a human or human cells.
By "enhanced enzymatic activity" is meant to include activity measured in cells and/or in vivo where the activity is a reflection of both the catalytic activity and the stability of the nucleic acid molecules of the invention. In this invention, the product of these properties can be increased in vivo compared to an all RNA enzymatic nucleic acid or all DNA enzyme. In some cases, the activity or stability of the nucleic acid molecule can be decreased (i.e., less than tenfold), but the overall activity of the nucleic acid molecule is enhanced, in vivo.
The nucleic acid molecules of the instant invention, individually, or in combination or in conjunction with other drugs, can be used to treat diseases or conditions discussed above. For example, to treat a disease or condition associated with the levels of CD20 and/or NOGO, the patient may be treated, or other appropriate cells may be treated, as is evident to those skilled in the art, individually or in combination with one or more drugs under conditions suitable for the treatment.
In a further embodiment, the described molecules, such as antisense or enzymatic nucleic acids, can be used in combination with other known treatments to treat conditions or diseases discussed above. For example, the described molecules can be used in combination with one or more known therapeutic agents to treat CNS injury and cerebrovascular accident (CNA, stroke), Alzheimer's disease, dementia, multiple sclerosis (MS), chemotherapy-induced neuropathy, amyotrophic lateral sclerosis (ALS), Parkinson's disease, ataxia, Huntington's disease, Creutzfeldt- Jakob disease, muscular dystrophy, lymphoma, leukemia, and arthropathy, including but not limited to B-cell lymphoma, low-grade or follicular non-Hodgkin's lymphoma (ΝHL), bulky low-grade or follicular ΝHL, lypmphocytic leukemia, HIV associated ΝHL, mantle-cell lymphoma (MCL), immunocytoma (IMC), small B-cell lymphocytic lymphoma, and immune
thrombocytopenia, inflammatory arthropathy, and/or other disease states or conditions which respond to the modulation of CD20 and/or NOGO expression.
In another preferred embodiment, the invention features nucleic acid-based inhibitors (e.g., enzymatic nucleic acid molecules (ribozymes), antisense nucleic acids, 2-5A antisense chimeras, triplex DNA, antisense nucleic acids containing RNA cleaving chemical groups) and methods for their use to down regulate or inhibit the expression of genes (e.g., CD20) capable of progression and/or maintenance of lymphoma, leukemia, and arthropathy, including but not limited to B-cell lymphoma, low-grade or follicular non-Hodgkin's lymphoma (NHL), bulky low-grade or follicular NHL, lypmphocytic leukemia, HIV associated NHL, mantle-cell lymphoma (MCL), immunocytoma (IMC), small B-cell lymphocytic lymphoma, and immune thrombocytopenia, inflammatory arthropathy, and/or other disease states or conditions which respond to the modulation of CD20 expression.
In another preferred embodiment, the invention features nucleic acid-based inhibitors (e.g., enzymatic nucleic acid molecules (eg; ribozymes), antisense nucleic acids, 2-5A antisense chimeras, triplex DNA, antisense nucleic acids containing RNA cleaving chemical groups) and methods for their use to down regulate or inhibit the expression of genes (e.g., NOGO) capable of progression and/or maintenance of CNS injury and cerebrovascular accident (CNA, stroke), Alzheimer's disease, dementia, multiple sclerosis (MS), chemotherapy-induced neuropathy, amyotrophic lateral sclerosis (ALS), Parkinson's disease, ataxia, Huntington's disease, Creutzfeldt- Jakob disease, muscular dystrophy, and/or other neurodegenerative disease states which respond to the modulation of ΝOGO expression.
In another aspect, the invention provides mammalian cells containing one or more nucleic acid molecules and/or expression vectors of this invention. The one or more nucleic acid molecules may independently be targeted to the same or different sites.
By "comprising" is meant including, but not limited to, whatever follows the word "comprising". Thus, use of the term "comprising" indicates that the listed elements are required or mandatory, but that other elements are optional and may or may not be present. By "consisting of is meant including, and limited to, whatever follows the phrase "consisting of. Thus, the phrase "consisting of indicates that the listed elements are required or mandatory, and that no other elements may be present.
Other features and advantages of the invention will be apparent from the following description of the preferred embodiments thereof, and from the claims.
Description Of The Preferred Embodiments
First the drawings will be described briefly.
Drawings
Figure 1 shows the secondary structure model for seven different classes of enzymatic nucleic acid molecules. Arrow indicates the site of cleavage. indicate the target sequence. Lines interspersed with dots are meant to indicate tertiary interactions. - is meant to indicate base-paired interaction. Group I Intron: P1-P9.0 represent various stem-loop structures (Cech et al, 1994, Nature Struc. Bio., 1, 273). RNase P (M1RNA): EGS represents external guide sequence (Forster et al, 1990, Science, 249, 783; Pace et al, 1990, J. Biol. Chem., 265, 3587). Group II Intron: 5'SS means 5' splice site; 3'SS means 3'-splice site; IBS means intron binding site; EBS means exon binding site (Pyle et al, 1994, Biochemistry, 33, 2716). VS RNA: I-VI are meant to indicate six stem-loop structures; shaded regions are meant to indicate tertiary interaction (Collins, International PCT Publication No. WO 96/19577). HDV Ribozyme: : I-IV are meant to indicate four stem-loop structures (Been et al, US Patent No. 5,625,047). Hammerhead Ribozyme: : I-III are meant to indicate three stem-loop structures; stems I-III can be of any length and may be symmetrical or asymmetrical (Usman et al, 1996, Curr. Op. Struct. Bio., 1, 527). Hairpin Ribozyme: Helix 1, 4 and 5 can be of any length; Helix 2 is between 3 and 8 base-pairs long; Y is a pyrimidine; Helix 2 (H2) is provided with a least 4 base pairs (i.e., n is 1, 2, 3 or 4) and helix 5 can be optionally provided of length 2 or more bases (preferably 3 - 20 bases, i.e., m is from 1 - 20 or more). Helix 2 and helix 5 may be covalently linked by one or more bases (i.e., r is > 1 base). Helix 1, 4 or 5 may also be extended by 2 or more base pairs (e.g., 4 - 20 base pairs) to stabilize the ribozyme structure, and preferably is a protein binding site. In each instance, each N and N' independently is any normal or modified base and each dash represents a potential base-pairing interaction. These nucleotides may be modified at the sugar, base or phosphate. Complete base-pairing is not required in the helices, but is preferred. Helix 1 and 4 can be of any size (i.e., o and p is each independently from 0 to any number, e.g., 20) as long as some base-pairing is maintained. Essential bases are shown as specific bases in the structure, but those in the art will recognize that one or more may be modified chemically (abasic, base, sugar and/or phosphate modifications) or replaced with another base without significant effect. Helix 4 can be formed from two separate molecules, i.e., without a connecting loop. The connecting loop when present may be a ribonucleotide with or without modifications to its base, sugar or phosphate, "q" > is 2 bases. The connecting loop can also be replaced with a non-nucleotide linker molecule. H refers to bases A, U, or C. Y refers to pyrimidine bases. " " refers to a covalent bond. (Burke et al, 1996, Nucleic Acids
& Mol Biol, 10, 129; Chowrira et al, US Patent No. 5,631,359).
Figure 2 shows examples of chemically stabilized ribozyme motifs. HH Rz, represents hammerhead ribozyme motif (Usman et al, 1996, Curr. Op. Struct. Bio., 1, 527); NCH Rz represents the NCH ribozyme motif (Ludwig & Sproat, International PCT Publication No. WO 98/58058); G-Cleaver, represents G-cleaver ribozyme motif (Kore et al, 1998, Nucleic Acids
Research 26, 4116-4120). N or n, represent independently a nucleotide which may be same or different and have complementarity to each other; rl, represents ribo-Inosine nucleotide; arrow indicates the site of cleavage within the target. Position 4 of the HH Rz and the NCH Rz is shown as having 2'-C-allyl modification, but those skilled in the art will recognize that this position can be modified with other modifications well known in the art, so long as such modifications do not significantly inhibit the activity of the ribozyme.
Figure 3 shows an example of the Amberzyme enzymatic nucleic acid motif that is chemically stabilized (see, for example, Beigelman et al, International PCT publication No. WO 99/55857, incorporated by reference herein; also referred to as Class I Motif). The Amberzyme motif is a class of enzymatic nucleic molecules that do not require the presence of a ribonucleotide (2' -OH) group for its activity.
Figure 4 shows an example of the Zinzyme A enzymatic nucleic acid motif that is chemically stabilized (Beigelman et al, International PCT publication No. WO 99/55857, incorporated by reference herein; also referred to as Class A or Class II Motif). The Zinzyme motif is a class of enzymatic nucleic molecules that do not require the presence of a ribonucleotide (2' -OH) group for its activity.
Figure 5 shows an example of a DNAzyme motif described by Santoro et al, 1997, PNAS, 94, 4262.
Figure 6 shows a non-limiting example of the detection of a target sequence using a hammerhead-based cis-blocking sequence strategy. In this case, the effector molecule, in the absence of target, is inactivated by intramolecular folding. Addition of target sequence allows hybridization of the effector molecule/target complex to the reporter sequence. Concomitant cleavage of the reporter molecule by the activated target/effector molecule complex provides a fluorescent signal due to the separation of flurophore and quench molecules. This same concept can be applied to other enzymatic nucleic acid motifs of the instant invention, including but not limited to Inozymes, G-cleavers, DNAzymes, Zinzymes, Amberzymes, and Hairpins. In addition, the configuration of the blocking sequence can hybridize with a variety of sequence positions both in cis and in trans (e.g., intermolecular binding and/or intramolecular binding) and in a variety of different locations on the effector molecule. Additional non-limiting configurations are summarized in Figures 8-14.
Figure 7 shows a schematic diagram indicating the two primary configurations of a cis- acting Diagnostic effector molecule. The molecule may be either bound to a target sequence (A) or unbound and therefore bound to itself (B).
Figure 8 displays a number of potential secondary structures for the diagnostic effector molecules in non-limiting examples.
Figure 9 displays a number of potential secondary structures for the diagnostic effector molecules in non-limiting examples.
Figure 10 displays a number of potential secondary structures for the diagnostic effector molecules in non-limiting examples.
Figure 11 displays a number of potential secondary structures for the diagnostic effector molecules in non-limiting examples.
Figure 12 displays a number of potential secondary structures for the diagnostic effector molecules in non-limiting examples.
Figure 13 displays a number of potential secondary structures for the diagnostic effector molecules in non-limiting examples.
Figure 14 displays a number of potential secondary structures for the diagnostic effector molecules in non-limiting examples.
Figure 15 displays the inherent amplification capacity of the diagnostic system of the instant invention.
Figure 16 shows the structure of a diagnostic system of the instant invention.
Figure 17 is a bar graph that shows the results of testing enzymatic nucleic acid/inhibitor combinations in a cleavage assay. The substrate molecules were 5'-end labeled with 32P- phosphate and incubated for 12 or 60 minutes in either: (1) buffer alone (50 mM Tris, pH 7.5, 10 mM MgC12), or in the presence of (2) 10 nM enzymatic nucleic acid, (3) 10 nM enzymatic nucleic acid plus 20 nM inhibitor, (4) 10 nM enzymatic nucleic acid plus 200 nM inhibitor, or (5) 10 nM enzymatic nucleic acid plus 20 nM inhibitor and 500 nM target. At the end of the incubation the reactions were loaded onto a PAGE gel to separate cleaved product from uncleaved substrate. The gel was imaged on a Molecular Dynamics phosphorimager and quantitated to determine the percent of substrate cleaved under each set of conditions. Control reactions were carried out to ensure that addition of inhibitor or target sequence, without enzymatic nucleic acid, did not result in substrate cleavage; only 0.2-0.4% of substrate was cleaved under these conditions.
Mechanism of action of Nucleic Acid Molecules of the Invention
Antisense: Antisense molecules can be modified or unmodified RNA, DNA, or mixed polymer oligonucleotides which primarily function by specifically binding to matching sequences resulting in inhibition of peptide synthesis (Wu-Pong, Nov 1994, BioPharm, 20-33). The antisense oligonucleotide binds to target RNA by Watson Crick base-pairing and blocks
gene expression by preventing ribosomal translation of the bound sequences either by steric blocking or by activating RNase H enzyme. Antisense molecules can also alter protein synthesis by interfering with RNA processing or transport from the nucleus into the cytoplasm (Mukhopadhyay & Roth, 1996, Crit. Rev. in Oncogenesis 7, 151-190).
In addition, binding of single stranded DNA to RNA can result in nuclease degradation of the heteroduplex (Wu-Pong, supra; Crooke, supra). To date, the only backbone modified DNA chemistry which will act as substrates for RNase H are phosphorothioates, phosphorodithioates, and borontrifluoridates. Recently it has been reported that 2'-arabino and 2'-fluoro arabino- containing oligos can also activate RNase H activity.
A number of antisense molecules have been described that utilize novel configurations of chemically modified nucleotides, secondary structure, and/or RNase H substrate domains (Woolf et al, International PCT Publication No. WO 98/13526; Thompson et al, International PCT Publication No. WO 99/54459; Hartmann et al, USSN 60/101,174 which was filed on September 21, 1998) all of these are incorporated by reference herein in their entirety.
In addition, antisense deoxyoligoribonucleotides can be used to target RNA by means of DNA-RNA interactions, thereby activating RNase H, which digests the target RNA in the duplex. Antisense DNA can be expressed via the use of a single stranded DNA intracellular expression vector or equivalents and variations thereof.
Triplex Forming Oligonucleotides (TFO : Single stranded DNA can be designed to bind to genomic DNA in a sequence specific manner. TFOs are comprised of pyrimidine-rich oligonucleotides which bind DNA helices through Hoogsteen Base-pairing (Wu-Pong, supra). The resulting triple helix composed of the DNA sense, DNA antisense, and TFO disrupts RNA synthesis by RNA polymerase. The TFO mechanism may result in gene expression or cell death since binding may be irreversible (Muldiopadhyay & Roth, supra).
2-5A Antisense Chimera: The 2-5A system is an interferon mediated mechanism for RNA degradation found in higher vertebrates (Mitra et al, 1996, Proc Nat Acad Sci USA 93, 6780- 6785). Two types of enzymes, 2-5A synthetase and RNase L, are required for RNA cleavage. The 2-5 A synthetases require double stranded RNA to form 2'-5' oligoadenylates (2-5 A). 2-5A then acts as an allosteric effector for utilizing RNase L which has the ability to cleave single stranded RNA. The ability to form 2-5 A structures with double stranded RNA makes this system particularly useful for inhibition of viral replication.
(2'-5') oligoadenylate structures can be covalently linked to antisense molecules to form chimeric oligonucleotides capable of RNA cleavage (Torrence, supra). These molecules putatively bind and activate a 2-5A dependent RNase, the oligonucleotide/enzyme complex then binds to a target RNA molecule which can then be cleaved by the RNase enzyme.
Enzymatic Nucleic Acid: Seven basic varieties of naturally occurring enzymatic RNAs are presently known. In addition, several in vitro selection (evolution) strategies (Orgel, 1979, Proc. R. Soc. London, B 205, 435) have been used to evolve new nucleic acid catalysts capable of catalyzing cleavage and ligation of phosphodiester linkages (Joyce, 1989, Gene, 82, 83-87; Beaudry et al, 1992, Science 257, 635-641; Joyce, 1992, Scientific American 267, 90-97; Breaker et al, 1994, TIBTECH 12, 268; Bartel et α/., 1993, Science 261:1411-1418; Szostak, 1993, TIBS 17, 89-93; Kumar et al, 1995, FASEB , 9, 1183; Breaker, 1996, Curr. Op. Biotech., 7, 442; Santoro et al, 1997, Proc. Natl Acad. Sci., 94, 4262; Tang et al, 1997, RNA 3, 914; Nakamaye & Eckstein, 1994, supra; Long & Uhlenbeck, 1994, supra; Ishizaka et al, 1995, supra; Naish et al, 1997, Biochemistry 36, 6495; all of these are incorporated by reference herein). Each can catalyze a series of reactions including the hydrolysis of phosphodiester bonds in trans (and thus can cleave other RΝA molecules) under physiological conditions.
Nucleic acid molecules of this invention can block to some extent CD20, NOGO-A, B, and/or C protein expression and can be used to treat disease or diagnose disease associated with the levels of CD20, NOGO-A, B, and/or C.
The enzymatic nature of a enzymatic nucleic acid has significant advantages, such as the concentration of enzymatic nucleic acid necessary to affect a therapeutic treatment is low. This advantage reflects the ability of the enzymatic nucleic acid to act enzymatically. Thus, a single enzymatic nucleic acid molecule is able to cleave many molecules of target RNA. In addition, the enzymatic nucleic acid is a highly specific inhibitor, with the specificity of inhibition depending not only on the base-pairing mechanism of binding to the target RNA, but also on the mechanism of target RNA cleavage. Single mismatches, or base-substitutions, near the site of cleavage can be chosen to completely eliminate catalytic activity of an enzymatic nucleic acid.
Nucleic acid molecules having an endonuclease enzymatic activity are able to repeatedly cleave other separate RNA molecules in a nucleotide base sequence-specific manner. Such enzymatic nucleic acid molecules can be targeted to virtually any RNA transcript, and achieve efficient cleavage in vitro (Zaug et al, 324, Nature 429 1986 ; Uhlenbeck, 1987 Nature 328, 596; Kim et al, 84 Proc. Natl. Acad. Sci. USA 8788, 1987; Dreyfus, 1988, Einstein Quart. J. Bio. Med., 6, 92; Haseloff and Gerlach, 334 Nature 585, 1988; Cech, 260 JAMA 3030, 1988; Jefferies et al, 17 Nucleic Acids Research 1371, 1989; and Santoro et al, 1997 supra).
Because of their sequence specificity, trans-cleaving enzymatic nucleic acids show promise as therapeutic agents for human disease (Usman & McSwiggen, 1995 Ann. Rep. Med. Chem. 30, 285-294; Christoffersen and Marr, 1995 J. Med. Chem. 38, 2023-2037). Enzymatic nucleic acids can be designed to cleave specific RNA targets within the background of cellular RNA. Such a cleavage event renders the RNA non-functional and abrogates protein expression
from, that RNA. In this manner, synthesis of a protein associated with a disease state can be selectively inhibited (Warashina et al, 1999, Chemistry and Biology, 6, 237-250).
The nucleic acid molecules of the instant invention are also referred to as GeneBloc™ reagents, which are essentially nucleic acid molecules (e.g.; ribozymes, antisense) capable of down-regulating gene expression.
GeneBlocs are modified oligonucleotides including ribozymes and modified antisense oligonucleotides that bind to and target specific mRNA molecules. Because GeneBlocs can be designed to target any specific mRNA, their potential applications are quite broad. Traditional antisense approaches have often relied heavily on the use of phosphorothioate modifications to enhance stability in biological samples, leading to a myriad of specificity problems stemming from non-specific protein binding and general cytotoxicity (Stein, 1995, Nature Medicine, 1, 1119). In contrast, GeneBlocs contain a number of modifications that confer nuclease resistance while making minimal use of phosphorothioate linkages, which reduces toxicity, increases binding affinity and minimizes non-specific effects compared with traditional antisense oligonucleotides. Similar reagents have recently been utilized successfully in various cell culture systems (Nassar, et al, 1999, Science, 286, 735) and in vivo (Jarvis et al., manuscript in preparation). In addition, novel cationic lipids can be utilized to enhance cellular uptake in the presence of serum. Since ribozymes and antisense oligonucleotides regulate gene expression at the RΝA level, the ability to maintain a steady-state dose of GeneBloc over several days was important for target protein and phenotypic analysis. The advances in resistance to nuclease degradation and prolonged activity in vitro have supported the use of GeneBlocs in target validation applications.
Target sites
Targets for useful enzymatic nucleic acids and antisense nucleic acids can be determined as disclosed in Draper et al, WO 93/23569; Sullivan et al, WO 93/23057; Thompson et al, WO 94/02595; Draper et al, WO 95/04818; McSwiggen et al, US Patent No. 5,525,468. All of these publications are hereby incorporated by reference herein in their totality. Other examples include the following PCT applications, which concern inactivation of expression of disease- related genes: WO 95/23225, WO 95/13380, WO 94/02595, all of which are incorporated by reference herein. Rather than repeat the guidance provided in those documents here, specific examples of such methods are provided herein, not limiting to those in the art. Enzymatic nucleic acids and antisense to such targets are designed as described in those applications and synthesized to be tested in vitro and in vivo, as also described. The sequences of human CD20 and NOGO RNAs were screened for optimal enzymatic nucleic acid and antisense target sites using a computer-folding algorithm. Antisense, hammerhead, DNAzyme, NCH, amberzyme, zinzyme, or G-Cleaver enzymatic nucleic acid binding/cleavage sites were identified. These
sites are shown in Tables III to XIV (all sequences are 5' to 3' in the tables; underlined regions can be any sequence "X" or linker X, the actual sequence is not relevant here). The nucleotide base position is noted in the Tables as that site to be cleaved by the designated type of enzymatic nucleic acid molecule. While human sequences can be screened and enzymatic nucleic acid molecule and/or antisense thereafter designed, as discussed in Stinchcomb et al, WO 95/23225, mouse targeted enzymatic nucleic acids may be useful to test efficacy of action of the enzymatic nucleic acid molecule and/or antisense prior to testing in humans.
Antisense, hammerhead, DNAzyme, NCH, amberzyme, zinzyme or G-Cleaver enzymatic nucleic acid binding/cleavage sites were identified. The nucleic acid molecules are individually analyzed by computer folding (Jaeger et al, 1989 Proc. Natl. Acad. Sci. USA, 86, 7706) to assess whether the sequences fold into the appropriate secondary structure. Those nucleic acid molecules with unfavorable intramolecular interactions such as between the binding arms and the catalytic core are eliminated from consideration. Varying binding arm lengths can be chosen to optimize activity.
Antisense, hammerhead, DNAzyme, NCH, amberzyme, zinzyme or G-Cleaver enzymatic nucleic acid binding/cleavage sites were identified and were designed to anneal to various sites in the RNA target. The binding arms are complementary to the target site sequences described above. The nucleic acid molecules were chemically synthesized. The method of synthesis used follows the procedure for normal DNA/RNA synthesis as described below and in Usman et al, 1987 J. Am. Chem. Soc, 109, 7845; Scaringe et al, 1990 Nucleic Acids Res., 18, 5433; Wincott et al, 1995 Nucleic Acids Res. 23, 2677-2684; and Caruthers et al, 1992, Methods in Enzymology 211,3-19.
Synthesis of Nucleic acid Molecules
Synthesis of nucleic acids greater than 100 nucleotides in length is difficult using automated methods, and the therapeutic cost of such molecules is prohibitive. In this invention, small nucleic acid motifs ("small refers to nucleic acid motifs no more than 100 nucleotides in length, preferably no more than 80 nucleotides in length, and most preferably no more than 50 nucleotides in length; e.g., antisense oligonucleotides, hammerhead or the NCH enzymatic nucleic acids) are preferably used for exogenous delivery. The simple structure of these molecules increases the ability of the nucleic acid to invade targeted regions of RNA structure. Exemplary molecules of the instant invention are chemically synthesized, and others can similarly be synthesized.
Oligonucleotides (e.g.; antisense GeneBlocs) are synthesized using protocols known in the art as described in Caruthers et al, 1992, Methods in Enzymology 211, 3-19, Thompson et al, International PCT Publication No. WO 99/54459, Wincott et al, 1995, Nucleic Acids Res. 23,
2677-2684, Wincott et al, 1997, Methods Mol. Bio., 74, 59, Brennan et al, 1998, Biotechnol Bioeng., 61, 33-45, and Brennan, US patent No. 6,001,311. All of these references are incorporated herein by reference. The synthesis of oligonucleotides makes use of common nucleic acid protecting and coupling groups, such as dimethoxytrityl at the 5 '-end, and phosphoramidites at the 3 '-end. In a non-limiting example, small scale syntheses are conducted on a 394 Applied Biosystems, Inc. synthesizer using a 0.2 μmol scale protocol with a 2.5 min coupling step for 2'-O-methylated nucleotides and a 45 sec coupling step for 2'-deoxy nucleotides. Table II outlines the amounts and the contact times of the reagents used in the synthesis cycle. Alternatively, syntheses at the 0.2 μmol scale can be performed on a 96-well plate synthesizer, such as the instrument produced by Protogene (Palo Alto, CA) with minimal modification to the cycle. A 33-fold excess (60 μL of 0.11 M = 6.6 μmol) of 2'-O-methyl phosphoramidite and a 105-fold excess of S-ethyl tetrazole (60 μL of 0.25 M = 15 μmol) can be used in each coupling cycle of 2'-O-methyl residues relative to polymer-bound 5'-hydroxyl. A 22-fold excess (40 μL of 0.11 M = 4.4 μmol) of deoxy phosphoramidite and a 70-fold excess of S-ethyl tetrazole (40 μL of 0.25 M = 10 μmol) can be used in each coupling cycle of deoxy residues relative to polymer-bound 5'-hydroxyl. Average coupling yields on the 394 Applied Biosystems, Inc. synthesizer, determined by colorimetric quantitation of the trityl fractions, are typically 97.5-99%. Other oligonucleotide synthesis reagents for the 394 Applied Biosystems, Inc. synthesizer include; detritylation solution is 3% TCA in methylene chloride (ABI); capping is performed with 16% N-methyl imidazole in THF (ABI) and 10% acetic anhydride/10% 2,6- lutidine in THF (ABI); and oxidation solution is 16.9 mM 12, 49 mM pyridine, 9% water in THF
(PERSEPTIVE™). Burdick & Jackson Synthesis Grade acetonitrile is used directly from the reagent bottle. S-Ethyltetrazole solution (0.25 M in acetonitrile) is made up from the solid obtained from American International Chemical, Inc. Alternately, for the introduction of phosphorothioate linkages, Beaucage reagent (3H-l,2-Benzodithiol-3-one 1,1-dioxide, 0.05 M in acetonitrile) is used.
Deprotection of the antisense oligonucleotides is performed as follows. The polymer- bound trityl-on oligoribonucleotide is transferred to a 4 mL glass screw top vial and suspended in a solution of 40% aq. methylamine (1 mL) at 65 °C for 10 min. After cooling to -20 °C, the supernatant is removed from the polymer support. The support is washed three times with 1.0 mL of EtOH:MeCΝ:H2O/3:l:l, vortexed and the supernatant is then added to the first supernatant. The combined supernatants, containing the oligoribonucleotide, are dried to a white powder.
The method of synthesis used for normal RNA, including certain enzymatic nucleic acid molecules follows, the procedure as described in Usman et al, 1987, J. Am. Chem. Soc, 109, 7845; Scaringe et al, 1990, Nucleic Acids Res., 18, 5433; Wincott et al, 1995, Nucleic Acids Res. 23, 2677-2684 and Wincott et al, 1997, Methods Mol. Bio., 74, 59, and makes use of
common nucleic acid protecting and coupling groups, such as dimethoxytrityl at the 5'-end, and phosphoramidites at the 3 '-end. In a non-limiting example, small scale syntheses are conducted on a 394 Applied Biosystems, Inc. synthesizer using a 0.2 μmol scale protocol with a 7.5 min coupling step for alkylsilyl protected nucleotides and a 2.5 min coupling step for 2'-O- methylated nucleotides. Table II outlines the amounts and the contact times of the reagents used in the synthesis cycle. Alternatively, syntheses at the 0.2 μmol scale can be done on a 96-well plate synthesizer, such as the instrument produced by Protogene (Palo Alto, CA) with minimal modification to the cycle. A 33-fold excess (60 μL of 0.11 M = 6.6 μmol) of 2'-O-methyl phosphoramidite and a 75-fold excess of S-ethyl tetrazole (60 μL of 0.25 M = 15 μmol) can be used in each coupling cycle of 2'-O-methyl residues relative to polymer-bound 5'-hydroxyl. A 66-fold excess (120 μL of 0.11 M = 13.2 μmol) of alkylsilyl (ribo) protected phosphoramidite and a 150-fold excess of S-ethyl tetrazole (120 μL of 0.25 M = 30 μmol) can be used in each coupling cycle of ribo residues relative to polymer-bound 5'-hydroxyl. Average coupling yields on the 394 Applied Biosystems, Inc. synthesizer, determined by colorimetric quantitation of the trityl fractions, are typically 97.5-99%). Other oligonucleotide synthesis reagents for the 394 Applied Biosystems, Inc. synthesizer include the following: detritylation solution is 3% TCA in methylene chloride (ABI); capping is performed with 16% N-methyl imidazole in THF (ABI) and 10%) acetic anhydride/10%) 2,6-lutidine in THF (ABI); and oxidation solution is 16.9 mM 12,
49 mM pyridine, 9% water in THF (PERSEPTINE™). Burdick & Jackson Synthesis Grade acetonitrile is used directly from the reagent bottle. S-Ethyltetrazole solution (0.25 M in acetonitrile) is made up from the solid obtained from American International Chemical, Inc. Alternately, for the introduction of phosphorothioate linkages, Beaucage reagent (3H-1,2- Benzoditl iol-3-one 1,1 -dioxide 0.05 M in acetonitrile) is used.
Deprotection of the RΝA is performed using either a two-pot or one-pot protocol. For the two-pot protocol, the polymer-bound trityl-on oligoribonucleotide is transferred to a 4 mL glass screw top vial and suspended in a solution of 40% aq. methylamine (1 mL) at 65 °C for 10 min.
After cooling to —20 °C, the supernatant is removed from the polymer support. The support is washed three times with 1.0 mL of EtOH:MeCΝ:H2O/3:l:l, vortexed and the supernatant is then added to the first supernatant. The combined supernatants, containing the oligoribonucleotide, are dried to a white powder. The base deprotected oligoribonucleotide is resuspended in anhydrous TEA/HF/NMP solution (300 μL of a solution of 1.5 mL N-methylpyrrolidinone, 750 μL TEA and 1 mL TEA«3HF to provide a 1.4 M HF concentration) and heated to 65 °C. After 1.5 h, the oligomer is quenched with 1.5 M NH4HCO3.
Alternatively, for the one-pot protocol, the polymer-bound trityl-on oligoribonucleotide is transferred to a 4 mL glass screw top vial and suspended in a solution of 33% ethanolic methylamine/DMSO: 1/1 (0.8 mL) at 65 °C for 15 min. The vial is brought to r.t. TEA-3HF
(0.1 mL) is added and the vial is heated at 65 °C for 15 min. The sample is cooled at -20 °C and then quenched with 1.5 M NH4HCO3.
For purification of the trityl-on oligomers, the quenched NH4HCO3 solution is loaded onto a C-18 containing cartridge that had been prewashed with acetonitrile followed by 50 mM TEAA. After washing the loaded cartridge with water, the RNA is detritylated with 0.5% TFA for 13 min. The cartridge is then washed again with water, salt exchanged with 1 M NaCl and washed with water again. The oligonucleotide is then eluted with 30% acetonitrile.
Inactive hammerhead ribozymes or binding attenuated control (BAG) oligonucleotides) are synthesized by substituting a U for G5 and a U for A14 (numbering from Hertel, K. J., et al,
1992, Nucleic Acids Res_., 20, 3252). Similarly, one or more nucleotide substitutions can be introduced in other enzymatic nucleic acid molecules to inactivate the molecule and such molecules can serve as a negative control.
The average stepwise coupling yields are typically >98% (Wincott et al, 1995 Nucleic Acids Res. 23, 2677-2684). Those of ordinary skill in the art will recognize that the scale of synthesis can be adapted to be larger or smaller than the examples described above including but not limited to 96-well format, all that is important is the ratio of chemicals used in the reaction.
Alternatively, the nucleic acid molecules of the present invention can be synthesized separately and joined together post-synthetically, for example, by ligation (Moore et al, 1992, Science 256, 9923; Draper et al, International PCT publication No. WO 93/23569; Shabarova et al, 1991, Nucleic Acids Research 19, 4247; Bellon et al, 1997, Nucleosides & Nucleotides, 16, 951; Bellon et al, 1997, Bioconjugate Chem. 8, 204).
The nucleic acid molecules of the present invention are modified extensively to enhance stability by modification with nuclease resistant groups, for example, 2'-amino, 2'-C-allyl, 2'- flouro, 2'-O-methyl, 2'-H (for a review see Usman and Cedergren, 1992, TIBS 17, 34; Usman et al, 1994, Nucleic Acids Symp. Ser. 31, 163). Enzymatic nucleic acids are purified by gel electrophoresis using general methods or are purified by high pressure liquid chromatography (HPLC; see Wincott et al, supra, the totality of which is hereby incorporated herein by reference) and are re-suspended in water.
The sequences of the enzymatic nucleic acids and antisense constructs that are chemically synthesized, useful in this study, are shown in Tables III to XV. Those in the art will recognize that these sequences are representative only of many more such sequences where the enzymatic portion of the enzymatic nucleic acid (all but the binding arms) is altered to affect activity. The enzymatic nucleic acid and antisense construct sequences listed in Tables III to XV can be formed of ribonucleotides or other nucleotides or non-nucleotides. Such enzymatic nucleic acids
with enzymatic activity are equivalent to the enzymatic nucleic acids described specifically in the Tables.
Optimizing Activity of the nucleic acid molecule of the invention.
Chemically synthesizing nucleic acid molecules with modifications (base, sugar and/or phosphate) that prevent their degradation by serum ribonucleases may increase their potency (see e.g., Eckstein et al, International Publication No. WO 92/07065; Perrault et al, 1990 Nature 344, 565; Pieken et al, 1991, Science 253, 314; Usman and Cedergren, 1992, Trends in Biochem. Sci. 17, 334; Usman et al, International Publication No. WO 93/15187; Rossi et al, International Publication No. WO 91/03162; Sproat, US Patent No. 5,334,711; and Burgin et al, supra; all of these describe various chemical modifications that can be made to the base, phosphate and/or sugar moieties of the nucleic acid molecules described herein. All these references are incorporated by reference herein. Modifications which enhance their efficacy in cells, and removal of bases from nucleic acid molecules to shorten oligonucleotide synthesis times and reduce chemical requirements are desired.
There are several examples in the art describing sugar, base and phosphate modifications that can be introduced into nucleic acid molecules with significant enhancement in their nuclease stability and efficacy. For example, oligonucleotides are modified to enhance stability and/or enhance biological activity by modification with nuclease resistant groups, for example, 2'- amino, 2'-C-allyl, 2'-flouro, 2'-O-methyl, 2'-H, nucleotide base modifications (for a review see Usman and Cedergren, 1992, TIBS. 17, 34; Usman et al, 1994, Nucleic Acids Symp. Ser. 31, 163; Burgin et al, 1996, Biochemistry , 35, 14090). Sugar modifications of nucleic acid molecules have been extensively described in the art (see Eckstein et al, International Publication PCT No. WΟ 92/07065; Perrault et al. Nature, 1990, 344, 565-568; Pieken et al. Science, 1991, 253, 314-317; Usman and Cedergren, Trends in Biochem. Sci. , 1992, 17, 334- 339; Usman et al International Publication PCT No. WO 93/15187; Sproat, US Patent No. 5,334,711, Beigelman et al, 1995, J. Biol. Chem., 270, 25702; Beigelman et al, International PCT publication No. WO 97/26270; Beigelman et al, US Patent No. 5,716,824; Usman et al, US patent No. 5,627,053; Woolf et al, International PCT Publication No. WO 98/13526; Thompson et al, USSN 60/082,404 which was filed on April 20, 1998; Karpeisky et al, 1998, Tetrahedron Lett., 39, 1131; Earnshaw and Gait, 1998, Biopolymers (Nucleic Acid Sciences), 48, 39-55; Verma and Eckstein, 1998, Annu. Rev. Biochem., 67, 99-134; and Burlina et al, 1997, Bioorg. Med. Chem., 5, 1999-2010; all of these references are hereby incorporated by reference herein in their totalities). Such publications describe general methods and strategies to determine the location of incorporation of sugar, base and/or phosphate modifications and the like into enzymatic nucleic acids without inhibiting catalysis. In view of such teachings, similar modifications can be used as described herein to modify the nucleic acid molecules of the instant invention.
While chemical modification of oligonucleotide internucleotide linkages with phosphorothioate, phosphorothioate, and/or 5'-methylphosphonate linkages improves stability, too many of these modifications may cause some toxicity. Therefore when designing nucleic acid molecules, the amount of these internucleotide linkages should be minimized. The reduction in the concentration of these linkages should lower toxicity resulting in increased efficacy and higher specificity of these molecules.
Nucleic acid molecules having chemical modifications which maintain or enhance activity are provided. Such nucleic acid molecules are also generally more resistant to nucleases than unmodified nucleic acid molecules. Thus, in a cell and/or in vivo the activity may not be significantly lowered. Therapeutic nucleic acid molecules delivered exogenously must optimally be stable within cells until translation of the target RNA has been inhibited long enough to reduce the levels of the undesirable protein. This period of time varies between hours to days depending upon the disease state. Clearly, nucleic acid molecules must be resistant to nucleases in order to function as effective intracellular therapeutic agents. Improvements in the chemical synthesis of RNA and DNA (Wincott et al, 1995 Nucleic Acids Res. 23, 2677; Caruthers et al, 1992, Methods in Enzymology 211,3-19 (incorporated by reference herein) have expanded the ability to modify nucleic acid molecules by introducing nucleotide modifications to enhance their nuclease stability as described above.
Use of these the nucleic acid-based molecules of the invention can lead to better treatment of the disease progression by affording the possibility of combination therapies (e.g., multiple antisense or enzymatic nucleic acid molecules targeted to different genes, nucleic acid molecules coupled with known small molecule inhibitors, or intermittent treatment with combinations of molecules (including different motifs) and/or other chemical or biological molecules). The treatment of patients with nucleic acid molecules can also include combinations of different types of nucleic acid molecules.
Therapeutic nucleic acid molecules (e.g., enzymatic nucleic acid molecules and antisense nucleic acid molecules) delivered exogenously should optimally be stable within cells until translation of the target RNA has been inhibited long enough to reduce the levels of the undesirable protein. This period of time varies between hours to days depending upon the disease state. In particular, these nucleic acid molecules should be resistant to nucleases in order to function as effective intracellular therapeutic agents. Improvements in the chemical synthesis of nucleic acid molecules described in the instant invention and in the art have expanded the ability to modify nucleic acid molecules by introducing nucleotide modifications to enhance their nuclease stability as described above.
In yet another preferred embodiment, nucleic acid catalysts having chemical modifications which maintain or enhance enzymatic activity are provided. Such nucleic acid catalysts are also
generally more resistant to nucleases than unmodified nucleic acid. Thus, in a cell and/or in vivo the activity may not be significantly lowered. As exemplified herein, such enzymatic nucleic acids are useful in a cell and/or in vivo even if activity over all is reduced 10 fold (Burgin et al, 1996, Biochemistry, 35, 14090). Such enzymatic nucleic acids herein are said to "maintain" the enzymatic activity of an all RNA enzymatic nucleic acid.
In another aspect, the nucleic acid molecules comprise a 5' and/or a 3'- cap structure.
By "cap structure" is meant chemical modifications, which have been incorporated at either terminus of the oligonucleotide (see, for example, Wincott et al, WO 97/26270, incorporated by reference herein). These terminal modifications protect the nucleic acid molecule from exonuclease degradation, and may help in delivery and/or localization within a cell. The cap may be present at the 5 '-terminus (5 '-cap) or at the 3 '-terminus (3 '-cap) or may be present on both termini. In non-limiting examples, the 5 '-cap is selected from the group consisting of inverted abasic residue (moiety), 4',5'-methylene nucleotide; l-(beta-D-erythrofuranosyl) nucleotide, 4'-thio nucleotide, carbocyclic nucleotide; 1,5-anhydrohexitol nucleotide; L- nucleotides; alpha-nucleotides; modified base nucleotide; phosphorodithioate linkage; threo- pentofuranosyl nucleotide; acyclic 3',4'-seco nucleotide; acyclic 3,4-dihydroxybutyl nucleotide; acyclic 3,5-dihydroxypentyl nucleotide, 3 '-3 '-inverted nucleotide moiety; 3 '-3 '-inverted abasic moiety; 3 '-2 -inverted nucleotide moiety; 3 '-2 '-inverted abasic moiety; 1,4-butanediol phosphate; 3'-phosphoramidate; hexylphosphate; aminohexyl phosphate; 3'-phosphate; 3'-phosphorothioate; phosphorodithioate; or bridging or non-bridging methylphosphonate moiety (for more details, see Wincott et al, International PCT publication No. WO 97/26270, incorporated by reference herein).
In yet another preferred embodiment, the 3 '-cap is selected from a group consisting of 4',5'-methylene nucleotide; l-(beta-D-erythrofuranosyl) nucleotide; 4'-thio nucleotide, carbocyclic nucleotide; 5'-amino-alkyl phosphate; l,3-diamino-2-propyl phosphate, 3- aminopropyl phosphate; 6-aminohexyl phosphate; 1,2-aminododecyl phosphate; hydroxypropyl phosphate; 1,5-anhydrohexitol nucleotide; L-nucleotide; alpha-nucleotide; modified base nucleotide; phosphorodithioate; t&reo-pentofuranosyl nucleotide; acyclic 3',4'-seco nucleotide; 3,4-dihydroxybutyl nucleotide; 3,5-dihydroxypentyl nucleotide, 5'-5'-inverted nucleotide moiety; 5'-5'-inverted abasic moiety; 5'-phosphoramidate; 5 '-phosphorothioate; 1,4-butanediol phosphate; 5'-amino; bridging and/or non-bridging 5'-phosphoramidate, phosphorothioate and/or phosphorodithioate, bridging or non bridging methylphosphonate and 5'-mercapto moieties (for more details, see Beaucage and Iyer, 1993, Tetrahedron 49, 1925; incorporated by reference herein).
By the term "non-nucleotide" is meant any group or compound which can be incorporated into a nucleic acid chain in the place of one or more nucleotide units, including either sugar
and/or phosphate substitutions, and allows the remaining bases to exhibit their enzymatic activity. The group or compound is abasic in that it does not contain a commonly recognized nucleotide base, such as adenosine, guanine, cytosine, uracil or thymine.
An "alkyl" group refers to a saturated aliphatic hydrocarbon, including straight-chain, branched-chain, and cyclic alkyl groups. Preferably, the alkyl group has 1 to 12 carbons. More preferably it is a lower alkyl of from 1 to 7 carbons, more preferably 1 to 4 carbons. The alkyl group can be substituted or unsubstituted. When substituted the substituted group(s) is preferably, hydroxyl, cyano, alkoxy, =O, =S, NO2 or N(CH3)2, amino, or SH. The term also includes alkenyl groups which are unsaturated hydrocarbon groups containing at least one carbon-carbon double bond, including straight-chain, branched-chain, and cyclic groups. Preferably, the alkenyl group has 1 to 12 carbons. More preferably it is a lower alkenyl of from 1 to 7 carbons, more preferably 1 to 4 carbons. The alkenyl group can be substituted or unsubstituted. When substituted the substituted group(s) is preferably, hydroxyl, cyano, alkoxy, =O, =S, NO2, halogen, N(CH3)2, amino, or SH. The term "alkyl" also includes alkynyl groups which have an unsaturated hydrocarbon group containing at least one carbon-carbon triple bond, including straight-chain, branched-chain, and cyclic groups. Preferably, the alkynyl group has 1 to 12 carbons. More preferably it is a lower alkynyl of from 1 to 7 carbons, more preferably 1 to 4 carbons. The alkynyl group can be substituted or unsubstituted. When substituted the substituted group(s) is preferably, hydroxyl, cyano, alkoxy, =O, =S, NO2 or N(CH3)2, amino or
SH.
Such alkyl groups can also include aryl, alkylaryl, carbocyclic aryl, heterocyclic aryl, amide and ester groups. An "aryl" group refers to an aromatic group which has at least one ring having a conjugated π electron system and includes carbocyclic aryl, heterocyclic aryl and biaryl groups, all of which can be optionally substituted. The preferred substituent(s) of aryl groups are halogen, trihalomethyl, hydroxyl, SH, OH, cyano, alkoxy, alkyl, alkenyl, alkynyl, and amino groups. An "alkylaryl" group refers to an alkyl group (as described above) covalently joined to an aryl group (as described above). Carbocyclic aryl groups are groups wherein the ring atoms on the aromatic ring are all carbon atoms. The carbon atoms are optionally substituted. Heterocyclic aryl groups are groups having from 1 to 3 heteroatoms as ring atoms in the aromatic ring and the remainder of the ring atoms are carbon atoms. Suitable heteroatoms include oxygen, sulfur, and nitrogen, and include furanyl, thienyl, pyridyl, pyrrolyl, N-lower alkyl pyrrolo, pyrimidyl, pyrazinyl, imidazolyl and the like, all optionally substituted. An "amide" refers to an -C(O)-NH-R, where R is either alkyl, aryl, alkylaryl or hydrogen. An "ester" refers to an -C(O)- OR', where R is either alkyl, aryl, alkylaryl or hydrogen.
By "nucleotide" is meant a heterocyclic nitrogenous base in N-glycosidic linkage with a phosphorylated sugar. Nucleotides are recognized in the art to include natural bases (standard), and modified bases well known in the art. Such bases are generally located at the 1' position of a
nucleotide sugar moiety. Nucleotides generally comprise a base, sugar and a phosphate group. The nucleotides can be unmodified or modified at the sugar, phosphate and/or base moiety, (also referred to interchangeably as nucleotide analogs, modified nucleotides, non- natural nucleotides, non-standard nucleotides and other; see for example, Usman and McSwiggen, supra; Eckstein et al., International PCT Publication No. WO 92/07065; Usman et al., International PCT Publication No. WO 93/15187; Uhhnan & Peyman, supra all are hereby incorporated by reference herein). There are several examples of modified nucleic acid bases known in the art as summarized by Limbach et al., 1994, Nucleic Acids Res. 22, 2183. Some of the non-limiting examples of chemically modified and other natural nucleic acid bases that can be introduced into nucleic acids include, inosine, purine, pyridin-4-one, pyridin-2-one, phenyl, pseudouracil, 2, 4, 6-trimethoxy benzene, 3 -methyl uracil, dihydrouridine, naphthyl, aminophenyl, 5-alkylcytidines (e.g., 5-methylcytidine), 5-alkyluridines (e.g., ribothymidine), 5-halouridine (e.g., 5-bromouridine) or 6-azapyrimidines or 6-alkylpyrimidines (e.g. 6- methyluridine), propyne, quesosine, 2-thiouridine, 4-thiouridine, wybutosine, wybutoxosine, 4- acetylcytidine, 5-(carboxyhydroxymethyl)uridine, 5 '-carboxymethylaminomethyl-2-thiouridine, 5-carboxymethylaminomethyluridine, beta-D-galactosylqueosine, 1-methyladenosine, 1- methylinosine, 2,2-dimethylguanosine, 3-methylcytidine, 2-methyladenosine, 2- methylguanosine, N6-methyladenosine, 7-methylguanosine, 5-methoxyaminomethyl-2- thiouridine, 5-methylaminomethyluridine, 5-methylcarbonylmethyluridine, 5-methyloxyuridine, 5-methyl-2-thiouridine, 2-methylthio-N6-isopentenyladenosine, -D-mannosylqueosine, uridine- 5-oxyacetic acid, 2-thiocytidine, threonine derivatives and others (Burgin et al., 1996, Biochemistry, 35, 14090; Uhhnan & Peyman, supra). By "modified bases" in this aspect is meant nucleotide bases other than adenine, guanine, cytosine and uracil at 1' position or their equivalents; such bases can be used at any position, for example, within the catalytic core of an enzymatic nucleic acid molecule and/or in the substrate-binding regions of the nucleic acid molecule.
By "nucleoside" is meant a heterocyclic nitrogenous base in N-glycosidic linkage with a sugar. Nucleosides are recognized in the art to include natural bases (standard), and modified bases well known in the art. Such bases are generally located at the 1' position of a nucleoside sugar moiety. Nucleosides generally comprise a base and sugar group. The nucleosides can be unmodified or modified at the sugar, and/or base moiety, (also referred to interchangeably as nucleoside analogs, modified nucleosides, non-natural nucleosides, non-standard nucleosides and other; see for example, Usman and McSwiggen, supra; Eckstein et al., International PCT Publication No. WO 92/07065; Usman et al, International PCT Publication No. WO 93/15187; Uhhnan & Peyman, supra all are hereby incorporated by reference herein). There are several examples of modified nucleic acid bases known in the art as summarized by Limbach et al., 1994, Nucleic Acids Res. 22, 2183. Some of the non-limiting examples of chemically modified and other natural nucleic acid bases that can be introduced into nucleic acids include, inosine,
purine, pyridin-4-one, pyridin-2-one, phenyl, pseudouracil, 2, 4, 6-trimethoxy benzene, 3- methyl uracil, dihydrouridine, naphthyl, aminophenyl, 5-alkylcytidines (e.g., 5-methylcytidine), 5-alkyluridines (e.g., ribothymidine), 5-halouridine (e.g., 5-bromouridine) or 6-azapyrimidines or 6-alkylpyrimidines (e.g. 6-methyluridine), propyne, quesosine, 2-thiouridine, 4-thiouridine, wybutosine, wybutoxosine, 4-acetylcytidine, 5-(carboxyhydroxymethyl)uridine, 5'- carboxymethylaminomethyl-2-thiouridine, 5 -carboxymethylaminomethyluridine, -D- galactosylqueosine, 1-methyladenosine, 1-methylinosine, 2,2-dimethylguanosine, 3- methylcytidine, 2-methyladenosine, 2-methylguanosine, N6-methyladenosine, 7- methylguanosine, 5-methoxyaminomethyl-2-thiouridine, 5-methylaminomethyluridine, 5- methylcarbonylmethyluridine, 5-methyloxyuridine, 5-methyl-2-thiouridine, 2-methylthio-N6- isopentenyladenosine, beta-D-mannosylqueosine, uridine-5-oxyacetic acid, 2-thiocytidine, threonine derivatives and others (Burgin et al., 1996, Biochemistry, 35, 14090; Uhhnan & Peyman, supra). By "modified bases" in this aspect is meant nucleoside bases other than adenine, guanine, cytosine and uracil at 1' position or their equivalents; such bases can be used at any position, for example, within the catalytic core of an enzymatic nucleic acid molecule and/or in the substrate-binding regions of the nucleic acid molecule.
In a preferred embodiment, the invention features modified enzymatic nucleic acids with phosphate backbone modifications comprising one or more phosphorothioate, phosphorodithioate, methylphosphonate, morpholino, amidate carbamate, carboxymethyl, acetamidate, polyamide, sulfonate, sulfonamide, sulfamate, formacetal, thioformacetal, and/or alkylsilyl, substitutions. For a review of oligonucleotide backbone modifications, see Hunziker and Leumann, 1995, Nucleic Acid Analogues: Synthesis and Properties, in Modern Synthetic Methods, VCH, 331-417, and Mesmaeker et al, 1994, Novel Backbone Replacements for Oligonucleotides, in Carbohydrate Modifications in Antisense Research, ACS, 24-39. These references are hereby incorporated by reference herein.
By "abasic" is meant sugar moieties lacking a base or having other chemical groups in place of a base at the 1' position, (for more details, see Wincott et al, International PCT publication No. WO 97/26270).
By "unmodified nucleoside" is meant one of the bases adenine, cytosine, guanine, thymine, uracil joined to the 1' carbon of beta-D-ribo-furanose.
By "modified nucleoside" is meant any nucleotide base which contains a modification in the chemical structure of an unmodified nucleotide base, sugar and/or phosphate.
In connection with 2 '-modified nucleotides as described for the present invention, by "amino" is meant 2'-NH2 or 2'-O- NH2, which can be modified or unmodified. Such modified groups are described, for example, in Eckstein et al, U.S. Patent 5,672,695 and Matulic-Adamic
et al, WO 98/28317, respectively, which are both incorporated by reference herein in their entireties.
Various modifications to nucleic acid (e.g., antisense and enzymatic nucleic acid) structure can be made to enhance the utility of these molecules. For example, such modifications enhance shelf-life, half-life in vitro, stability, and ease of introduction of such oligonucleotides to the target site, e.g., to enhance penetration of cellular membranes, and confer the ability to recognize and bind to targeted cells.
Use of these molecules can lead to better treatment of the disease progression by affording the possibility of combination therapies (e.g., multiple enzymatic nucleic acids targeted to different genes, enzymatic nucleic acids coupled with known small molecule inhibitors, or intermittent treatment with combinations of enzymatic nucleic acids (including different enzymatic nucleic acid motifs and/or other chemical or biological molecules). The treatment of patients with nucleic acid molecules can also include combinations of different types of nucleic acid molecules. Therapies can be devised which include a mixture of enzymatic nucleic acids (including different enzymatic nucleic acid motifs), antisense and/or 2-5A chimera molecules to one or more targets to alleviate symptoms of a disease.
Administration of Nucleic Acid Molecules
Methods for the delivery of nucleic acid molecules are described in Akhtar et al, 1992, Trends Cell Bio., 2, 139; and _9e/tverv Strategies for Antisense Oligonucleotide Therapeutics, ed. Akhtar, 1995 which are both incorporated herein by reference. Sullivan et al, PCT WO 94/02595, further describes the general methods for delivery of enzymatic RNA molecules. These protocols can be utilized for the delivery of virtually any nucleic acid molecule. Nucleic acid molecules can be administered to cells by a variety of methods known to those familiar to the art, including, but not restricted to, encapsulation in liposomes, by iontophoresis, or by incorporation into other vehicles, such as hydrogels, cyclodextrins, biodegradable nanocapsules, and bioadhesive microspheres. Alternatively, the nucleic acid/vehicle combination is locally delivered by direct injection or by use of an infusion pump. Other routes of delivery include, but are not limited to oral (tablet or pill form) and/or intrathecal delivery (Gold, 1997, Neuroscience, 76, 1153-1158). More detailed descriptions of nucleic acid delivery and administration are provided in Sullivan et al, supra, Draper et al, PCT WO93/23569, Beigelman et al, PCT WO99/05094, and Klimuk et al, PCT WO99/04819 all of which have been incorporated by reference herein.
The molecules of the instant invention can be used as pharmaceutical agents. Pharmaceutical agents prevent, inhibit the occurrence, or treat (alleviate a symptom to some extent, preferably all of the symptoms) of a disease state in a patient.
The negatively charged polynucleotides of the invention can be administered
(e.g., RNA, DNA or protein) and introduced into a patient by any standard means, with or without stabilizers, buffers, and the like, to form a pharmaceutical composition. When it is desired to use a liposome delivery mechanism, standard protocols for formation of liposomes can be followed. The compositions of the present invention can also be formulated and used as tablets, capsules or elixirs for oral administration, suppositories for rectal administration, sterile solutions; suspensions for injectable administration, and other compositions known in the art.
The present invention also includes pharmaceutically acceptable formulations of the compounds described. These formulations include salts of the above compounds, e.g., acid addition salts, including salts of hydrochloric, hydrobromic, acetic acid, and benzene sulfonic acid.
A pharmacological composition or formulation refers to a composition or formulation in a form suitable for administration, e.g., systemic administration, into a cell or patient, preferably a human. Suitable forms, in part, depend upon the use or the route of entry, for example, oral, transdermal, or by injection. Such forms should not prevent the composition or formulation from reaching a target cell (i.e., a cell to which the negatively charged polymer is desired to be delivered to). For example, pharmacological compositions injected into the blood stream should be soluble. Other factors are known in the art, and include considerations such as toxicity and forms which prevent the composition or formulation from exerting its effect.
By "systemic administration" is meant in vivo systemic absorption or accumulation of drugs in the blood stream followed by distribution throughout the entire body. Administration routes that lead to systemic absorption include, without limitations: intravenous, subcutaneous, intraperitoneal, inhalation, oral, intrapulmonary and intramuscular. Each of these administration routes exposes the desired negatively charged polymers, e.g., nucleic acids, to an accessible diseased tissue. The rate of entry of a drug into the circulation has been shown to be a function of molecular weight or size. The use of a liposome or other drug carrier comprising the compounds of the instant invention can potentially localize the drug, for example, in certain tissue types, such as the tissues of the reticular endothelial system (RES). A liposome formulation that can facilitate the association of drug with the surface of cells, such as, lymphocytes and macrophages is also useful. This approach can provide enhanced delivery of the drug to target cells by taking advantage of the specificity of macrophage and lymphocyte immune recognition of abnormal cells, such as cancer cells.
By "pharmaceutically acceptable formulation" is meant, a composition or formulation that allows for the effective distribution of the nucleic acid molecules of the instant invention in the physical location most suitable for their desired activity.
The invention also features the use of the composition comprising surface- modified liposomes containing poly (ethylene glycol) lipids (PEG-modified, or long-circulating liposomes or stealth liposomes). These formulations offer a method for increasing the accumulation of drugs in target tissues. This class of drug carriers resists opsonization and elimination by the mononuclear phagocytic system (MPS or RES), thereby enabling longer blood circulation times and enhanced tissue exposure for the encapsulated drug (Lasic et al. Chem. Rev. 1995, 95, 2601-2627; Ishiwata et al, Chem. Pharm. Bull 1995, 43, 1005-1011). All incorporated by reference herein. Such liposomes have been shown to accumulate selectively in tumors, presumably by extravasation and capture in the neovascularized target tissues (Lasic et al, Science 1995, 267, 1275-1276; Oku et αZ., 1995, Biochim. Biophys. Ada, 1238, 86-90). All incorporated by reference herein. The long-circulating liposomes enhance the pharmacokinetics and pharmacodynamics of DNA and RNA, particularly compared to conventional cationic liposomes which are known to accumulate in tissues of the MPS (Liu et al, J. Biol. Chem. 1995, 42, 24864-24870; Choi et al, International PCT Publication No. WO 96/10391; Ansell et al, International PCT Publication No. WO 96/10390; Holland et al, International PCT Publication No. WO 96/10392; all of which are incorporated by reference herein). Long-circulating liposomes are also likely to protect drugs from nuclease degradation to a greater extent compared to cationic liposomes, based on their ability to avoid accumulation in metabolically aggressive MPS tissues such as the liver and spleen.
With specific reference to nucleic acid molecules of the invention directed against NOGO, many examples in the art describe CNS delivery methods of oligonucleotides. Direct administration to the CNS has been described via osmotic pump, (see Chun et al, 1998, Neuroscience Letters, 257, 135-138, D'Aldin et al, 1998, Mol. Brain Research, 55, 151-164, Dryden et al, 1998, J Endocrinol, 157, 169-175, Ghirnikar et al, 1998, Neuroscience Letters, 247, 21-24) or direct infusion (Broaddus et al, 1997, Neurosurg. Focus, 3, article 4). For a comprehensive review on drug delivery strategies including broad coverage of CNS delivery, see Ho et al, 1999, Curr. Opin. Mol' Ther., 1, 336-343 and Jain, Drug Delivery Systems: Technologies and Commercial Opportunities, Decision Resources, 1998 and Groothuis et al, 1997, J. NeuroVirol, 3, 387-400. Non-limiting examples of agents suitable for formulation with the nucleic acid molecules of the instant invention include: P-glycoprotein inhibitors (such as Pluronic P85) which can enhance entry of drugs into the CNS (Jolliet-Riant and Tillement, 1999, Fundam. Clin. Pharmacol, 13, 16-26); biodegradable polymers, such as poly (DL-lactide- coglycolide) microspheres for sustained release delivery after intracerebral implantation (Emerich, DF et al, 1999, Cell Transplant, 8, 47-58) Alkermes, Inc. Cambridge, MA; and loaded nanoparticles, such as those made of polybutylcyanoacrylate, which- can deliver drugs across the blood brain barrier and can alter neuronal uptake mechanisms (Prog Neuropsychopharmacol Biol Psychiatry, 23, 941-949, 1999). Other non-limiting examples of delivery strategies, including CNS delivery of the nucleic acid molecules of the instant invention include material
described in Boado et al, 1998, J. Pharm. Sci., 87, 1308-1315; Tyler et al, 1999, FEBS Lett, 421, 280-284; Pardridge et al, 1995, PNAS USA., 92, 5592-5596; Boado, 1995, Adv. Drug Delivery Rev., 15, 73-107; Aldrian-Herrada et al, 1998, Nucleic Acids Res., 26, 4910-4916; and Tyler et al, 1999, PNAS USA., 96, 7053-7058. All these references are hereby incorporated herein by reference.
The present invention also includes compositions prepared for storage or administration which include a pharmaceutically effective amount of the desired compounds in a pharmaceutically acceptable carrier or diluent. Acceptable carriers or diluents for therapeutic use are well known in the pharmaceutical art, and are described, for example, in Remington's Pharmaceutical Sciences, Mack Publishing Co. (A.R. Gennaro edit. 1985) hereby incorporated by reference herein. For example, preservatives, stabilizers, dyes and flavoring agents can be provided. These include sodium benzoate, sorbic acid and esters of 7-hydroxybenzoic acid. In addition, antioxidants and suspending agents can be used.
A pharmaceutically effective dose is that dose required to prevent, inhibit the occurrence, or treat (alleviate a symptom to some extent, preferably all of the symptoms) of a disease state. The pharmaceutically effective dose depends on the type of disease, the composition used, the route of administration, the type of mammal being treated, the physical characteristics of the specific mammal under consideration, concurrent medication, and other factors which those skilled in the medical arts will recognize. Generally, an amount between 0.1 mg/kg and 100 mg/kg body weight/day of active ingredients is administered dependent upon potency of the negatively charged polymer.
The nucleic acid molecules of the present invention can also be administered to a patient in combination with other therapeutic compounds to increase the overall therapeutic effect. The use of multiple compounds to treat an indication can increase the beneficial effects while reducing the presence of side effects.
Alternatively, certain of the nucleic acid molecules of the instant invention can be expressed within cells from eukaryotic promoters (e.g., Izant and Weintraub, 1985, Science, 229, 345; McGarry and Lindquist, 1986, Proc. Natl. Acad. Sci., USA 83, 399; Scanlon et al, 1991, Proc. Natl Acad. Sci. USA, 88, 10591-5; Kashani-Sabet et al, 1992, Antisense Res. Dev., 2, 3- 15; Dropulic et al, 1992, J. Virol, 66, 1432-41; Weerasinghe et al, 1991, J. Virol, 65, 5531-4; Ojwang et α/., 1992, Proc Natl. Acad. Sci. USA, 89, 10802-6; Chen et al, 1992, Nucleic Acids Res., 20, 4581-9; Sarver et al, 1990 Science, 247, 1222-1225; Thompson et al, 1995, Nucleic Acids Res., 23, 2259; Good et al, 1997, Gene Therapy, 4, 45; all of these references are hereby incorporated in their totalities by reference herein). Those skilled in the art realize that any nucleic acid can be expressed in eukaryotic cells from the appropriate DNA/RNA vector. The activity of such nucleic acids can be augmented by their release from the primary transcript by a
enzymatic nucleic acid (Draper et al, PCT WO 93/23569, and Sullivan et al, PCT WO 94/02595; Ohkawa et al, 1992, Nucleic Acids Symp. Ser., 27, 15-6; Taira et al, 1991, Nucleic Acids Res., 19, 5125-30; Ventura et al, 1993, Nucleic Acids Res., 21, 3249-55; Chowrira et al, 1994, J. Biol. Chem., 269, 25856; all of these references are hereby incorporated in their totalities by reference herein).
With specific reference to nucleic acid molecules of the invention directed against NOGO, gene therapy approaches specific to the CNS are described by Blesch et al, 2000, Drug News Perspect, 13, 269-280; Peterson et al, 2000, Cent. Nerv. Syst. Dis., 485-508; Peel and Klein, 2000, J. Neurosci. Methods, 98, 95-104; Hagihara et al, 2000, Gene Ther., 7, 759-763; and Herrlinger et al, 2000, Methods Mol. Med., 35, 287-312. AAV-mediated delivery of nucleic acid to cells of the nervous system is further described by Kaplitt et al, US 6,180,613.
In another aspect of the invention, RNA molecules of the present invention are preferably expressed from transcription units (see, for example, Couture et al, 1996, TIG., 12, 510) inserted into DNA or RNA vectors. The recombinant vectors are preferably DNA plasmids or viral vectors. Enzymatic nucleic acid expressing viral vectors could be constructed based on, but not limited to, adeno-associated virus, retrovirus, adenovirus, or alphavirus. Preferably, the recombinant vectors capable of expressing the nucleic acid molecules are delivered as described above, and persist in target cells. Alternatively, viral vectors can be used that provide for transient expression of nucleic acid molecules. Such vectors can be repeatedly administered as necessary. Once expressed, the nucleic acid molecule binds to the target mRNA. Delivery of nucleic acid molecule expressing vectors can be systemic, such as by intravenous or intramuscular administration, by administration to target cells ex-planted from the patient followed by reintroduction into the patient, or by any other means that would allow for introduction into the desired target cell (for a review, see Couture et al, 1996, TIG, 12, 510).
In one aspect, the invention features an expression vector comprising a nucleic acid sequence encoding at least one of the nucleic acid molecules disclosed in the instant invention. The nucleic acid sequence encoding the nucleic acid molecule of the instant invention is operable linked in a manner which allows expression of that nucleic acid molecule.
In another aspect, the invention features an expression vector comprising: a) a transcription initiation region (e.g., eukaryotic pol I, II or III initiation region); b) a transcription termination region (e.g., eukaryotic pol I, II or III termination region); c) a nucleic acid sequence encoding at least one of the nucleic acid catalyst of the instant invention; and wherein said sequence is operably linked to said initiation region and said termination region, in a manner which allows expression and/or delivery of said nucleic acid molecule. The vector can optionally include an open reading frame (ORF) for a protein operably linked on the 5' side or the 3'-side of the
sequence encoding the nucleic acid catalyst of the invention; and/or an intron (intervening sequences).
Transcription of the nucleic acid molecule sequences are driven from a promoter for eukaryotic RNA polymerase I (pol I), RNA polymerase II (pol II), or RNA polymerase III (pol III). Transcripts from pol II or pol III promoters will be expressed at high levels in all cells; the levels of a given pol II promoter in a given cell type will depend on the nature of the gene regulatory sequences (enhancers, silencers, etc.) present nearby. Prokaryotic RNA polymerase promoters are also used, provided that the prokaryotic RNA polymerase enzyme is expressed in the appropriate cells (Elroy-Stein and Moss, 1990, Proc. Natl Acad. Sci. U S A, 87, 6743-7; Gao and Huang 1993, Nucleic Acids Res., 21, 2867-72; Lieber et al, 1993, Methods Enzymol, 217, 47-66; Zhou et al, 1990, Mol Cell. Biol, 10, 4529-37). All of these references are incorporated by reference herein.
Several investigators have demonstrated that nucleic acid molecules, such as enzymatic nucleic acids expressed from such promoters can function in mammalian cells (e.g. Kashani- Sabet et al, 1992, Antisense Res. Dev., 2, 3-15; Ojwang et al, 1992, Proc. Natl. Acad. Sci. U S A, 89, 10802-6; Chen et al, 1992, Nucleic Acids Res., 20, 4581-9; Yu et al, 1993, Proc. Natl. Acad. Sci. USA, 90, 6340-4; L'Huillier et al, 1992, EMBO J, 11, 4411-8; Lisziewicz et al, 1993, Proc. Natl. Acad. Sci. U S. A, 90, 8000-4; Thompson et al, 1995, Nucleic Acids Res., 23, 2259; and Sullenger & Cech, 1993, Science, 262, 1566). More specifically, transcription units such as the ones derived from genes encoding U6 small nuclear (snRNA), transfer RNA (tRNA) and adenovirus VA RNA are useful in generating high concentrations of desired RNA molecules such as ribozymes in cells (Thompson et al, supra; Couture and Stinchcomb, 1996, supra; Noonberg et al, 1994, Nucleic Acid Res., 22, 2830; Noonberg et al, US Patent No. 5,624,803; Good et al, 1997, Gene Ther., 4, 45; and Beigelman et al, International PCT Publication No. WO 96/18736; all of these publications are incorporated by reference herein. The above ribozyme transcription units can be incorporated into a variety of vectors for introduction into mammalian cells, including but not restricted to, plasmid DNA vectors, viral DNA vectors (such as adenovirus or adeno-associated virus vectors), or viral RNA vectors (such as retroviral or alphavirus vectors) (for a review, see Couture and Stinchcomb, 1996, supra).
In yet another aspect, the invention features an expression vector comprising a nucleic acid sequence encoding at least one of the nucleic acid molecules of the invention, in a manner which allows expression of that nucleic acid molecule. The expression vector comprises in one embodiment; a) a transcription initiation region; b) a transcription termination region; c) a nucleic acid sequence encoding at least one said nucleic acid molecule; and wherein said sequence is operably linked to said initiation region and said termination region, in a manner which allows expression and/or delivery of said nucleic acid molecule.
In another preferred embodiment, the expression vector comprises: a) a transcription initiation region; b) a transcription termination region; c) an open reading frame; d) a nucleic acid sequence encoding at least one said nucleic acid molecule, wherein said sequence is operably linked to the 3 '-end of said open reading frame; and wherein said sequence is operably linked to said initiation region, said open reading frame and said termination region, in a manner which allows expression and/or delivery of said nucleic acid molecule.
In yet another embodiment the expression vector comprises: a) a transcription initiation region; b) a transcription termination region; c) an intron; d) a nucleic acid sequence encoding at least one said nucleic acid molecule; and wherein said sequence is operably linked to said initiation region, said intron and said termination region, in a manner which allows expression and/or delivery of said nucleic acid molecule.
In another embodiment, the expression vector comprises: a) a transcription initiation region; b) a transcription termination region; c) an intron; d) an open reading frame; e) a nucleic acid sequence encoding at least one said nucleic acid molecule, wherein said sequence is operably linked to the 3'-end of said open reading frame; and wherein said sequence is operably linked to said initiation region, said intron, said open reading frame and said termination region, in a manner which allows expression and/or delivery of said nucleic acid molecule.
Examples.
The following are non-limiting examples showing the selection, isolation, synthesis and activity of nucleic acids of the instant invention.
The following examples demonstrate the selection and design of Antisense, hammerhead, DNAzyme, Inozyme, Amberzyme, Zinzyme, or G-Cleaver enzymatic nucleic acid molecules and binding/cleavage sites within CD20 and NOGO RNA.
Nucleic acid inhibition of NOGO target RNA
The lack of axon regeneration capacity in the adult CNS manifests as a limiting factor in the treatment of CNS injury and cerebrovascular accident (CVA, stroke), chemotherapy-induced neuropathy, and possibly in neurodegenerative diseases such as Alzheimer's disease, dementia, multiple sclerosis (MS), chemotherapy-induced neuropathy, amyotrophic lateral sclerosis (ALS), Parldnson's disease, ataxia, Huntington's disease, Creutzfeldt- Jakob disease, and/or muscular dystrophy. Neuron growth inhibition results from physical barriers imposed by glial scars, a lack of neurotrophic factors, and growth-inhibitory molecules associated with myelin. The abrogation of neurite growth inhibition creates the potential to treat conditions for which there is currently no definitive medical intervention. In these studies, the inhibition of NOGO (GeneBank Accession No AB020693) is investigated.
Example 1 : Identification of Potential Target Sites in Human CD20 and NOGO RNA
The sequence of human CD20 and NOGO is screened for accessible sites using a computer-folding algorithm. Regions of the RNA are identified that do not form secondary folding structures. These regions contain potential enzymatic nucleic acid and/or antisense binding/cleavage sites. The sequences of these binding/cleavage sites are shown in Tables III- XIV.
Example 2: Selection of Enzymatic Nucleic Acid Cleavage Sites in Human CD20 and NOGO
RNA
Enzymatic nucleic acid target sites are chosen by analyzing sequences of Human CD20 (GenBank accession number: X07203) and Human NOGO (Genbank accession No: AB020693) and prioritizing the sites on the basis of folding. Enzymatic nucleic acids are designed that could bind each target and are individually analyzed by computer folding (Christoffersen et al, 1994 J. Mol. Struc Theochem, 311, 273; jaeger et al, 1989, Proc. Natl. Acad. Sci. USA, 86, 7706) to assess whether the enzymatic nucleic acid sequences fold into the appropriate secondary structure. Those enzymatic nucleic acids with unfavorable intramolecular interactions between the binding arms and the catalytic core are eliminated from consideration. As noted below, varying binding arm lengths can be chosen to optimize activity. Generally, at least 5 bases on each arm are able to bind to, or otherwise interact with, the target RNA.
Example 3 : Chemical Synthesis and Purification of Enzymatic nucleic acids and Antisense for Efficient Cleavage and/or blocking of CD20 and NOGO RNA
Enzymatic nucleic acids and antisense constructs are designed to anneal to various sites in the RNA message. The binding arms of the enzymatic nucleic acids are complementary to the target site sequences described above, while the antisense constructs are fully complimentary to the target site sequences described above. The enzymatic nucleic acids and antisense constructs were chemically synthesized. The method of synthesis used followed the procedure for normal RNA synthesis as described above and in Usman et al, (1987 J. Am. Chem. Soc, 109, 7845), Scaringe et al, (1990 Nucleic Acids Res., 18, 5433) and Wincott et al, supra, and made use of common nucleic acid protecting and coupling groups, such as dimethoxytrityl at the 5 '-end, and phosphoramidites at the 3'-end. The average stepwise coupling yields were typically >98%.
Enzymatic nucleic acids and antisense constructs are also synthesized from DNA templates using bacteriophage T7 RNA polymerase (Milligan and Uhlenbeck, 1989, Methods Enzymol. 180, 51). Enzymatic nucleic acids and antisense constructs are purified by gel electrophoresis using general methods or are purified by high pressure liquid chromatography (HPLC; see Wincott et al, supra; the totality of which is hereby incorporated herein by reference) and are resuspended in water.
Example 4: Enzymatic nucleic acid Cleavage of CD20 and NOGO RNA Target in vitro
Enzymatic nucleic acids targeted to the human CD20 and NOGO RNA are designed and synthesized as described above. These enzymatic nucleic acids can be tested for cleavage activity in vitro, for example, using the following procedure. The target sequences and the nucleotide location within the CD20 RNA are given in Tables IX-XIV. The target sequences and the nucleotide location within the NOGO RNA are given in Tables III- VIII.
Cleavage Reactions: Full-length or partially full-length, internally-labeled target RNA for enzymatic nucleic acid cleavage assay is prepared by in vitro transcription in the presence of [a- 32 ] CTP, passed over a G 50 Sephadex® column by spin chromatography and used as substrate RNA without further purification. Alternately, substrates are 5'-32p-end labeled using T4 polynucleotide kinase enzyme. Assays are performed by pre-warming a 2X concentration of purified enzymatic nucleic acid in enzymatic nucleic acid cleavage buffer (50 mM Tris-HCl, pH 7.5 at 37°C, 10 mM MgC_2) and the cleavage reaction was initiated by adding the 2X enzymatic nucleic acid mix to an equal volume of substrate RNA (maximum of 1-5 nM) that was also pre- o warmed in cleavage buffer. As an initial screen, assays are carried out for 1 hour at 37 C using a final concentration of either 40 nM or 1 mM enzymatic nucleic acid, i.e., enzymatic nucleic acid excess. The reaction is quenched by the addition of an equal volume of 95%) formamide, 20 mM EDTA, 0.05% bromophenol blue and 0.05% xylene cyanol after which the sample is heated to 95 C for 2 minutes, quick chilled and loaded onto a denaturing polyacrylamide gel. Substrate RNA and the specific RNA cleavage products generated by enzymatic nucleic acid cleavage are visualized on an autoradiograph of the gel. The percentage of cleavage is determined by Phosphor Imager® quantitation of bands representing the intact substrate and the cleavage products.
Example 5: Nucleic acid inhibition of CD20 target RNA in vivo
Nucleic acid molecules targeted to the human CD20 RNA are designed and synthesized as described above. These nucleic acid molecules can be tested for cleavage activity in vivo, for example using the procedures described below. The target sequences and the nucleotide location within the CD20 RNA are given in Tables IX-XIV.
Cell Culture
Stacchini et al, 1999, Leuk. Res., 23(2), 127-126, describe the establishment of MEC1 and MEC2 cell lines derived from B-chronic lymphocytic leukemia in prolymphocytoid transformation. Matsuo et al, 1999, Leuk. Res., 23(6), 559-568, describe the establishment and characterization of a novel ALL-L3 cell line (BALM- 18) in the study of apoptotic induction by anti-IgM and the inhibtion of apoptosis by bone marrow stroma cells. Schmetzer et al, 1998, Haematologia, 29(3), 195-205, describes the cloning and characterization of bone marrow cells
from patients with acute lymphoid leukemia (ALL) in agar cultures. These cell lines express mature B cell markers including CD20, and can be used to study the modulation of CD20 expression using nucleic acid molecules of the instant invention.
Brandl et al, 1999, Exp. Hematol (N.Y.), 27(8), 1264-1270, describe the use of bispecific antibody fragments with CD20 x CD28 specificity to allow effective autologous and allogeneic T-cell activation against malignant cells in peripheral blood and bone marrow cultures from patients with B-cell lineage leukemia and lymphoma. A similar study using the nucleic acid molecules of the instant invention in place of antibody fragments can be used to evaluate the efficacy of nucleic acid molecules targeting CD20.
Animal Models
In order to evaluate the therapeutic potential of anti-CD20 enzymatic nucleic acids, several oncology models in rodent, rabbits and non-human primates can be utilized.
Human Xenograft models in Immunocompromised Mice and/or Rats: The primary goal of these studies is to evaluate the effectiveness of anti-CD20 enzymatic nucleic acid therapy at reducing tumor burden and/or improving survival in ammals with B-cell derived lymphoma. A variety of human lymphoma cell lines grow well as a subcutaneous solid tumor in unmanipulated immunocompromised mice or in nude mice subjected to sublethal irradiation. This allows for ease in measurement of tumor volumes. Cell lines that can be utilized include, but are not limited to: JeKo-1 (mantle cell lymphoma), Hs455 (Hodgkin's lymphoma), Hs 602 (cervical lymphoma) or CD 20 + cells obtained from human patients. Human B lymphoid cells (BL2) can also be used to induce primary central nervous system lymphoma in nude rats (Jeon et al, 1998, Br. J. Haematol, 102(5), 1323-1326; Saini et al, 1999, J. Neurooncol, 43(2), 143-160).
Viral Induction of Lymphoma: These studies evaluate the effectiveness of anti-CD20 enzymatic nucleic acid therapy at reducing tumor burden and/or improving survival in animals malignant lymphoma. Two animal models are available for inducing Epstein-Barr virus (EBV) related lymphomas. Rabbits can be inoculated orally with cell free pellets from cultured Si-IIA cells. These cells are a HTLV-II-transformed leukocyte cell line producing EBV. Malignant lymphomas developed after many weeks: Balb/c mice receiving subcutaneous transplants of human fetal nasopharyngeal mucosa infected with EBV can develop solid tumors provided that tumor promoters are administered concurrently. Subpopulations of tumor cells derived from such animals are CD20+. Tumor growth can be followed for up to 15 weeks post-inoculation (Koirala et al, 1997, Pathol Int., 47(7), 442-448; Liu et al, 1998, J Cancer. Res. Clin. Oncol, 124(10), 541-548).
Syngeneic Lymphoma Models in Mice: A variety of syngeneic murine lymphoma cell lines are available and can be grown in immunocompetent mice. Cell lines that can be utilized include, but
are not limited to: V 38C13( B cell lymphoma), WEHI-279 or 231 (Non-secreting B-cell lymphomas) or P388D1 (lymphoma). Tumor burden and survival will be endpoints.
A genetically engineered mouse that spontaneously develops lymphoblastic lymphoma can also be utilized to verify activity of the anti-CD20 enzymatic nucleic acid. N:NTH(S)- bg-nu- xid mice develop a diffuse lymphoproliferative disorder by the age of 8 months. Lymph nodes are engorged with neoplastic lymphoblasts of B-cell origin (Weiner, 1992, Int. J. Cancer Suppl, 7, 63-66; Waggie et al, 1992, LabAnim. Sci., 42(2), 375-377).
Indications
Particular conditions and disease states that can be associated with CD20 expression modulation include but are not limited to lymphoma, leukemia, and arthropathy. In particular, the nucleic acid molecules of the instant invention can be used to treat lymphoma, leukemia, and arthropathy including but not limited to B-cell lymphoma, low-grade or follicular non-Hodgkin's lymphoma (NHL), bulky low-grade or follicular NHL, lypmphocytic leukemia, HIV associated NHL, mantle-cell lymphoma (MCL), immunocytoma (IMC), small B-cell lymphocytic lymphoma, immune thrombocytopenia, and inflammatory arthropathy.
The present body of knowledge in CD20 research indicates the need for methods to assay CD20 activity and for compounds that can regulate CD20 expression for research, diagnostic, and therapeutic use.
Monoclonal antibodies and conjugates such as Bexxar, Rituxan, and Zevalin, chemotherapeutic agents such as CHOP (cyclophosphamide, doxorubicin, vincristine, and prednisone), immunomodulators, and radiation treatments are non-limiting examples of compounds and/or methods that can be combined with or used in conjunction with the nucleic acid molecules (e.g. enzymatic nucleic acids and antisense molecules) of the instant invention. Those skilled in the art will recognize that other drug compounds and therapies can be similarly and readily combined with the nucleic acid molecules of the instant invention (e.g. enzymatic nucleic acids and antisense molecules) and are, therefore, within the scope of the instant invention.
Example 6: Nucleic acid inhibition of NOGO target RNA in vivo
Nucleic acid molecules targeted to the human NOGO RNA are designed and synthesized as described above. These nucleic acid molecules can be tested for cleavage activity in vivo, for example using the procedures described below. The target sequences and the nucleotide location within the NOGO RNA are given in Tables III-VIII.
Cell Culture
Spillmami et al, 1998, J Biol. Chem., 273, 19283-19293, describe the purification and biochemical characterization of a high molecular mass protein of bovine spinal cord myelin (bNI-220) which exerts potent inhibition of neurite outgrowth of NGF-primed PC 12 cells and chick DRG cells. This protein can be used to inhibit spreading of 3T3 fibroblasts and to induce collapse of chick DRG growth cones. The monoclonal antibody, mAb IN-1, can be used to fully neutralize the inhibitory activity of bNI-220, which is a presumed NOGO gene product. As such, nucleic acid molecules of the instant invention directed at the inhibition of NOGO expression can be used in place of mAb IN-1 in studying the inhibition of bNI-220 in cell culture experiments described in detail by Spillmann et al, supra. Criteria used in these experiments include the evaluation of spreading behavior of 3T3 fibroblasts, the nuerite outgrowth response of PC 12 cells, and the growth cone motility of chick DRG growth cones
Animal models
Bregman et al, 1995, Nature, 378, 498-501, describe a rat based system for evaluating the role of myelin-associated neurite growth inhibitory proteins in vivo. Young adult Lewis rats receive a mid-thoracic microsurgical spinal cord lesion. These animals are then treated with mAb IN-1 secreting hybridoma cell explants. A control population receive hybridoma explants which secrete horsreradish peroxidase (HRP) antibodies. Cyclosporin is used during the treatment period to allow hybridoma survival. Additional control rats receive either the spinal cord lesion without any further treatment or no lesion. After a 4-6 week recovery period, behavioral training is followed by the quantitative analysis of reflex and locomotor function. IN- 1 treated animals demonstrate growth of corticlspinal axons around the lesion site and into the spinal cord which persist past the longest time point of analysis (12 weeks). Furthermore, both reflex and locomotor function is restored in IN-1 treated animals. As such, a robust animal model as described by Bregman et al supra, can be used to evaluate nucleic acid molecules of the instant invention when used in place of or in conjunction with mAb IN-1 toward use as modulators of neurite growth inhibitor function (eg. NOGO) in vivo.
Indications
Particular degenerative and disease states that can be associated with NOGO expression modulation include but are not limited to CNS injury and cerebrovascular accident (CVA, stroke), Alzheimer's disease, dementia, multiple sclerosis (MS), chemotherapy-induced neuropathy, amyotrophic lateral sclerosis (ALS), Parkinson's disease, ataxia, Huntington's disease, Creutzfeldt- Jakob disease, muscular dystrophy, and/or other neurodegenerative disease states which respond to the modulation of NOGO expression.
The present body of knowledge in NOGO research indicates the need for methods to assay NOGO activity and for compounds that can regulate NOGO expression for research, diagnostic, and therapeutic use.
The use of monoclonal antibody (eg; mAb IN-1) treatment is a non-limiting example of a method that can be combined with or used in conjunction with the nucleic acid molecules (e.g. enzymatic nucleic acids and antisense molecules) of the instant invention. Those skilled in the art will recognize that other drug compounds and therapies can be similarly be readily combined with the nucleic acid molecules of the instant invention (e.g. enzymatic nucleic acids and antisense molecules) are hence within the scope of the instant invention.
Example 7: Detection of Nucleic Acid Molecules
In a preferred embodiment, the present invention relates to a novel method for the detection of nucleic acid molecules using enzymatic nucleic acid constructs. The invention further relates to the use of said process as a diagnostic application to identify the presence of genes and/or gene products which are indicative of a particular genotype and/or phenotype, for example a disease state, infection, or related condition within patients.
The detection of nucleic acid can be highly beneficial in the diagnosis of diseases or medical disorders. By determining the presence of a specific nucleic acid sequence, investigators can confirm the presence of a virus, bacterium, genetic mutation, and other conditions which my relate to a disease. Assays for nucleic acid sequences can range from simple methods for detection, such as northern blot hybridization using a radiolabeled or fluorescent probe to detect the presence of a nucleic acid molecule, to the use of polymerase chain reaction (PCR) to amplify a small quantity of a specific nucleic acid to the point at which it can be used for detection of the sequence by hybridization techniques polymerase chain reaction, uses DNA polymerases to logarithmically amplify the desired sequence (U.S. Pat. 4,683,195; U.S. Pat.4,683,202) using prefabricated primers to locate specific sequences. Nucleotide probes can be labeled using dyes, fluorescent, chemiluminescent, radioactive, or enzymatic labels which are commercially available. These probes can be used to detect by hybridization, the expression of a gene or related sequences in cells or tissue samples in which the gene is a normal component, as well as to screen sera or tissue samples from humans suspected of having a disorder arising from infection with an organism, or to detect novel or altered genes as might be found in tumorigenic cells. Nucleic acid primers can also be prepared which, with reverse transcriptase or DNA polymerase and PCR, can be used for detection of nucleic acid molecules which are present in very small amounts in tissues or fluids.
PCR utilizes protein enzymes (DNA polymerase) to detect specific nucleotide sequences. PCR has several disadvantages such as requiring a high degree of technical competence for reliability and also extremely sensitive to contamination resulting in false positives.
Another class of enzymes which have been utilized for diagnostic purposes are nucleic acid catalysts (enzymatic nucleic acids). Since nucleic acid molecules have also been shown to have catalytic activity they may also be used for diagnostic applications.
The enzymatic nature of a enzymatic nucleic acid is advantageous over other technologies, since the concentration of enzymatic nucleic acid necessary to affect a therapeutic treatment is lower. This advantage reflects the ability of the enzymatic nucleic acid to act enzymatically. Thus, a single enzymatic nucleic acid molecule is able to cleave many molecules of target RNA. In addition, the enzymatic nucleic acid is a highly specific inhibitor, with the specificity of inhibition depending not only on the base-pairing mechanism of binding to the target RNA, but also on the mechanism of target RNA cleavage. Single mismatches, or base-substitutions, near the site of cleavage can be chosen to completely eliminate catalytic activity of a enzymatic nucleic acid.
Nucleic acid molecules having an endonuclease enzymatic activity are able to repeatedly cleave other separate RNA molecules in a nucleotide base sequence-specific manner. Such enzymatic nucleic acid molecules can be targeted to virtually any RNA transcript, and efficient cleavage achieved in vitro (Zaug et al., 324, Nature 429 1986 ; Uhlenbeck, 1987 Nature 328, 596; Kim et al., 84 Proc. Natl. Acad. Sci. USA 8788, 1987; Dreyfus, 1988, Einstein Quart. J. Bio. Med., 6, 92; Haseloff and Gerlach, 334 Nature 585, 1988; Cech, 260 JAMA 3030, 1988; and Jefferies et al., 17 Nucleic Acids Research 1371, 1989; Santoro et al, 1997 supra).
Because of their sequence-specificity, trans-cleaving enzymatic nucleic acids show promise as therapeutic agents for human disease (Usman & McSwiggen, 1995 Ann. Rep. Med. Chem. 30, 285-294; Christoffersen and Marr, 1995 J. Med. Chem. 38, 2023-2037). Enzymatic nucleic acids can be designed to cleave specific RNA targets within the background of cellular RNA. Such a cleavage event renders the RNA non-functional and abrogates protein expression from that RNA. In this manner, synthesis of a protein associated with a disease state can be selectively inhibited.
George et al., US Patent Nos. 5,834,186 and 5,741,679, describe regulatable RNA molecules which contain a ligand-binding RNA sequence and a enzymatic nucleic acid sequence capable of cleaving a separate targeted RNA sequence, wherein upon binding of the ligand to the ligand- binding RNA sequence, the activity of the enzymatic nucleic acid sequence against the targeted RNA sequence is altered.
Shih et al., US Patent No. 5,589,332, describe a method for the use of enzymatic nucleic acids to detect macromolecules such as proteins and nucleic acid.
Nathan et al., US Patent No 5,871,914, describe a method for detecting the presence of an assayed nucleic acid based on a two component enzymatic nucleic acid system containing a detection ensemble and an RNA amplification ensemble.
This invention relates to a method for the detection of specific target molecules such as nucleic acid molecules, proteins, polysaccharides, sugars, metals, and organic and inorganic molecules. The method of nucleic acid detection of this invention is distinct from other methods known in the art. The invention further relates to the use of said method as a diagnostic application to identify the presence of a target molecule such as a gene and/or gene products which are indicative of a particular genotype and/or phenotype, for example a disease state, infection, or related condition within patients. The invention also relates to a method for example, the diagnosis of disease states or physiological abnormalities related to the expression of viral, bacterial or cellular RNA and DNA.
In a preferred embodiment, the invention features a method for the detection and/or amplification of specific target molecules in a system using enzymatic nucleic acid molecules. Specifically, the invention features the use of at least one reporter molecule, at least one target molecule, and a diagnostic effector molecule which is comprised of an enzymatic nucleic acid component joined by a linker to one or more inhibitor components, where a inhibitor component for example is complimentary to one or more sequences within the enzymatic nucleic acid component. The enzymatic nucleic acid component's ability, in the diagnostic effector molecule, to catalyze a reaction is inhibited by the interaction of one or more inhibitor components. However, in the presence of one or more distinct target molecules, the inhibitor component interacts with its respective target molecule preferentially, allowing the enzymatic nucleic acid molecule to interact with a reporter molecule to catalyze a reaction. A catalytic reaction then take places on the reporter molecule, for example cleavage or ligation of the reporter molecule, the rate of which can then be measured by standard assays well known in the art.
In another preferred embodiment, the invention features a method for the detection and/or amplification of specific target molecules in a system using at least one reporter molecule, at least one target molecule, and a diagnostic effector molecule which comprises an enzymatic nucleic acid component and at least one separate inhibitor component, where the inhibitor component or components interacts with one or more sequences within the nucleic acid catalyst. The enzymatic nucleic acid component's ability, in the diagnostic effector molecule, to catalyze a reaction is inhibited by the interaction of at least one inhibitor component. However, in the presence of a target molecule, the inhibitor component preferentially interacts with the target molecule, which allows the enzymatic nucleic acid molecule to interact with a reporter molecule
and become functional. A catalytic reaction then takes place on the reporter molecule, for example cleavage or ligation of the reporter molecule, the rate of which can then be measured by standard assays well known in the art.
In a preferred embodiment, the invention features a method for the detection and/or amplification of a specific target molecule in a system using at least one reporter molecule, at least one target molecule, and a diagnostic effector molecule which comprises an enzymatic nucleic acid component. The effector molecule is selected for having catalytic activity only through interaction with the target molecule. In the absence of the target molecule, the diagnostic effector molecule is inactive. In the presence of a target molecule the diagnostic effector molecule can adopt an active conformation and become functional. A catalytic reaction then take places on the reporter molecule, for example cleavage or ligation of the reporter molecule, the rate of which can then be measured by standard assays well known in the art. Alternatively, the diagnostic effector molecule can be selected to be inhibited through interaction with the target molecule, such that interaction with the target causes the diagnostic effector molecule to adopt an inactive conformation and become non-active.
hi preferred embodiments, the reaction catalyzed by the enzymatic nucleic acid component of the diagnostic effector molecule with the reporter molecule of the invention features catalytic activity, for example cleavage activity, ligation activity, amplification activity, and/or polymerase activity.
In yet another preferred embodiment, the enzymatic nucleic acid component of the diagnostic effector molecule features preferably the hammerhead, NCH (Inozyme), G-cleaver, amberzyme, zinzyme and/or DNAzyme motif.
By "target molecule" is meant, a molecule, in a purified or unpurified form, that is capable of preferentially interacting with the inhibitor component of the diagnostic effector molecule. The target molecule may be a nucleic acid (RNA, DNA or analogs thereof), small molecules, peptides, proteins, antibodies, carbohydrates, organic or inorganic compounds, metals, or any other molecules capable of interacting with an inhibitor component of the diagnostic effector molecule.
By "inhibitor component" of the diagnostic effector molecule is meant, a molecule such as a nucleic acid sequence (e.g., RNA or DNA or analogs thereof), peptide, or other chemical moiety which can interact with one or more regions of the enzymatic nucleic acid component of the diagnostic effector molecule to inhibit the catalytic activity of the enzymatic nucleic acid. The inhibitor component may be covalently linked to the diagnostic effector molecule or may be non-covalently associated. A person skilled in the act will recognize that all that is required is
that the inhibitory component is able to selectively inhibit the activity of the enzymatic nucleic acid component of the diagnostic effector molecule.
By "system" is meant, material, in a purified or unpurified form, from biological or non- biological sources, including but not limited to human, animal, plant, bacteria, virus, fungi, soil, water, or others that comprises the target molecule to be detected or amplified.
The "biological system" as used herein may be a eukaryotic system or a prokaryotic system, may be a bacterial cell, plant cell or a mammalian cell, or may be of plant origin, mammalian origin, yeast origin, Drosophila origin, or archebacterial origin.
By "reporter molecule" is meant a molecule, such as a nucleic acid sequence (e.g., RNA or DNA or analogs thereof) or peptides and/or other chemical moieties, able to stably interact with the enzymatic nucleic acid component of the diagnostic effector molecule and function as a substrate for the enzymatic nucleic acid molecule. The reporter molecule may also contain chemical moieties including but not limited to fluorescent, chromogenic, radioactive, enzymatic and/or chemiluminescent or other detectable labels which may then be detected using standard assays known in the art.
In another preferred embodiment, the reporter molecule of the invention is an oligonucleotide primer, template, or probe, which can be used to modulate the amplification of additional nucleic acid sequences, for example, sequences comprising reporter molecules, target molecules, effector molecules, inhibitor molecules, and/or additional enzymatic nucleic acid molecules of the instant invention.
By "unmodified nucleotide" is meant a nucleotide with one of the bases adenine, cytosine, guanine, thymine, uracil joined to the 1' carbon of beta-D-ribo-furanose.
By "modified nucleotide" is meant a nucleotide which contains a modification in the chemical structure of an unmodified nucleotide base, sugar and/or phosphate.
In a preferred embodiment the linker region, when present in the diagnostic effector molecule is further comprised of nucleotide, non-nucleotide chemical moieties or combinations thereof.
In another embodiment, the non-nucleotide linker (L) is as defined herein. The term "non- nucleotide" as used herein include either abasic nucleotide, polyether, polyamine, polyamide, peptide, carbohydrate, lipid, or polyhydrocarbon compounds. Specific examples include those described by Seela and Kaiser, Nucleic Acids Res. 1990, 75:6353 and Nucleic Acids Res. 1987, 75:3113; Cload and Schepartz, J Am. Chem. Soc. 1991, 775:6324; Richardson and Schepartz, J. Am. Chem. Soc. 1991, 775:5109; Ma et al., Nucleic Acids Res. 1993, 27:2585 and Biochemistry
1993, 52:1751; Durand et al., Nucleic Acids Res. 1990, 75:6353; McCurdy et al, Nucleosides & Nucleotides 1991, 10:287; Jschke et al., Tetrahedron Lett. 1993, 54:301; Ono et al, Biochemistry 1991, 30:9914; Arnold et al, International Publication No. WO 89/02439; Usman et al, International Publication No. WO 95/06731; Dudycz et al, International Publication No. WO 95/11910 and Ferentz and Verdine, J. Am. Chem. Soc. 1991, 775:4000, all hereby incorporated by reference herein. Thus, in a preferred embodiment, the invention features an enzymatic nucleic acid molecule having one or more non-nucleotide moieties, and having enzymatic activity to cleave an RNA or DNA molecule. By the term "non-nucleotide" is meant any group or compound which can be incorporated into a nucleic acid chain in the place of one or more nucleotide units, including either sugar and/or phosphate substitutions, and allows the remaining bases to exhibit their enzymatic activity. The group or compound is abasic in that it does not contain a commonly recognized nucleotide base, such as adenine, guanine, cytosine, uracil or thymine. The terms "abasic" or "abasic nucleotide" as used herein encompass sugar moieties lacking a base or having other chemical groups in place of a base at the 1' position.
In a preferred embodiment, the invention provides a method for producing a class of nucleic acid-based diagnostic agents which exhibit a high degree of specificity for the target molecule.
In additional embodiments, the invention features a method of detecting target RNA and/or DNA in both in vitro and in vivo applications. In vitro diagnostic applications may comprise both solid support based and solution based chip, multichip-array, micro-well plate, and microbead derived applications as are commonly used in the art. In vivo diagnostic applications may include but are not limited to cell culture and animal model based applications, comprising differential gene expression arrays, FACS based assays, diagnostic imaging, and others.
In a preferred embodiment, the invention features a method of detecting and/or amplifying target molecules, wherein said target molecule is a nucleic acid sequence such as RNA and/or DNA, in a system, preferably a mammalian system, comprising the steps of (1) contacting the system with the diagnostic effector molecule and the reporter molecule under conditions suitable for the target molecule, if present in the sample, to interact with the inhibitor molecule component of the effector molecule, such that the enzymatic nucleic acid component of the effector molecule can interact with the reporter molecule to catalyze a reaction; and (2) measuring of the extent of the reaction catalyzed by the enzymatic nucleic acid component of the effector molecule, indicating the presence of the target molecule. If the target molecule is not present in the sample, then no reaction above the background will be detected. The reporter molecule may be contacted with the system after the system is allowed to interact with the diagnostic effector molecule.
In another preferred embodiment, the invention features a method of detecting and/or amplifying a target molecule, wherein the target molecule is RNA sequence derived from a virus, bacteria, fungi, mycoplasma or other infectious disease agent, in a system, where the system is a biological sample from a patient, animal, blood, food material, water, and/or other potential sources for infectious disease agents. The method comprises the steps of (1) contacting the system with the diagnostic effector molecule, where the effector molecule comprises an inhibitor component and an enzymatic nucleic acid component, under conditions suitable for preferential interaction of the inhibitor component with the target molecule that may be present in the system; (2) contacting the system with a reporter molecule under conditions suitable for the enzymatic nucleic acid component of the diagnostic effector molecule to catalyze a reaction with the reporter molecule; and (3) detecting the target molecule by measuring any reaction catalyzed in step (2).
In another preferred embodiment, the invention features a method of the detecting and/or amplifying a target molecule , wherein the target molecule is RNA sequence derived from a virus, bacteria, fungi, mycoplasma or other infectious disease agent, in a system, where the system is a biological sample from a patient, animal, blood, food material, water, and/or other potential sources for infectious disease agents. The method comprises the steps of (1) contacting the reporter molecule with a mixture, comprising the system and the diagnostic effector molecule, under conditions suitable for the active configuration of the enzymatic nucleic acid component of the diagnostic effector molecule to interact with the reporter molecule to catalyze a reaction; and (2) detecting the target molecule by measuring the reaction catalyzed in step (1). If the target molecule is not present in the system, then the enzymatic nucleic acid component will not be able to catalyze a reaction with the reporter molecule and there will not be a signal to measure.
Detection of Nucleic Acid Sequences
In one embodiment, the present invention utilizes at least three oligonucleotide sequences for proper function: diagnostic effector molecule, reporter molecule, and target molecule. The diagnostic effector molecule is comprised of a inhibitor component, enzymatic nucleic acid component, and a linker between them which may be present or absent. The diagnostic effector molecule (Figure 7), is in its inactive state when the inhibitor component binds to the nucleic acid catalyst in the enzymatic nucleic acid component. The inhibitor component can bind to the substrate binding regions or nucleotides that contribute to the secondary or tertiary structure of the enzymatic nucleic acid component. For example, the inhibitor component can bind to nucleotides located within the enzymatic nucleic acid core, which can disrupt catalytic activity. The reporter molecule is able to bind to the diagnostic effector molecule, but a catalytic activity is inhibited since the molecule is structurally inactive. Alternatively, the inhibitor component can bind to the substrate binding region(s) of the enzymatic nucleic acid component, which can
prevent the reporter molecule from binding to the diagnostic effector molecule. The inhibitor component is not be cleaved because the cleavage site contains either a chemical modification which prevents cleavage or an inappropriate sequence. For example, hammerhead ribozymes need to have a NUH motif in the molecule to be cleaved (H is adenosine, cytidine, or uridine) for proper cleavage. By adding a guanosine at the H position in the RNA to be cleaved, cleavage is inhibited.
In the presence of the target molecule, the inhibitor can disassociate from the enzymatic nucleic acid component and bind to the target molecule preferentially. The inhibitor region can preferentially bind to the target molecule which results in the formation of a more stable complex. For example, the inhibitor region can bind to more nucleotides on the target molecule than on the diagnostic effector molecule. Binding to a larger number of nucleotides can have increased chemical stability and therefore is preferred over binding to a smaller number of nucleotides.
When the inhibitor region is bound to the target molecule and the reporter molecule binds to the diagnostic effector molecule, a reaction may be catalyzed on the reporter molecule by the enzymatic nucleic acid component. For example, the reporter molecule can be cleaved. The cleavage event can then be detected by using a number of assays. For example, electrophoresis on a polyacrylamide gel detects not only the full length reporter oligonucleotide but also any cleavage products that are created by the functional diagnostic effector molecule. The detection of these cleavage products indicates the presence of the target molecule. In addition, the reporter molecule can contain a fluorescent molecule at one end, which fluorescence signal is quenched by another molecule attached at the other end of the reporter molecule. Cleavage of the reporter molecule in this case results in the disassociation of the florescent molecule and the quench molecule, resulting in a signal. This signal can be detected and/or quantified by methods known in the art (for example see Nathan et al, US Patent No. 5,871,914, Birkenmeyer, US Patent No. 5,427,930, and Lizardi et al, US Patent No. 5,652,107, George et al, US Patent Nos. 5,834,186 and 5,741,679, and Shih et al, US Patent No. 5,589,332).
Alternatively, the inhibitory region of the effector molecule can comprise a separate oligonucleotide sequence, as shown for example in Figure 12, system M.
Diagnostic screen
A series of enzymatic nucleic acids with trans-acting inhibitory sequences were designed. Table XV shows the sequences that were used in this test. Sequences with names beginning with S- were the substrate sequences used in this experiment, and those beginning with Rz- were enzymatic nucleic acids. Sequences beginning with I- were inhibitory sequences that were designed to bind to portions of the enzymatic nucleic acid sequences (to varying degrees) and to
prevent the enzymatic nucleic acid from binding and cleaving substrate; these sequences are shown in lower case because they were synthesized using 2'-O-methyl nucleotides in order to increase binding affinity. The one sequence labeled T-2a represents the target sequence which was designed to bind to the inhibitory sequences so as to prevent them from inhibiting the enzymatic nucleic acid activity. The system construct is shown in Figure 16.
Figure 17 shows the results of testing some of these enzymatic nucleic acid/inhibitor combinations in a cleavage assay. The substrate molecules were 5'-end labeled with 32P- phosphate and incubated for 12 or 60 minutes in either: (1) buffer alone (50 mM Tris, pH 7.5, 10 mM MgC12), or in the presence of (2) 10 nM enzymatic nucleic acid, (3) 10 nM enzymatic nucleic acid plus 20 nM inhibitor, (4) 10 nM enzymatic nucleic acid plus 200 nM inhibitor, or (5) 10 nM enzymatic nucleic acid plus 20 nM inhibitor and 500 nM target. At the end of the incubation the reactions were loaded onto a PAGE gel to separate cleaved product from uncleaved substrate. The gel was imaged on a Molecular Dynamics phosphorimager and quantitated to determine the percent of substrate cleaved under each set of conditions. Control reactions were carried out to ensure that addition of inhibitor or target sequence, without enzymatic nucleic acid, did not result in substrate cleavage; only 0.2-0.4% of substrate was cleaved under these conditions.
Figure 17 shows that enzymatic nucleic acid alone results in 40-60%> cleavage of substrate after 1 minute, and 85% cleavage after 60 minutes for these three enzymatic nucleic acids. When 20 nM inhibitor is added to the reaction, the cleavage activity is reduced by 30- 70%. When 200 nM inhibitor is added, the cleavage activity is reduced by 50-99%. Finally, addition of 500 nM target to a reaction containing 10 nM enzymatic nucleic acid and 20 nM target results in almost complete recovery of the cleavage activity up to the level observed with enzymatic nucleic acid alone.
Diagnostic uses
The nucleic acid molecules of this invention (e.g., ribozymes) can be used as diagnostic tools to examine genetic drift and mutations within diseased cells or to detect the presence of CD20 and or NOGO RNA in a cell. The close relationship between enzymatic nucleic acid activity and the structure of the target RNA allows the detection of mutations in any region of the molecule which alters the base-pairing and three-dimensional structure of the target RNA. By using multiple enzymatic nucleic acids described in this invention, one can map nucleotide changes that are important to RNA structure and function in vitro, as well as in cells and tissues. Cleavage of target RNAs with enzymatic nucleic acids can be used to inhibit gene expression and define the role (essentially) of specified gene products in the progression of disease. In this manner, other genetic targets can be defined as important mediators of the disease. These experiments can lead to better treatment of the disease progression by affording the possibility of
combinational therapies (e.g., multiple enzymatic nucleic acids targeted to different genes, enzymatic nucleic acids coupled with known small molecule inhibitors, or intermittent treatment with combinations of enzymatic nucleic acids and/or other chemical or biological molecules). Other in vitro uses of enzymatic nucleic acids of this invention are well known in the art, and include detection of the presence of mRNAs associated with CD20-related condition. Such RNA is detected by determining the presence of a cleavage product after treatment with a enzymatic nucleic acid using standard methodology.
In a specific example, enzymatic nucleic acids which cleave only wild-type or mutant forms of the target RNA are used for the assay. The first enzymatic nucleic acid is used to identify wild-type RNA present in the sample and the second enzymatic nucleic acid is used to identify mutant RNA in the sample. As reaction controls, synthetic substrates of both wild-type and mutant RNA are cleaved by both enzymatic nucleic acids to demonstrate the relative enzymatic nucleic acid efficiencies in the reactions and the absence of cleavage of the "non- targeted" RNA species. The cleavage products from the synthetic substrates also serve to generate size markers for the analysis of wild-type and mutant RNAs in the sample population. Thus, each analysis requires two enzymatic nucleic acids, two substrates and one unknown sample, which are combined into six reactions. The presence of cleavage products can be determined using an RNAse protection assay so that full-length and cleavage fragments of each RNA can be analyzed in one lane of a polyacrylamide gel. It is not absolutely required to quantify the results to gain insight into the expression of mutant RNAs and putative risk of the desired phenotypic changes in target cells. The expression of mRNA whose protein product is implicated in the development of the phenotype (i.e., CD20) is adequate to establish risk. If probes of comparable specific activity are used for both transcripts, then a qualitative comparison of RNA levels is adequate and decreases the cost of the initial diagnosis. Higher mutant form to wild-type ratios are correlated with higher risk whether RNA levels are compared qualitatively or quantitatively.
Additional Uses
Potential uses of sequence-specific enzymatic nucleic acid molecules of the instant invention have many of the same applications for the study of RNA that DNA restriction endonucleases have for the study of DNA (Nathans et al, 1975 Ann. Rev. Biochem. 44:273). For example, the pattern of restriction fragments can be used to establish sequence relationships between two related RNAs, and large RNAs could be specifically cleaved to fragments of a size more useful for study. The ability to engineer sequence specificity of the enzymatic nucleic acid molecule is ideal for cleavage of RNAs of unknown sequence. Applicant describes the use of nucleic acid molecules to down-regulate gene expression of target genes in bacterial, microbial, fungal, viral, and eukaryotic systems including plant, or mammalian cells.
All patents and publications mentioned in the specification are indicative of the levels of skill of those skilled in the art to which the invention pertains. All references cited in this disclosure are incorporated by reference to the same extent as if each reference had been incorporated by reference in its entirety individually.
One skilled in the art would readily appreciate that the present invention is well adapted to carry out the objects and obtain the ends and advantages mentioned, as well as those inherent therein. The methods and compositions described herein as presently representative of preferred embodiments are exemplary and are not intended as limitations on the scope of the invention. Changes therein and other uses will occur to those skilled in the art, which are encompassed within the spirit of the invention, are defined by the scope of the claims.
It will be readily apparent to one skilled in the art that varying substitutions and modifications can be made to the invention disclosed herein without departing from the scope and spirit of the invention. Thus, such additional embodiments are within the scope of the present invention and the following claims.
The invention illustratively described herein suitably can be practiced in the absence of any element or elements, limitation or limitations which is not specifically disclosed herein. Thus, for example, in each instance herein any of the terms "comprising," "consisting essentially of," and "consisting of may be replaced with either of the other two terms. The terms and expressions which have been employed are used as terms of description and not of limitation, and there is no intention that in the use of such terms and expressions of excluding any equivalents of the features shown and described or portions thereof, but it is recognized that various modifications are possible within the scope of the invention claimed. Thus, it should be understood that although the present invention has been specifically disclosed by preferred embodiments, optional features, modification and variation of the concepts herein disclosed may be resorted to by those skilled in the art, and that such modifications and variations are considered to be within the scope of this invention as defined by the description and the appended claims.
In addition, where features or aspects of the invention are described in terms of Markush groups or other grouping of alternatives, those skilled in the art will recognize that the invention is also thereby described in terms of any individual member or subgroup of members of the Markush group or other group.
Other embodiments are within the claims that follow.
TABLE I
Characteristics of naturally occurring ribozymes Group I Introns
Size: -150 to >1000 nucleotides.
• Requires a U in the target sequence immediately 5' of the cleavage site.
• Binds 4-6 nucleotides at the 5'-side of the cleavage site.
• Reaction mechanism: attack by the 3'-OH of guanosine to generate cleavage products with 3' -OH and 5'-guanosine.
• Additional protein cofactors required in some cases to help folding and maintainance of the active structure.
• Over 300 known members of this class. Found as an intervening sequence in Tetrahymena thermophila rRNA, fungal mitochondria, chloroplasts, phage T4, blue- green algae, and others.
• Major structural features largely established through phylogenetic comparisons, mutagenesis, and biochemical studies [ ].
• Complete kinetic framework established for one ribozyme p /1]-
• Studies of ribozyme folding and substrate docking underway [vii / viii / i ].
• Chemical modification investigation of important residues well established [x,xi].
• The small (4-6 nt) binding site may make this ribozyme too non-specific for targeted RNA cleavage, however, the Tetrahymena group I intron has been used to repair a "defective" -galactosidase message by the ligation of new - galactosidase sequences onto the defective message [xii].
RNAse P RNA (Ml RNA)
Size: -290 to 400 nucleotides.
• RNA portion of a ubiquitous ribonucleoprotein enzyme.
• Cleaves tRNA precursors to form mature tRNA [xiii].
• Reaction mechanism: possible attack by M 2+ -OH to generate cleavage products with 3'-OH and 5'-phosphate.
• RNAse P is found throughout the prokaryotes and eukaryotes. The RNA subunit has been sequenced from bacteria, yeast, rodents, and primates.
• Recruitment of endogenous RNAse P for therapeutic applications is possible through hybridization of an External Guide Sequence (EGS) to the target RNA
Txiv xvl
• Important phosphate and 2' OH contacts recently identified [x ^xvuj
Group II Introns
• Size: >1000 nucleotides.
• Trans cleavage of target RNAs recently demonstrated [xvϋyix]
• Sequence requirements not fully determined.
• Reaction mechanism: 2' -OH of an internal adenosine generates. cleavage products with 3'-OH and a "lariat" RNA containing a 3'-5' and a 2' -5' branch point.
• Only natural ribozyme with demonstrated participation in DNA cleavage [χχ,xxi] in addition to RNA cleavage and ligation.
• Major structural features largely established through phylogenetic comparisons
["xxϋl
• Important 2' OH contacts beginning to be identified [xx ]
• Kinetic framework under development [xxiv]
Neurospora VS RNA
• Size: -144 nucleotides.
• Trans cleavage of hairpin target RNAs recently demonstrated [xxv].
• Sequence requirements not fully determined.
• Reaction mechanism: attack by 2'-OH 5' to the scissile bond to generate cleavage products with 2',3' -cyclic phosphate and 5' -OH ends.
• Binding sites and structural requirements not fully determined.
• Only 1 known member of this class. Found in Neurospora VS RNA.
Hammerhead Ribozyme
(see text for references)
Size: -13 to 40 nucleotides.
Requires the target sequence UH immediately 5' of the cleavage site.
Binds a variable number nucleotides on both sides of the cleavage site.
Reaction mechanism: attack by 2'-OH 5' to the scissile bond to generate cleavage products with 2',3'-cyclic phosphate and 5' -OH ends.
14 known members of this class. Found in a number of plant pathogens (virusoids) that use RNA as the infectious agent.
Essential structural features largely defined, including 2 crystal structures [xx ^xxvϋ]
Minimal ligation activity demonstrated (for engineering through in vitro selection) rxxvϋi]
Complete kinetic framework established for two or more ribozymes [xxix].
Chemical modification investigation of important residues well established [xxx].
Hairpin Ribozyme
• Size: -50 nucleotides.
• Requires the target sequence GUC immediately 3' of the cleavage site.
• Binds 4-6 nucleotides at the 5'-side of the cleavage site and a variable number to the 3 '-side of the cleavage site.
• Reaction mechanism: attack by 2' -OH 5' to the scissile bond to generate cleavage products with 2',3'-cyclic phosphate and 5'-OH ends.
• 3 known members of this class. Found in three plant pathogen (satellite RNAs of the tobacco ringspot virus, arabis mosaic virus and chicory yellow mottle virus) which uses RNA as the infectious agent.
• Essential structural features largely defined [χ χ .χχ i. χχii χχi ]
• Ligation activity (in addition to cleavage activity) makes ribozyme amenable to engineering through in vitro selection [xxxv]
• Complete kinetic framework established for one ribozyme [χχχ i].
• Chemical modification investigation of important residues begun [χχχvϋ.χχχvϋι] _
Hepatitis Delta Virus (HDV) Ribozyme
• Size: -60 nucleotides.
• Trans cleavage of target RNAs demonstrated [χχχiχ].
• Binding sites and structural requirements not fully determined, although no sequences 5' of cleavage site are required. Folded ribozyme contains a pseudoknot structure [x1].
• Reaction mechanism: attack by 2'-OH 5' to the scissile bond to generate cleavage products with 2',3'-cyclic phosphate and 5' -OH ends.
• Only 2 known members of this class. Found in human HDV.
Circular form of HDV is active and shows increased nuclease stability [xh]
Michel, Francois; Westhof, Eric. Slippery substrates. Nat. Struct. Biol. (1994), 1(1), 5-7.
II . Lisacek, Frederique; Diaz, Yolande; Michel, Francois. Automatic identification of group I intron cores in genomic DNA sequences. J. Mol. Biol. (1994), 235(4), 1206-17.
III . Herschlag, Daniel; Cech, Thomas R.. Catalysis of RNA cleavage by the Tetrahymena thermophila ribozyme. 1. Kinetic description of the reaction of an RNA substrate complementary to the active site. Biochemistry (1990), 29(44), 10159-71.
IV . Herschlag, Daniel; Cech, Thomas R Catalysis of RNA cleavage by the Tetrahymena thermophila ribozyme. 2. Kinetic description of the reaction of an RNA substrate that forms a mismatch at the active site. Biochemistry (1990), 29(44), 10172-80. v . Knitt, Deborah S.; Herschlag, Daniel. pH Dependencies of the Tetrahymena Ribozyme Reveal an
Unconventional Origin of an Apparent pKa. Biochemistry (1996), 35(5), 1560-70.
VI . Bevilacqua, Philip C; Sugimoto, Naoki; Turner, Douglas H.. A mechanistic framework for the second step of splicing catalyzed by the Tetrahymena ribozyme. Biochemistry (1996), 35(2), 648-58. vn . Li, Yi, Bevilacqua, Philip C; Mathews, David; Turner, Douglas H.. Thermodynamic and activation parameters for binding of a pyrene-labeled substrate by the Tetrahymena ribozyme: docking is not diffusion-controlled and is driven by a favorable entropy change. Biochemistry (1995), 34(44), 14394-9. vιπ . Banerjee, Aloke Raj; Turner, Douglas H.. The time dependence of chemical modification reveals slow steps in the folding of a group I ribozyme. Biochemistry (1995), 34(19), 6504-12.
,x . Zarrinkar, Patrick P.; Williamson, James R.. The P9.1-P9.2 peripheral extension helps guide folding of the Tetrahymena ribozyme. Nucleic Acids Res. (1996), 24(5), 854-8. x . Strobel, Scott A.; Cech, Thomas R.. Minor groove recognition of the conserved G.cntdotU pair at the Tetrahymena ribozyme reaction site. Science (Washington, D. C.) (1995), 267(5198), 675-9.
X1 . Strobel, Scott A.; Cech, Thomas R.. Exocyclic Amine of the Conserved G.cntdot.U Pair at the
Cleavage Site of the Tetrahymena Ribozyme Contributes to 5'-Splice Site Selection and Transition State
Stabilization. Biochemistry (1996), 35(4), 1201-11. xu. Sullenger, Bruce A.; Cech, Thomas R.. Ribozyme-mediated repair of defective mRNA by targeted trans-splicing. Nature (London) (1994), 371(6498), 619-22.
Robertson, H.D.; Altman, S.; Smith, J D. J. Biol. Chem., 247, 5243-5251 (1972). X1V. Forster, Anthony C; Altman, Sidney. External guide sequences for an RNA enzyme. Science
(Washington, D. C, 1883-) (1990), 249(4970), 783-6. xv. Yuan, Y.; Hwang, E. S.; Altman, S. Targeted cleavage of mRNA by human RNase P. Proc. Natl.
Acad. Sci. USA (1992) 89, 8006-10.
XVI . Harris, Michael E.; Pace, Norman R . Identification of phosphates involved in catalysis by the ribozyme RNase P RNA. RNA (1995), 1(2), 210-18.
XVII . Pan, Tao; Loria, Andrew; Zhong, Kun. Probing of tertiary interactions in RNA: 2'-hydroxyl-base contacts between the RNase P RNA and pre-tRNA. Proc. Natl. Acad. Sci. U. S. A. (1995), 92(26), 12510-14. x iπ Pyle, Anna Marie; Green, Justin B.. Building a Kinetic Framework for Group II Intron Ribozyme Activity: Quantitation of Interdomain Binding and Reaction Rate. Biochemistry (1994), 33(9), 2716-25.
X1X . Michels, William J. Jr.; Pyle, Anna Marie. Conversion of a Group II Intron into a New Multiple- Turnover Ribozyme that Selectively Cleaves Oligonucleotides: Elucidation of Reaction Mechanism and Structure/ Function Relationships. Biochemistry (1995), 34(9), 2965-77. xx . Zimmerly, Steven; Guo, Huatao; Eskes, Robert; Yang, Jian; Perlman, Philip S.; Lambowitz, Alan
M.. A group II intron RNA is a catalytic component of a DNA endonuclease involved in intron mobility. Cell (Cambridge, Mass.) (1995), 83(4), 529-38.
XX1 . Griffin, Edmund A., Jr.; Qin, Zhifeng; Michels, Williams J., Jr.; Pyle, Anna Marie. Group II intron ribozymes that cleave DNA and RNA linkages with similar efficiency, and lack contacts with substrate 2'- hydroxyl groups. Chem. Biol. (1995), 2(11), 761-70. π . Michel, Francois; Ferat, Jean Luc. Structure and activities of group II introns. Annu. Rev. Biochem. (1995), 64, 435-61. xxm . Abramovitz, Dana L.; Friedman, Richard A.; Pyle, Anna Marie. Catalytic role of 2'-hydroxyl groups within a group II intron active site. Science (Washington, D. C.) (1996), 271(5254), 1410-13. XX1 . Daniels, Danette L.; Michels, William J., Jr.; Pyle, Anna Marie. Two competing pathways for self-
splicing by group II introns: a quantitative analysis of in vitro reaction rates and products. J. Mol. Biol. (1996), 256(1), 31-49. xxv . Guo, Hans C. T.; Collins, Richard A.. Efficient trans-cleavage of a stem-loop RNA substrate by a ribozyme derived from Neurospora VS RNA. EMBO J. (1995), 14(2), 368-76. XXV1 . Scott, W.G., Finch, J.T., Aaron,K. The crystal structure of an all RNA hammerhead πbozyme:Aproposed mechanism for RNA catalytic cleavage. Cell, (1995), 81, 991-1002. xxvπ . McKay, Structure and function of the hammerhead ribozyme: an unfinished story. RNA, (1996), 2, 395-403. xxvm . Long, D., Uhlenbeck, O., Hertel, K. Ligation with hammerhead ribozymes. US Patent No. 5,633,133. XIX . Hertel, K.J., Herschlag, D., Uhlenbeck, O. A kinetic and thermodynamic framework for the hammerhead ribozyme reaction. Biochemistry, (1994) 33, 3374-3385.Beigelman, L., et al., Chemical modifications of hammerhead ribozymes. J. Biol. Chem., (1995) 270, 25702-25708. xxx . Beigelman, L., et al., Chemical modifications of hammerhead ribozymes. J. Biol. Chem., (1995) 270, 25702-25708.
XXXI . Hampel, Arnold; Tritz, Richard; Hicks, Margaret; Cruz, Phillip. 'Hairpin' catalytic RNA model: evidence for helixes and sequence requirement for substrate RNA. Nucleic Acids Res. (1990), 18(2), 299- 304. xxx" . Chowrira, Bharat M.; Berzal-Herranz, Alfredo; Burke, John M.. Novel guanosine requirement for catalysis by the hairpin ribozyme. Nature (London) (1991), 354(6351), 320-2. xxxm Berzal-Herranz, Alfredo; Joseph, Simpson; Chowrira, Bharat M.; Butcher, Samuel E.; Burke, John M.. Essential nucleotide sequences and secondary structure elements of the hairpin ribozyme. EMBO J. (1993), 12(6), 2567-73. xxxιv . Joseph, Simpson; Berzal-Herranz, Alfredo; Chowrira, Bharat M.; Butcher, Samuel E.. Substrate selection rules for the hairpin ribozyme determined by in vitro selection, mutation, and analysis of mismatched substrates. Genes Dev. (1993), 7(1), 130-8. xxxv Berzal-Herranz, Alfredo; Joseph, Simpson; Burke, John M.. In vitro selection of active hairpin ribozymes by sequential RNA-catalyzed cleavage and ligation reactions. Genes Dev. (1992), 6(1), 129-34. xvi Hegg, Lisa A.; Fedor, Martha J.. Kinetics and Thermodynamics of Intermolecular Catalysis by Hairpin Ribozymes. Biochemistry (1995), 34(48), 15813-28. xvu Grasby, Jane A.; Mersmann, Karin; Singh, Mohinder; Gait, Michael J.. Purine Functional Groups in Essential Residues of the Hairpin Ribozyme Required for Catalytic Cleavage of RNA. Biochemistry (1995), 34(12), 4068-76. xv Schmidt, Sabine; Beigelman, Leonid; Karpeisky, Alexander; Usman, Nassim; Sorensen, Ulrik S.; Gait, Michael J.. Base and sugar requirements for RNA cleavage of essential nucleoside residues in internal loop B of the hairpin ribozyme: implications for secondary structure. Nucleic Acids Res. (1996), 24(4), 573-81. xxxix Perrotta, Anne T.; Been, Michael D.. Cleavage of oligoribonucleotides by a ribozyme derived from the hepatitis .delta, virus RNA sequence. Biochemistry (1992), 31(1), 16-21. l . Perrotta, Anne T.; Been, Michael D.. A pseudoknot-like structure required for efficient self- cleavage of hepatitis delta virus RNA. Nature (London) (1991), 350(6317), 434-6. h . Puttaraju, M.; Perrotta, Anne T.; Been, Michael D.. A circular trans-acting hepatitis delta virus ribozyme. Nucleic Acids Res. (1993), 21(18), 4253-8.
Table II:
• Wait time does not include contact time during delivery.
Table III: Human NOGO Hammerhead Ribozyme and Substrate Sequence
Pos Substrate Seq ID Ribozyme Seq ID
10 ACCACAGU A GGUCCCUC 1 GAGGGACC CUGAUGAG GCCGUUAGGC CGAA ACUGUGGU 3794
14 CAGUAGGU C CCUCGGCU 2 AGCCGAGG CUGAUGAG GCCGUUAGGC CGAA ACCUACUG 3795
18 AGGUCCCU C GGCUCAGU 3 ACUGAGCC CUGAUGAG GCCGUUAGGC CGAA AGGGACCU 3796
23 CCUCGGCU C AGUCGGCC 4 GGCCGACU CUGAUGAG GCCGUUAGGC CGAA AGCCGAGG 3797
27 GGCUCAGU C GGCCCAGC 5 GCUGGGCC CUGAUGAG GCCGUUAGGC CGAA ACUGAGCC 3798
40 CAGCCCCU C UCAGUCCU 6 AGGACUGA CUGAUGAG GCCGUUAGGC CGAA AGGGGCUG 3799
42 GCCCCUCU C AGUCCUCC 7 GGAGGACU CUGAUGAG GCCGUUAGGC CGAA AGAGGGGC 3800
46 CUCUCAGU C CUCCCCAA 8 UUGGGGAG CUGAUGAG GCCGUUAGGC CGAA ACUGAGAG 3801
49 UCAGUCCU C CCCAACCC 9 GGGUUGGG CUGAUGAG GCCGUUAGGC CGAA AGGACUGA 3802
76 CCGCGGCU C UGAGACGC 10 GCGUCUCA CUGAUGAG GCCGUUAGGC CGAA AGCCGCGG 3803
117 UGCAGCAU C AUCUCCAC 11 GUGGAGAU CUGAUGAG GCCGUUAGGC CGAA AUGCUGCA 3804
120 AGCAUCAU C UCCACCCU 12 AGGGUGGA CUGAUGAG GCCGUUAGGC CGAA AUGAUGCU 3805
122 CAUCAUCU C CACCCUCC 13 GGAGGGUG CUGAUGAG GCCGUUAGGC CGAA AGAUGAUG 3806
129 UCCACCCU C CAGCCAUG 14 CAUGGCUG CUGAUGAG GCCGUUAGGC CGAA AGGGUGGA 3807
154 GGACCAGU C UCCUCUGG 15 CCAGAGGA CUGAUGAG GCCGUUAGGC CGAA ACUGGUCC 3808
156 ACCAGUCU c CUCUGGUC 16 GACCAGAG CUGAUGAG GCCGUUAGGC CGAA AGACUGGU 3809
159 AGUCUCCU c UGGUCUCG 17 CGAGACCA CUGAUGAG GCCGUUAGGC CGAA AGGAGACU 3810
164 CCUCUGGU c UCGUCCUC 18 GAGGACGA CUGAUGAG GCCGUUAGGC CGAA ACCAGAGG 3811
166 UCUGGUCU c GUCCUCGG 19 CCGAGGAC CUGAUGAG GCCGUUAGGC CGAA AGACCAGA 3812
169 GGUCUCGU c CUCGGACA 20 UGUCCGAG CUGAUGAG GCCGUUAGGC CGAA ACGAGACC 3813
172 CUCGUCCU c GGACAGCC 21 GGCUGUCC CUGAUGAG GCCGUUAGGC CGAA AGGACGAG 3814
202 GCCCGCGU U CAAGUACC 22 GGUACUUG CUGAUGAG GCCGUUAGGC CGAA ACGCGGGC 3815
203 CCCGCGUU c AAGUACCA 23 UGGUACUU CUGAUGAG GCCGUUAGGC CGAA AACGCGGG 3816
208 GUUCAAGU A CCAGUUCG 24 CGAACUGG CUGAUGAG GCCGUUAGGC CGAA ACUUGAAC 3817
214 GUACCAGU U CGUGAGGG 25 CCCUCACG CUGAUGAG GCCGUUAGGC CGAA ACUGGUAC 3818
215 UACCAGUU c GUGAGGGA 26 UCCCUCAC CUGAUGAG GCCGUUAGGC CGAA AACUGGUA 3819
325 CGGGCUGU c CGCGGCCC 27 GGGCCGCG CUGAUGAG GCCGUUAGGC CGAA ACAGCCCG 3820
376 GAUGGACU U CGGAAAUG 28 CAUUUCCG CUGAUGAG GCCGUUAGGC CGAA AGUCCAUC 3821
377 AUGGACUU c GGAAAUGA 29 UCAUUUCC CUGAUGAG GCCGUUAGGC CGAA AAGUCCAU 3822
388 AAAUGACU U CGUGCCGC 30 GCGGCACG CUGAUGAG GCCGUUAGGC CGAA AGUCAUUU 3823
389 AAUGACUU c GUGCCGCC 31 GGCGGCAC CUGAUGAG GCCGUUAGGC CGAA AAGUCAUU 3824
426 CGGCCGCU c CCCCCGUC 32 GACGGGGG CUGAUGAG GCCGUUAGGC CGAA AGCGGCCG 3825
434 CCCCCCGU c GCCCCGGA 33 UCCGGGGC CUGAUGAG GCCGUUAGGC CGAA ACGGGGGG 3826
454 GCAGCCGU c UUGGGACC 34 GGUCCCAA CUGAUGAG GCCGUUAGGC CGAA ACGGCUGC 3827
456 AGCCGUCU u GGGACCCG 35 CGGGUCCC CUGAUGAG GCCGUUAGGC CGAA AGACGGCU 3828
475 CCCGGUGU c GUCGACCG 36 CGGUCGAC CUGAUGAG GCCGUUAGGC CGAA ACACCGGG 3829
478 GGUGUCGU c GACCGUGC 37 GCACGGUC CUGAUGAG GCCGUUAGGC CGAA ACGACACC 3830
496 CGCGCCAU c CCCGCUGU 38 ACAGCGGG CUGAUGAG GCCGUUAGGC CGAA AUGGCGCG 3831
505 CCCGCUGU c UGCUGCCG 39 CGGCAGCA CUGAUGAG GCCGUUAGGC CGAA ACAGCGGG 3832
518 GCCGCAGU c UCGCCCUC 40 GAGGGCGA CUGAUGAG GCCGUUAGGC CGAA ACUGCGGC 3833
520 CGCAGUCU c GCCCUCCA 41 UGGAGGGC CUGAUGAG GCCGUUAGGC CGAA AGACUGCG 3834
526 CUCGCCCU c CAAGCUCC 42 GGAGCUUG CUGAUGAG GCCGUUAGGC CGAA AGGGCGAG 3835
533 UCCAAGCU c CCUGAGGA 43 UCCUCAGG CUGAUGAG GCCGUUAGGC CGAA AGCUUGGA 3836
552 ACGAGCCU c CGGCCCGG 44 CCGGGCCG CUGAUGAG GCCGUUAGGC CGAA AGGCUCGU 3837
564 CCCGGCCU c CCCCUCCU 45 AGGAGGGG CUGAUGAG GCCGUUAGGC CGAA AGGCCGGG 3838
570 CUCCCCCU c CUCCCCCG 46 CGGGGGAG CUGAUGAG GCCGUUAGGC CGAA AGGGGGAG 3839
573 CCCCUCCU c CCCCGGCC 47 GGCCGGGG CUGAUGAG GCCGUUAGGC CGAA AGGAGGGG 3840
630 CCCCGGCU c CCGCCGCG 48 CGCGGCGG CUGAUGAG GCCGUUAGGC CGAA AGCCGGGG 3841
646 GCCCCCCU c CACCCCGG 49 CCGGGGUG CUGAUGAG GCCGUUAGGC CGAA AGGGGGGC 3842
676 CAGGGGCU c CUCGGGCU 50 AGCCCGAG CUGAUGAG GCCGUUAGGC CGAA AGCCCCUG 3843
679 GGGCUCCU c GGGCUCAG 51 CUGAGCCC CUGAUGAG GCCGUUAGGC CGAA AGGAGCCC 3844
685 CUCGGGCU c AGUGGAUG 52 CAUCCACU CUGAUGAG GCCGUUAGGC CGAA AGCCCGAG 3845
701 GAGACCCU u UUUGCUCU 53 AGAGCAAA CUGAUGAG GCCGUUAGGC CGAA AGGGUCUC 3846
702 AGACCCUU U UUGCUCUU 54 AAGAGCAA CUGAUGAG GCCGUUAGGC CGAA AAGGGUCU 3847
703 GACCCUUU u UGCUCUUC 55 GAAGAGCA CUGAUGAG GCCGUUAGGC CGAA AAAGGGUC 3848
704 ACCCUUUU u GCUCUUCC 56 GGAAGAGC CUGAUGAG GCCGUUAGGC CGAA AAAAGGGU 3849
708 UUUUUGCU c UUCCUGCU 57 AGCAGGAA CUGAUGAG GCCGUUAGGC CGAA AGCAAAAA 3850
710 UUUGCUCU u CCUGCUGC 58 GCAGCAGG CUGAUGAG GCCGUUAGGC CGAA AGAGCAAA 3851
711 UUGCUCUU c CUGCUGCA 59 UGCAGCAG CUGAUGAG GCCGUUAGGC CGAA AAGAGCAA 3852
721 UGCUGCAU c UGAGCCUG 60 CAGGCUCA CUGAUGAG GCCGUUAGGC CGAA AUGCAGCA 3853
734 CCUGUGAU A CGCUCCUC 61 GAGGAGCG CUGAUGAG GCCGUUAGGC CGAA AUCACAGG 3854
739 GAUACGCU C CUCUGCAG 62 CUGCAGAG CUGAUGAG GCCGUUAGGC CGAA AGCGUAUC 3855
742 ACGCUCCU C UGCAGAAA 63 UUUCUGCA CUGAUGAG GCCGUUAGGC CGAA AGGAGCGU 3856
753 CAGAAAAU A UGGACUUG 64 CAAGUCCA CUGAUGAG GCCGUUAGGC CGAA AUUUUCUG 3857
760 UAUGGACU U GAAGGAGC 65 GCUCCUUC CUGAUGAG GCCGUUAGGC CGAA AGUCCAUA 3858
111 AGCCAGGU A ACACUAUU 66 AAUAGUGU CUGAUGAG GCCGUUAGGC CGAA ACCUGGCU 3859
783 GUAACACU A UUUCGGCU 67 AGCCGAAA CUGAUGAG GCCGUUAGGC CGAA AGUGUUAC 3860
785 AACACUAU U UCGGCUGG 68 CCAGCCGA CUGAUGAG GCCGUUAGGC CGAA AUAGUGUU 3861
786 ACACUAUU U CGGCUGGU 69 ACCAGCCG CUGAUGAG GCCGUUAGGC CGAA AAUAGUGU 3862
787 CACUAUUU C GGCUGGUC 70 GACCAGCC CUGAUGAG GCCGUUAGGC CGAA AAAUAGUG 3863
795 CGGCUGGU C AAGAGGAU 71 AUCCUCUU CUGAUGAG GCCGUUAGGC CGAA ACCAGCCG 3864
804 AAGAGGAU U UCCCAUCU 72 AGAUGGGA CUGAUGAG GCCGUUAGGC CGAA AUCCUCUU 3865
805 AGAGGAUU u CCCAUCUG 73 CAGAUGGG CUGAUGAG GCCGUUAGGC CGAA AAUCCUCU 3866
806 GAGGAUUU C CCAUCUGU 74 ACAGAUGG CUGAUGAG GCCGUUAGGC CGAA AAAUCCUC 3867
811 UUUCCCAU C UGUCCUGC 75 GCAGGACA CUGAUGAG GCCGUUAGGC CGAA AUGGGAAA 3868
815 CCAUCUGU C CUGCUUGA 76 UCAAGCAG CUGAUGAG GCCGUUAGGC CGAA ACAGAUGG 3869
821 GUCCUGCU u GAAACUGC 77 GCAGUUUC CUGAUGAG GCCGUUAGGC CGAA AGCAGGAC 3870
834 CUGCUGCU u CUCUUCCU 78 AGGAAGAG CUGAUGAG GCCGUUAGGC CGAA AGCAGCAG 3871
835 UGCUGCUU C UCUUCCUU 79 AAGGAAGA CUGAUGAG GCCGUUAGGC CGAA AAGCAGCA 3872
837 CUGCUUCU C UUCCUUCU 80 AGAAGGAA CUGAUGAG GCCGUUAGGC CGAA AGAAGCAG 3873
839 GCUUCUCU u CCUUCUCU 81 AGAGAAGG CUGAUGAG GCCGUUAGGC CGAA AGAGAAGC 3874
840 CUUCUCUU C CUUCUCUG 82 CAGAGAAG CUGAUGAG GCCGUUAGGC CGAA AAGAGAAG 3875
843 CUCUUCCU u CUCUGUCU 83 AGACAGAG CUGAUGAG GCCGUUAGGC CGAA AGGAAGAG 3876
844 UCUUCCUU C UCUGUCUC 84 GAGACAGA CUGAUGAG GCCGUUAGGC CGAA AAGGAAGA 3877
846 UUCCUUCU c UGUCUCCU 85 AGGAGACA CUGAUGAG GCCGUUAGGC CGAA AGAAGGAA 3878
850 UUCUCUGU C UCCUCUCU 86 AGAGAGGA CUGAUGAG GCCGUUAGGC CGAA ACAGAGAA 3879
852 CUCUGUCU c CUCUCUCA 87 UGAGAGAG CUGAUGAG GCCGUUAGGC CGAA AGACAGAG 3880
855 UGUCUCCU c UCUCAGCC 88 GGCUGAGA CUGAUGAG GCCGUUAGGC CGAA AGGAGACA 3881
857 UCUCCUCU c UCAGCCGC 89 GCGGCUGA CUGAUGAG GCCGUUAGGC CGAA AGAGGAGA 3882
859 UCCUCUCU c AGCCGCUU 90 AAGCGGCU CUGAUGAG GCCGUUAGGC CGAA AGAGAGGA 3883
867 CAGCCGCU u CUUUCAAA 91 UUUGAAAG CUGAUGAG GCCGUUAGGC CGAA AGCGGCUG 3884
868 AGCCGCUU c UUUCAAAG 92 CUUUGAAA CUGAUGAG GCCGUUAGGC CGAA AAGCGGCU 3885
870 CCGCUUCU u UCAAAGAA 93 UUCUUUGA CUGAUGAG GCCGUUAGGC CGAA AGAAGCGG 3886
871 CGCUUCUU u CAAAGAAC 94 GUUCUUUG CUGAUGAG GCCGUUAGGC CGAA AAGAAGCG 3887
872 GCUUCUUU c AAAGAACA 95 UGUUCUUU CUGAUGAG GCCGUUAGGC CGAA AAAGAAGC 3888
886 ACAUGAAU A CCUUGGUA 96 UACCAAGG CUGAUGAG GCCGUUAGGC CGAA AUUCAUGU 3889
890 GAAUACCU u GGUAAUUU 97 AAAUUACC CUGAUGAG GCCGUUAGGC CGAA AGGUAUUC 3890
894 ACCUUGGU A AUUUGUCA 98 UGACAAAU CUGAUGAG GCCGUUAGGC CGAA ACCAAGGU 3891
897 UUGGUAAU u UGUCAACA 99 UGUUGACA CUGAUGAG GCCGUUAGGC CGAA AUUACCAA 3892
898 UGGUAAUU u GUCAACAG 100 CUGUUGAC CUGAUGAG GCCGUUAGGC CGAA AAUUACCA 3893
901 UAAUUUGU c AACAGUAU 101 AUACUGUU CUGAUGAG GCCGUUAGGC CGAA ACAAAUUA 3894
908 UCAACAGU A UUACCCAC 102 GUGGGUAA CUGAUGAG GCCGUUAGGC CGAA ACUGUUGA 3895
910 AACAGUAU U ACCCACUG 103 CAGUGGGU CUGAUGAG GCCGUUAGGC CGAA AUACUGUU 3896
911 ACAGUAUU A CCCACUGA 104 UCAGUGGG CUGAUGAG GCCGUUAGGC CGAA AAUACUGU 3897
929 GGAACACU U CAAGAAAA 105 UUUUCUUG CUGAUGAG GCCGUUAGGC CGAA AGUGUUCC 3898
930 GAACACUU c AAGAAAAU 106 AUUUUCUU CUGAUGAG GCCGUUAGGC CGAA AAGUGUUC 3899
941 GAAAAUGU c AGUGAAGC 107 GCUUCACU CUGAUGAG GCCGUUAGGC CGAA ACAUUUUC 3900
951 GUGAAGCU U CUAAAGAG 108 CUCUUUAG CUGAUGAG GCCGUUAGGC CGAA AGCUUCAC 3901
952 UGAAGCUU c UAAAGAGG 109 CCUCUUUA CUGAUGAG GCCGUUAGGC CGAA AAGCUUCA 3902
954 AAGCUUCU A AAGAGGUC 110 GACCUCUU CUGAUGAG GCCGUUAGGC CGAA AGAAGCUU 3903
962 AAAGAGGU C UCAGAGAA 111 UUCUCUGA CUGAUGAG GCCGUUAGGC CGAA ACCUCUUU 3904
964 AGAGGUCU C AGAGAAGG 112 CCUUCUCU CUGAUGAG GCCGUUAGGC CGAA AGACCUCU 3905
981 CAAAAACU C UACUCAUA 113 UAUGAGUA CUGAUGAG GCCGUUAGGC CGAA AGUUUUUG 3906
983 AAAACUCU A CUCAUAGA 114 UCUAUGAG CUGAUGAG GCCGUUAGGC CGAA AGAGUUUU 3907
986 ACUCUACU C AUAGAUAG 115 CUAUCUAU CUGAUGAG GCCGUUAGGC CGAA AGUAGAGU 3908
989 CUACUCAU A GAUAGAGA 116 UCUCUAUC CUGAUGAG GCCGUUAGGC CGAA AUGAGUAG 3909
993 UCAUAGAU A GAGAUUUA 117 UAAAUCUC CUGAUGAG GCCGUUAGGC CGAA AUCUAUGA 3910
999 AUAGAGAU U UAACAGAG 118 CUCUGUUA CUGAUGAG GCCGUUAGGC CGAA AUCUCUAU 3911
1000 UAGAGAUU U AACAGAGU 119 ACUCUGUU CUGAUGAG GCCGUUAGGC CGAA AAUCUCUA 3912
1001 AGAGAUUU A ACAGAGUU 120 AACUCUGU CUGAUGAG GCCGUUAGGC CGAA AAAUCUCU 3913
1009 AACAGAGU U UUCAGAAU 121 AUUCUGAA CUGAUGAG GCCGUUAGGC CGAA ACUCUGUU 3914
1010 ACAGAGUU U UCAGAAUU 122 AAUUCUGA CUGAUGAG GCCGUUAGGC CGAA AACUCUGU 3915
1011 CAGAGUUU U CAGAAUUA 123 UAAUUCUG CUGAUGAG GCCGUUAGGC CGAA AAACUCUG 3916
1012 AGAGUUUU C AGAAUUAG 124 CUAAUUCU CUGAUGAG GCCGUUAGGC CGAA AAAACUCU 3917
1018 UUCAGAAU U AGAAUACU 125 AGUAUUCU CUGAUGAG GCCGUUAGGC CGAA AUUCUGAA 3918
1019 UCAGAAUU A GAAUACUC 126 GAGUAUUC CUGAUGAG GCCGUUAGGC CGAA AAUUCUGA 3919
1024 AUUAGAAU A CUCAGAAA 127 UUUCUGAG CUGAUGAG GCCGUUAGGC CGAA AUUCUAAU 3920
1027 AGAAUACU C AGAAAUGG 128 CCAUUUCU CUGAUGAG GCCGUUAGGC CGAA AGUAUUCU 3921
1039 AAUGGGAU C AUCGUUCA 129 UGAACGAU CUGAUGAG GCCGUUAGGC CGAA AUCCCAUU 3922
1042 GGGAUCAU C GUUCAGUG 130 CACUGAAC CUGAUGAG GCCGUUAGGC CGAA AUGAUCCC 3923
1045 AUCAUCGU U CAGUGUCU 131 AGACACUG CUGAUGAG GCCGUUAGGC CGAA ACGAUGAU 3924
1046 UCAUCGUU C AGUGUCUC 132 GAGACACU CUGAUGAG GCCGUUAGGC CGAA AACGAUGA 3925
1052 UUCAGUGU C UCUCCAAA 133 UUUGGAGA CUGAUGAG GCCGUUAGGC CGAA ACACUGAA 3926
1054 CAGUGUCU C UCCAAAAG 134 CUUUUGGA CUGAUGAG GCCGUUAGGC CGAA AGACACUG 3927
1056 GUGUCUCU C CAAAAGCA 135 UGCUUUUG CUGAUGAG GCCGUUAGGC CGAA AGAGACAC 3928
1069 AGCAGAAU C UGCCGUAA 136 UUACGGCA CUGAUGAG GCCGUUAGGC CGAA AUUCUGCU 3929
1076 UCUGCCGU A AUAGUAGC 137 GCUACUAU CUGAUGAG GCCGUUAGGC CGAA ACGGCAGA 3930
1079 GCCGUAAU A GUAGCAAA 138 UUUGCUAC CUGAUGAG GCCGUUAGGC CGAA AUUACGGC 3931
1082 GUAAUAGU A GCAAAUCC 139 GGAUUUGC CUGAUGAG GCCGUUAGGC CGAA ACUAUUAC 3932
1089 UAGCAAAU C CUAGGGAA 140 UUCCCUAG CUGAUGAG GCCGUUAGGC CGAA AUUUGCUA 3933
1092 CAAAUCCU A GGGAAGAA 141 UUCUUCCC CUGAUGAG GCCGUUAGGC CGAA AGGAUUUG 3934
1103 GAAGAAAU A AUCGUGAA 142 UUCACGAU CUGAUGAG GCCGUUAGGC CGAA AUUUCUUC 3935
1106 GAAAUAAU C GUGAAAAA 143 UUUUUCAC CUGAUGAG GCCGUUAGGC CGAA AUUAUUUC 3936
1116 UGAAAAAU A AAGAUGAA 144 UUCAUCUU CUGAUGAG GCCGUUAGGC CGAA AUUUUUCA 3937
1135 AGAGAAGU U AGUUAGUA 145 UACUAACU CUGAUGAG GCCGUUAGGC CGAA ACUUCUCU 3938
1136 GAGAAGUU A GUUAGUAA 146 UUACUAAC CUGAUGAG GCCGUUAGGC CGAA AACUUCUC 3939
1139 AAGUUAGU U AGUAAUAA 147 UUAUUACU CUGAUGAG GCCGUUAGGC CGAA ACUAACUU 3940
1140 AGUUAGUU A GUAAUAAC 148 GUUAUUAC CUGAUGAG GCCGUUAGGC CGAA AACUAACU 3941
1143 UAGUUAGU A AUAACAUC 149 GAUGUUAU CUGAUGAG GCCGUUAGGC CGAA ACUAACUA 3942
1146 UUAGUAAU A ACAUCCUU 150 AAGGAUGU CUGAUGAG GCCGUUAGGC CGAA AUUACUAA 3943
1151 AAUAACAU C CUUCAUAA 151 UUAUGAAG CUGAUGAG GCCGUUAGGC CGAA AUGUUAUU 3944
1154 AACAUCCU U CAUAAUCA 152 UGAUUAUG CUGAUGAG GCCGUUAGGC CGAA AGGAUGUU 3945
1155 ACAUCCUU C AUAAUCAA 153 UUGAUUAU CUGAUGAG GCCGUUAGGC CGAA AAGGAUGU 3946
1158 UCCUUCAU A AUCAACAA 154 UUGUUGAU CUGAUGAG GCCGUUAGGC CGAA AUGAAGGA 3947
1161 UUCAUAAU C AACAAGAG 155 CUCUUGUU CUGAUGAG GCCGUUAGGC CGAA AUUAUGAA 3948
1171 ACAAGAGU U ACCUACAG 156 CUGUAGGU CUGAUGAG GCCGUUAGGC CGAA ACUCUUGU 3949
1172 CAAGAGUU A CCUACAGC 157 GCUGUAGG CUGAUGAG GCCGUUAGGC CGAA AACUCUUG 3950
1176 AGUUACCU A CAGCUCUU 158 AAGAGCUG CUGAUGAG GCCGUUAGGC CGAA AGGUAACU 3951
1182 CUACAGCU C UUACUAAA 159 UUUAGUAA CUGAUGAG GCCGUUAGGC CGAA AGCUGUAG 3952
1184 ACAGCUCU U ACUAAAUU 160 AAUUUAGU CUGAUGAG GCCGUUAGGC CGAA AGAGCUGU 3953
1185 CAGCUCUU A CUAAAUUG 161 CAAUUUAG CUGAUGAG GCCGUUAGGC CGAA AAGAGCUG 3954
1188 CUCUUACU A AAUUGGUU 162 AACCAAUU CUGAUGAG GCCGUUAGGC CGAA AGUAAGAG 3955
1192 UACUAAAU U GGUUAAAG 163 CUUUAACC CUGAUGAG GCCGUUAGGC CGAA AUUUAGUA 3956
1196 AAAUUGGU U AAAGAGGA 164 UCCUCUUU CUGAUGAG GCCGUUAGGC CGAA ACCAAUUU 3957
1197 AAUUGGUU A AAGAGGAU 165 AUCCUCUU CUGAUGAG GCCGUUAGGC CGAA AACCAAUU 3958
1211 GAUGAAGU U GUGUCUUC 166 GAAGACAC CUGAUGAG GCCGUUAGGC CGAA ACUUCAUC 3959
1216 AGUUGUGU C UUCAGAAA 167 UUUCUGAA CUGAUGAG GCCGUUAGGC CGAA ACACAACU 3960
1218 UUGUGUCU U CAGAAAAA 168 UUUUUCUG CUGAUGAG GCCGUUAGGC CGAA AGACACAA 3961
1219 UGUGUCUU C AGAAAAAG 169 CUUUUUCU CUGAUGAG GCCGUUAGGC CGAA AAGACACA 3962
1239 AAGACAGU U UUAAUGAA 170 UUCAUUAA CUGAUGAG GCCGUUAGGC CGAA ACUGUCUU 3963
1240 AGACAGUU U UAAUGAAA 171 UUUCAUUA CUGAUGAG GCCGUUAGGC CGAA AACUGUCU 3964
1241 GACAGUUU U AAUGAAAA 172 UUUUCAUU CUGAUGAG GCCGUUAGGC CGAA AAACUGUC 3965
1242 ACAGUUUU A AUGAAAAG 173 CUUUUCAU CUGAUGAG GCCGUUAGGC CGAA AAAACUGU 3966
1256 AAGAGAGU U GCAGUGGA 174 UCCACUGC CUGAUGAG GCCGUUAGGC CGAA ACUCUCUU 3967
1269 UGGAAGCU C CUAUGAGG 175 CCUCAUAG CUGAUGAG GCCGUUAGGC CGAA AGCUUCCA 3968
1272 AAGCUCCU A UGAGGGAG 176 CUCCCUCA CUGAUGAG GCCGUUAGGC CGAA AGGAGCUU 3969
1285 GGAGGAAU A UGCAGACU 177 AGUCUGCA CUGAUGAG GCCGUUAGGC CGAA AUUCCUCC 3970
1294 UGCAGACU U CAAACCAU 178 AUGGUUUG CUGAUGAG GCCGUUAGGC CGAA AGUCUGCA 3971
1295 GCAGACUU C AAACCAUU 179 AAUGGUUU CUGAUGAG GCCGUUAGGC CGAA AAGUCUGC 3972
1303 CAAACCAU U UGAGCGAG 180 CUCGCUCA CUGAUGAG GCCGUUAGGC CGAA AUGGUUUG 3973
1304 AAACCAUU U GAGCGAGU 181 ACUCGCUC CUGAUGAG GCCGUUAGGC CGAA AAUGGUUU 3974
1313 GAGCGAGU A UGGGAAGU 182 ACUUCCCA CUGAUGAG GCCGUUAGGC CGAA ACUCGCUC 3975
1329 UGAAAGAU A GUAAGGAA 183 UUCCUUAC CUGAUGAG GCCGUUAGGC CGAA AUCUUUCA 3976
1332 AAGAUAGU A AGGAAGAU 184 AUCUUCCU CUGAUGAG GCCGUUAGGC CGAA ACUAUCUU 3977
1341 AGGAAGAU A GUGAUAUG 185 CAUAUCAC CUGAUGAG GCCGUUAGGC CGAA AUCUUCCU 3978
1347 AUAGUGAU A UGUUGGCU 186 AGCCAACA CUGAUGAG GCCGUUAGGC CGAA AUCACUAU 3979
1351 UGAUAUGU U GGCUGCUG 187 CAGCAGCC CUGAUGAG GCCGUUAGGC CGAA ACAUAUCA 3980
1365 CUGGAGGU A AAAUCGAG 188 CUCGAUUU CUGAUGAG GCCGUUAGGC CGAA ACCUCCAG 3981
1370 GGUAAAAU C GAGAGCAA 189 UUGCUCUC CUGAUGAG GCCGUUAGGC CGAA AUUUUACC 3982
1381 GAGCAACU u GGAAAGUA 190 UACUUUCC CUGAUGAG GCCGUUAGGC CGAA AGUUGCUC 3983
1389 UGGAAAGU A AAGUGGAU 191 AUCCACUU CUGAUGAG GCCGUUAGGC CGAA ACUUUCCA 3984
1398 AAGUGGAU A AAAAAUGU 192 ACAUUUUU CUGAUGAG GCCGUUAGGC CGAA AUCCACUU 3985
1407 AAAAAUGU U UUGCAGAU 193 AUCUGCAA CUGAUGAG GCCGUUAGGC CGAA ACAUUUUU 3986
1408 AAAAUGUU U UGCAGAUA 194 UAUCUGCA CUGAUGAG GCCGUUAGGC CGAA AACAUUUU 3987
1409 AAAUGUUU U GCAGAUAG 195 CUAUCUGC CUGAUGAG GCCGUUAGGC CGAA AAACAUUU 3988
1416 UUGCAGAU A GCCUUGAG 196 CUCAAGGC CUGAUGAG GCCGUUAGGC CGAA AUCUGCAA 3989
1421 GAUAGCCU U GAGCAAAC 197 GUUUGCUC CUGAUGAG GCCGUUAGGC CGAA AGGCUAUC 3990
1431 AGCAAACU A AUCACGAA 198 UUCGUGAU CUGAUGAG GCCGUUAGGC CGAA AGUUUGCU 3991
1434 AAACUAAU C ACGAAAAA 199 UUUUUCGU CUGAUGAG GCCGUUAGGC CGAA AUUAGUUU 3992
1446 AAAAAGAU A GUGAGAGU 200 ACUCUCAC CUGAUGAG GCCGUUAGGC CGAA AUCUUUUU 3993
1455 GUGAGAGU A GUAAUGAU 201 AUCAUUAC CUGAUGAG GCCGUUAGGC CGAA ACUCUCAC 3994
1458 AGAGUAGU A AUGAUGAU 202 AUCAUCAU CUGAUGAG GCCGUUAGGC CGAA ACUACUCU 3995
1467 AUGAUGAU A CUUCUUUC 203 GAAAGAAG CUGAUGAG GCCGUUAGGC CGAA AUCAUCAU 3996
1470 AUGAUACU U CUUUCCCC 204 GGGGAAAG CUGAUGAG GCCGUUAGGC CGAA AGUAUCAU 3997
1471 UGAUACUU C UUUCCCCA 205 UGGGGAAA CUGAUGAG GCCGUUAGGC CGAA AAGUAUCA 3998
1473 AUACUUCU U UCCCCAGU 206 ACUGGGGA CUGAUGAG GCCGUUAGGC CGAA AGAAGUAU 3999
1474 UACUUCUU u CCCCAGUA 207 UACUGGGG CUGAUGAG GCCGUUAGGC CGAA AAGAAGUA 4000
1475 ACUUCUUU c CCCAGUAC 208 GUACUGGG CUGAUGAG GCCGUUAGGC CGAA AAAGAAGU 4001
1482 UCCCCAGU A CGCCAGAA 209 UUCUGGCG CUGAUGAG GCCGUUAGGC CGAA ACUGGGGA 4002
1494 CAGAAGGU A UAAAGGAU 210 AUCCUUUA CUGAUGAG GCCGUUAGGC CGAA ACCUUCUG 4003
1496 GAAGGUAU A AAGGAUCG 211 CGAUCCUU CUGAUGAG GCCGUUAGGC CGAA AUACCUUC 4004
1503 UAAAGGAU c GUUCAGGA 212 UCCUGAAC CUGAUGAG GCCGUUAGGC CGAA AUCCUUUA 4005
1506 AGGAUCGU U CAGGAGCA 213 UGCUCCUG CUGAUGAG GCCGUUAGGC CGAA ACGAUCCU 4006
1507 GGAUCGUU c AGGAGCAU 214 AUGCUCCU CUGAUGAG GCCGUUAGGC CGAA AACGAUCC 4007
1516 AGGAGCAU A UAUCACAU 215 AUGUGAUA CUGAUGAG GCCGUUAGGC CGAA AUGCUCCU 4008
1518 GAGCAUAU A UCACAUGU 216 ACAUGUGA CUGAUGAG GCCGUUAGGC CGAA AUAUGCUC 4009
1520 GCAUAUAU c ACAUGUGC 217 GCACAUGU CUGAUGAG GCCGUUAGGC CGAA AUAUAUGC 4010
1530 CAUGUGCU C CCUUUAAC 218 GUUAAAGG CUGAUGAG GCCGUUAGGC CGAA AGCACAUG 4011
1534 UGCUCCCU u UAACCCAG 219 CUGGGUUA CUGAUGAG GCCGUUAGGC CGAA AGGGAGCA 4012
1535 GCUCCCUU u AACCCAGC 220 GCUGGGUU CUGAUGAG GCCGUUAGGC CGAA AAGGGAGC 4013
1536 CUCCCUUU A ACCCAGCA 221 UGCUGGGU CUGAUGAG GCCGUUAGGC CGAA AAAGGGAG 4014
1559 GAGAGCAU U GCAACAAA 222 UUUGUUGC CUGAUGAG GCCGUUAGGC CGAA AUGCUCUC 4015
1571 ACAAACAU U UUUCCUUU 223 AAAGGAAA CUGAUGAG GCCGUUAGGC CGAA AUGUUUGU 4016
1572 CAAACAUU U UUCCUUUG 224 CAAAGGAA CUGAUGAG GCCGUUAGGC CGAA AAUGUUUG 4017
1573 AAACAUUU U UCCUUUGU 225 ACAAAGGA CUGAUGAG GCCGUUAGGC CGAA AAAUGUUU 4018
1574 AACAUUUU U CCUUUGUU 226 AACAAAGG CUGAUGAG GCCGUUAGGC CGAA AAAAUGUU 4019
1575 ACAUUUUU c CUUUGUUA 227 UAACAAAG CUGAUGAG GCCGUUAGGC CGAA AAAAAUGU 4020
1578 UUUUUCCU u UGUUAGGA 228 UCCUAACA CUGAUGAG GCCGUUAGGC CGAA AGGAAAAA 4021
1579 UUUUCCUU u GUUAGGAG 229 CUCCUAAC CUGAUGAG GCCGUUAGGC CGAA AAGGAAAA 4022
1582 UCCUUUGU u AGGAGAUC 230 GAUCUCCU CUGAUGAG GCCGUUAGGC CGAA ACAAAGGA 4023
1583 CCUUUGUU A GGAGAUCC 231 GGAUCUCC CUGAUGAG GCCGUUAGGC CGAA AACAAAGG 4024
1590 UAGGAGAU C CUACUUCA 232 UGAAGUAG CUGAUGAG GCCGUUAGGC CGAA AUCUCCUA 4025
1593 GAGAUCCU A CUUCAGAA 233 UUCUGAAG CUGAUGAG GCCGUUAGGC CGAA AGGAUCUC 4026
1596 AUCCUACU u CAGAAAAU 234 AUUUUCUG CUGAUGAG GCCGUUAGGC CGAA AGUAGGAU 4027
1597 UCCUACUU c AGAAAAUA 235 UAUUUUCU CUGAUGAG GCCGUUAGGC CGAA AAGUAGGA 4028
1605 CAGAAAAU A AGACCGAU 236 AUCGGUCU CUGAUGAG GCCGUUAGGC CGAA AUUUUCUG 4029
1625 AAAAAAAU A GAAGAAAA 237 UUUUCUUC CUGAUGAG GCCGUUAGGC CGAA AUUUUUUU 4030
1646 GCCCAAAU A GUAACAGA 238 UCUGUUAC CUGAUGAG GCCGUUAGGC CGAA AUUUGGGC 4031
1649 CAAAUAGU A ACAGAGAA 239 UUCUCUGU CUGAUGAG GCCGUUAGGC CGAA ACUAUUUG 4032
1662 AGAAGAAU A CUAGCACC 240 GGUGCUAG CUGAUGAG GCCGUUAGGC CGAA AUUCUUCU 4033
1665 AGAAUACU A GCACCAAA 241 UUUGGUGC CUGAUGAG GCCGUUAGGC CGAA AGUAUUCU 4034
1678 CAAAACAU C AAACCCUU 242 AAGGGUUU CUGAUGAG GCCGUUAGGC CGAA AUGUUUUG 4035
1686 CAAACCCU U UUCUUGUA 243 UACAAGAA CUGAUGAG GCCGUUAGGC CGAA AGGGUUUG 4036
1687 AAACCCUU U UCUUGUAG 244 CUACAAGA CUGAUGAG GCCGUUAGGC CGAA AAGGGUUU 4037
1688 AACCCUUU U CUUGUAGC 245 GCUACAAG CUGAUGAG GCCGUUAGGC CGAA AAAGGGUU 4038
1689 ACCCUUUU C UUGUAGCA 246 UGCUACAA CUGAUGAG GCCGUUAGGC CGAA AAAAGGGU 4039
1691 CCUUUUCU U GUAGCAGC 247 GCUGCUAC CUGAUGAG GCCGUUAGGC CGAA AGAAAAGG 4040
1694 UUUCUUGU A GCAGCACA 248 UGUGCUGC CUGAUGAG GCCGUUAGGC CGAA ACAAGAAA 4041
1707 CACAGGAU U CUGAGACA 249 UGUCUCAG CUGAUGAG GCCGUUAGGC CGAA AUCCUGUG 4042
1708 ACAGGAUU C UGAGACAG 250 CUGUCUCA CUGAUGAG GCCGUUAGGC CGAA AAUCCUGU 4043
1719 AGACAGAU U AUGUCACA 251 UGUGACAU CUGAUGAG GCCGUUAGGC CGAA AUCUGUCU 4044
1720 GACAGAUU A UGUCACAA 252 UUGUGACA CUGAUGAG GCCGUUAGGC CGAA AAUCUGUC 4045
1724 GAUUAUGU C ACAACAGA 253 UCUGUUGU CUGAUGAG GCCGUUAGGC CGAA ACAUAAUC 4046
1734 CAACAGAU A AUUUAACA 254 UGUUAAAU CUGAUGAG GCCGUUAGGC CGAA AUCUGUUG 4047
1737 CAGAUAAU U UAACAAAG 255 CUUUGUUA CUGAUGAG GCCGUUAGGC CGAA AUUAUCUG 4048
1738 AGAUAAUU U AACAAAGG 256 CCUUUGUU CUGAUGAG GCCGUUAGGC CGAA AAUUAUCU 4049
1739 GAUAAUUU A ACAAAGGU 257 ACCUUUGU CUGAUGAG GCCGUUAGGC CGAA AAAUUAUC 4050
1760 GAGGAAGU C GUGGCAAA 258 UUUGCCAC CUGAUGAG GCCGUUAGGC CGAA ACUUCCUC 4051
1788 GCCUGACU C CAGAUUUA 259 UAAAUCUG CUGAUGAG GCCGUUAGGC CGAA AGUCAGGC 4052
1794 CUCCAGAU U UAGUACAG 260 CUGUACUA CUGAUGAG GCCGUUAGGC CGAA AUCUGGAG 4053
1795 UCCAGAUU U AGUACAGG 261 CCUGUACU CUGAUGAG GCCGUUAGGC CGAA AAUCUGGA 4054
1796 CCAGAUUU A GUACAGGA 262 UCCUGUAC CUGAUGAG GCCGUUAGGC CGAA AAAUCUGG 4055
1799 GAUUUAGU A CAGGAAGC 263 GCUUCCUG CUGAUGAG GCCGUUAGGC CGAA ACUAAAUC 4056
1822 AAGUGAAU U GAAUGAAG 264 CUUCAUUC CUGAUGAG GCCGUUAGGC CGAA AUUCACUU 4057
1832 AAUGAAGU U ACUGGUAC 265 GUACCAGU CUGAUGAG GCCGUUAGGC CGAA ACUUCAUU 4058
1833 AUGAAGUU A CUGGUACA 266 UGUACCAG CUGAUGAG GCCGUUAGGC CGAA AACUUCAU 4059
1839 UUACUGGU A CAAAGAUU 267 AAUCUUUG CUGAUGAG GCCGUUAGGC CGAA ACCAGUAA 4060
1847 ACAAAGAU U GCUUAUGA 268 UCAUAAGC CUGAUGAG GCCGUUAGGC CGAA AUCUUUGU 4061
1851 AGAUUGCU U AUGAAACA 269 UGUUUCAU CUGAUGAG GCCGUUAGGC CGAA AGCAAUCU 4062
1852 GAUUGCUU A UGAAACAA 270 UUGUUUCA CUGAUGAG GCCGUUAGGC CGAA AAGCAAUC 4063
1870 AAUGGACU U GGUUCAAA 271 UUUGAACC CUGAUGAG GCCGUUAGGC CGAA AGUCCAUU 4064
1874 GACUUGGU U CAAACAUC 272 GAUGUUUG CUGAUGAG GCCGUUAGGC CGAA ACCAAGUC 4065
1875 ACUUGGUU C AAACAUCA 273 UGAUGUUU CUGAUGAG GCCGUUAGGC CGAA AACCAAGU 4066
1882 UCAAACAU C AGAAGUUA 274 UAACUUCU CUGAUGAG GCCGUUAGGC CGAA AUGUUUGA 4067
1889 UCAGAAGU U AUGCAAGA 275 UCUUGCAU CUGAUGAG GCCGUUAGGC CGAA ACUUCUGA 4068
1890 CAGAAGUU A UGCAAGAG 276 CUCUUGCA CUGAUGAG GCCGUUAGGC CGAA AACUUCUG 4069
1900 GCAAGAGU C ACUCUAUC 277 GAUAGAGU CUGAUGAG GCCGUUAGGC CGAA ACUCUUGC 4070
1904 GAGUCACU C UAUCCUGC 278 GCAGGAUA CUGAUGAG GCCGUUAGGC CGAA AGUGACUC 4071
1906 GUCACUCU A UCCUGCAG 279 CUGCAGGA CUGAUGAG GCCGUUAGGC CGAA AGAGUGAC 4072
1908 CACUCUAU C CUGCAGCA 280 UGCUGCAG CUGAUGAG GCCGUUAGGC CGAA AUAGAGUG 4073
1922 GCACAGCU U UGCCCAUC 281 GAUGGGCA CUGAUGAG GCCGUUAGGC CGAA AGCUGUGC 4074
1923 CACAGCUU U GCCCAUCA 282 UGAUGGGC CUGAUGAG GCCGUUAGGC CGAA AAGCUGUG 4075
1930 UUGCCCAU C AUUUGAAG 283 CUUCAAAU CUGAUGAG GCCGUUAGGC CGAA AUGGGCAA 4076
1933 CCCAUCAU U UGAAGAGU 284 ACUCUUCA CUGAUGAG GCCGUUAGGC CGAA AUGAUGGG 4077
1934 CCAUCAUU U GAAGAGUC 285 GACUCUUC CUGAUGAG GCCGUUAGGC CGAA AAUGAUGG 4078
1942 UGAAGAGU C AGAAGCUA 286 UAGCUUCU CUGAUGAG GCCGUUAGGC CGAA ACUCUUCA 4079
1950 CAGAAGCU A CUCCUUCA 287 UGAAGGAG CUGAUGAG GCCGUUAGGC CGAA AGCUUCUG 4080
1953 AAGCUACU C CUUCACCA 288 UGGUGAAG CUGAUGAG GCCGUUAGGC CGAA AGUAGCUU 4081
1956 CUACUCCU u CACCAGUU 289 AACUGGUG CUGAUGAG GCCGUUAGGC CGAA AGGAGUAG 4082
1957 UACUCCUU c ACCAGUUU 290 AAACUGGU CUGAUGAG GCCGUUAGGC CGAA AAGGAGUA 4083
1964 UCACCAGU u UUGCCUGA 291 UCAGGCAA CUGAUGAG GCCGUUAGGC CGAA ACUGGUGA 4084
1965 CACCAGUU u UGCCUGAC 292 GUCAGGCA CUGAUGAG GCCGUUAGGC CGAA AACUGGUG 4085
1966 ACCAGUUU u GCCUGACA 293 UGUCAGGC CUGAUGAG GCCGUUAGGC CGAA AAACUGGU 4086
1976 CCUGACAU u GUUAUGGA 294 UCCAUAAC CUGAUGAG GCCGUUAGGC CGAA AUGUCAGG 4087
1979 GACAUUGU u AUGGAAGC 295 GCUUCCAU CUGAUGAG GCCGUUAGGC CGAA ACAAUGUC 4088
1980 ACAUUGUU A UGGAAGCA 296 UGCUUCCA CUGAUGAG GCCGUUAGGC CGAA AACAAUGU 4089
1993 AGCACCAU u GAAUUCUG 297 CAGAAUUC CUGAUGAG GCCGUUAGGC CGAA AUGGUGCU 4090
1998 CAUUGAAU U CUGCAGUU 298 AACUGCAG CUGAUGAG GCCGUUAGGC CGAA AUUCAAUG 4091
1999 AUUGAAUU C UGCAGUUC 299 GAACUGCA CUGAUGAG GCCGUUAGGC CGAA AAUUCAAU 4092
2006 UCUGCAGU u CCUAGUGC 300 GCACUAGG CUGAUGAG GCCGUUAGGC CGAA ACUGCAGA 4093
2007 CUGCAGUU c CUAGUGCU 301 AGCACUAG CUGAUGAG GCCGUUAGGC CGAA AACUGCAG 4094
2010 CAGUUCCU A GUGCUGGU 302 ACCAGCAC CUGAUGAG GCCGUUAGGC CGAA AGGAACUG 4095
2022 CUGGUGCU U CCGUGAUA 303 UAUCACGG CUGAUGAG GCCGUUAGGC CGAA AGCACCAG 4096
2023 UGGUGCUU C CGUGAUAC 304 GUAUCACG CUGAUGAG GCCGUUAGGC CGAA AAGCACCA 4097
2030 UCCGUGAU A CAGCCCAG 305 CUGGGCUG CUGAUGAG GCCGUUAGGC CGAA AUCACGGA 4098
2041 GCCCAGCU C AUCACCAU 306 AUGGUGAU CUGAUGAG GCCGUUAGGC CGAA AGCUGGGC 4099
2044 CAGCUCAU C ACCAUUAG 307 CUAAUGGU CUGAUGAG GCCGUUAGGC CGAA AUGAGCUG 4100
2050 AUCACCAU U AGAAGCUU 308 AAGCUUCU CUGAUGAG GCCGUUAGGC CGAA AUGGUGAU 4101
2051 UCACCAUU A GAAGCUUC 309 GAAGCUUC CUGAUGAG GCCGUUAGGC CGAA AAUGGUGA 4102
2058 UAGAAGCU U CUUCAGUU 310 AACUGAAG CUGAUGAG GCCGUUAGGC CGAA AGCUUCUA 4103
2059 AGAAGCUU C UUCAGUUA 311 UAACUGAA CUGAUGAG GCCGUUAGGC CGAA AAGCUUCU 4104
2061 AAGCUUCU U CAGUUAAU 312 AUUAACUG CUGAUGAG GCCGUUAGGC CGAA AGAAGCUU 4105
2062 AGCUUCUU C AGUUAAUU 313 AAUUAACU CUGAUGAG GCCGUUAGGC CGAA AAGAAGCU 4106
2066 UCUUCAGU U AAUUAUGA 314 UCAUAAUU CUGAUGAG GCCGUUAGGC CGAA ACUGAAGA 4107
2067 CUUCAGUU A AUUAUGAA 315 UUCAUAAU CUGAUGAG GCCGUUAGGC CGAA AACUGAAG 4108
2070 CAGUUAAU U AUGAAAGC 316 GCUUUCAU CUGAUGAG GCCGUUAGGC CGAA AUUAACUG 4109
2071 AGUUAAUU A UGAAAGCA 317 UGCUUUCA CUGAUGAG GCCGUUAGGC CGAA AAUUAACU 4110
2081 GAAAGCAU A AAACAUGA 318 UCAUGUUU CUGAUGAG GCCGUUAGGC CGAA AUGCUUUC 4111
2110 CCCACCAU A UGAAGAGG 319 CCUCUUCA CUGAUGAG GCCGUUAGGC CGAA AUGGUGGG 4112
2129 AUGAGUGU A UCACUAAA 320 UUUAGUGA CUGAUGAG GCCGUUAGGC CGAA ACACUCAU 4113
2131 GAGUGUAU C ACUAAAAA 321 UUUUUAGU CUGAUGAG GCCGUUAGGC CGAA AUACACUC 4114
2135 GUAUCACU A AAAAAAGU 322 ACUUUUUU CUGAUGAG GCCGUUAGGC CGAA AGUGAUAC 4115
2144 AAAAAAGU A UCAGGAAU 323 AUUCCUGA CUGAUGAG GCCGUUAGGC CGAA ACUUUUUU 4116
2146 AAAAGUAU C AGGAAUAA 324 UUAUUCCU CUGAUGAG GCCGUUAGGC CGAA AUACUUUU 4117
2153 UCAGGAAU A AAGGAAGA 325 UCUUCCUU CUGAUGAG GCCGUUAGGC CGAA AUUCCUGA 4118
2165 GAAGAAAU U AAAGAGCC 326 GGCUCUUU CUGAUGAG GCCGUUAGGC CGAA AUUUCUUC 4119
2166 AAGAAAUU A AAGAGCCU 327 AGGCUCUU CUGAUGAG GCCGUUAGGC CGAA AAUUUCUU 4120
2181 CUGAAAAU A UUAAUGCA 328 UGCAUUAA CUGAUGAG GCCGUUAGGC CGAA AUUUUCAG 4121
2183 GAAAAUAU U AAUGCAGC 329 GCUGCAUU CUGAUGAG GCCGUUAGGC CGAA AUAUUUUC 4122
2184 AAAAUAUU A AUGCAGCU 330 AGCUGCAU CUGAUGAG GCCGUUAGGC CGAA AAUAUUUU 4123
2193 AUGCAGCU C UUCAAGAA 331 UUCUUGAA CUGAUGAG GCCGUUAGGC CGAA AGCUGCAU 4124
2195 GCAGCUCU U CAAGAAAC 332 GUUUCUUG CUGAUGAG GCCGUUAGGC CGAA AGAGCUGC 4125
2196 CAGCUCUU C AAGAAACA 333 UGUUUCUU CUGAUGAG GCCGUUAGGC CGAA AAGAGCUG 4126
2211 CAGAAGCU C CUUAUAUA 334 UAUAUAAG CUGAUGAG GCCGUUAGGC CGAA AGCUUCUG 4127
2214 AAGCUCCU U AUAUAUCU 335 AGAUAUAU CUGAUGAG GCCGUUAGGC CGAA AGGAGCUU 4128
2215 AGCUCCUU A UAUAUCUA 336 UAGAUAUA CUGAUGAG GCCGUUAGGC CGAA AAGGAGCU 4129
2217 CUCCUUAU A UAUCUAUU 337 AAUAGAUA CUGAUGAG GCCGUUAGGC CGAA AUAAGGAG 4130
2219 CCUUAUAU A UCUAUUGC 338 GCAAUAGA CUGAUGAG GCCGUUAGGC CGAA AUAUAAGG 4131
2221 UUAUAUAU C UAUUGCAU 339 AUGCAAUA CUGAUGAG GCCGUUAGGC CGAA AUAUAUAA 4132
2223 AUAUAUCU A UUGCAUGU 340 ACAUGCAA CUGAUGAG GCCGUUAGGC CGAA AGAUAUAU 4133
2225 AUAUCUAU U GCAUGUGA 341 UCACAUGC CUGAUGAG GCCGUUAGGC CGAA AUAGAUAU 4134
2235 CAUGUGAU U UAAUUAAA 342 UUUAAUUA CUGAUGAG GCCGUUAGGC CGAA AUCACAUG 4135
2236 AUGUGAUU U AAUUAAAG 343 CUUUAAUU CUGAUGAG GCCGUUAGGC CGAA AAUCACAU 4136
2237 UGUGAUUU A AUUAAAGA 344 UCUUUAAU CUGAUGAG GCCGUUAGGC CGAA AAAUCACA 4137
2240 GAUUUAAU U AAAGAAAC 345 GUUUCUUU CUGAUGAG GCCGUUAGGC CGAA AUUAAAUC 4138
2241 AUUUAAUU A AAGAAACA 346 UGUUUCUU CUGAUGAG GCCGUUAGGC CGAA AAUUAAAU 4139
2255 ACAAAGCU U UCUGCUGA 347 UCAGCAGA CUGAUGAG GCCGUUAGGC CGAA AGCUUUGU 4140
2256 CAAAGCUU U CUGCUGAA 348 UUCAGCAG CUGAUGAG GCCGUUAGGC CGAA AAGCUUUG 4141
2257 AAAGCUUU C UGCUGAAC 349 GUUCAGCA CUGAUGAG GCCGUUAGGC CGAA AAAGCUUU 4142
2271 AACCAGCU C CGGAUUUC 350 GAAAUCCG CUGAUGAG GCCGUUAGGC CGAA AGCUGGUU 4143
2277 CUCCGGAU U UCUCUGAU 351 AUCAGAGA CUGAUGAG GCCGUUAGGC CGAA AUCCGGAG 4144
2278 UCCGGAUU U CUCUGAUU 352 AAUCAGAG CUGAUGAG GCCGUUAGGC CGAA AAUCCGGA 4145
2279 CCGGAUUU C UCUGAUUA 353 UAAUCAGA CUGAUGAG GCCGUUAGGC CGAA AAAUCCGG 4146
2281 GGAUUUCU C UGAUUAUU 354 AAUAAUCA CUGAUGAG GCCGUUAGGC CGAA AGAAAUCC 4147
2286 UCUCUGAU U AUUCAGAA 355 UUCUGAAU CUGAUGAG GCCGUUAGGC CGAA AUCAGAGA 4148
2287 CUCUGAUU A UUCAGAAA 356 UUUCUGAA CUGAUGAG GCCGUUAGGC CGAA AAUCAGAG 4149
2289 CUGAUUAU U CAGAAAUG 357 CAUUUCUG CUGAUGAG GCCGUUAGGC CGAA AUAAUCAG 4150
2290 UGAUUAUU C AGAAAUGG 358 CCAUUUCU CUGAUGAG GCCGUUAGGC CGAA AAUAAUCA 4151
2306 GCAAAAGU U GAACAGCC 359 GGCUGUUC CUGAUGAG GCCGUUAGGC CGAA ACUUUUGC 4152
2325 UGCCUGAU C AUUCUGAG 360 CUCAGAAU CUGAUGAG GCCGUUAGGC CGAA AUCAGGCA 4153
2328 CUGAUCAU U CUGAGCUA 361 UAGCUCAG CUGAUGAG GCCGUUAGGC CGAA AUGAUCAG 4154
2329 UGAUCAUU C UGAGCUAG 362 CUAGCUCA CUGAUGAG GCCGUUAGGC CGAA AAUGAUCA 4155
2336 UCUGAGCU A GUUGAAGA 363 UCUUCAAC CUGAUGAG GCCGUUAGGC CGAA AGCUCAGA 4156
2339 GAGCUAGU U GAAGAUUC 364 GAAUCUUC CUGAUGAG GCCGUUAGGC CGAA ACUAGCUC 4157
2346 UUGAAGAU U CCUCACCU 365 AGGUGAGG CUGAUGAG GCCGUUAGGC CGAA AUCUUCAA 4158
2347 UGAAGAUU C CUCACCUG 366 CAGGUGAG CUGAUGAG GCCGUUAGGC CGAA AAUCUUCA 4159
2350 AGAUUCCU C ACCUGAUU 367 AAUCAGGU CUGAUGAG GCCGUUAGGC CGAA AGGAAUCU 4160
2358 CACCUGAU U CUGAACCA 368 UGGUUCAG CUGAUGAG GCCGUUAGGC CGAA AUCAGGUG 4161
2359 ACCUGAUU C UGAACCAG 369 CUGGUUCA CUGAUGAG GCCGUUAGGC CGAA AAUCAGGU 4162
2369 GAACCAGU U GACUUAUU 370 AAUAAGUC CUGAUGAG GCCGUUAGGC CGAA ACUGGUUC 4163
2374 AGUUGACU U AUUUAGUG 371 CACUAAAU CUGAUGAG GCCGUUAGGC CGAA AGUCAACU 4164
2375 GUUGACUU A UUUAGUGA 372 UCACUAAA CUGAUGAG GCCGUUAGGC CGAA AAGUCAAC 4165
2377 UGACUUAU U UAGUGAUG 373 CAUCACUA CUGAUGAG GCCGUUAGGC CGAA AUAAGUCA 4166
2378 GACUUAUU U AGUGAUGA 374 UCAUCACU CUGAUGAG GCCGUUAGGC CGAA AAUAAGUC 4167
2379 ACUUAUUU A GUGAUGAU 375 AUCAUCAC CUGAUGAG GCCGUUAGGC CGAA AAAUAAGU 4168
2388 GUGAUGAU U CAAUACCU 376 AGGUAUUG CUGAUGAG GCCGUUAGGC CGAA AUCAUCAC 4169
2389 UGAUGAUU C AAUACCUG 377 CAGGUAUU CUGAUGAG GCCGUUAGGC CGAA AAUCAUCA 4170
2393 GAUUCAAU A CCUGACGU 378 ACGUCAGG CUGAUGAG GCCGUUAGGC CGAA AUUGAAUC 4171
2402 CCUGACGU U CCACAAAA 379 UUUUGUGG CUGAUGAG GCCGUUAGGC CGAA ACGUCAGG 4172
2403 CUGACGUU C CACAAAAA 380 UUUUUGUG CUGAUGAG GCCGUUAGGC CGAA AACGUCAG 4173
2432 GUGAUGCU U GUGAAAGA 381 UCUUUCAC CUGAUGAG GCCGUUAGGC CGAA AGCAUCAC 4174
2445 AAGAAAGU C UCACUGAG 382 CUCAGUGA CUGAUGAG GCCGUUAGGC CGAA ACUUUCUU 4175
2447 GAAAGUCU C ACUGAGAC 383 GUCUCAGU CUGAUGAG GCCGUUAGGC CGAA AGACUUUC 4176
2457 CUGAGACU U CAUUUGAG 384 CUCAAAUG CUGAUGAG GCCGUUAGGC CGAA AGUCUCAG 4177
2458 UGAGACUU C AUUUGAGU 385 ACUCAAAU CUGAUGAG GCCGUUAGGC CGAA AAGUCUCA 4178
2461 GACUUCAU U UGAGUCAA 386 UUGACUCA CUGAUGAG GCCGUUAGGC CGAA AUGAAGUC 4179
2462 ACUUCAUU U GAGUCAAU 387 AUUGACUC CUGAUGAG GCCGUUAGGC CGAA AAUGAAGU 4180
2467 AUUUGAGU C AAUGAUAG 388 CUAUCAUU CUGAUGAG GCCGUUAGGC CGAA ACUCAAAU 4181
2474 UCAAUGAU A GAAUAUGA 389 UCAUAUUC CUGAUGAG GCCGUUAGGC CGAA AUCAUUGA 4182
2479 GAUAGAAU A UGAAAAUA 390 UAUUUUCA CUGAUGAG GCCGUUAGGC CGAA AUUCUAUC 4183
2487 AUGAAAAU A AGGAAAAA 391 UUUUUCCU CUGAUGAG GCCGUUAGGC CGAA AUUUUCAU 4184
2498 GAAAAACU C AGUGCUUU 392 AAAGCACU CUGAUGAG GCCGUUAGGC CGAA AGUUUUUC 4185
2505 UCAGUGCU U UGCCACCU 393 AGGUGGCA CUGAUGAG GCCGUUAGGC CGAA AGCACUGA 4186
2506 CAGUGCUU u GCCACCUG 394 CAGGUGGC CUGAUGAG GCCGUUAGGC CGAA AAGCACUG 4187
2530 AAAGCCAU A UUUGGAAU 395 AUUCCAAA CUGAUGAG GCCGUUAGGC CGAA AUGGCUUU 4188
2532 AGCCAUAU U UGGAAUCU 396 AGAUUCCA CUGAUGAG GCCGUUAGGC CGAA AUAUGGCU 4189
2533 GCCAUAUU U GGAAUCUU 397 AAGAUUCC CUGAUGAG GCCGUUAGGC CGAA AAUAUGGC 4190
2539 UUUGGAAU C UUUUAAGC 398 GCUUAAAA CUGAUGAG GCCGUUAGGC CGAA AUUCCAAA 4191
2541 UGGAAUCU U UUAAGCUC 399 GAGCUUAA CUGAUGAG GCCGUUAGGC CGAA AGAUUCCA 4192
2542 GGAAUCUU U UAAGCUCA 400 UGAGCUUA CUGAUGAG GCCGUUAGGC CGAA AAGAUUCC 4193
2543 GAAUCUUU u AAGCUCAG 401 CUGAGCUU CUGAUGAG GCCGUUAGGC CGAA AAAGAUUC 4194
2544 AAUCUUUU A AGCUCAGU 402 ACUGAGCU CUGAUGAG GCCGUUAGGC CGAA AAAAGAUU 4195
2549 UUUAAGCU C AGUUUAGA 403 UCUAAACU CUGAUGAG GCCGUUAGGC CGAA AGCUUAAA 4196
2553 AGCUCAGU U UAGAUAAC 404 GUUAUCUA CUGAUGAG GCCGUUAGGC CGAA ACUGAGCU 4197
2554 GCUCAGUU U AGAUAACA 405 UGUUAUCU CUGAUGAG GCCGUUAGGC CGAA AACUGAGC 4198
2555 CUCAGUUU A GAUAACAC 406 GUGUUAUC CUGAUGAG GCCGUUAGGC CGAA AAACUGAG 4199
2559 GUUUAGAU A ACACAAAA 407 UUUUGUGU CUGAUGAG GCCGUUAGGC CGAA AUCUAAAC 4200
2571 CAAAAGAU A CCCUGUUA 408 UAACAGGG CUGAUGAG GCCGUUAGGC CGAA AUCUUUUG 4201
2578 UACCCUGU U ACCUGAUG 409 CAUCAGGU CUGAUGAG GCCGUUAGGC CGAA ACAGGGUA 4202
2579 ACCCUGUU A CCUGAUGA 410 UCAUCAGG CUGAUGAG GCCGUUAGGC CGAA AACAGGGU 4203
2591 GAUGAAGU U UCAACAUU 411 AAUGUUGA CUGAUGAG GCCGUUAGGC CGAA ACUUCAUC 4204
2592 AUGAAGUU U CAACAUUG 412 CAAUGUUG CUGAUGAG GCCGUUAGGC CGAA AACUUCAU 4205
2593 UGAAGUUU C AACAUUGA 413 UCAAUGUU CUGAUGAG GCCGUUAGGC CGAA AAACUUCA 4206
2599 UUCAACAU U GAGCAAAA 414 UUUUGCUC CUGAUGAG GCCGUUAGGC CGAA AUGUUGAA 4207
2618 GAGAAAAU U CCUUUGCA 415 UGCAAAGG CUGAUGAG GCCGUUAGGC CGAA AUUUUCUG 4208
2619 AGAAAAUU C CUUUGCAG 416 CUGCAAAG CUGAUGAG GCCGUUAGGC CGAA AAUUUUCU 4209
2622 AAAUUCCU U UGCAGAUG 417 CAUCUGCA CUGAUGAG GCCGUUAGGC CGAA AGGAAUUU 4210
2623 AAUUCCUU U GCAGAUGG 418 CCAUCUGC CUGAUGAG GCCGUUAGGC CGAA AAGGAAUU 4211
2639 GAGGAGCU C AGUACUGC 419 GCAGUACU CUGAUGAG GCCGUUAGGC CGAA AGCUCCUC 4212
2643 AGCUCAGU A CUGCAGUU 420 AACUGCAG CUGAUGAG GCCGUUAGGC CGAA ACUGAGCU 4213
2651 ACUGCAGU U UAUUCAAA 421 UUUGAAUA CUGAUGAG GCCGUUAGGC CGAA ACUGCAGU 4214
2652 CUGCAGUU U AUUCAAAU 422 AUUUGAAU CUGAUGAG GCCGUUAGGC CGAA AACUGCAG 4215
2653 UGCAGUUU A UUCAAAUG 423 CAUUUGAA CUGAUGAG GCCGUUAGGC CGAA AAACUGCA 4216
2655 CAGUUUAU U CAAAUGAU 424 AUCAUUUG CUGAUGAG GCCGUUAGGC CGAA AUAAACUG 4217
2656 AGUUUAUU C AAAUGAUG 425 CAUCAUUU CUGAUGAG GCCGUUAGGC CGAA AAUAAACU 4218
2668 UGAUGACU U AUUUAUUU 426 AAAUAAAU CUGAUGAG GCCGUUAGGC CGAA AGUCAUCA 4219
2669 GAUGACUU A UUUAUUUC 427 GAAAUAAA CUGAUGAG GCCGUUAGGC CGAA AAGUCAUC 4220
2671 UGACUUAU U UAUUUCUA 428 UAGAAAUA CUGAUGAG GCCGUUAGGC CGAA AUAAGUCA 4221
2672 GACUUAUU U AUUUCUAA 429 UUAGAAAU CUGAUGAG GCCGUUAGGC CGAA AAUAAGUC 4222
2673 ACUUAUUU A UUUCUAAG 430 CUUAGAAA CUGAUGAG GCCGUUAGGC CGAA AAAUAAGU 4223
2675 UUAUUUAU U UCUAAGGA 431 UCCUUAGA CUGAUGAG GCCGUUAGGC CGAA AUAAAUAA 4224
2676 UAUUUAUU U CUAAGGAA 432 UUCCUUAG CUGAUGAG GCCGUUAGGC CGAA AAUAAAUA 4225
2677 AUUUAUUU C UAAGGAAG 433 CUUCCUUA CUGAUGAG GCCGUUAGGC CGAA AAAUAAAU 4226
2679 UUAUUUCU A AGGAAGCA 434 UGCUUCCU CUGAUGAG GCCGUUAGGC CGAA AGAAAUAA 4227
2693 GCACAGAU A AGAGAAAC 435 GUUUCUCU CUGAUGAG GCCGUUAGGC CGAA AUCUGUGC 4228
2710 UGAAACGU U UUCAGAUU 436 AAUCUGAA CUGAUGAG GCCGUUAGGC CGAA ACGUUUCA 4229
2711 GAAACGUU U UCAGAUUC 437 GAAUCUGA CUGAUGAG GCCGUUAGGC CGAA AACGUUUC 4230
2712 AAACGUUU U CAGAUUCA 438 UGAAUCUG CUGAUGAG GCCGUUAGGC CGAA AAACGUUU 4231
2713 AACGUUUU C AGAUUCAU 439 AUGAAUCU CUGAUGAG GCCGUUAGGC CGAA AAAACGUU 4232
2718 UUUCAGAU U CAUCUCCA 440 UGGAGAUG CUGAUGAG GCCGUUAGGC CGAA AUCUGAAA 4233
2719 UUCAGAUU C AUCUCCAA 441 UUGGAGAU CUGAUGAG GCCGUUAGGC CGAA AAUCUGAA 4234
2722 AGAUUCAU C UCCAAUUG 442 CAAUUGGA CUGAUGAG GCCGUUAGGC CGAA AUGAAUCU 4235
2724 AUUCAUCU C CAAUUGAA 443 UUCAAUUG CUGAUGAG GCCGUUAGGC CGAA AGAUGAAU 4236
2729 UCUCCAAU U GAAAUUAU 444 AUAAUUUC CUGAUGAG GCCGUUAGGC CGAA AUUGGAGA 4237
2735 AUUGAAAU U AUAGAUGA 445 UCAUCUAU CUGAUGAG GCCGUUAGGC CGAA AUUUCAAU 4238
2736 UUGAAAUU A UAGAUGAG 446 CUCAUCUA CUGAUGAG GCCGUUAGGC CGAA AAUUUCAA 4239
2738 GAAAUUAU A GAUGAGUU 447 AACUCAUC CUGAUGAG GCCGUUAGGC CGAA AUAAUUUC 4240
2746 AGAUGAGU U CCCUACAU 448 AUGUAGGG CUGAUGAG GCCGUUAGGC CGAA ACUCAUCU 4241
2747 GAUGAGUU C CCUACAUU 449 AAUGUAGG CUGAUGAG GCCGUUAGGC CGAA AACUCAUC 4242
2751 AGUUCCCU A CAUUGAUC 450 GAUCAAUG CUGAUGAG GCCGUUAGGC CGAA AGGGAACU 4243
2755 CCCUACAU U GAUCAGUU 451 AACUGAUC CUGAUGAG GCCGUUAGGC CGAA AUGUAGGG 4244
2759 ACAUUGAU C AGUUCUAA 452 UUAGAACU CUGAUGAG GCCGUUAGGC CGAA AUCAAUGU 4245
2763 UGAUCAGU U CUAAAACU 453 AGUUUUAG CUGAUGAG GCCGUUAGGC CGAA ACUGAUCA 4246
2764 GAUCAGUU C UAAAACUG 454 CAGUUUUA CUGAUGAG GCCGUUAGGC CGAA AACUGAUC 4247
2766 UCAGUUCU A AAACUGAU 455 AUCAGUUU CUGAUGAG GCCGUUAGGC CGAA AGAACUGA 4248
2775 AAACUGAU U CAUUUUCU 456 AGAAAAUG CUGAUGAG GCCGUUAGGC CGAA AUCAGUUU 4249
2776 AACUGAUU C AUUUUCUA 457 UAGAAAAU CUGAUGAG GCCGUUAGGC CGAA AAUCAGUU 4250
2779 UGAUUCAU U UUCUAAAU 458 AUUUAGAA CUGAUGAG GCCGUUAGGC CGAA AUGAAUCA 4251
2780 GAUUCAUU u UCUAAAUU 459 AAUUUAGA CUGAUGAG GCCGUUAGGC CGAA AAUGAAUC 4252
2781 AUUCAUUU u CUAAAUUA 460 UAAUUUAG CUGAUGAG GCCGUUAGGC CGAA AAAUGAAU 4253
2782 UUCAUUUU c UAAAUUAG 461 CUAAUUUA CUGAUGAG GCCGUUAGGC CGAA AAAAUGAA 4254
2784 CAUUUUCU A AAUUAGCC 462 GGCUAAUU CUGAUGAG GCCGUUAGGC CGAA AGAAAAUG 4255
2788 UUCUAAAU U AGCCAGGG 463 CCCUGGCU CUGAUGAG GCCGUUAGGC CGAA AUUUAGAA 4256
2789 UCUAAAUU A GCCAGGGA 464 UCCCUGGC CUGAUGAG GCCGUUAGGC CGAA AAUUUAGA 4257
2800 CAGGGAAU A UACUGACC 465 GGUCAGUA CUGAUGAG GCCGUUAGGC CGAA AUUCCCUG 4258
2802 GGGAAUAU A CUGACCUA 466 UAGGUCAG CUGAUGAG GCCGUUAGGC CGAA AUAUUCCC 4259
2810 ACUGACCU A GAAGUAUC 467 GAUACUUC CUGAUGAG GCCGUUAGGC CGAA AGGUCAGU 4260
2816 CUAGAAGU A UCCCACAA 468 UUGUGGGA CUGAUGAG GCCGUUAGGC CGAA ACUUCUAG 4261
2818 AGAAGUAU c CCACAAAA 469 UUUUGUGG CUGAUGAG GCCGUUAGGC CGAA AUACUUCU 4262
2834 AGUGAAAU U GCUAAUGC 470 GCAUUAGC CUGAUGAG GCCGUUAGGC CGAA AUUUCACU 4263
2838 AAAUUGCU A AUGCCCCG 471 CGGGGCAU CUGAUGAG GCCGUUAGGC CGAA AGCAAUUU 4264
2860 AGCUGGGU C AUUGCCUU 472 AAGGCAAU CUGAUGAG GCCGUUAGGC CGAA ACCCAGCU 4265
2863 UGGGUCAU U GCCUUGCA 473 UGCAAGGC CUGAUGAG GCCGUUAGGC CGAA AUGACCCA 4266
2868 CAUUGCCU U GCACAGAA 474 UUCUGUGC CUGAUGAG GCCGUUAGGC CGAA AGGCAAUG 4267
2878 CACAGAAU u GCCCCAUG 475 CAUGGGGC CUGAUGAG GCCGUUAGGC CGAA AUUCUGUG 4268
2891 CAUGACCU u UCUUUGAA 476 UUCAAAGA CUGAUGAG GCCGUUAGGC CGAA AGGUCAUG 4269
2892 AUGACCUU u CUUUGAAG 477 CUUCAAAG CUGAUGAG GCCGUUAGGC CGAA AAGGUCAU 4270
2893 UGACCUUU c UUUGAAGA 478 UCUUCAAA CUGAUGAG GCCGUUAGGC CGAA AAAGGUCA 4271
2895 ACCUUUCU u UGAAGAAC 479 GUUCUUCA CUGAUGAG GCCGUUAGGC CGAA AGAAAGGU 4272
2896 CCUUUCUU u GAAGAACA 480 UGUUCUUC CUGAUGAG GCCGUUAGGC CGAA AAGAAAGG 4273
2906 AAGAACAU A CAACCCAA 481 UUGGGUUG CUGAUGAG GCCGUUAGGC CGAA AUGUUCUU 4274
2918 CCCAAAGU U GAAGAGAA 482 UUCUCUUC CUGAUGAG GCCGUUAGGC CGAA ACUUUGGG 4275
2930 GAGAAAAU C AGUUUCUC 483 GAGAAACU CUGAUGAG GCCGUUAGGC CGAA AUUUUCUC 4276
2934 AAAUCAGU u UCUCAGAU 484 AUCUGAGA CUGAUGAG GCCGUUAGGC CGAA ACUGAUUU 4277
2935 AAUCAGUU u CUCAGAUG 485 CAUCUGAG CUGAUGAG GCCGUUAGGC CGAA AACUGAUU 4278
2936 AUCAGUUU c UCAGAUGA 486 UCAUCUGA CUGAUGAG GCCGUUAGGC CGAA AAACUGAU 4279
2938 CAGUUUCU c AGAUGACU 487 AGUCAUCU CUGAUGAG GCCGUUAGGC CGAA AGAAACUG 4280
2947 AGAUGACU u UUCUAAAA 488 UUUUAGAA CUGAUGAG GCCGUUAGGC CGAA AGUCAUCU 4281
2948 GAUGACUU u UCUAAAAA 489 UUUUUAGA CUGAUGAG GCCGUUAGGC CGAA AAGUCAUC 4282
2949 AUGACUUU u CUAAAAAU 490 AUUUUUAG CUGAUGAG GCCGUUAGGC CGAA AAAGUCAU 4283
2950 UGACUUUU c UAAAAAUG 491 CAUUUUUA CUGAUGAG GCCGUUAGGC CGAA AAAAGUCA 4284
2952 ACUUUUCU A AAAAUGGG 492 CCCAUUUU CUGAUGAG GCCGUUAGGC CGAA AGAAAAGU 4285
2962 AAAUGGGU c UGCUACAU 493 AUGUAGCA CUGAUGAG GCCGUUAGGC CGAA ACCCAUUU 4286
2967 GGUCUGCU A CAUCAAAG 494 CUUUGAUG CUGAUGAG GCCGUUAGGC CGAA AGCAGACC 4287
2971 UGCUACAU C AAAGGUGC 495 GCACCUUU CUGAUGAG GCCGUUAGGC CGAA AUGUAGCA 4288
2981 AAGGUGCU C UUAUUGCC 496 GGCAAUAA CUGAUGAG GCCGUUAGGC CGAA AGCACCUU 4289
2983 GGUGCUCU U AUUGCCUC 497 GAGGCAAU CUGAUGAG GCCGUUAGGC CGAA AGAGCACC 4290
2984 GUGCUCUU A UUGCCUCC 498 GGAGGCAA CUGAUGAG GCCGUUAGGC CGAA AAGAGCAC 4291
2986 GCUCUUAU U GCCUCCAG 499 CUGGAGGC CUGAUGAG GCCGUUAGGC CGAA AUAAGAGC 4292
2991 UAUUGCCU C CAGAUGUU 500 AACAUCUG CUGAUGAG GCCGUUAGGC CGAA AGGCAAUA 4293
2999 CCAGAUGU U UCUGCUUU 501 AAAGCAGA CUGAUGAG GCCGUUAGGC CGAA ACAUCUGG 4294
3000 CAGAUGUU U CUGCUUUG 502 CAAAGCAG CUGAUGAG GCCGUUAGGC CGAA AACAUCUG 4295
3001 AGAUGUUU C UGCUUUGG 503 CCAAAGCA CUGAUGAG GCCGUUAGGC CGAA AAACAUCU 4296
3006 UUUCUGCU u UGGCCACU 504 AGUGGCCA CUGAUGAG GCCGUUAGGC CGAA AGCAGAAA 4297
3007 UUCUGCUU u GGCCACUC 505 GAGUGGCC CUGAUGAG GCCGUUAGGC CGAA AAGCAGAA 4298
3015 UGGCCACU c AAGCAGAG 506 CUCUGCUU CUGAUGAG GCCGUUAGGC CGAA AGUGGCCA 4299
3026 GCAGAGAU A GAGAGCAU 507 AUGCUCUC CUGAUGAG GCCGUUAGGC CGAA AUCUCUGC 4300
3035 GAGAGCAU A GUUAAACC 508 GGUUUAAC CUGAUGAG GCCGUUAGGC CGAA AUGCUCUC 4301
3038 AGCAUAGU U AAACCCAA 509 UUGGGUUU CUGAUGAG GCCGUUAGGC CGAA ACUAUGCU 4302
3039 GCAUAGUU A AACCCAAA 510 UUUGGGUU CUGAUGAG GCCGUUAGGC CGAA AACUAUGC 4303
3050 CCCAAAGU U CUUGUGAA 511 UUCACAAG CUGAUGAG GCCGUUAGGC CGAA ACUUUGGG 4304
3051 CCAAAGUU C UUGUGAAA 512 UUUCACAA CUGAUGAG GCCGUUAGGC CGAA AACUUUGG 4305
3053 AAAGUUCU U GUGAAAGA 513 UCUUUCAC CUGAUGAG GCCGUUAGGC CGAA AGAACUUU 4306
3077 AAAAAACU u CCUUCCGA 514 UCGGAAGG CUGAUGAG GCCGUUAGGC CGAA AGUUUUUU 4307
3078 AAAAACUU c CUUCCGAU 515 AUCGGAAG CUGAUGAG GCCGUUAGGC CGAA AAGUUUUU 4308
3081 AACUUCCU u CCGAUACA 516 UGUAUCGG CUGAUGAG GCCGUUAGGC CGAA AGGAAGUU 4309
3082 ACUUCCUU c CGAUACAG 517 CUGUAUCG CUGAUGAG GCCGUUAGGC CGAA AAGGAAGU 4310
3087 CUUCCGAU A CAGAAAAA 518 UUUUUCUG CUGAUGAG GCCGUUAGGC CGAA AUCGGAAG 4311
3106 GGACAGAU C ACCAUCUG 519 CAGAUGGU CUGAUGAG GCCGUUAGGC CGAA AUCUGUCC 4312
3112 AUCACCAU C UGCUAUAU 520 AUAUAGCA CUGAUGAG GCCGUUAGGC CGAA AUGGUGAU 4313
3117 CAUCUGCU A UAUUUUCA 521 UGAAAAUA CUGAUGAG GCCGUUAGGC CGAA AGCAGAUG 4314
3119 UCUGCUAU A UUUUCAGC 522 GCUGAAAA CUGAUGAG GCCGUUAGGC CGAA AUAGCAGA 4315
3121 UGCUAUAU U UUCAGCAG 523 CUGCUGAA CUGAUGAG GCCGUUAGGC CGAA AUAUAGCA 4316
3122 GCUAUAUU U UCAGCAGA 524 UCUGCUGA CUGAUGAG GCCGUUAGGC CGAA AAUAUAGC 4317
3123 CUAUAUUU U CAGCAGAG 525 CUCUGCUG CUGAUGAG GCCGUUAGGC CGAA AAAUAUAG 4318
3124 UAUAUUUU C AGCAGAGC 526 GCUCUGCU CUGAUGAG GCCGUUAGGC CGAA AAAAUAUA 4319
3138 AGCUGAGU A AAACUUCA 527 UGAAGUUU CUGAUGAG GCCGUUAGGC CGAA ACUCAGCU 4320
3144 GUAAAACU U CAGUUGUU 528 AACAACUG CUGAUGAG GCCGUUAGGC CGAA AGUUUUAC 4321
3145 UAAAACUU c AGUUGUUG 529 CAACAACU CUGAUGAG GCCGUUAGGC CGAA AAGUUUUA 4322
3149 ACUUCAGU u GUUGACCU 530 AGGUCAAC CUGAUGAG GCCGUUAGGC CGAA ACUGAAGU 4323
3152 UCAGUUGU u GACCUCCU 531 AGGAGGUC CUGAUGAG GCCGUUAGGC CGAA ACAACUGA 4324
3158 GUUGACCU c CUGUACUG 532 CAGUACAG CUGAUGAG GCCGUUAGGC CGAA AGGUCAAC 4325
3163 CCUCCUGU A CUGGAGAG 533 CUCUCCAG CUGAUGAG GCCGUUAGGC CGAA ACAGGAGG 4326
3176 AGAGACAU U AAGAAGAC 534 GUCUUCUU CUGAUGAG GCCGUUAGGC CGAA AUGUCUCU 4327
3177 GAGACAUU A AGAAGACU 535 AGUCUUCU CUGAUGAG GCCGUUAGGC CGAA AAUGUCUC 4328
3196 AGUGGUGU U UGGUGCCA 536 UGGCACCA CUGAUGAG GCCGUUAGGC CGAA ACACCACU 4329
3197 GUGGUGUU U GGUGCCAG 537 CUGGCACC CUGAUGAG GCCGUUAGGC CGAA AACACCAC 4330
3209 GCCAGCCU A UUCCUGCU 538 AGCAGGAA CUGAUGAG GCCGUUAGGC CGAA AGGCUGGC 4331
3211 CAGCCUAU U CCUGCUGC 539 GCAGCAGG CUGAUGAG GCCGUUAGGC CGAA AUAGGCUG 4332
3212 AGCCUAUU C CUGCUGCU 540 AGCAGCAG CUGAUGAG GCCGUUAGGC CGAA AAUAGGCU 4333
3221 CUGCUGCU U UCAUUGAC 541 GUCAAUGA CUGAUGAG GCCGUUAGGC CGAA AGCAGCAG 4334
3222 UGCUGCUU U CAUUGACA 542 UGUCAAUG CUGAUGAG GCCGUUAGGC CGAA AAGCAGCA 4335
3223 GCUGCUUU C AUUGACAG 543 CUGUCAAU CUGAUGAG GCCGUUAGGC CGAA AAAGCAGC 4336
3226 GCUUUCAU U GACAGUAU 544 AUACUGUC CUGAUGAG GCCGUUAGGC CGAA AUGAAAGC 4337
3233 UUGACAGU A UUCAGCAU 545 AUGCUGAA CUGAUGAG GCCGUUAGGC CGAA ACUGUCAA 4338
3235 GACAGUAU U CAGCAUUG 546 CAAUGCUG CUGAUGAG GCCGUUAGGC CGAA AUACUGUC 4339
3236 ACAGUAUU C AGCAUUGU 547 ACAAUGCU CUGAUGAG GCCGUUAGGC CGAA AAUACUGU 4340
3242 UUCAGCAU U GUGAGCGU 548 ACGCUCAC CUGAUGAG GCCGUUAGGC CGAA AUGCUGAA 4341
3251 GUGAGCGU A ACAGCCUA 549 UAGGCUGU CUGAUGAG GCCGUUAGGC CGAA ACGCUCAC 4342
3259 AACAGCCU A CAUUGCCU 550 AGGCAAUG CUGAUGAG GCCGUUAGGC CGAA AGGCUGUU 4343
3263 GCCUACAU U GCCUUGGC 551 GCCAAGGC CUGAUGAG GCCGUUAGGC CGAA AUGUAGGC 4344
3268 CAUUGCCU U GGCCCUGC 552 GCAGGGCC CUGAUGAG GCCGUUAGGC CGAA AGGCAAUG 4345
3278 GCCCUGCU C UCUGUGAC 553 GUCACAGA CUGAUGAG GCCGUUAGGC CGAA AGCAGGGC 4346
3280 CCUGCUCU c UGUGACCA 554 UGGUCACA CUGAUGAG GCCGUUAGGC CGAA AGAGCAGG 4347
3290 GUGACCAU c AGCUUUAG 555 CUAAAGCU CUGAUGAG GCCGUUAGGC CGAA AUGGUCAC 4348
3295 CAUCAGCU u UAGGAUAU 556 AUAUCCUA CUGAUGAG GCCGUUAGGC CGAA AGCUGAUG 4349
3296 AUCAGCUU u AGGAUAUA 557 UAUAUCCU CUGAUGAG GCCGUUAGGC CGAA AAGCUGAU 4350
3297 UCAGCUUU A GGAUAUAC 558 GUAUAUCC CUGAUGAG GCCGUUAGGC CGAA AAAGCUGA 4351
3302 UUUAGGAU A UACAAGGG 559 CCCUUGUA CUGAUGAG GCCGUUAGGC CGAA AUCCUAAA 4352
3304 UAGGAUAU A CAAGGGUG 560 CACCCUUG CUGAUGAG GCCGUUAGGC CGAA AUAUCCUA 4353
3317 GGUGUGAU c CAAGCUAU 561 AUAGCUUG CUGAUGAG GCCGUUAGGC CGAA AUCACACC 4354
3324 UCCAAGCU A UCCAGAAA 562 UUUCUGGA CUGAUGAG GCCGUUAGGC CGAA AGCUUGGA 4355
3326 CAAGCUAU C CAGAAAUC 563 GAUUUCUG CUGAUGAG GCCGUUAGGC CGAA AUAGCUUG 4356
3334 CCAGAAAU C AGAUGAAG 564 CUUCAUCU CUGAUGAG GCCGUUAGGC CGAA AUUUCUGG 4357
3352 CCACCCAU U CAGGGCAU 565 AUGCCCUG CUGAUGAG GCCGUUAGGC CGAA AUGGGUGG 4358
3353 CACCCAUU C AGGGCAUA 566 UAUGCCCU CUGAUGAG GCCGUUAGGC CGAA AAUGGGUG 4359
3361 CAGGGCAU A UCUGGAAU 567 AUUCCAGA CUGAUGAG GCCGUUAGGC CGAA AUGCCCUG 4360
3363 GGGCAUAU C UGGAAUCU 568 AGAUUCCA CUGAUGAG GCCGUUAGGC CGAA AUAUGCCC 4361
3370 UCUGGAAU C UGAAGUUG 569 CAACUUCA CUGAUGAG GCCGUUAGGC CGAA AUUCCAGA 4362
3377 UCUGAAGU U GCUAUAUC 570 GAUAUAGC CUGAUGAG GCCGUUAGGC CGAA ACUUCAGA 4363
3381 AAGUUGCU A UAUCUGAG 571 CUCAGAUA CUGAUGAG GCCGUUAGGC CGAA AGCAACUU 4364
3383 GUUGCUAU A UCUGAGGA 572 UCCUCAGA CUGAUGAG GCCGUUAGGC CGAA AUAGCAAC 4365
3385 UGCUAUAU C UGAGGAGU 573 ACUCCUCA CUGAUGAG GCCGUUAGGC CGAA AUAUAGCA 4366
3394 UGAGGAGU U GGUUCAGA 574 UCUGAACC CUGAUGAG GCCGUUAGGC CGAA ACUCCUCA 4367
3398 GAGUUGGU U CAGAAGUA 575 UACUUCUG CUGAUGAG GCCGUUAGGC CGAA ACCAACUC 4368
3399 AGUUGGUU c AGAAGUAC 576 GUACUUCU CUGAUGAG GCCGUUAGGC CGAA AACCAACU 4369
3406 UCAGAAGU A CAGUAAUU 577 AAUUACUG CUGAUGAG GCCGUUAGGC CGAA ACUUCUGA 4370
3411 AGUACAGU A AUUCUGCU 578 AGCAGAAU CUGAUGAG GCCGUUAGGC CGAA ACUGUACU 4371
3414 ACAGUAAU U CUGCUCUU 579 AAGAGCAG CUGAUGAG GCCGUUAGGC CGAA AUUACUGU 4372
3415 CAGUAAUU C UGCUCUUG 580 CAAGAGCA CUGAUGAG GCCGUUAGGC CGAA AAUUACUG 4373
3420 AUUCUGCU C UUGGUCAU 581 AUGACCAA CUGAUGAG GCCGUUAGGC CGAA AGCAGAAU 4374
3422 UCUGCUCU U GGUCAUGU 582 ACAUGACC CUGAUGAG GCCGUUAGGC CGAA AGAGCAGA 4375
3426 CUCUUGGU C AUGUGAAC 583 GUUCACAU CUGAUGAG GCCGUUAGGC CGAA ACCAAGAG 4376
3443 UGCACGAU A AAGGAACU 584 AGUUCCUU CUGAUGAG GCCGUUAGGC CGAA AUCGUGCA 4377
3452 AAGGAACU C AGGCGCCU 585 AGGCGCCU CUGAUGAG GCCGUUAGGC CGAA AGUUCCUU 4378
3461 AGGCGCCU C UUCUUAGU 586 ACUAAGAA CUGAUGAG GCCGUUAGGC CGAA AGGCGCCU 4379
3463 GCGCCUCU U CUUAGUUG 587 CAACUAAG CUGAUGAG GCCGUUAGGC CGAA AGAGGCGC 4380
3464 CGCCUCUU C UUAGUUGA 588 UCAACUAA CUGAUGAG GCCGUUAGGC CGAA AAGAGGCG 4381
3466 CCUCUUCU U AGUUGAUG 589 CAUCAACU CUGAUGAG GCCGUUAGGC CGAA AGAAGAGG 4382
3467 CUCUUCUU A GUUGAUGA 590 UCAUCAAC CUGAUGAG GCCGUUAGGC CGAA AAGAAGAG 4383
3470 UUCUUAGU U GAUGAUUU 591 AAAUCAUC CUGAUGAG GCCGUUAGGC CGAA ACUAAGAA 4384
3477 UUGAUGAU U UAGUUGAU 592 AUCAACUA CUGAUGAG GCCGUUAGGC CGAA AUCAUCAA 4385
3478 UGAUGAUU U AGUUGAUU 593 AAUCAACU CUGAUGAG GCCGUUAGGC CGAA AAUCAUCA 4386
3479 GAUGAUUU A GUUGAUUC 594 GAAUCAAC CUGAUGAG GCCGUUAGGC CGAA AAAUCAUC 4387
3482 GAUUUAGU U GAUUCUCU 595 AGAGAAUC CUGAUGAG GCCGUUAGGC CGAA ACUAAAUC 4388
3486 UAGUUGAU U CUCUGAAG 596 CUUCAGAG CUGAUGAG GCCGUUAGGC CGAA AUCAACUA 4389
3487 AGUUGAUU C UCUGAAGU 597 ACUUCAGA CUGAUGAG GCCGUUAGGC CGAA AAUCAACU 4390
3489 UUGAUUCU C UGAAGUUU 598 AAACUUCA CUGAUGAG GCCGUUAGGC CGAA AGAAUCAA 4391
3496 UCUGAAGU U UGCAGUGU 599 ACACUGCA CUGAUGAG GCCGUUAGGC CGAA ACUUCAGA 4392
3497 CUGAAGUU U GCAGUGUU 600 AACACUGC CUGAUGAG GCCGUUAGGC CGAA AACUUCAG 4393
3505 UGCAGUGU U GAUGUGGG 601 CCCACAUC CUGAUGAG GCCGUUAGGC CGAA ACACUGCA 4394
3515 AUGUGGGU A UUUACCUA 602 UAGGUAAA CUGAUGAG GCCGUUAGGC CGAA ACCCACAU 4395
3517 GUGGGUAU U UACCUAUG 603 CAUAGGUA CUGAUGAG GCCGUUAGGC CGAA AUACCCAC 4396
3518 UGGGUAUU U ACCUAUGU 604 ACAUAGGU CUGAUGAG GCCGUUAGGC CGAA AAUACCCA 4397
3519 GGGUAUUU A CCUAUGUU 605 AACAUAGG CUGAUGAG GCCGUUAGGC CGAA AAAUACCC 4398
3523 AUUUACCU A UGUUGGUG 606 CACCAACA CUGAUGAG GCCGUUAGGC CGAA AGGUAAAU 4399
3527 ACCUAUGU U GGUGCCUU 607 AAGGCACC CUGAUGAG GCCGUUAGGC CGAA ACAUAGGU 4400
3535 UGGUGCCU U GUUUAAUG 608 CAUUAAAC CUGAUGAG GCCGUUAGGC CGAA AGGCACCA 4401
3538 UGCCUUGU U UAAUGGUC 609 GACCAUUA CUGAUGAG GCCGUUAGGC CGAA ACAAGGCA 4402
3539 GCCUUGUU U AAUGGUCU 610 AGACCAUU CUGAUGAG GCCGUUAGGC CGAA AACAAGGC 4403
3540 CCUUGUUU A AUGGUCUG 611 CAGACCAU CUGAUGAG GCCGUUAGGC CGAA AAACAAGG 4404
3546 UUAAUGGU C UGACACUA 612 UAGUGUCA CUGAUGAG GCCGUUAGGC CGAA ACCAUUAA 4405
3554 CUGACACU A CUGAUUUU 613 AAAAUCAG CUGAUGAG GCCGUUAGGC CGAA AGUGUCAG 4406
3560 CUACUGAU U UUGGCUCU 614 AGAGCCAA CUGAUGAG GCCGUUAGGC CGAA AUCAGUAG 4407
3561 UACUGAUU U UGGCUCUC 615 GAGAGCCA CUGAUGAG GCCGUUAGGC CGAA AAUCAGUA 4408
3562 ACUGAUUU U GGCUCUCA 616 UGAGAGCC CUGAUGAG GCCGUUAGGC CGAA AAAUCAGU 4409
3567 UUUUGGCU C UCAUUUCA 617 UGAAAUGA CUGAUGAG GCCGUUAGGC CGAA AGCCAAAA 4410
3569 UUGGCUCU C AUUUCACU 618 AGUGAAAU CUGAUGAG GCCGUUAGGC CGAA AGAGCCAA 4411
3572 GCUCUCAU U UCACUCUU 619 AAGAGUGA CUGAUGAG GCCGUUAGGC CGAA AUGAGAGC 4412
3573 CUCUCAUU U CACUCUUC 620 GAAGAGUG CUGAUGAG GCCGUUAGGC CGAA AAUGAGAG 4413
3574 UCUCAUUU C ACUCUUCA 621 UGAAGAGU CUGAUGAG GCCGUUAGGC CGAA AAAUGAGA 4414
3578 AUUUCACU C UUCAGUGU 622 ACACUGAA CUGAUGAG GCCGUUAGGC CGAA AGUGAAAU 4415
3580 UUCACUCU u CAGUGUUC 623 GAACACUG CUGAUGAG GCCGUUAGGC CGAA AGAGUGAA 4416
3581 UCACUCUU c AGUGUUCC 624 GGAACACU CUGAUGAG GCCGUUAGGC CGAA AAGAGUGA 4417
3587 UUCAGUGU u CCUGUUAU 625 AUAACAGG CUGAUGAG GCCGUUAGGC CGAA ACACUGAA 4418
3588 UCAGUGUU c CUGUUAUU 626 AAUAACAG CUGAUGAG GCCGUUAGGC CGAA AACACUGA 4419
3593 GUUCCUGU u AUUUAUGA 627 UCAUAAAU CUGAUGAG GCCGUUAGGC CGAA ACAGGAAC 4420
3594 UUCCUGUU A UUUAUGAA 628 UUCAUAAA CUGAUGAG GCCGUUAGGC CGAA AACAGGAA 4421
3596 CCUGUUAU U UAUGAACG 629 CGUUCAUA CUGAUGAG GCCGUUAGGC CGAA AUAACAGG 4422
3597 CUGUUAUU U AUGAACGG 630 CCGUUCAU CUGAUGAG GCCGUUAGGC CGAA AAUAACAG 4423
3598 UGUUAUUU A UGAACGGC 631 GCCGUUCA CUGAUGAG GCCGUUAGGC CGAA AAAUAACA 4424
3609 AACGGCAU C AGGCACAG 632 CUGUGCCU CUGAUGAG GCCGUUAGGC CGAA AUGCCGUU 4425
3620 GCACAGAU A GAUCAUUA 633 UAAUGAUC CUGAUGAG GCCGUUAGGC CGAA AUCUGUGC 4426
3624 AGAUAGAU C AUUAUCUA 634 UAGAUAAU CUGAUGAG GCCGUUAGGC CGAA AUCUAUCU 4427
3627 UAGAUCAU U AUCUAGGA 635 UCCUAGAU CUGAUGAG GCCGUUAGGC CGAA AUGAUCUA 4428
3628 AGAUCAUU A UCUAGGAC 636 GUCCUAGA CUGAUGAG GCCGUUAGGC CGAA AAUGAUCU 4429
3630 AUCAUUAU C UAGGACUU 637 AAGUCCUA CUGAUGAG GCCGUUAGGC CGAA AUAAUGAU 4430
3632 CAUUAUCU A GGACUUGC 638 GCAAGUCC CUGAUGAG GCCGUUAGGC CGAA AGAUAAUG 4431
3638 CUAGGACU U GCAAAUAA 639 UUAUUUGC CUGAUGAG GCCGUUAGGC CGAA AGUCCUAG 4432
3645 UUGCAAAU A AGAAUGUU 640 AACAUUCU CUGAUGAG GCCGUUAGGC CGAA AUUUGCAA 4433
3653 AAGAAUGU U AAAGAUGC 641 GCAUCUUU CUGAUGAG GCCGUUAGGC CGAA ACAUUCUU 4434
3654 AGAAUGUU A AAGAUGCU 642 AGCAUCUU CUGAUGAG GCCGUUAGGC CGAA AACAUUCU 4435
3663 AAGAUGCU A UGGCUAAA 643 UUUAGCCA CUGAUGAG GCCGUUAGGC CGAA AGCAUCUU 4436
3669 CUAUGGCU A AAAUCCAA 644 UUGGAUUU CUGAUGAG GCCGUUAGGC CGAA AGCCAUAG 4437
3674 GCUAAAAU C CAAGCAAA 645 UUUGCUUG CUGAUGAG GCCGUUAGGC CGAA AUUUUAGC 4438
3686 GCAAAAAU C CCUGGAUU 646 AAUCCAGG CUGAUGAG GCCGUUAGGC CGAA AUUUUUGC 4439
3694 CCCUGGAU U GAAGCGCA 647 UGCGCUUC CUGAUGAG GCCGUUAGGC CGAA AUCCAGGG 4440
3727 CCCAAAAU A AUUAGUAG 648 CUACUAAU CUGAUGAG GCCGUUAGGC CGAA AUUUUGGG 4441
3730 AAAAUAAU U AGUAGGAG 649 CUCCUACU CUGAUGAG GCCGUUAGGC CGAA AUUAUUUU 4442
3731 AAAUAAUU A GUAGGAGU 650 ACUCCUAC CUGAUGAG GCCGUUAGGC CGAA AAUUAUUU 4443
3734 UAAUUAGU A GGAGUUCA 651 UGAACUCC CUGAUGAG GCCGUUAGGC CGAA ACUAAUUA 4444
3740 GUAGGAGU U CAUCUUUA 652 UAAAGAUG CUGAUGAG GCCGUUAGGC CGAA ACUCCUAC 4445
3741 UAGGAGUU C AUCUUUAA 653 UUAAAGAU CUGAUGAG GCCGUUAGGC CGAA AACUCCUA 4446
3744 GAGUUCAU C UUUAAAGG 654 CCUUUAAA CUGAUGAG GCCGUUAGGC CGAA AUGAACUC 4447
3746 GUUCAUCU U UAAAGGGG 655 CCCCUUUA CUGAUGAG GCCGUUAGGC CGAA AGAUGAAC 4448
3747 UUCAUCUU U AAAGGGGA 656 UCCCCUUU CUGAUGAG GCCGUUAGGC CGAA AAGAUGAA 4449
3748 UCAUCUUU A AAGGGGAU 657 AUCCCCUU CUGAUGAG GCCGUUAGGC CGAA AAAGAUGA 4450
3757 AAGGGGAU A UUCAUUUG 658 CAAAUGAA CUGAUGAG GCCGUUAGGC CGAA AUCCCCUU 4451
3759 GGGGAUAU U CAUUUGAU 659 AUCAAAUG CUGAUGAG GCCGUUAGGC CGAA AUAUCCCC 4452
3760 GGGAUAUU C AUUUGAUU 660 AAUCAAAU CUGAUGAG GCCGUUAGGC CGAA AAUAUCCC 4453
3763 AUAUUCAU U UGAUUAUA 661 UAUAAUCA CUGAUGAG GCCGUUAGGC CGAA AUGAAUAU 4454
3764 UAUUCAUU U GAUUAUAC 662 GUAUAAUC CUGAUGAG GCCGUUAGGC CGAA AAUGAAUA 4455
3768 CAUUUGAU U AUACGGGG 663 CCCCGUAU CUGAUGAG GCCGUUAGGC CGAA AUCAAAUG 4456
3769 AUUUGAUU A UACGGGGG 664 CCCCCGUA CUGAUGAG GCCGUUAGGC CGAA AAUCAAAU 4457
3771 UUGAUUAU A CGGGGGAG 665 CUCCCCCG CUGAUGAG GCCGUUAGGC CGAA AUAAUCAA 4458
3783 GGGAGGGU C AGGGAAGA 666 UCUUCCCU CUGAUGAG GCCGUUAGGC CGAA ACCCUCCC 4459
3800 ACGAACCU U GACGUUGC 667 GCAACGUC CUGAUGAG GCCGUUAGGC CGAA AGGUUCGU 4460
3806 CUUGACGU u GCAGUGCA 668 UGCACUGC CUGAUGAG GCCGUUAGGC CGAA ACGUCAAG 4461
3817 AGUGCAGU u UCACAGAU 669 AUCUGUGA CUGAUGAG GCCGUUAGGC CGAA ACUGCACU 4462
3818 GUGCAGUU u CACAGAUC 670 GAUCUGUG CUGAUGAG GCCGUUAGGC CGAA AACUGCAC 4463
3819 UGCAGUUU C ACAGAUCG 671 CGAUCUGU CUGAUGAG GCCGUUAGGC CGAA AAACUGCA 4464
3826 UCACAGAU C GUUGUUAG 672 CUAACAAC CUGAUGAG GCCGUUAGGC CGAA AUCUGUGA 4465
3829 CAGAUCGU u GUUAGAUC 673 GAUCUAAC CUGAUGAG GCCGUUAGGC CGAA ACGAUCUG 4466
3832 AUCGUUGU u AGAUCUUU 674 AAAGAUCU CUGAUGAG GCCGUUAGGC CGAA ACAACGAU 4467
3833 UCGUUGUU A GAUCUUUA 675 UAAAGAUC CUGAUGAG GCCGUUAGGC CGAA AACAACGA 4468
3837 UGUUAGAU C UUUAUUUU 676 AAAAUAAA CUGAUGAG GCCGUUAGGC CGAA AUCUAACA 4469
3839 UUAGAUCU U UAUUUUUA 677 UAAAAAUA CUGAUGAG GCCGUUAGGC CGAA AGAUCUAA 4470
3840 UAGAUCUU u AUUUUUAG 678 CUAAAAAU CUGAUGAG GCCGUUAGGC CGAA AAGAUCUA 4471
3841 AGAUCUUU A UUUUUAGC 679 GCUAAAAA CUGAUGAG GCCGUUAGGC CGAA AAAGAUCU 4472
3843 AUCUUUAU U UUUAGCCA 680 UGGCUAAA CUGAUGAG GCCGUUAGGC CGAA AUAAAGAU 4473
3844 UCUUUAUU U UUAGCCAU 681 AUGGCUAA CUGAUGAG GCCGUUAGGC CGAA AAUAAAGA 4474
3845 CUUUAUUU U UAGCCAUG 682 CAUGGCUA CUGAUGAG GCCGUUAGGC CGAA AAAUAAAG 4475
3846 UUUAUUUU U AGCCAUGC 683 GCAUGGCU CUGAUGAG GCCGUUAGGC CGAA AAAAUAAA 4476
3847 UUAUUUUU A GCCAUGCA 684 UGCAUGGC CUGAUGAG GCCGUUAGGC CGAA AAAAAUAA 4477
3860 UGCAGUGU U GUGAGGAA 685 UUCCUCAC CUGAUGAG GCCGUUAGGC CGAA ACAGUGCA 4478
3873 GGAAAAAU U ACCUGUCU 686 AGACAGGU CUGAUGAG GCCGUUAGGC CGAA AUUUUUCC 4479
3874 GAAAAAUU A CCUGUCUU 687 AAGACAGG CUGAUGAG GCCGUUAGGC CGAA AAUUUUUC 4480
3880 UUACCUGU C UUGACUGC 688 GCAGUCAA CUGAUGAG GCCGUUAGGC CGAA ACAGGUAA 4481
3882 ACCUGUCU U GACUGCCA 689 UGGCAGUC CUGAUGAG GCCGUUAGGC CGAA AGACAGGU 4482
3896 CCAUGUGU U CAUCAUCU 690 AGAUGAUG CUGAUGAG GCCGUUAGGC CGAA ACACAUGG 4483
3897 CAUGUGUU C AUCAUCUU 691 AAGAUGAU CUGAUGAG GCCGUUAGGC CGAA AACACAUG 4484
3900 GUGUUCAU C AUCUUAAG 692 CUUAAGAU CUGAUGAG GCCGUUAGGC CGAA AUGAACAC 4485
3903 UUCAUCAU C UUAAGUAU 693 AUACUUAA CUGAUGAG GCCGUUAGGC CGAA AUGAUGAA 4486
3905 CAUCAUCU U AAGUAUUG 694 CAAUACUU CUGAUGAG GCCGUUAGGC CGAA AGAUGAUG 4487
3906 AUCAUCUU A AGUAUUGU 695 AGAAUACU CUGAUGAG GCCGUUAGGC CGAA AAGAUGAU 4488
3910 UCUUAAGU A UUGUAAGC 696 GCUUACAA CUGAUGAG GCCGUUAGGC CGAA ACUUAAGA 4489
3912 UUAAGUAU U GUAAGCUG 697 CAGCUUAC CUGAUGAG GCCGUUAGGC CGAA AUACUUAA 4490
3915 AGUAUUGU A AGCUGCUA 698 UAGCAGCU CUGAUGAG GCCGUUAGGC CGAA AGAAUACU 4491
3923 AAGCUGCU A UGUAUGGA 699 UCCAUACA CUGAUGAG GCCGUUAGGC CGAA AGCAGCUU 4492
3927 UGCUAUGU A UGGAUUUA 700 UAAAUCCA CUGAUGAG GCCGUUAGGC CGAA ACAUAGCA 4493
3933 GUAUGGAU U UAAACCGU 701 ACGGUUUA CUGAUGAG GCCGUUAGGC CGAA AUCCAUAC 4494
3934 UAUGGAUU U AAACCGUA 702 UACGGUUU CUGAUGAG GCCGUUAGGC CGAA AAUCCAUA 4495
3935 AUGGAUUU A AACCGUAA 703 UUACGGUU CUGAUGAG GCCGUUAGGC CGAA AAAUCCAU 4496
3942 UAAACCGU A AUCAUAUC 704 GAUAUGAU CUGAUGAG GCCGUUAGGC CGAA ACGGUUUA 4497
3945 ACCGUAAU C AUAUCUUU 705 AAAGAUAU CUGAUGAG GCCGUUAGGC CGAA AUUACGGU 4498
3948 GUAAUCAU A UCUUUUUC 706 GAAAAAGA CUGAUGAG GCCGUUAGGC CGAA AUGAUUAC 4499
3950 AAUCAUAU C UUUUUCCU 707 AGGAAAAA CUGAUGAG GCCGUUAGGC CGAA AUAUGAUU 4500
3952 UCAUAUCU U UUUCCUAU 708 AUAGGAAA CUGAUGAG GCCGUUAGGC CGAA AGAUAUGA 4501
3953 CAUAUCUU u UUCCUAUC 709 GAUAGGAA CUGAUGAG GCCGUUAGGC CGAA AAGAUAUG 4502
3954 AUAUCUUU u UCCUAUCU 710 AGAUAGGA CUGAUGAG GCCGUUAGGC CGAA AAAGAUAU 4503
3955 UAUCUUUU u CCUAUCUG 711 CAGAUAGG CUGAUGAG GCCGUUAGGC CGAA AAAAGAUA 4504
3956 AUCUUUUU c CUAUCUGA 712 UCAGAUAG CUGAUGAG GCCGUUAGGC CGAA AAAAAGAU 4505
3959 UUUUUCCU A UCUGAGGC 713 GCCUCAGA CUGAUGAG GCCGUUAGGC CGAA AGGAAAAA 4506
3961 UUUCCUAU C UGAGGCAC 714 GUGCCUCA CUGAUGAG GCCGUUAGGC CGAA AUAGGAAA 4507
3979 GGUGGAAU A AAAAACCU 715 AGGUUUUU CUGAUGAG GCCGUUAGGC CGAA AUUCCACC 4508
3990 AAACCUGU A UAUUUUAC 716 GUAAAAUA CUGAUGAG GCCGUUAGGC CGAA ACAGGUUU 4509
3992 ACCUGUAU A UUUUACUU 717 AAGUAAAA CUGAUGAG GCCGUUAGGC CGAA AUACAGGU 4510
3994 CUGUAUAU U UUACUUUG 718 CAAAGUAA CUGAUGAG GCCGUUAGGC CGAA AUAUACAG 4511
3995 UGUAUAUU U UACUUUGU 719 ACAAAGUA CUGAUGAG GCCGUUAGGC CGAA AAUAUACA 4512
3996 GUAUAUUU U ACUUUGUU 720 AACAAAGU CUGAUGAG GCCGUUAGGC CGAA AAAUAUAC 4513
3997 UAUAUUUU A CUUUGUUG 721 CAACAAAG CUGAUGAG GCCGUUAGGC CGAA AAAAUAUA 4514
4000 AUUUUACU U UGUUGCAG 722 CUGCAACA CUGAUGAG GCCGUUAGGC CGAA AGUAAAAU 4515
4001 UUUUACUU U GUUGCAGA 723 UCUGCAAC CUGAUGAG GCCGUUAGGC CGAA AAGUAAAA 4516
4004 UACUUUGU U GCAGAUAG 724 CUAUCUGC CUGAUGAG GCCGUUAGGC CGAA ACAAAGUA 4517
4011 UUGCAGAU A GUCUUGCC 725 GGCAAGAC CUGAUGAG GCCGUUAGGC CGAA AUCUGCAA 4518
4014 CAGAUAGU C UUGCCGCA 726 UGCGGCAA CUGAUGAG GCCGUUAGGC CGAA ACUAUCUG 4519
4016 GAUAGUCU U GCCGCAUC 727 GAUGCGGC CUGAUGAG GCCGUUAGGC CGAA AGACUAUC 4520
4024 UGCCGCAU C UUGGCAAG 728 CUUGCCAA CUGAUGAG GCCGUUAGGC CGAA AUGCGGCA 4521
4026 CCGCAUCU U GGCAAGUU 729 AACUUGCC CUGAUGAG GCCGUUAGGC CGAA AGAUGCGG 4522
4034 UGGCAAGU U GCAGAGAU 730 AUCUCUGC CUGAUGAG GCCGUUAGGC CGAA ACUUGCCA 4523
Input Sequence = AB020693. Cut Site = UH/ .
Stem Length = 8 . Core Sequence = CUGAUGAG GCCGUUAGGC CGAA
AB020693 (Homo sapiens mRNA for KIAA0886 protein (Nogo-A) ; 4053 bp)
Underlined region can be any X sequence or linker, as previously described herein.
Table IV: Human NOGO Inozyme and Substrate Sequence
Pos Substrate Seq ID Inozyme Seq ID
15 AGUAGGUC C CUCGGCUC 731 GAGCCGAG CUGAUGAG GCCGUUAGGC CGAA IACCUACU 4524
16 GUAGGUCC C UCGGCUCA 732 UGAGCCGA CUGAUGAG GCCGUUAGGC CGAA IGACCUAC 4525
17 UAGGUCCC U CGGCUCAG 733 CUGAGCCG CUGAUGAG GCCGUUAGGC CGAA IGGACCUA 4526
22 CCCUCGGC U CAGUCGGC 734 GCCGACUG CUGAUGAG GCCGUUAGGC CGAA ICCGAGGG 4527
24 CUCGGCUC A GUCGGCCC 735 GGGCCGAC CUGAUGAG GCCGUUAGGC CGAA IAGCCGAG 4528
31 CAGUCGGC C CAGCCCCU 736 AGGGGCUG CUGAUGAG GCCGUUAGGC CGAA ICCGACUG 4529
32 AGUCGGCC C AGCCCCUC 737 GAGGGGCU CUGAUGAG GCCGUUAGGC CGAA IGCCGACU 4530
33 GUCGGCCC A GCCCCUCU 738 AGAGGGGC CUGAUGAG GCCGUUAGGC CGAA IGGCCGAC 4531
36 GGCCCAGC C CCUCUCAG 739 CUGAGAGG CUGAUGAG GCCGUUAGGC CGAA ICUGGGCC 4532
37 GCCCAGCC C CUCUCAGU 740 ACUGAGAG CUGAUGAG GCCGUUAGGC CGAA IGCUGGGC 4533
38 CCCAGCCC C UCUCAGUC 741 GACUGAGA CUGAUGAG GCCGUUAGGC CGAA IGGCUGGG 4534
39 CCAGCCCC u CUCAGUCC 742 GGACUGAG CUGAUGAG GCCGUUAGGC CGAA IGGGCUGG 4535
41 AGCCCCUC u CAGUCCUC 743 GAGGACUG CUGAUGAG GCCGUUAGGC CGAA IAGGGGCU 4536
43 CCCCUCUC A GUCCUCCC 744 GGGAGGAC CUGAUGAG GCCGUUAGGC CGAA IAGAGGGG 4537
47 UCUCAGUC C UCCCCAAC 745 GUUGGGGA CUGAUGAG GCCGUUAGGC CGAA IACUGAGA 4538
48 CUCAGUCC u CCCCAACC 746 GGUUGGGG CUGAUGAG GCCGUUAGGC CGAA IGACUGAG 4539
50 CAGUCCUC c CCAACCCC 747 GGGGUUGG CUGAUGAG GCCGUUAGGC CGAA IAGGACUG 4540
51 AGUCCUCC c CAACCCCC 748 GGGGGUUG CUGAUGAG GCCGUUAGGC CGAA IGAGGACU 4541
52 GUCCUCCC c AACCCCCA 749 UGGGGGUU CUGAUGAG GCCGUUAGGC CGAA IGGAGGAC 4542
53 UCCUCCCC A ACCCCCAC 750 GUGGGGGU CUGAUGAG GCCGUUAGGC CGAA IGGGAGGA 4543
56 UCCCCAAC C CCCACAAC 751 GUUGUGGG CUGAUGAG GCCGUUAGGC CGAA IUUGGGGA 4544
57 CCCCAACC C CCACAACC 752 GGUUGUGG CUGAUGAG GCCGUUAGGC CGAA IGUUGGGG 4545
58 CCCAACCC C CACAACCG 753 CGGUUGUG CUGAUGAG GCCGUUAGGC CGAA IGGUUGGG 4546
59 CCAACCCC c ACAACCGC 754 GCGGUUGU CUGAUGAG GCCGUUAGGC CGAA IGGGUUGG 4547
60 CAACCCCC A CAACCGCC 755 GGCGGUUG CUGAUGAG GCCGUUAGGC CGAA IGGGGUUG 4548
62 ACCCCCAC A ACCGCCCG 756 CGGGCGGU CUGAUGAG GCCGUUAGGC CGAA IUGGGGGU 4549
65 CCCACAAC C GCCCGCGG 757 CCGCGGGC CUGAUGAG GCCGUUAGGC CGAA IUUGUGGG 4550
68 ACAACCGC C CGCGGCUC 758 GAGCCGCG CUGAUGAG GCCGUUAGGC CGAA ICGGUUGU 4551
69 CAACCGCC C GCGGCUCU 759 AGAGGCGC CUGAUGAG GCCGUUAGGC CGAA IGCGGUUG 4552
75 CCCGCGGC U CUGAGACG 760 CGUCUCAG CUGAUGAG GCCGUUAGGC CGAA ICCGCGGG 4553
77 CGCGGCUC U GAGACGCG 761 CGCGUCUC CUGAUGAG GCCGUUAGGC CGAA IAGCCGCG 4554
88 GACGCGGC c CCGGCGGC 762 GCCGCCGG CUGAUGAG GCCGUUAGGC CGAA ICCGCGUC 4555
89 ACGCGGCC c CGGCGGCG 763 CGCCGCCG CUGAUGAG GCCGUUAGGC CGAA IGCCGCGU 4556
90 CGCGGCCC c GGCGGCGG 764 CCGCCGCC CUGAUGAG GCCGUUAGGC CGAA IGGCCGCG 4557
103 GCGGCGGC A GCAGCUGC 765 GCAGCUGC CUGAUGAG GCCGUUAGGC CGAA ICCGCCGC 4558
106 GCGGCAGC A GCUGCAGC 766 GCUGCAGC CUGAUGAG GCCGUUAGGC CGAA ICUGCCGC 4559
109 GCAGCAGC u GCAGCAUC 767 GAUGCUGC CUGAUGAG GCCGUUAGGC CGAA ICUGCUGC 4560
112 GCAGCUGC A GCAUCAUC 768 GAUGAUGC CUGAUGAG GCCGUUAGGC CGAA ICAGCUGC 4561
115 GCUGCAGC A UCAUCUCC 769 GGAGAUGA CUGAUGAG GCCGUUAGGC CGAA ICUGCAGC 4562
118 GCAGCAUC A UCUCCACC 770 GGUGGAGA CUGAUGAG GCCGUUAGGC CGAA IAUGCUGC 4563
121 GCAUCAUC U CCACCCUC 771 GAGGGUGG CUGAUGAG GCCGUUAGGC CGAA IAUGAUGC 4564
123 AUCAUCUC C ACCCUCCA 772 UGGAGGGU CUGAUGAG GCCGUUAGGC CGAA IAGAUGAU 4565
124 UCAUCUCC A CCCUCCAG 773 CUGGAGGG CUGAUGAG GCCGUUAGGC CGAA IGAGAUGA 4566
126 AUCUCCAC C CUCCAGCC 774 GGCUGGAG CUGAUGAG GCCGUUAGGC CGAA IUGGAGAU 4567
127 UCUCCACC C UCCAGCCA 775 UGGCUGGA CUGAUGAG GCCGUUAGGC CGAA IGUGGAGA 4568
128 CUCCACCC U CCAGCCAU 776 AUGGCUGG CUGAUGAG GCCGUUAGGC CGAA IGGUGGAG 4569
130 CCACCCUC C AGCCAUGG 777 CCAUGGCU CUGAUGAG GCCGUUAGGC CGAA IAGGGUGG 4570
131 CACCCUCC A GCCAUGGA 778 UCCAUGGC CUGAUGAG GCCGUUAGGC CGAA IGAGGGUG 4571
134 CCUCCAGC C AUGGAAGA 779 UCUUCCAU CUGAUGAG GCCGUUAGGC CGAA ICUGGAGG 4572
135 CUCCAGCC A UGGAAGAC 780 GUCUUCCA CUGAUGAG GCCGUUAGGC CGAA IGCUGGAG 4573
144 UGGAAGAC C UGGACCAG 781 CUGGUCCA CUGAUGAG GCCGUUAGGC CGAA IUCUUCCA 4574
145 GGAAGACC U GGACCAGU 782 ACUGGUCC CUGAUGAG GCCGUUAGGC CGAA IGUCUUCC 4575
150 ACCUGGAC C AGUCUCCU 783 AGGAGACU CUGAUGAG GCCGUUAGGC CGAA IUCCAGGU 4576
151 CCUGGACC A GUCUCCUC 784 GAGGAGAC CUGAUGAG GCCGUUAGGC CGAA IGUCCAGG 4577
155 GACCAGUC U CCUCUGGU 785 ACCAGAGG CUGAUGAG GCCGUUAGGC CGAA IACUGGUC 4578
157 CCAGUCUC C UCUGGUCU 786 AGACCAGA CUGAUGAG GCCGUUAGGC CGAA IAGACUGG 4579
158 CAGUCUCC U CUGGUCUC 787 GAGACCAG CUGAUGAG GCCGUUAGGC CGAA IGAGACUG 4580
160 GUCUCCUC U GGUCUCGU 788 ACGAGACC CUGAUGAG GCCGUUAGGC CGAA IAGGAGAC 4581
165 CUCUGGUC U CGUCCUCG 789 CGAGGACG CUGAUGAG GCCGUUAGGC CGAA IACCAGAG 4582
170 GUCUCGUC c UCGGACAG 790 CUGUCCGA CUGAUGAG GCCGUUAGGC CGAA IACGAGAC 4583
171 UCUCGUCC u CGGACAGC 791 GCUGUCCG CUGAUGAG GCCGUUAGGC CGAA IGACGAGA 4584
177 CCUCGGAC A GCCCACCC 792 GGGUGGGC CUGAUGAG GCCGUUAGGC CGAA IUCCGAGG 4585
180 CGGACAGC C CACCCCGG 793 CCGGGGUG CUGAUGAG GCCGUUAGGC CGAA ICUGUCCG 4586
181 GGACAGCC C ACCCCGGC 794 GCCGGGGU CUGAUGAG GCCGUUAGGC CGAA IGCUGUCC 4587
182 GACAGCCC A CCCCGGCC 795 GGCCGGGG CUGAUGAG GCCGUUAGGC CGAA IGGCUGUC 4588
184 CAGCCCAC C CCGGCCGC 796 GCGGCCGG CUGAUGAG GCCGUUAGGC CGAA IUGGGCUG 4589
185 AGCCCACC C CGGCCGCA 797 UGCGGCCG CUGAUGAG GCCGUUAGGC CGAA IGUGGGCU 4590
186 GCCCACCC C GGCCGCAG 798 CUGCGGCC CUGAUGAG GCCGUUAGGC CGAA IGGUGGGC 4591
190 ACCCCGGC c GCAGCCCG 799 CGGGCUGC CUGAUGAG GCCGUUAGGC CGAA ICCGGGGU 4592
193 CCGGCCGC A GCCCGCGU 800 ACGCGGGC CUGAUGAG GCCGUUAGGC CGAA ICGGCCGG 4593
196 GCCGCAGC C CGCGUUCA 801 UGAACGCG CUGAUGAG GCCGUUAGGC CGAA ICUGCGGC 4594
197 CCGCAGCC C GCGUUCAA 802 UUGAACGC CUGAUGAG GCCGUUAGGC CGAA IGCUGCGG 4595
204 CCGCGUUC A AGUACCAG 803 CUGGUACU CUGAUGAG GCCGUUAGGC CGAA IAACGCGG 4596
210 UCAAGUAC C AGUUCGUG 804 CACGAACU CUGAUGAG GCCGUUAGGC CGAA IUACUUGA 4597
211 CAAGUACC A GUUCGUGA 805 UCACGAAC CUGAUGAG GCCGUUAGGC CGAA IGUACUUG 4598
226 GAGGGAGC C CGAGGACG 806 CGUCCUCG CUGAUGAG GCCGUUAGGC CGAA ICUCCCUC 4599
227 AGGGAGCC C GAGGACGA 807 UCGUCCUC CUGAUGAG GCCGUUAGGC CGAA IGCUCCCU 4600
279 ACGAAGAC C UGGAGGAG 808 CUCCUCCA CUGAUGAG GCCGUUAGGC CGAA IUCUUCGU 4601
280 CGAAGACC U GGAGGAGC 809 GCUCCUCC CUGAUGAG GCCGUUAGGC CGAA IGUCUUCG 4602
289 GGAGGAGC U GGAGGUGC 810 GCACCUCC CUGAUGAG GCCGUUAGGC CGAA ICUCCUCC 4603
298 GGAGGUGC u GGAGAGGA 811 UCCUCUCC CUGAUGAG GCCGUUAGGC CGAA ICACCUCC 4604
310 GAGGAAGC c CGCCGCCG 812 CGGCGGCG CUGAUGAG GCCGUUAGGC CGAA ICUUCCUC 4605
311 AGGAAGCC c GCCGCCGG 813 CCGGCGGC CUGAUGAG GCCGUUAGGC CGAA IGCUUCCU 4606
314 AAGCCCGC c GCCGGGCU 814 AGCCCGGC CUGAUGAG GCCGUUAGGC CGAA ICGGGCUU 4607
317 CCCGCCGC c GGGCUGUC 815 GACAGCCC CUGAUGAG GCCGUUAGGC CGAA ICGGCGGG 4608
322 CGCCGGGC u GUCCGCGG 816 CCGCGGAC CUGAUGAG GCCGUUAGGC CGAA ICCCGGCG 4609
326 GGGCUGUC c GCGGCCCC 817 GGGGCCGC CUGAUGAG GCCGUUAGGC CGAA IACAGCCC 4610
332 UCCGCGGC c CCAGUGCC 818 GGCACUGG CUGAUGAG GCCGUUAGGC CGAA ICCGCGGA 4611
333 CCGCGGCC c CAGUGCCC 819 GGGCACUG CUGAUGAG GCCGUUAGGC CGAA IGCCGCGG 4612
334 CGCGGCCC c AGUGCCCA 820 UGGGCACU CUGAUGAG GCCGUUAGGC CGAA IGGCCGCG 4613
335 GCGGCCCC A GUGCCCAC 821 GUGGGCAC CUGAUGAG GCCGUUAGGC CGAA IGGGCCGC 4614
340 CCCAGUGC c CACCGCCC 822 GGGCGGUG CUGAUGAG GCCGUUAGGC CGAA ICACUGGG 4615
341 CCAGUGCC c ACCGCCCC 823 GGGGCGGU CUGAUGAG GCCGUUAGGC CGAA IGCACUGG 4616
342 CAGUGCCC A CCGCCCCU 824 AGGGGCGG CUGAUGAG GCCGUUAGGC CGAA IGGCACUG 4617
344 GUGCCCAC C GCCCCUGC 825 GCAGGGGC CUGAUGAG GCCGUUAGGC CGAA IUGGGCAC 4618
347 CCCACCGC C CCUGCCGC 826 GCGGCAGG CUGAUGAG GCCGUUAGGC CGAA ICGGUGGG 4619
348 CCACCGCC C CUGCCGCC 827 GGCGGCAG CUGAUGAG GCCGUUAGGC CGAA IGCGGUGG 4620
349 CACCGCCC C UGCCGCCG 828 CGGCGGCA CUGAUGAG GCCGUUAGGC CGAA IGGCGGUG 4621
350 ACCGCCCC u GCCGCCGG 829 CCGGCGGC CUGAUGAG GCCGUUAGGC CGAA IGGGCGGU 4622
353 GCCCCUGC c GCCGGCGC 830 GCGCCGGC CUGAUGAG GCCGUUAGGC CGAA ICAGGGGC 4623
356 CCUGCCGC c GGCGCGCC 831 GGCGCGCC CUGAUGAG GCCGUUAGGC CGAA ICGGCAGG 4624
364 CGGCGCGC c CCUGAUGG 832 CCAUCAGG CUGAUGAG GCCGUUAGGC CGAA ICGCGCCG 4625
365 GGCGCGCC c CUGAUGGA 833 UCCAUCAG CUGAUGAG GCCGUUAGGC CGAA IGCGCGCC 4626
366 GCGCGCCC c UGAUGGAC 834 GUCCAUCA CUGAUGAG GCCGUUAGGC CGAA IGGCGCGC 4627
367 CGCGCCCC u GAUGGACU 835 AGUCCAUC CUGAUGAG GCCGUUAGGC CGAA IGGGCGCG 4628
375 UGAUGGAC u UCGGAAAU 836 AUUUCCGA CUGAUGAG GCCGUUAGGC CGAA lUCCAUCA 4629
387 GAAAUGAC u UCGUGCCG 837 CGGCACGA CUGAUGAG GCCGUUAGGC CGAA IUCAUUUC 4630
394 CUUCGUGC c GCCGGCGC 838 GCGCCGGC CUGAUGAG GCCGUUAGGC CGAA ICACGAAG 4631
397 CGUGCCGC c GGCGCGCC 839 GGGGCGCC CUGAUGAG GCCGUUAGGC CGAA ICGGCACG 4632
403 GCCGGCGC c CCGGGGAC 840 GUCCCCGG CUGAUGAG GCCGUUAGGC CGAA ICGCCGGC 4633
404 CCGGCGCC c CGGGGACC 841 GGUCCCCG CUGAUGAG GCCGUUAGGC CGAA IGCGCCGG 4634
405 CGGCGCCC c GGGGACCC 842 GGGUCCCC CUGAUGAG GCCGUUAGGC CGAA IGGCGCCG 4635
412 CCGGGGAC c CCUGCCGG 843 CCGGCAGG CUGAUGAG GCCGUUAGGC CGAA IUCCCCGG 4636
413 CGGGGACC c CUGCCGGC 844 GCCGGCAG CUGAUGAG GCCGUUAGGC CGAA IGUCCCCG 4637
414 GGGGACCC c UGCCGGCC 845 GGCCGGCA CUGAUGAG GCCGUUAGGC CGAA IGGUCCCC 4638
'415 GGGACCCC u GCCGGCCG 846 CGGCCGGC CUGAUGAG GCCGUUAGGC CGAA IGGGUCCC 4639
418 ACCCCUGC c GGCCGCUC 847 GAGCGGCC CUGAUGAG GCCGUUAGGC CGAA ICAGGGGU 4640
422 CUGCCGGC c GCUCCCCC 848 GGGGGAGC CUGAUGAG GCCGUUAGGC CGAA ICCGGCAG 4641
425 CCGGCCGC u CCCCCCGU 849 ACGGGGGG CUGAUGAG GCCGUUAGGC CGAA ICGGCCGG 4642
427 GGCCGCUC c CCCCGUCG 850 CGACGGGG CUGAUGAG GCCGUUAGGC CGAA IAGCGGCC 4643
428 GCCGCUCC c CCCGUCGC 851 GCGACGGG CUGAUGAG GCCGUUAGGC CGAA IGAGCGGC 4644
429 CCGCUCCC c CCGUCGCC 852 GGCGACGG CUGAUGAG GCCGUUAGGC CGAA IGGAGCGG 4645
430 CGCUCCCC c CGUCGCCC 853 GGGCGACG CUGAUGAG GCCGUUAGGC CGAA IGGGAGCG 4646
431 GCUCCCCC C GUCGCCCC 854 GGGGCGAC CUGAUGAG GCCGUUAGGC CGAA IGGGGAGC 4647
437 CCCGUCGC C CCGGAGCG 855 CGCUCCGG CUGAUGAG GCCGUUAGGC CGAA ICGACGGG 4648
438 CCGUCGCC C CGGAGCGG 856 CCGCUCCG CUGAUGAG GCCGUUAGGC CGAA IGCGACGG 4649
439 CGUCGCCC C GGAGCGGC 857 GCCGCUCC CUGAUGAG GCCGUUAGGC CGAA IGGCGACG 4650
448 GGAGCGGC A GCCGUCUU 858 AAGACGGC CUGAUGAG GCCGUUAGGC CGAA ICCGCUCC 4651
451 GCGGCAGC C GUCUUGGG 859 CCCAAGAC CUGAUGAG GCCGUUAGGC CGAA ICUGCCGC 4652
455 CAGCCGUC U UGGGACCC 860 GGGUCCCA CUGAUGAG GCCGUUAGGC CGAA IACGGCUG 4653
462 CUUGGGAC C CGAGCCCG 861 CGGGCUCG CUGAUGAG GCCGUUAGGC CGAA IUCCCAAG 4654
463 UUGGGACC C GAGCCCGG 862 CCGGGCUC CUGAUGAG GCCGUUAGGC CGAA IGUCCCAA 4655
468 ACCCGAGC C CGGUGUCG 863 CGACACCG CUGAUGAG GCCGUUAGGC CGAA ICUCGGGU 4656
469 CCCGAGCC C GGUGUCGU 864 ACGACACC CUGAUGAG GCCGUUAGGC CGAA IGCUCGGG 4657
482 UCGUCGAC C GUGCCCGC 865 GCGGGCAC CUGAUGAG GCCGUUAGGC CGAA IUCGACGA 4658
487 GACCGUGC C CGCGCCAU 866 AUGGCGCG CUGAUGAG GCCGUUAGGC CGAA ICACGGUC 4659
488 ACCGUGCC C GCGCCAUC 867 GAUGGCGC CUGAUGAG GCCGUUAGGC CGAA IGCACGGU 4660
493 GCCCGCGC c AUCCCCGC 868 GCGGGGAU CUGAUGAG GCCGUUAGGC CGAA ICGCGGGC 4661
494 CCCGCGCC A UCCCCGCU 869 AGCGGGGA CUGAUGAG GCCGUUAGGC CGAA IGCGCGGG 4662
497 GCGCCAUC C CCGCUGUC 870 GACAGCGG CUGAUGAG GCCGUUAGGC CGAA IAUGGCGC 4663
498 CGCCAUCC C CGCUGUCU 871 AGACAGCG CUGAUGAG GCCGUUAGGC CGAA IGAUGGCG 4664
499 GCCAUCCC C GCUGUCUG 872 CAGACAGC CUGAUGAG GCCGUUAGGC CGAA IGGAUGGC 4665
502 AUCCCCGC U GUCUGCUG 873 CAGCAGAC CUGAUGAG GCCGUUAGGC CGAA ICGGGGAU 4666
506 CCGCUGUC U GCUGCCGC 874 GCGGCAGC CUGAUGAG GCCGUUAGGC CGAA IACAGCGG 4667
509 CUGUCUGC U GCCGCAGU 875 ACUGCGGC CUGAUGAG GCCGUUAGGC CGAA ICAGACAG 4668
512 UCUGCUGC C GCAGUCUC 876 GAGACUGC CUGAUGAG GCCGUUAGGC CGAA ICAGCAGA 4669
515 GCUGCCGC A GUCUCGCC 877 GGCGAGAC CUGAUGAG GCCGUUAGGC CGAA ICGGCAGC 4670
519 CCGCAGUC U CGCCCUCC 878 GGAGGGCG CUGAUGAG GCCGUUAGGC CGAA IACUGCGG 4671
523 AGUCUCGC C CUCCAAGC 879 GCUUGGAG CUGAUGAG GCCGUUAGGC CGAA ICGAGACU 4672
524 GUCUCGCC C UCCAAGCU 880 AGCUUGGA CUGAUGAG GCCGUUAGGC CGAA IGCGAGAC 4673
525 UCUCGCCC U CCAAGCUC 881 GAGCUUGG CUGAUGAG GCCGUUAGGC CGAA IGGCGAGA 4674
527 UCGCCCUC c AAGCUCCC 882 GGGAGCUU CUGAUGAG GCCGUUAGGC CGAA IAGGGCGA 4675
528 CGCCCUCC A AGCUCCCU 883 AGGGAGCU CUGAUGAG GCCGUUAGGC CGAA IGAGGGCG 4676
532 CUCCAAGC U CCCUGAGG 884 CCUCAGGG CUGAUGAG GCCGUUAGGC CGAA ICUUGGAG 4677
534 CCAAGCUC C CUGAGGAC 885 GUCCUCAG CUGAUGAG GCCGUUAGGC CGAA IAGCUUGG 4678
535 CAAGCUCC C UGAGGACG 886 CGUCCUCA CUGAUGAG GCCGUUAGGC CGAA IGAGCUUG 4679
536 AAGCUCCC U GAGGACGA 887 UCGUCCUC CUGAUGAG GCCGUUAGGC CGAA IGGAGCUU 4680
550 CGACGAGC C UCCGGCCC 888 GGGCCGGA CUGAUGAG GCCGUUAGGC CGAA ICUCGUCG 4681
551 GACGAGCC U CCGGCCCG 889 CGGGCCGG CUGAUGAG GCCGUUAGGC CGAA IGCUCGUC 4682
553 CGAGCCUC c GGCCCGGC 890 GCCGGGCC CUGAUGAG GCCGUUAGGC CGAA IAGGCUCG 4683
557 CCUCCGGC c CGGCCUCC 891 GGAGGCCG CUGAUGAG GCCGUUAGGC CGAA ICCGGAGG 4684
558 CUCCGGCC c GGCCUCCC 892 GGGAGGCC CUGAUGAG GCCGUUAGGC CGAA IGCCGGAG 4685
562 GGCCCGGC c UCCCCCUC 893 GAGGGGGA CUGAUGAG GCCGUUAGGC CGAA ICCGGGCC 4686
563 GCCCGGCC u CCCCCUCC 894 GGAGGGGG CUGAUGAG GCCGUUAGGC CGAA IGCCGGGC 4687
565 CCGGCCUC c CCCUCCUC 895 GAGGAGGG CUGAUGAG GCCGUUAGGC CGAA IAGGCCGG 4688
566 CGGCCUCC c CCUCCUCC 896 GGAGGAGG CUGAUGAG GCCGUUAGGC CGAA IGAGGCCG 4689
567 GGCCUCCC c CUCCUCCC 897 GGGAGGAG CUGAUGAG GCCGUUAGGC CGAA IGGAGGCC 4690
568 GCCUCCCC c UCCUCCCC 898 GGGGAGGA CUGAUGAG GCCGUUAGGC CGAA IGGGAGGC 4691
569 CCUCCCCC u CCUCCCCC 899 GGGGGAGG CUGAUGAG GCCGUUAGGC CGAA IGGGGAGG 4692
571 ucccccuc c UCCCCCGG 900 CCGGGGGA CUGAUGAG GCCGUUAGGC CGAA IAGGGGGA 4693
572 cccccucc u CCCCCGGC 901 GCCGGGGG CUGAUGAG GCCGUUAGGC CGAA IGAGGGGG 4694
574 cccuccuc c CCCGGCCA 902 UGGCCGGG CUGAUGAG GCCGUUAGGC CGAA IAGGAGGG 4695
575 ccuccucc c CCGGCCAG 903 CUGGCCGG CUGAUGAG GCCGUUAGGC CGAA IGAGGAGG 4696
576 GUCCUCCC c CGGCCAGC 904 GCUGGCCG CUGAUGAG GCCGUUAGGC CGAA IGGAGGAG 4697
577 UCCUCCCC c GGCCAGCG 905 CGCUGGCC CUGAUGAG GCCGUUAGGC CGAA IGGGAGGA 4698
581 CCCCCGGC c AGCGUGAG 906 CUCACGCU CUGAUGAG GCCGUUAGGC CGAA ICCGGGGG 4699
582 CCCCGGCC A GCGUGAGC 907 GCUCACGC CUGAUGAG GCCGUUAGGC CGAA IGCCGGGG 4700
591 GCGUGAGC c CCCAGGCA 908 UGCCUGGG CUGAUGAG GCCGUUAGGC CGAA ICUCACGC 4701
592 CGUGAGCC c CCAGGCAG 909 CUGCCUGG CUGAUGAG GCCGUUAGGC CGAA IGCUCACG 4702
593 GUGAGCCC c CAGGCAGA 910 UCUGCCUG CUGAUGAG GCCGUUAGGC CGAA IGGCUCAC 4703
594 UGAGCCCC c AGGCAGAG 911 CUCUGCCU CUGAUGAG GCCGUUAGGC CGAA IGGGCUCA 4704
595 GAGCCCCC A GGCAGAGC 912 GCUCUGCC CUGAUGAG GCCGUUAGGC CGAA IGGGGCUC 4705
599 CCCCAGGC A GAGCCCGU 913 ACGGGCUC CUGAUGAG GCCGUUAGGC CGAA ICCUGGGG 4706
604 GGCAGAGC C CGUGUGGA 914 UCCACACG CUGAUGAG GCCGUUAGGC CGAA ICUCUGCC 4707
605 GCAGAGCC C GUGUGGAC 915 GUCCACAC CUGAUGAG GCCGUUAGGC CGAA IGCUCUGC 4708
614 GUGUGGAC C CCGCCAGC 916 GCUGGCGG CUGAUGAG GCCGUUAGGC CGAA IUCCACAC 4709
615 UGUGGACC C CGCCAGCC 917 GGCUGGCG CUGAUGAG GCCGUUAGGC CGAA IGUCCACA 4710
616 GUGGACCC C GCCAGCCC 918 GGGCUGGC CUGAUGAG GCCGUUAGGC CGAA IGGUCCAC 4711
619 GACCCCGC C AGCCCCGG 919 CCGGGGCU CUGAUGAG GCCGUUAGGC CGAA ICGGGGUC 4712
620 ACCCCGGC A GCGCCGGC 920 GCCGGGGC CUGAUGAG GCCGUUAGGC CGAA IGCGGGGU 4713
623 CCGCCAGC C CCGGCUCC 921 GGAGCCGG CUGAUGAG GCCGUUAGGC CGAA ICUGGCGG 4714
624 CGCCAGCC C CGGCUCCC 922 GGGAGCCG CUGAUGAG GCCGUUAGGC CGAA IGCUGGCG 4715
625 GCCAGCCC C GGCUCCCG 923 CGGGAGCC CUGAUGAG GCCGUUAGGC CGAA IGGCUGGC 4716
629 GGCCCGGC U CCCGCCGC 924 GCGGCGGG CUGAUGAG GCCGUUAGGC CGAA ICCGGGGC 4717
631 CCCGGCUC C CGCCGCGC 925 GCGCGGCG CUGAUGAG GCCGUUAGGC CGAA IAGCCGGG 4718
632 CCGGCUCC C GCCGCGCC 926 GGCGCGGC CUGAUGAG GCCGUUAGGC CGAA IGAGCCGG 4719
635 GCUGCCGC C GCGCCCCC 927 GGGGGCGC CUGAUGAG GCCGUUAGGC CGAA ICGGGAGC 4720
640 CGCCGCGC C CCCCUCCA 928 UGGAGGGG CUGAUGAG GCCGUUAGGC CGAA ICGCGGCG 4721
641 GCCGCGCC C CCCUCCAC 929 GUGGAGGG CUGAUGAG GCCGUUAGGC CGAA IGCGCGGC 4722
642 CCGCGCCC C CCUCCACC 930 GGUGGAGG CUGAUGAG GCCGUUAGGC CGAA IGGCGCGG 4723
643 CGCGCCCC C CUCCACCC 931 GGGUGGAG CUGAUGAG GCCGUUAGGC CGAA IGGGCGCG 4724
644 GCGCCCCC C UCCACCCC 932 GGGGUGGA CUGAUGAG GCCGUUAGGC CGAA IGGGGCGC 4725
645 CGCCCCCC u CCACCCCG 933 CGGGGUGG CUGAUGAG GCCGUUAGGC CGAA IGGGGGCG 4726
647 CCCCCCUC C ACCCCGGC 934 GCCGGGGU CUGAUGAG GCCGUUAGGC CGAA IAGGGGGG 4727
648 CCCCCUCC A CCCCGGCC 935 GGCCGGGG CUGAUGAG GCCGUUAGGC CGAA IGAGGGGG 4728
650 CCCUCCAC C CCGGCCGC 936 GCGGCCGG CUGAUGAG GCCGUUAGGC CGAA IUGGAGGG 4729
651 CCUCCACC C CGGCCGCG 937 CGCGGCCG CUGAUGAG GCCGUUAGGC CGAA IGUGGAGG 4730
652 CUCCACCC C GGCCGCGC 938 GCGCGGCC CUGAUGAG GCCGUUAGGC CGAA IGGUGGAG 4731
656 ACCCCGGC c GCGCCCAA 939 UUGGGCGC CUGAUGAG GCCGUUAGGC CGAA ICCGGGGU 4732
661 GGCCGCGC c CAAGCGCA 940 UGCGCUUG CUGAUGAG GCCGUUAGGC CGAA ICGCGGCC 4733
662 GCCGCGCC c AAGCGCAG 941 CUGCGCUU CUGAUGAG GCCGUUAGGC CGAA IGCGCGGC 4734
663 CCGCGCCC A AGCGCAGG 942 CCUGCGCU CUGAUGAG GCCGUUAGGC CGAA IGGCGCGG 4735
669 CCAAGCGC A GGGGCUCC 943 GGAGCCCC CUGAUGAG GCCGUUAGGC CGAA ICGCUUGG 4736
675 GCAGGGGC u CCUCGGGC 944 GCCCGAGG CUGAUGAG GCCGUUAGGC CGAA ICCCCUGC 4737
677 AGGGGCUG c UCGGGCUC 945 GAGCCCGA CUGAUGAG GCCGUUAGGC CGAA IAGCCCCU 4738
678 GGGGCUCC U CGGGCUCA 946 UGAGCCCG CUGAUGAG GCCGUUAGGC CGAA IGAGCCCC 4739
684 CCUCGGGC u CAGUGGAU 947 AUCCACUG CUGAUGAG GCCGUUAGGC CGAA ICCCGAGG 4740
686 UCGGGCUC A GUGGAUGA 948 UCAUCCAC CUGAUGAG GCCGUUAGGC CGAA IAGCCCGA 4741
698 GAUGAGAC C CUUUUUGC 949 GCAAAAAG CUGAUGAG GCCGUUAGGC CGAA IUCUCAUC 4742
699 AUGAGACC C UUUUUGCU 950 AGCAAAAA CUGAUGAG GCCGUUAGGC CGAA IGUCUCAU 4743
700 UGAGAGCC U UUUUGCUC 951 GAGCAAAA CUGAUGAG GCCGUUAGGC CGAA IGGUCUCA 4744
707 CUUUUUGC U CUUCCUGC 952 GCAGGAAG CUGAUGAG GCCGUUAGGC CGAA ICAAAAAG 4745
709 UUUUGCUC U UCCUGCUG 953 CAGCAGGA CUGAUGAG GCCGUUAGGC CGAA IAGCAAAA 4746
712 UGCUCUUC c UGCUGCAU 954 AUGCAGCA CUGAUGAG GCCGUUAGGC CGAA IAAGAGCA 4747
713 GCUCUUCC u GCUGCAUC 955 GAUGCAGC CUGAUGAG GCCGUUAGGC CGAA IGAAGAGC 4748
716 CUUCCUGC u GCAUCUGA 956 UCAGAUGC CUGAUGAG GCCGUUAGGC CGAA ICAGGAAG 4749
719 CCUGCUGC A UCUGAGCC 957 GGCUCAGA CUGAUGAG GCCGUUAGGC CGAA ICAGCAGG 4750
722 GCUGCAUC U GAGCCUGU 958 ACAGGCUC CUGAUGAG GCCGUUAGGC CGAA IAUGCAGC 4751
727 AUCUGAGC c UGUGAUAC 959 GUAUCACA CUGAUGAG GCCGUUAGGC CGAA ICUCAGAU 4752
728 UCUGAGCC U GUGAUACG 960 CGUAUCAC CUGAUGAG GCCGUUAGGC CGAA IGCUCAGA 4753
738 UGAUACGC u CCUCUGCA 961 UGCAGAGG CUGAUGAG GCCGUUAGGC CGAA ICGUAUCA 4754
740 AUACGCUC c UCUGCAGA 962 UCUGCAGA CUGAUGAG GCCGUUAGGC CGAA IAGCGUAU 4755
741 UACGCUCC u CUGCAGAA 963 UUCUGCAG CUGAUGAG GCCGUUAGGC CGAA IGAGCGUA 4756
743 CGCUCCUC u GCAGAAAA 964 UUUUCUGC CUGAUGAG GCCGUUAGGC CGAA IAGGAGCG 4757
746 UCCUCUGC A GAAAAUAU 965 AUAUUUUC CUGAUGAG GCCGUUAGGC CGAA ICAGAGGA 4758
759 AUAUGGAC U UGAAGGAG 966 CUCCUUCA CUGAUGAG GCCGUUAGGC CGAA IUCCAUAU 4759
769 GAAGGAGC A GCCAGGUA 967 UACCUGGC CUGAUGAG GCCGUUAGGC CGAA ICUCCUUC 4760
772 GGAGCAGC C AGGUAACA 968 UGUUACCU CUGAUGAG GCCGUUAGGC CGAA ICUGCUCC 4761
773 GAGCAGCC A GGUAACAC 969 GUGUUACC CUGAUGAG GCCGUUAGGC CGAA IGCUGCUC 4762
780 CAGGUAAC A CUAUUUCG 970 CGAAAUAG CUGAUGAG GCCGUUAGGC CGAA IUUACCUG 4763
782 GGUAACAC U AUUUCGGC 971 GCCGAAAU CUGAUGAG GCCGUUAGGC CGAA IUGUUACC 4764
791 AUUUCGGC U GGUCAAGA 972 UCUUGACC CUGAUGAG GCCGUUAGGC CGAA ICCGAAAU 4765
796 GGCUGGUC A AGAGGAUU 973 AAUCCUCU CUGAUGAG GCCGUUAGGC CGAA IACCAGCC 4766
807 AGGAUUUC c CAUCUGUC 974 GACAGAUG CUGAUGAG GCCGUUAGGC CGAA IAAAUCCU 4767
808 GGAUUUCC c AUCUGUCC 975 GGACAGAU CUGAUGAG GCCGUUAGGC CGAA IGAAAUCC 4768
809 GAUUUCCC A UCUGUCCU 976 AGGACAGA CUGAUGAG GCCGUUAGGC CGAA IGGAAAUC 4769
812 UUCCCAUC U GUCCUGCU 977 AGCAGGAC CUGAUGAG GCCGUUAGGC CGAA lAUGGGAA 4770
816 CAUCUGUC c UGCUUGAA 978 UUCAAGCA CUGAUGAG GCCGUUAGGC CGAA IACAGAUG 4771
817 AUCUGUCC U GCUUGAAA 979 UUUCAAGC CUGAUGAG GCCGUUAGGC CGAA IGACAGAU 4772
820 UGUCCUGC U UGAAACUG 980 CAGUUUCA CUGAUGAG GCCGUUAGGC CGAA ICAGGACA 4773
827 CUUGAAAC U GCUGCUUC 981 GAAGCAGC CUGAUGAG GCCGUUAGGC CGAA IUUUCAAG 4774
830 GAAACUGC U GCUUCUCU 982 AGAGAAGC CUGAUGAG GCCGUUAGGC CGAA ICAGUUUC 4775
833 ACUGCUGC U UCUCUUCC 983 GGAAGAGA CUGAUGAG GCCGUUAGGC CGAA ICAGCAGU 4776
836 GCUGCUUC U CUUCCUUC 984 GAAGGAAG CUGAUGAG GCCGUUAGGC CGAA IAAGCAGC 4777
838 UGCUUCUC U UCCUUCUC 985 GAGAAGGA CUGAUGAG GCCGUUAGGC CGAA IAGAAGCA 4778
841 UUCUCUUC C UUCUCUGU 986 ACAGAGAA CUGAUGAG GCCGUUAGGC CGAA IAAGAGAA 4779
842 ucucuucc U UCUCUGUC 987 GACAGAGA CUGAUGAG GCCGUUAGGC CGAA IGAAGAGA 4780
845 cuuccuuc u CUGUCUCC 988 GGAGACAG CUGAUGAG GCCGUUAGGC CGAA IAAGGAAG 4781
847 uccuucuc u GUCUCCUC 989 GAGGAGAC CUGAUGAG GCCGUUAGGC CGAA IAGAAGGA 4782
851 UCUCUGUC u CCUCUCUC 990 GAGAGAGG CUGAUGAG GCCGUUAGGC CGAA IACAGAGA 4783
853 UCUGUCUC c UCUCUCAG 991 CUGAGAGA CUGAUGAG GCCGUUAGGC CGAA IAGACAGA 4784
854 CUGUCUCC u CUCUCAGC 992 GCUGAGAG CUGAUGAG GCCGUUAGGC CGAA IGAGACAG 4785
856 GUCUCCUC u CUCAGCCG 993 CGGCUGAG CUGAUGAG GCCGUUAGGC CGAA IAGGAGAC 4786
858 CUCCUCUC u CAGCCGCU 994 AGCGGCUG CUGAUGAG GCCGUUAGGC CGAA IAGAGGAG 4787
860 ccucucuc A GCCGCUUC 995 GAAGCGGC CUGAUGAG GCCGUUAGGC CGAA IAGAGAGG 4788
863 CUCUCAGC C GCUUCUUU 996 AAAGAAGC CUGAUGAG GCCGUUAGGC CGAA ICUGAGAG 4789
866 UCAGCCGC u UCUUUCAA 997 UUGAAAGA CUGAUGAG GCCGUUAGGC CGAA ICGGCUGA 4790
869 GCCGCUUC u UUCAAAGA 998 UCUUUGAA CUGAUGAG GCCGUUAGGC CGAA IAAGCGGC 4791
873 CUUCUUUC A AAGAACAU 999 AUGUUCUU CUGAUGAG GCCGUUAGGC CGAA IAAAGAAG 4792
880 CAAAGAAC A UGAAUACC 1000 GGUAUUCA CUGAUGAG GCCGUUAGGC CGAA IUUCUUUG 4793
888 AUGAAUAC C UUGGUAAU 1001 AUUACCAA CUGAUGAG GCCGUUAGGC CGAA lUAUUCAU 4794
889 UGAAUACC U UGGUAAUU 1002 AAUUACCA CUGAUGAG GCCGUUAGGC CGAA IGUAUUCA 4795
902 AAUUUGUC A ACAGUAUU 1003 AAUACUGU CUGAUGAG GCCGUUAGGC CGAA IACAAAUU 4796
905 UUGUCAAC A GUAUUACC 1004 GGUAAUAC CUGAUGAG GCCGUUAGGC CGAA lUUGACAA 4797
913 AGUAUUAC C CACUGAAG 1005 CUUCAGUG CUGAUGAG GCCGUUAGGC CGAA IUAAUACU 4798
914 GUAUUACC C ACUGAAGG 1006 CCUUCAGU CUGAUGAG GCCGUUAGGC CGAA IGUAAUAC 4799
915 UAUUACCC A CUGAAGGA 1007 UCCUUCAG CUGAUGAG GCCGUUAGGC CGAA IGGUAAUA 4800
917 UUACCCAC U GAAGGAAC 1008 GUUCCUUC CUGAUGAG GCCGUUAGGC CGAA IUGGGUAA 4801
926 GAAGGAAC A CUUCAAGA 1009 UCUUGAAG CUGAUGAG GCCGUUAGGC CGAA IUUCCUUC 4802
928 AGGAACAC U UCAAGAAA 1010 UUUCUUGA CUGAUGAG GCCGUUAGGC CGAA IUGUUCCU 4803
931 AACACUUC A AGAAAAUG 1011 CAUUUUCU CUGAUGAG GCCGUUAGGC CGAA IAAGUGUU 4804
942 AAAAUGUC A GUGAAGCU 1012 AGCUUCAC CUGAUGAG GCCGUUAGGC CGAA IACAUUUU 4805
950 AGUGAAGC U UCUAAAGA 1013 UCUUUAGA CUGAUGAG GCCGUUAGGC CGAA ICUUCACU 4806
953 GAAGCUUC U AAAGAGGU 1014 ACCUCUUU CUGAUGAG GCCGUUAGGC CGAA IAAGCUUC 4807
963 AAGAGGUC U CAGAGAAG 1015 CUUCUCUG CUGAUGAG GCCGUUAGGC CGAA IACCUCUU 4808
965 GAGGUCUC A GAGAAGGC 1016 GCCUUCUC CUGAUGAG GCCGUUAGGC CGAA IAGACCUC 4809
974 GAGAAGGC A AAAACUCU 1017 AGAGUUUU CUGAUGAG GCCGUUAGGC CGAA ICCUUCUC 4810
980 GCAAAAAC U CUACUCAU 1018 AUGAGUAG CUGAUGAG GCCGUUAGGC CGAA IUUUUUGC 4811
982 AAAAACUC U ACUCAUAG 1019 CUAUGAGU CUGAUGAG GCCGUUAGGC CGAA IAGUUUUU 4812
985 AACUCUAC U CAUAGAUA 1020 UAUCUAUG CUGAUGAG GCCGUUAGGC CGAA IUAGAGUU 4813
987 CUCUACUC A UAGAUAGA 1021 UCUAUCUA CUGAUGAG GCCGUUAGGC CGAA IAGUAGAG 4814
1004 GAUUUAAC A GAGUUUUC 1022 GAAAACUC CUGAUGAG GCCGUUAGGC CGAA IUUAAAUC 4815
1013 GAGUUUUC A GAAUUAGA 1023 UCUAAUUC CUGAUGAG GCCGUUAGGC CGAA IAAAACUC 4816
1026 UAGAAUAC U CAGAAAUG 1024 CAUUUCUG CUGAUGAG GCCGUUAGGC CGAA IUAUUCUA 4817
1028 GAAUACUC A GAAAUGGG 1025 CCCAUUUC CUGAUGAG GCCGUUAGGC CGAA IAGUAUUC 4818
1040 AUGGGAUC A UCGUUCAG 1026 CUGAACGA CUGAUGAG GCCGUUAGGC CGAA IAUCCCAU 4819
1047 CAUCGUUC A GUGUCUCU 1027 AGAGACAC CUGAUGAG GCCGUUAGGC CGAA IAACGAUG 4820
1053 UCAGUGUC U CUCCAAAA 1028 UUUUGGAG CUGAUGAG GCCGUUAGGC CGAA IACACUGA 4821
1055 AGUGUCUC U CCAAAAGC 1029 GCUUUUGG CUGAUGAG GCCGUUAGGC CGAA IAGACACU 4822
1057 UGUCUCUC c AAAAGCAG 1030 CUGCUUUU CUGAUGAG GCCGUUAGGC CGAA IAGAGACA 4823
1058 GUCUCUCC A AAAGCAGA 1031 UCUGCUUU CUGAUGAG GCCGUUAGGC CGAA IGAGAGAC 4824
1064 CCAAAAGC A GAAUCUGC 1032 GCAGAUUC CUGAUGAG GCCGUUAGGC CGAA ICUUUUGG 4825
1070 GCAGAAUC U GCCGUAAU 1033 AUUACGGC CUGAUGAG GCCGUUAGGC CGAA IAUUCUGC 4826
1073 GAAUCUGC c GUAAUAGU 1034 ACUAUUAC CUGAUGAG GCCGUUAGGC CGAA ICAGAUUC 4827
1085 AUAGUAGC A AAUCCUAG 1035 CUAGGAUU CUGAUGAG GCCGUUAGGC CGAA ICUACUAU 4828
1090 AGCAAAUC C UAGGGAAG 1036 CUUCCCUA CUGAUGAG GCCGUUAGGC CGAA IAUUUGCU 4829
1091 GCAAAUCC U AGGGAAGA 1037 UCUUCCCU CUGAUGAG GCCGUUAGGC CGAA IGAUUUGC 4830
1149 GUAAUAAC A UCCUUCAU 1038 AUGAAGGA CUGAUGAG GCCGUUAGGC CGAA IUUAUUAC 4831
1152 AUAACAUC C UUCAUAAU 1039 AUUAUGAA CUGAUGAG GCCGUUAGGC CGAA lAUGUUAU 4832
1153 UAACAUCC U UCAUAAUC 1040 GAUUAUGA CUGAUGAG GCCGUUAGGC CGAA IGAUGUUA 4833
1156 CAUCCUUC A UAAUCAAC 1041 GUUGAUUA CUGAUGAG GCCGUUAGGC CGAA IAAGGAUG 4834
1162 UCAUAAUC A ACAAGAGU 1042 ACUCUUGU CUGAUGAG GCCGUUAGGC CGAA lAUUAUGA 4835
1165 UAAUCAAC A AGAGUUAC 1043 GUAACUCU CUGAUGAG GCCGUUAGGC CGAA IUUGAUUA 4836
1174 AGAGUUAC C UACAGCUC 1044 GAGCUGUA CUGAUGAG GCCGUUAGGC CGAA IUAACUCU 4837
1175 GAGUUACC U ACAGCUCU 1045 AGAGCUGU CUGAUGAG GCCGUUAGGC CGAA IGUAACUC 4838
1178 UUACCUAC A GCUCUUAC 1046 GUAAGAGC CUGAUGAG GCCGUUAGGC CGAA IUAGGUAA 4839
1181 CCUACAGC U CUUACUAA 1047 UUAGUAAG CUGAUGAG GCCGUUAGGC CGAA ICUGUAGG 4840
1183 UACAGCUC U UACUAAAU 1048 AUUUAGUA CUGAUGAG GCCGUUAGGC CGAA lAGCUGUA 4841
1187 GCUCUUAC U AAAUUGGU 1049 ACCAAUUU CUGAUGAG GCCGUUAGGC CGAA IUAAGAGC 4842
1217 GUUGUGUC U UCAGAAAA 1050 UUUUCUGA CUGAUGAG GCCGUUAGGC CGAA IACACAAC 4843
1220 GUGUCUUC A GAAAAAGC 1051 GCUUUUUC CUGAUGAG GCCGUUAGGC CGAA IAAGACAC 4844
1229 GAAAAAGC A AAAGACAG 1052 CUGUCUUU CUGAUGAG GCCGUUAGGC CGAA ICUUUUUC 4845
1236 CAAAAGAC A GUUUUAAU 1053 AUUAAAAC CUGAUGAG GCCGUUAGGC CGAA IUCUUUUG 4846
1259 AGAGUUGC A GUGGAAGC 1054 GCUUCCAC CUGAUGAG GCCGUUAGGC CGAA ICAACUCU 4847
1268 GUGGAAGC U CCUAUGAG 1055 CUCAUAGG CUGAUGAG GCCGUUAGGC CGAA ICUUCCAC 4848
1270 GGAAGCUC C UAUGAGGG 1056 CCCUCAUA CUGAUGAG GCCGUUAGGC CGAA IAGCUUCC 4849
1271 GAAGCUCC U AUGAGGGA 1057 UCCCUCAU CUGAUGAG GCCGUUAGGC CGAA IGAGCUUC 4850
1289 GAAUAUGC A GACUUCAA 1058 UUGAAGUC CUGAUGAG GCCGUUAGGC CGAA ICAUAUUC 4851
1293 AUGCAGAC U UCAAACCA 1059 UGGUUUGA CUGAUGAG GCCGUUAGGC CGAA IUCUGCAU 4852
1296 CAGACUUC A AACCAUUU 1060 AAAUGGUU CUGAUGAG GCCGUUAGGC CGAA IAAGUCUG 4853
1300 CUUCAAAC C AUUUGAGC 1061 GCUCAAAU CUGAUGAG GCCGUUAGGC CGAA IUUUGAAG 4854
1301 UUCAAACC A UUUGAGCG 1062 CGCUCAAA CUGAUGAG GCCGUUAGGC CGAA IGUUUGAA 4855
1355 AUGUUGGC U GCUGGAGG 1063 CCUCCAGC CUGAUGAG GCCGUUAGGC CGAA ICCAACAU 4856
1358 UUGGCUGC U GGAGGUAA 1064 UUACCUCC CUGAUGAG GCCGUUAGGC CGAA ICAGCCAA 4857
1377 UCGAGAGC A ACUUGGAA 1065 UUCCAAGU CUGAUGAG GCCGUUAGGC CGAA ICUCUCGA 4858
1380 AGAGCAAC U UGGAAAGU 1066 ACUUUCCA CUGAUGAG GCCGUUAGGC CGAA IUUGCUCU 4859
1412 UGUUUUGC A GAUAGCCU 1067 AGGCUAUC CUGAUGAG GCCGUUAGGC CGAA ICAAAACA 4860
1419 CAGAUAGC C UUGAGCAA 1068 UUGCUCAA CUGAUGAG GCCGUUAGGC CGAA ICUAUCUG 4861
1420 AGAUAGCC U UGAGCAAA 1069 UUUGCUCA CUGAUGAG GCCGUUAGGC CGAA IGCUAUCU 4862
1426 CCUUGAGC A AACUAAUC 1070 GAUUAGUU CUGAUGAG GCCGUUAGGC CGAA ICUCAAGG 4863
1430 GAGCAAAC U AAUCACGA 1071 UCGUGAUU CUGAUGAG GCCGUUAGGC CGAA IUUUGCUC 4864
1435 AACUAAUC A CGAAAAAG 1072 CUUUUUCG CUGAUGAG GCCGUUAGGC CGAA IAUUAGUU 4865
1469 GAUGAUAC U UCUUUCCC 1073 GGGAAAGA CUGAUGAG GCCGUUAGGC CGAA IUAUCAUC 4866
1472 GAUACUUC U UUCCCCAG 1074 CUGGGGAA CUGAUGAG GCCGUUAGGC CGAA IAAGUAUC 4867
1476 CUUCUUUC c CCAGUACG 1075 CGUACUGG CUGAUGAG GCCGUUAGGC CGAA IAAAGAAG 4868
1477 UUCUUUCC c CAGUACGC 1076 GCGUACUG CUGAUGAG GCCGUUAGGC CGAA IGAAAGAA 4869
1478 UCUUUCCC c AGUACGCC 1077 GGCGUACU CUGAUGAG GCCGUUAGGC CGAA IGGAAAGA 4870
1479 CUUUCCCC A GUACGCCA 1078 UGGCGUAC CUGAUGAG GCCGUUAGGC CGAA IGGGAAAG 4871
1486 CAGUACGC C AGAAGGUA 1079 UACCUUCU CUGAUGAG GCCGUUAGGC CGAA ICGUACUG 4872
1487 AGUACGCC A GAAGGUAU 1080 AUACCUUC CUGAUGAG GCCGUUAGGC CGAA IGCGUACU 4873
1508 GAUCGUUC A GGAGCAUA 1081 UAUGCUCC CUGAUGAG GCCGUUAGGC CGAA IAACGAUC 4874
1514 UCAGGAGC A UAUAUCAC 1082 GUGAUAUA CUGAUGAG GCCGUUAGGC CGAA ICUCCUGA 4875
1521 CAUAUAUC A CAUGUGCU 1083 AGCAGAUG CUGAUGAG GCCGUUAGGC CGAA IAUAUAUG 4876
1523 UAUAUCAC A UGUGCUCC 1084 GGAGCACA CUGAUGAG GCCGUUAGGC CGAA IUGAUAUA 4877
1529 ACAUGUGC U CCCUUUAA 1085 UUAAAGGG CUGAUGAG GCCGUUAGGC CGAA ICACAUGU 4878
1531 AUGUGCUC C CUUUAACC 1086 GGUUAAAG CUGAUGAG GCCGUUAGGC CGAA IAGCACAU 4879
1532 UGUGCUCC C UUUAACCC 1087 GGGUUAAA CUGAUGAG GCCGUUAGGC CGAA IGAGCACA 4880
1533 GUGCUCCC U UUAACCCA 1088 UGGGUUAA CUGAUGAG GCCGUUAGGC CGAA IGGAGCAC 4881
1539 CCUUUAAC C CAGCAGCA 1089 UGCUGCUG CUGAUGAG GCCGUUAGGC CGAA IUUAAAGG 4882
1540 CUUUAACC C AGCAGCAA 1090 UUGCUGCU CUGAUGAG GCCGUUAGGC CGAA IGUUAAAG 4883
1541 UUUAACCC A GCAGCAAC 1091 GUUGCUGC CUGAUGAG GCCGUUAGGC CGAA IGGUUAAA 4884
1544 AACCCAGC A GCAACUGA 1092 UCAGUUGC CUGAUGAG GCCGUUAGGC CGAA ICUGGGUU 4885
1547 CCAGCAGC A ACUGAGAG 1093 CUCUCAGU CUGAUGAG GCCGUUAGGC CGAA ICUGCUGG 4886
1550 GCAGCAAC U GAGAGCAU 1094 AUGCUCUC CUGAUGAG GCCGUUAGGC CGAA IUUGCUGC 4887
1557 CUGAGAGC A UUGCAACA 1095 UGUUGCAA CUGAUGAG GCCGUUAGGC CGAA ICUCUCAG 4888
1562 AGCAUUGC A ACAAACAU 1096 AUGUUUGU CUGAUGAG GCCGUUAGGC CGAA ICAAUGCU 4889
1565 AUUGCAAC A AACAUUUU 1097 AAAAUGUU CUGAUGAG GCCGUUAGGC CGAA IUUGCAAU 4890
1569 CAACAAAC A UUUUUCCU 1098 AGGAAAAA CUGAUGAG GCCGUUAGGC CGAA IUUUGUUG 4891
1576 CAUUUUUC C UUUGUUAG 1099 CUAACAAA CUGAUGAG GCCGUUAGGC CGAA IAAAAAUG 4892
1577 AUUUUUCC U UUGUUAGG 1100 CCUAACAA CUGAUGAG GCCGUUAGGC CGAA IGAAAAAU 4893
1591 AGGAGAUC C UACUUCAG 1101 CUGAAGUA CUGAUGAG GCCGUUAGGC CGAA IAUCUCCU 4894
1592 GGAGAUCC U ACUUCAGA 1102 UCUGAAGU CUGAUGAG GCCGUUAGGC CGAA IGAUCUCC 4895
1595 GAUCCUAC U UCAGAAAA 1103 UUUUCUGA CUGAUGAG GCCGUUAGGC CGAA IUAGGAUC 4896
1598 CCUACUUC A GAAAAUAA 1104 UUAUUUUC CUGAUGAG GCCGUUAGGC CGAA IAAGUAGG 4897
1610 AAUAAGAC C GAUGAAAA 1105 UUUUCAUC CUGAUGAG GCCGUUAGGC CGAA IUCUUAUU 4898
1640 AAGAAGGC C CAAAUAGU 1106 ACUAUUUG CUGAUGAG GCCGUUAGGC CGAA ICCUUCUU 4899
1641 AGAAGGCC C AAAUAGUA 1107 UACUAUUU CUGAUGAG GCCGUUAGGC CGAA IGCCUUCU 4900
1642 GAAGGCCC A AAUAGUAA 1108 UUACUAUU CUGAUGAG GCCGUUAGGC CGAA IGGCCUUC 4901
1652 AUAGUAAC A GAGAAGAA 1109 UUCUUCUC CUGAUGAG GCCGUUAGGC CGAA IUUACUAU 4902
1664 AAGAAUAC U AGCACCAA 1110 UUGGUGCU CUGAUGAG GCCGUUAGGC CGAA IUAUUCUU 4903
1668 AUACUAGC A CCAAAACA 1111 UGUUUUGG CUGAUGAG GCCGUUAGGC CGAA ICUAGUAU 4904
1670 ACUAGCAC C AAAACAUC 1112 GAUGUUUU CUGAUGAG GCCGUUAGGC CGAA IUGCUAGU 4905
1671 CUAGCACC A AAACAUCA 1113 UGAUGUUU CUGAUGAG GCCGUUAGGC CGAA IGUGCUAG 4906
1676 ACCAAAAC A UCAAACCC 1114 GGGUUUGA CUGAUGAG GCCGUUAGGC CGAA IUUUUGGU 4907
1679 AAAACAUC A AACCCUUU 1115 AAAGGGUU CUGAUGAG GCCGUUAGGC CGAA lAUGUUUU 4908
1683 CAUCAAAC C CUUUUCUU 1116 AAGAAAAG CUGAUGAG GCCGUUAGGC CGAA IUUUGAUG 4909
1684 AUCAAACC C UUUUCUUG 1117 CAAGAAAA CUGAUGAG GCCGUUAGGC CGAA IGUUUGAU 4910
1685 UCAAACCC U UUUCUUGU 1118 ACAAGAAA CUGAUGAG GCCGUUAGGC CGAA IGGUUUGA 4911
1690 CCCUUUUC u UGUAGCAG 1119 CUGCUACA CUGAUGAG GCCGUUAGGC CGAA IAAAAGGG 4912
1697 CUUGUAGC A GCACAGGA 1120 UCCUGUGC CUGAUGAG GCCGUUAGGC CGAA ICUACAAG 4913
1700 GUAGCAGC A CAGGAUUC 1121 GAAUCCUG CUGAUGAG GCCGUUAGGC CGAA ICUGCUAC 4914
1702 AGCAGGAC A GGAUUCUG 1122 CAGAAUCC CUGAUGAG GCCGUUAGGC CGAA IUGCUGCU 4915
1709 CAGGAUUC U GAGACAGA 1123 UCUGUCUC CUGAUGAG GCCGUUAGGC CGAA IAAUCCUG 4916
1715 UCUGAGAC A GAUUAUGU 1124 ACAUAAUC CUGAUGAG GCCGUUAGGC CGAA IUCUCAGA 4917
1725 AUUAUGUC A CAACAGAU 1125 AUCUGUUG CUGAUGAG GCCGUUAGGC CGAA IACAUAAU 4918
1727 UAUGUCAC A ACAGAUAA 1126 UUAUCUGU CUGAUGAG GCCGUUAGGC CGAA IUGACAUA 4919
1730 GUCACAAC A GAUAAUUU 1127 AAAUUAUC CUGAUGAG GCCGUUAGGC CGAA IUUGUGAC 4920
1742 AAUUUAAC A AAGGUGAC 1128 GUCACCUU CUGAUGAG GCCGUUAGGC CGAA IUUAAAUU 4921
1751 AAGGUGAC U GAGGAAGU 1129 ACUUCCUC CUGAUGAG GCCGUUAGGC CGAA IUCACCUU 4922
1766 GUCGUGGC A AACAUGCC 1130 GGCAUGUU CUGAUGAG GCCGUUAGGC CGAA ICCACGAC 4923
1770 UGGCAAAC A UGCCUGAA 1131 UUCAGGCA CUGAUGAG GCCGUUAGGC CGAA IUUUGCCA 4924
1774 AAACAUGC C UGAAGGCC 1132 GGCCUUCA CUGAUGAG GCCGUUAGGC CGAA ICAUGUUU 4925
1775 AACAUGCC U GAAGGCCU 1133 AGGCCUUC CUGAUGAG GCCGUUAGGC CGAA IGCAUGUU 4926
1782 CUGAAGGC C UGACUCCA 1134 UGGAGUCA CUGAUGAG GCCGUUAGGC CGAA ICCUUCAG 4927
1783 UGAAGGCC U GACUCCAG 1135 CUGGAGUC CUGAUGAG GCCGUUAGGC CGAA IGCCUUCA 4928
1787 GGCCUGAC U CCAGAUUU 1136 AAAUCUGG CUGAUGAG GCCGUUAGGC CGAA IUCAGGCC 4929
1789 CCUGACUC c AGAUUUAG 1137 CUAAAUCU CUGAUGAG GCCGUUAGGC CGAA IAGUCAGG 4930
1790 CUGACUCC A GAUUUAGU 1138 ACUAAAUC CUGAUGAG GCCGUUAGGC CGAA IGAGUCAG 4931
1801 UUUAGUAC A GGAAGCAU 1139 AUGCUUCC CUGAUGAG GCCGUUAGGC CGAA lUACUAAA 4932
1808 CAGGAAGC A UGUGAAAG 1140 CUUUCACA CUGAUGAG GCCGUUAGGC CGAA ICUUCCUG 4933
1835 GAAGUUAC U GGUACAAA 1141 UUUGUACC CUGAUGAG GCCGUUAGGC CGAA IUAACUUC 4934
1841 ACUGGUAC A AAGAUUGC 1142 GCAAUCUU CUGAUGAG GCCGUUAGGC CGAA IUACCAGU 4935
1850 AAGAUUGC U UAUGAAAC 1143 GUUUCAUA CUGAUGAG GCCGUUAGGC CGAA ICAAUCUU 4936
1859 UAUGAAAC A AAAAUGGA 1144 UCCAUUUU CUGAUGAG GCCGUUAGGC CGAA IUUUCAUA 4937
1869 AAAUGGAC U UGGUUCAA 1145 UUGAACCA CUGAUGAG GCCGUUAGGC CGAA IUCCAUUU 4938
1876 CUUGGUUC A AACAUCAG 1146 CUGAUGUU CUGAUGAG GCCGUUAGGC CGAA IAACCAAG 4939
1880 GUUCAAAC A UCAGAAGU 1147 ACUUCUGA CUGAUGAG GCCGUUAGGC CGAA IUUUGAAC 4940
1883 CAAACAUC A GAAGUUAU 1148 AUAACUUC CUGAUGAG GCCGUUAGGC CGAA IAUGUUUG 4941
1894 AGUUAUGC A AGAGUCAC 1149 GUGACUCU CUGAUGAG GCCGUUAGGC CGAA ICAUAACU 4942
1901 CAAGAGUC A CUCUAUCC 1150 GGAUAGAG CUGAUGAG GCCGUUAGGC CGAA IACUCUUG 4943
1903 AGAGUCAC U CUAUCCUG 1151 CAGGAUAG CUGAUGAG GCCGUUAGGC CGAA IUGACUCU 4944
1905 AGUCACUC U AUCCUGCA 1152 UGCAGGAU CUGAUGAG GCCGUUAGGC CGAA IAGUGACU 4945
1909 ACUCUAUC C UGCAGCAC 1153 GUGCUGCA CUGAUGAG GCCGUUAGGC CGAA IAUAGAGU 4946
1910 CUCUAUCC U GCAGCACA 1154 UGUGCUGC CUGAUGAG GCCGUUAGGC CGAA IGAUAGAG 4947
1913 UAUCCUGC A GCACAGCU 1155 AGCUGUGC CUGAUGAG GCCGUUAGGC CGAA ICAGGAUA 4948
1916 CCUGCAGC A CAGCUUUG 1156 CAAAGCUG CUGAUGAG GCCGUUAGGC CGAA ICUGCAGG 4949
1918 UGCAGCAC A GCUUUGCC 1157 GGCAAAGC CUGAUGAG GCCGUUAGGC CGAA IUGCUGCA 4950
1921 AGCACAGC U UUGCCCAU 1158 AUGGGCAA CUGAUGAG GCCGUUAGGC CGAA ICUGUGCU 4951
1926 AGCUUUGC C CAUCAUUU 1159 AAAUGAUG CUGAUGAG GCCGUUAGGC CGAA ICAAAGCU 4952
1927 GCUUUGCC C AUCAUUUG 1160 CAAAUGAU CUGAUGAG GCCGUUAGGC CGAA IGCAAAGC 4953
1928 CUUUGCCC A UCAUUUGA 1161 UCAAAUGA CUGAUGAG GCCGUUAGGC CGAA IGGCAAAG 4954
1931 UGCCCAUC A UUUGAAGA 1162 UCUUCAAA CUGAUGAG GCCGUUAGGC CGAA IAUGGGCA 4955
1943 GAAGAGUC A GAAGCUAC 1163 GUAGCUUC CUGAUGAG GCCGUUAGGC CGAA IACUCUUC 4956
1949 UCAGAAGC U ACUCCUUC 1164 GAAGGAGU CUGAUGAG GCCGUUAGGC CGAA ICUUCUGA 4957
1952 GAAGCUAC U CCUUCACC 1165 GGUGAAGG CUGAUGAG GCCGUUAGGC CGAA IUAGCUUC 4958
1954 AGCUACUC C UUCACCAG 1166 CUGGUGAA CUGAUGAG GCCGUUAGGC CGAA IAGUAGCU 4959
1955 GCUACUCC U UCACCAGU 1167 ACUGGUGA CUGAUGAG GCCGUUAGGC CGAA IGAGUAGC 4960
1958 ACUCCUUC A CCAGUUUU 1168 AAAACUGG CUGAUGAG GCCGUUAGGC CGAA IAAGGAGU 4961
I960 UCCUUCAC C AGUUUUGC 1169 GCAAAACU CUGAUGAG GCCGUUAGGC CGAA IUGAAGGA 4962
1961 CCUUCACC A GUUUUGCC 1170 GGCAAAAC CUGAUGAG GCCGUUAGGC CGAA IGUGAAGG 4963
1969 AGUUUUGC C UGACAUUG 1171 CAAUGUCA CUGAUGAG GCCGUUAGGC CGAA ICAAAACU 4964
1970 GUUUUGCC U GACAUUGU 1172 ACAAUGUC CUGAUGAG GCCGUUAGGC CGAA IGCAAAAC 4965
1974 UGCCUGAC A UUGUUAUG 1173 CAUAACAA CUGAUGAG GCCGUUAGGC CGAA IUCAGGCA 4966
1988 AUGGAAGC A CCAUUGAA 1174 UUCAAUGG CUGAUGAG GCCGUUAGGC CGAA ICUUCCAU 4967
1990 GGAAGCAC C AUUGAAUU 1175 AAUUCAAU CUGAUGAG GCCGUUAGGC CGAA IUGCUUCC 4968
1991 GAAGCACC A UUGAAUUC 1176 GAAUUCAA CUGAUGAG GCCGUUAGGC CGAA IGUGCUUC 4969
2000 UUGAAUUC U GCAGUUCC 1177 GGAACUGC CUGAUGAG GCCGUUAGGC CGAA IAAUUCAA 4970
2003 AAUUCUGC A GUUCCUAG 1178 CUAGGAAC CUGAUGAG GCCGUUAGGC CGAA ICAGAAUU 4971
2008 UGCAGUUC C UAGUGCUG 1179 CAGCACUA CUGAUGAG GCCGUUAGGC CGAA IAACUGCA 4972
2009 GCAGUUCC U AGUGCUGG 1180 CCAGCACU CUGAUGAG GCCGUUAGGC CGAA IGAACUGC 4973
2015 CCUAGUGC u GGUGCUUC 1181 GAAGCACC CUGAUGAG GCCGUUAGGC CGAA ICACUAGG 4974
2021 GCUGGUGC u UCCGUGAU 1182 AUCACGGA CUGAUGAG GCCGUUAGGC CGAA ICACCAGC 4975
2024 GGUGCUUC c GUGAUACA 1183 UGUAUCAC CUGAUGAG GCCGUUAGGC CGAA IAAGCACC 4976
2032 CGUGAUAC A GCCCAGCU 1184 AGCUGGGC CUGAUGAG GCCGUUAGGC CGAA IUAUCACG 4977
2035 GAUACAGC C CAGCUCAU 1185 AUGAGCUG CUGAUGAG GCCGUUAGGC CGAA ICUGUAUC 4978
2036 AUACAGCC C AGCUCAUC 1186 GAUGAGCU CUGAUGAG GCCGUUAGGC CGAA IGCUGUAU 4979
2037 UACAGCCC A GCUCAUCA 1187 UGAUGAGC CUGAUGAG GCCGUUAGGC CGAA IGGCUGUA 4980
2040 AGCCCAGC U CAUCACCA 1188 UGGUGAUG CUGAUGAG GCCGUUAGGC CGAA ICUGGGCU 4981
2042 CCCAGCUC A UCACCAUU 1189 AAUGGUGA CUGAUGAG GCCGUUAGGC CGAA IAGCUGGG 4982
2045 AGCUCAUC A CCAUUAGA 1190 UCUAAUGG CUGAUGAG GCCGUUAGGC CGAA lAUGAGCU 4983
2047 CUCAUCAC C AUUAGAAG 1191 CUUCUAAU CUGAUGAG GCCGUUAGGC CGAA IUGAUGAG 4984
2048 UCAUCACC A UUAGAAGC 1192 GCUUCUAA CUGAUGAG GCCGUUAGGC CGAA IGUGAUGA 4985
2057 UUAGAAGC U UCUUCAGU 1193 ACUGAAGA CUGAUGAG GCCGUUAGGC CGAA ICUUCUAA 4986
2060 GAAGCUUC U UCAGUUAA 1194 UUAACUGA CUGAUGAG GCCGUUAGGC CGAA IAAGCUUC 4987
2063 GCUUCUUC A GUUAAUUA 1195 UAAUUAAC CUGAUGAG GCCGUUAGGC CGAA IAAGAAGC 4988
2079 AUGAAAGC A UAAAACAU 1196 AUGUUUUA CUGAUGAG GCCGUUAGGC CGAA ICUUUCAU 4989
2086 CAUAAAAC A UGAGCCUG 1197 CAGGCUCA CUGAUGAG GCCGUUAGGC CGAA IUUUUAUG 4990
2092 ACAUGAGC C UGAAAACC 1198 GGUUUUCA CUGAUGAG GCCGUUAGGC CGAA ICUCAUGU 4991
2093 CAUGAGCC U GAAAACCC 1199 GGGUUUUC CUGAUGAG GCCGUUAGGC CGAA IGCUCAUG 4992
2100 CUGAAAAC C CCCCACCA 1200 UGGUGGGG CUGAUGAG GCCGUUAGGC CGAA IUUUUCAG 4993
2101 UGAAAACC c CCCACCAU 1201 AUGGUGGG CUGAUGAG GCCGUUAGGC CGAA IGUUUUCA 4994
2102 GAAAACCC c CCACCAUA 1202 UAUGGUGG CUGAUGAG GCCGUUAGGC CGAA IGGUUUUC 4995
2103 AAAACCCC c CACCAUAU 1203 AUAUGGUG CUGAUGAG GCCGUUAGGC CGAA IGGGUUUU 4996
2104 AAACCCCC c ACCAUAUG 1204 CAUAUGGU CUGAUGAG GCCGUUAGGC CGAA IGGGGUUU 4997
2105 AACCCCCC A CCAUAUGA 1205 UCAUAUGG CUGAUGAG GCCGUUAGGC CGAA IGGGGGUU 4998
2107 CCCCCCAC C AUAUGAAG 1206 CUUCAUAU CUGAUGAG GCCGUUAGGC CGAA IUGGGGGG 4999
2108 CCCCCACC A UAUGAAGA 1207 UCUUCAUA CUGAUGAG GCCGUUAGGC CGAA IGUGGGGG 5000
2120 GAAGAGGC C AUGAGUGU 1208 ACACUCAU CUGAUGAG GCCGUUAGGC CGAA ICCUCUUC 5001
2121 AAGAGGCC A UGAGUGUA 1209 UACACUCA CUGAUGAG GCCGUUAGGC CGAA IGCCUCUU 5002
2132 AGUGUAUC A CUAAAAAA 1210 UUUUUUAG CUGAUGAG GCCGUUAGGC CGAA IAUACACU 5003
2134 UGUAUCAC U AAAAAAAG 1211 CUUUUUUU CUGAUGAG GCCGUUAGGC CGAA IUGAUACA 5004
2147 AAAGUAUC A GGAAUAAA 1212 UUUAUUCC CUGAUGAG GCCGUUAGGC CGAA IAUACUUU 5005
2173 UAAAGAGC C UGAAAAUA 1213 UAUUUUCA CUGAUGAG GCCGUUAGGC CGAA ICUCUUUA 5006
2174 AAAGAGCC U GAAAAUAU 1214 AUAUUUUC CUGAUGAG GCCGUUAGGC CGAA IGCUCUUU 5007
2189 AUUAAUGC A GCUCUUCA 1215 UGAAGAGC CUGAUGAG GCCGUUAGGC CGAA ICAUUAAU 5008
2192 AAUGCAGC U CUUCAAGA 1216 UCUUGAAG CUGAUGAG GCCGUUAGGC CGAA ICUGCAUU 5009
2194 UGCAGCUC u UCAAGAAA 1217 UUUCUUGA CUGAUGAG GCCGUUAGGC CGAA IAGCUGCA 5010
2197 AGCUCUUC A AGAAACAG 1218 CUGUUUCU CUGAUGAG GCCGUUAGGC CGAA IAAGAGCU 5011
2204 CAAGAAAC A GAAGCUCC 1219 GGAGCUUC CUGAUGAG GCCGUUAGGC CGAA IUUUCUUG 5012
2210 ACAGAAGC U CCUUAUAU 1220 AUAUAAGG CUGAUGAG GCCGUUAGGC CGAA ICUUCUGU 5013
2212 AGAAGCUC c UUAUAUAU 1221 AUAUAUAA CUGAUGAG GCCGUUAGGC CGAA IAGCUUCU 5014
2213 GAAGCUCC u UAUAUAUC 1222 GAUAUAUA CUGAUGAG GCCGUUAGGC CGAA IGAGCUUC 5015
2222 UAUAUAUC u AUUGCAUG 1223 CAUGCAAU CUGAUGAG GCCGUUAGGC CGAA IAUAUAUA 5016
2228 UCUAUUGC A UGUGAUUU 1224 AAAUCACA CUGAUGAG GCCGUUAGGC CGAA ICAAUAGA 5017
2249 AAAGAAAC A AAGCUUUC 1225 GAAAGCUU CUGAUGAG GCCGUUAGGC CGAA IUUUCUUU 5018
2254 AACAAAGC U UUCUGCUG 1226 CAGCAGAA CUGAUGAG GCCGUUAGGC CGAA ICUUUGUU 5019
2258 AAGCUUUC U GCUGAACC 1227 GGUUCAGC CUGAUGAG GCCGUUAGGC CGAA IAAAGCUU 5020
2261 CUUUCUGC U GAACCAGC 1228 GCUGGUUC CUGAUGAG GCCGUUAGGC CGAA ICAGAAAG 5021
2266 UGCUGAAC C AGCUCCGG 1229 CCGGAGCU CUGAUGAG GCCGUUAGGC CGAA IUUCAGCA 5022
2267 GCUGAACC A GCUCCGGA 1230 UCCGGAGC CUGAUGAG GCCGUUAGGC CGAA IGUUCAGC 5023
2270 GAACCAGC U CCGGAUUU 1231 AAAUCCGG CUGAUGAG GCCGUUAGGC CGAA ICUGGUUC 5024
2272 ACCAGCUC C GGAUUUCU 1232 AGAAAUCC CUGAUGAG GCCGUUAGGC CGAA IAGCUGGU 5025
2280 CGGAUUUC U CUGAUUAU 1233 AUAAUCAG CUGAUGAG GCCGUUAGGC CGAA IAAAUCCG 5026
2282 GAUUUCUC U GAUUAUUC 1234 GAAUAAUC CUGAUGAG GCCGUUAGGC CGAA IAGAAAUC 5027
2291 GAUUAUUC A GAAAUGGC 1235 GCCAUUUC CUGAUGAG GCCGUUAGGC CGAA IAAUAAUC 5028
2300 GAAAUGGC A AAAGUUGA 1236 UCAACUUU CUGAUGAG GCCGUUAGGC CGAA ICCAUUUC 5029
2311 AGUUGAAC A GCCAGUGC 1237 GCACUGGC CUGAUGAG GCCGUUAGGC CGAA IUUCAACU 5030
2314 UGAACAGC C AGUGCCUG 1238 CAGGCACU CUGAUGAG GCCGUUAGGC CGAA ICUGUUCA 5031
2315 GAACAGCC A GUGCCUGA 1239 UCAGGCAC CUGAUGAG GCCGUUAGGC CGAA IGCUGUUC 5032
2320 GCCAGUGC C UGAUGAUU 1240 AAUGAUCA CUGAUGAG GCCGUUAGGC CGAA ICACUGGC 5033
2321 CCAGUGCC U GAUCAUUC 1241 GAAUGAUC CUGAUGAG GCCGUUAGGC CGAA IGCACUGG 5034
2326 GCCUGAUC A UUCUGAGC 1242 GCUCAGAA CUGAUGAG GCCGUUAGGC CGAA IAUCAGGC 5035
2330 GAUCAUUC U GAGCUAGU 1243 ACUAGCUC CUGAUGAG GCCGUUAGGC CGAA IAAUGAUC 5036
2335 UUCUGAGC u AGUUGAAG 1244 CUUCAACU CUGAUGAG GCCGUUAGGC CGAA ICUCAGAA 5037
2348 GAAGAUUC c UCACCUGA 1245 UCAGGUGA CUGAUGAG GCCGUUAGGC CGAA IAAUCUUC 5038
2349 AAGAUUCC u CACCUGAU 1246 AUCAGGUG CUGAUGAG GCCGUUAGGC CGAA IGAAUCUU 5039
2351 GAUUCCUC A CCUGAUUC 1247 GAAUCAGG CUGAUGAG GCCGUUAGGC CGAA IAGGAAUC 5040
2353 UUCCUCAC C UGAUUCUG 1248 CAGAAUCA CUGAUGAG GCCGUUAGGC CGAA IUGAGGAA 5041
2354 UCCUCACC U GAUUCUGA 1249 UCAGAAUC CUGAUGAG GCCGUUAGGC CGAA IGUGAGGA 5042
2360 CCUGAUUC U GAACCAGU 1250 ACUGGUUC CUGAUGAG GCCGUUAGGC CGAA IAAUCAGG 5043
2365 UUCUGAAC C AGUUGACU 1251 AGUCAACU CUGAUGAG GCCGUUAGGC CGAA lUUCAGAA 5044
2366 UCUGAACC A GUUGACUU 1252 AAGUCAAC CUGAUGAG GCCGUUAGGC CGAA IGUUCAGA 5045
2373 CAGUUGAC U UAUUUAGU 1253 ACUAAAUA CUGAUGAG GCCGUUAGGC CGAA IUCAACUG 5046
2390 GAUGAUUC A AUACCUGA 1254 UCAGGUAU CUGAUGAG GCCGUUAGGC CGAA IAAUCAUC 5047
2395 UUCAAUAC C UGACGUUC 1255 GAACGUCA CUGAUGAG GCCGUUAGGC CGAA IUAUUGAA 5048
2396 UCAAUACC U GACGUUCC 1256 GGAACGUC CUGAUGAG GCCGUUAGGC CGAA IGUAUUGA 5049
2404 UGACGUUC C ACAAAAAC 1257 GUUUUUGU CUGAUGAG GCCGUUAGGC CGAA IAACGUCA 5050
2405 GACGUUCC A CAAAAACA 1258 UGUUUUUG CUGAUGAG GCCGUUAGGC CGAA IGAACGUC 5051
2407 CGUUCCAC A AAAACAAG 1259 CUUGUUUU CUGAUGAG GCCGUUAGGC CGAA IUGGAACG 5052
2413 ACAAAAAC A AGAUGAAA 1260 UUUCAUCU CUGAUGAG GCCGUUAGGC CGAA IUUUUUGU 5053
2423 GAUGAAAC U GUGAUGCU 1261 AGCAUCAC CUGAUGAG GCCGUUAGGC CGAA IUUUCAUC 5054
2431 UGUGAUGC U UGUGAAAG 1262 CUUUCACA CUGAUGAG GCCGUUAGGC CGAA ICAUCACA 5055
2446 AGAAAGUC U CACUGAGA 1263 UCUCAGUG CUGAUGAG GCCGUUAGGC CGAA lACUUUCU 5056
2448 AAAGUCUC A CUGAGACU 1264 AGUCUCAG CUGAUGAG GCCGUUAGGC CGAA lAGACUUU 5057
2450 AGUCUCAC U GAGACUUC 1265 GAAGUCUC CUGAUGAG GCCGUUAGGC CGAA IUGAGACU 5058
2456 ACUGAGAC U UCAUUUGA 1266 UCAAAUGA CUGAUGAG GCCGUUAGGC CGAA IUCUCAGU 5059
2459 GAGACUUC A UUUGAGUC 1267 GACUCAAA CUGAUGAG GCCGUUAGGC CGAA IAAGUCUC 5060
2468 UUUGAGUC A AUGAUAGA 1268 UCUAUCAU CUGAUGAG GCCGUUAGGC CGAA IACUCAAA 5061
2497 GGAAAAAC U CAGUGCUU 1269 AAGCACUG CUGAUGAG GCCGUUAGGC CGAA IUUUUUCC 5062
2499 AAAAACUC A GUGCUUUG 1270 CAAAGCAC CUGAUGAG GCCGUUAGGC CGAA IAGUUUUU 5063
2504 CUCAGUGC U UUGCCACC 1271 GGUGGCAA CUGAUGAG GCCGUUAGGC CGAA ICACUGAG 5064
2509 UGCUUUGC C ACCUGAGG 1272 CCUCAGGU CUGAUGAG GCCGUUAGGC CGAA ICAAAGCA 5065
2510 GCUUUGCC A CCUGAGGG 1273 CCCUCAGG CUGAUGAG GCCGUUAGGC CGAA IGCAAAGC 5066
2512 UUUGCCAC C UGAGGGAG 1274 CUCCCUCA CUGAUGAG GCCGUUAGGC CGAA IUGGCAAA 5067
2513 UUGCCACC U GAGGGAGG 1275 CCUCCCUC CUGAUGAG GCCGUUAGGC CGAA IGUGGCAA 5068
2527 AGGAAAGC C AUAUUUGG 1276 CCAAAUAU CUGAUGAG GCCGUUAGGC CGAA ICUUUCCU 5069
2528 GGAAAGCC A UAUUUGGA 1277 UCCAAAUA CUGAUGAG GCCGUUAGGC CGAA IGCUUUCC 5070
2540 UUGGAAUC U UUUAAGCU 1278 AGCUUAAA CUGAUGAG GCCGUUAGGC CGAA lAUUCCAA 5071
2548 UUUUAAGC U CAGUUUAG 1279 CUAAACUG CUGAUGAG GCCGUUAGGC CGAA ICUUAAAA 5072
2550 UUAAGCUC A GUUUAGAU 1280 AUCUAAAC CUGAUGAG GCCGUUAGGC CGAA lAGCUUAA 5073
2562 UAGAUAAC A CAAAAGAU 1281 AUCUUUUG CUGAUGAG GCCGUUAGGC CGAA lUUAUCUA 5074
2564 GAUAACAC A AAAGAUAC 1282 GUAUCUUU CUGAUGAG GCCGUUAGGC CGAA IUGUUAUC 5075
2573 AAAGAUAC C CUGUUACC 1283 GGUAACAG CUGAUGAG GCCGUUAGGC CGAA IUAUCUUU 5076
2574 AAGAUACC C UGUUACCU 1284 AGGUAACA CUGAUGAG GCCGUUAGGC CGAA IGUAUCUU 5077
2575 AGAUACCC U GUUACCUG 1285 CAGGUAAC CUGAUGAG GCCGUUAGGC CGAA IGGUAUCU 5078
2581 CCUGUUAC C UGAUGAAG 1286 CUUCAUCA CUGAUGAG GCCGUUAGGC CGAA IUAACAGG 5079
2582 CUGUUACC U GAUGAAGU 1287 ACUUCAUC CUGAUGAG GCCGUUAGGC CGAA IGUAACAG 5080
2594 GAAGUUUC A ACAUUGAG 1288 CUCAAUGU CUGAUGAG GCCGUUAGGC CGAA IAAACUUC 5081
2597 GUUUCAAC A UUGAGCAA 1289 UUGCUCAA CUGAUGAG GCCGUUAGGC CGAA IUUGAAAC 5082
2604 CAUUGAGC A AAAAGGAG 1290 CUCCUUUU CUGAUGAG GCCGUUAGGC CGAA ICUCAAUG 5083
2620 GAAAAUUC C UUUGCAGA 1291 UCUGCAAA CUGAUGAG GCCGUUAGGC CGAA IAAUUUUC 5084
2621 AAAAUUCC U UUGCAGAU 1292 AUCUGCAA CUGAUGAG GCCGUUAGGC CGAA IGAAUUUU 5085
2626 UCCUUUGC A GAUGGAGG 1293 CCUCCAUC CUGAUGAG GCCGUUAGGC CGAA ICAAAGGA 5086
2638 GGAGGAGC U CAGUACUG 1294 CAGUACUG CUGAUGAG GCCGUUAGGC CGAA ICUCCUCC 5087
2640 AGGAGCUC A GUACUGCA 1295 UGCAGUAC CUGAUGAG GCCGUUAGGC CGAA IAGCUCCU 5088
2645 CUCAGUAC U GCAGUUUA 1296 UAAACUGC CUGAUGAG GCCGUUAGGC CGAA IUACUGAG 5089
2648 AGUACUGC A GUUUAUUC 1297 GAAUAAAC CUGAUGAG GCCGUUAGGC CGAA ICAGUACU 5090
2657 GUUUAUUC A AAUGAUGA 1298 UCAUCAUU CUGAUGAG GCCGUUAGGC CGAA IAAUAAAC 5091
2667 AUGAUGAC U UAUUUAUU 1299 AAUAAAUA CUGAUGAG GCCGUUAGGC CGAA lUCAUCAU 5092
2678 UUUAUUUC U AAGGAAGC 1300 GCUUCCUU CUGAUGAG GCCGUUAGGC CGAA IAAAUAAA 5093
2687 AAGGAAGC A CAGAUAAG 1301 CUUAUCUG CUGAUGAG GCCGUUAGGC CGAA ICUUCCUU 5094
2689 GGAAGCAC A GAUAAGAG 1302 CUCUUAUC CUGAUGAG GCCGUUAGGC CGAA IUGCUUCC 5095
2702 AGAGAAAC U GAAACGUU 1303 AACGUUUC CUGAUGAG GCCGUUAGGC CGAA IUUUCUCU 5096
2714 ACGUUUUC A GAUUCAUC 1304 GAUGAAUC CUGAUGAG GCCGUUAGGC CGAA IAAAACGU 5097
2720 UCAGAUUC A UCUCCAAU 1305 AUUGGAGA CUGAUGAG GCCGUUAGGC CGAA lAAUCUGA 5098
2723 GAUUCAUC U CCAAUUGA 1306 UCAAUUGG CUGAUGAG GCCGUUAGGC CGAA IAUGAAUC 5099
2725 UUCAUCUC c AAUUGAAA 1307 UUUCAAUU CUGAUGAG GCCGUUAGGC CGAA IAGAUGAA 5100
2726 UCAUCUCC A AUUGAAAU 1308 AUUUCAAU CUGAUGAG GCCGUUAGGC CGAA IGAGAUGA 5101
2748 AUGAGUUC C CUACAUUG 1309 CAAUGUAG CUGAUGAG GCCGUUAGGC CGAA IAACUCAU 5102
2749 UGAGUUCC C UACAUUGA 1310 UCAAUGUA CUGAUGAG GCCGUUAGGC CGAA IGAACUCA 5103
2750 GAGUUCCC U ACAUUGAU 1311 AUCAAUGU CUGAUGAG GCCGUUAGGC CGAA IGGAACUC 5104
2753 UUCCCUAC A UUGAUCAG 1312 CUGAUCAA CUGAUGAG GCCGUUAGGC CGAA IUAGGGAA 5105
2760 CAUUGAUC A GUUCUAAA 1313 UUUAGAAC CUGAUGAG GCCGUUAGGC CGAA IAUCAAUG 5106
2765 AUCAGUUC U AAAACUGA 1314 UCAGUUUU CUGAUGAG GCCGUUAGGC CGAA IAACUGAU 5107
2771 UCUAAAAC U GAUUCAUU 1315 AAUGAAUC CUGAUGAG GCCGUUAGGC CGAA lUUUUAGA 5108
2777 ACUGAUUC A UUUUCUAA 1316 UUAGAAAA CUGAUGAG GCCGUUAGGC CGAA IAAUCAGU 5109
2783 UCAUUUUC U AAAUUAGC 1317 GCUAAUUU CUGAUGAG GCCGUUAGGC CGAA IAAAAUGA 5110
2792 AAAUUAGC C AGGGAAUA 1318 UAUUCCCU CUGAUGAG GCCGUUAGGC CGAA ICUAAUUU 5111
2793 AAUUAGCC A GGGAAUAU 1319 AUAUUCCC CUGAUGAG GCCGUUAGGC CGAA IGCUAAUU 5112
2804 GAAUAUAC U GACCUAGA 1320 UCUAGGUC CUGAUGAG GCCGUUAGGC CGAA IUAUAUUC 5113
2808 AUACUGAC C UAGAAGUA 1321 UACUUCUA CUGAUGAG GCCGUUAGGC CGAA IUCAGUAU 5114
2809 UACUGACC U AGAAGUAU 1322 AUACUUCU CUGAUGAG GCCGUUAGGC CGAA IGUCAGUA 5115
2819 GAAGUAUC C CACAAAAG 1323 CUUUUGUG CUGAUGAG GCCGUUAGGC CGAA IAUACUUC 5116
2820 AAGUAUCC C ACAAAAGU 1324 ACUUUUGU CUGAUGAG GCCGUUAGGC CGAA IGAUACUU 5117
2821 AGUAUCCC A CAAAAGUG 1325 CACUUUUG CUGAUGAG GCCGUUAGGC CGAA IGGAUACU 5118
2823 UAUCCCAC A AAAGUGAA 1326 UUCACUUU CUGAUGAG GCCGUUAGGC CGAA IUGGGAUA 5119
2837 GAAAUUGC U AAUGCCCC 1327 GGGGCAUU CUGAUGAG GCCGUUAGGC CGAA ICAAUUUC 5120
2843 GCUAAUGC C CCGGAUGG 1328 CCAUCCGG CUGAUGAG GCCGUUAGGC CGAA ICAUUAGC 5121
2844 CUAAUGCC C CGGAUGGA 1329 UCCAUCCG CUGAUGAG GCCGUUAGGC CGAA IGCAUUAG 5122
2845 UAAUGCCC C GGAUGGAG 1330 CUCCAUCC CUGAUGAG GCCGUUAGGC CGAA IGGCAUUA 5123
2855 GAUGGAGC U GGGUCAUU 1331 AAUGACCC CUGAUGAG GCCGUUAGGC CGAA ICUCCAUC 5124
2861 GCUGGGUC A UUGCCUUG 1332 CAAGGCAA CUGAUGAG GCCGUUAGGC CGAA IACCCAGC 5125
2866 GUCAUUGC C UUGCACAG 1333 CUGUGCAA CUGAUGAG GCCGUUAGGC CGAA ICAAUGAC 5126
2867 UCAUUGCC U UGCACAGA 1334 UCUGUGCA CUGAUGAG GCCGUUAGGC CGAA IGCAAUGA 5127
2871 UGCCUUGC A CAGAAUUG 1335 CAAUUCUG CUGAUGAG GCCGUUAGGC CGAA ICAAGGCA 5128
2873 CCUUGCAC A GAAUUGCC 1336 GGCAAUUC CUGAUGAG GCCGUUAGGC CGAA IUGCAAGG 5129
2881 AGAAUUGC C CCAUGACC 1337 GGUCAUGG CUGAUGAG GCCGUUAGGC CGAA ICAAUUCU 5130
2882 GAAUUGCC C CAUGACCU 1338 AGGUCAUG CUGAUGAG GCCGUUAGGC CGAA IGCAAUUC 5131
2883 AAUUGCCC C AUGACCUU 1339 AAGGUCAU CUGAUGAG GCCGUUAGGC CGAA IGGCAAUU 5132
2884 AUUGCCCC A UGACCUUU 1340 AAAGGUCA CUGAUGAG GCCGUUAGGC CGAA IGGGCAAU 5133
2889 CCCAUGAC C UUUCUUUG 1341 CAAAGAAA CUGAUGAG GCCGUUAGGC CGAA IUCAUGGG 5134
2890 CCAUGACC U UUCUUUGA 1342 UCAAAGAA CUGAUGAG GCCGUUAGGC CGAA IGUCAUGG 5135
2894 GACCUUUC U UUGAAGAA 1343 UUCUUCAA CUGAUGAG GCCGUUAGGC CGAA IAAAGGUC 5136
2904 UGAAGAAC A UACAACCC 1344 GGGUUGUA CUGAUGAG GCCGUUAGGC CGAA IUUCUUCA 5137
2908 GAACAUAC A ACCCAAAG 1345 CUUUGGGU CUGAUGAG GCCGUUAGGC CGAA IUAUGUUC 5138
2911 CAUACAAC C CAAAGUUG 1346 CAACUUUG CUGAUGAG GCCGUUAGGC CGAA IUUGUAUG 5139
2912 AUACAACC C AAAGUUGA 1347 UCAACUUU CUGAUGAG GCCGUUAGGC CGAA IGUUGUAU 5140
2913 UACAACCC A AAGUUGAA 1348 UUCAACUU CUGAUGAG GCCGUUAGGC CGAA IGGUUGUA 5141
2931 AGAAAAUC A GUUUCUCA 1349 UGAGAAAC CUGAUGAG GCCGUUAGGC CGAA IAUUUUCU 5142
2937 UCAGUUUC U CAGAUGAC 1350 GUCAUCUG CUGAUGAG GCCGUUAGGC CGAA IAAACUGA 5143
2939 AGUUUCUC A GAUGACUU 1351 AAGUCAUC CUGAUGAG GCCGUUAGGC CGAA lAGAAACU 5144
2946 CAGAUGAC U UUUCUAAA 1352 UUUAGAAA CUGAUGAG GCCGUUAGGC CGAA IUCAUCUG 5145
2951 GACUUUUC U AAAAAUGG 1353 CCAUUUUU CUGAUGAG GCCGUUAGGC CGAA IAAAAGUC 5146
2963 AAUGGGUC U GCUACAUC 1354 GAUGUAGC CUGAUGAG GCCGUUAGGC CGAA IACCCAUU 5147
2966 GGGUCUGC U ACAUCAAA 1355 UUUGAUGU CUGAUGAG GCCGUUAGGC CGAA ICAGACCC 5148
2969 UCUGCUAC A UCAAAGGU 1356 ACCUUUGA CUGAUGAG GCCGUUAGGC CGAA IUAGCAGA 5149
2972 GCUACAUC A AAGGUGCU 1357 AGCACCUU CUGAUGAG GCCGUUAGGC CGAA IAUGUAGC 5150
2980 AAAGGUGC U CUUAUUGC 1358 GCAAUAAG CUGAUGAG GCCGUUAGGC CGAA ICACCUUU 5151
2982 AGGUGCUC U UAUUGCCU 1359 AGGCAAUA CUGAUGAG GCCGUUAGGC CGAA lAGCACCU 5152
2989 CUUAUUGC C UCCAGAUG 1360 CAUCUGGA CUGAUGAG GCCGUUAGGC CGAA ICAAUAAG 5153
2990 UUAUUGCC U CCAGAUGU 1361 ACAUCUGG CUGAUGAG GCCGUUAGGC CGAA IGCAAUAA 5154
2992 AUUGCCUC C AGAUGUUU 1362 AAACAUCU CUGAUGAG GCCGUUAGGC CGAA IAGGCAAU 5155
2993 UUGCCUCC A GAUGUUUC 1363 GAAACAUC CUGAUGAG GCCGUUAGGC CGAA IGAGGCAA 5156
3002 GAUGUUUC U GCUUUGGC 1364 GCCAAAGC CUGAUGAG GCCGUUAGGC CGAA IAAACAUC 5157
3005 GUUUCUGC U UUGGCCAC 1365 GUGGCCAA CUGAUGAG GCCGUUAGGC CGAA ICAGAAAC 5158
3011 GCUUUGGC C ACUCAAGC 1366 GCUUGAGU CUGAUGAG GCCGUUAGGC CGAA ICCAAAGC 5159
3012 CUUUGGCC A CUCAAGCA 1367 UGCUUGAG CUGAUGAG GCCGUUAGGC CGAA IGCCAAAG 5160
3014 UUGGCCAC U CAAGCAGA 1368 UCUGCUUG CUGAUGAG GCCGUUAGGC CGAA IUGGCCAA 5161
3016 GGCCACUC A AGCAGAGA 1369 UCUCUGCU CUGAUGAG GCCGUUAGGC CGAA IAGUGGCC 5162
3020 ACUCAAGC A GAGAUAGA 1370 UCUAUCUC CUGAUGAG GCCGUUAGGC CGAA ICUUGAGU 5163
3033 UAGAGAGC A UAGUUAAA 1371 UUUAACUA CUGAUGAG GCCGUUAGGC CGAA ICUCUCUA 5164
3043 AGUUAAAC C CAAAGUUC 1372 GAACUUUG CUGAUGAG GCCGUUAGGC CGAA IUUUAACU 5165
3044 GUUAAACC C AAAGUUCU 1373 AGAACUUU CUGAUGAG GCCGUUAGGC CGAA IGUUUAAC 5166
3045 UUAAACCC A AAGUUCUU 1374 AAGAACUU CUGAUGAG GCCGUUAGGC CGAA IGGUUUAA 5167
3052 CAAAGUUC U UGUGAAAG 1375 CUUUCACA CUGAUGAG GCCGUUAGGC CGAA IAACUUUG 5168
3065 AAAGAAGC U GAGAAAAA 1376 UUUUUCUC CUGAUGAG GCCGUUAGGC CGAA ICUUCUUU 5169
3076 GAAAAAAC U UCCUUCCG 1377 CGGAAGGA CUGAUGAG GCCGUUAGGC CGAA IUUUUUUC 5170
3079 AAAACUUC C UUCCGAUA 1378 UAUCGGAA CUGAUGAG GCCGUUAGGC CGAA IAAGUUUU 5171
3080 AAACUUCC U UCCGAUAC 1379 GUAUCGGA CUGAUGAG GCCGUUAGGC CGAA IGAAGUUU 5172
3083 CUUCCUUC C GAUACAGA 1380 UCUGUAUC CUGAUGAG GCCGUUAGGC CGAA IAAGGAAG 5173
3089 UCCGAUAC A GAAAAAGA 1381 UCUUUUUC CUGAUGAG GCCGUUAGGC CGAA IUAUCGGA 5174
3102 AAGAGGAC A GAUCACCA 1382 UGGUGAUC CUGAUGAG GCCGUUAGGC CGAA IUCCUCUU 5175
3107 GACAGAUC A CCAUCUGC 1383 GCAGAUGG CUGAUGAG GCCGUUAGGC CGAA IAUCUGUC 5176
3109 CAGAUCAC C AUCUGCUA 1384 UAGCAGAU CUGAUGAG GCCGUUAGGC CGAA IUGAUCUG 5177
3110 AGAUCACC A UCUGCUAU 1385 AUAGCAGA CUGAUGAG GCCGUUAGGC CGAA IGUGAUCU 5178
3113 UCACCAUC U GCUAUAUU 1386 AAUAUAGC CUGAUGAG GCCGUUAGGC CGAA lAUGGUGA 5179
3116 CCAUCUGC U AUAUUUUC 1387 GAAAAUAU CUGAUGAG GCCGUUAGGC CGAA ICAGAUGG 5180
3125 AUAUUUUC A GCAGAGCU 1388 AGCUCUGC CUGAUGAG GCCGUUAGGC CGAA IAAAAUAU 5181
3128 UUUUCAGC A GAGCUGAG 1389 CUCAGCUC CUGAUGAG GCCGUUAGGC CGAA ICUGAAAA 5182
3133 AGCAGAGC U GAGUAAAA 1390 UUUUACUC CUGAUGAG GCCGUUAGGC CGAA ICUCUGCU 5183
3143 AGUAAAAC U UCAGUUGU 1391 AGAACUGA CUGAUGAG GCCGUUAGGC CGAA IUUUUACU 5184
3146 AAAACUUC A GUUGUUGA 1392 UCAACAAC CUGAUGAG GCCGUUAGGC CGAA IAAGUUUU 5185
3156 UUGUUGAC C UCCUGUAC 1393 GUACAGGA CUGAUGAG GCCGUUAGGC CGAA IUCAACAA 5186
3157 UGUUGACC U CCUGUACU 1394 AGUACAGG CUGAUGAG GCCGUUAGGC CGAA IGUCAACA 5187
3159 UUGACCUC C UGUACUGG 1395 CCAGUACA CUGAUGAG GCCGUUAGGC CGAA IAGGUCAA 5188
3160 UGACCUCC U GUACUGGA 1396 UCCAGUAC CUGAUGAG GCCGUUAGGC CGAA IGAGGUCA 5189
3165 UCCUGUAC U GGAGAGAC 1397 GUCUCUCC CUGAUGAG GCCGUUAGGC CGAA IUACAGGA 5190
3174 GGAGAGAC A UUAAGAAG 1398 CUUCUUAA CUGAUGAG GCCGUUAGGC CGAA IUCUCUCC 5191
3185 AAGAAGAC U GGAGUGGU 1399 ACCACUCC CUGAUGAG GCCGUUAGGC CGAA IUCUUCUU 5192
3203 UUUGGUGC C AGCCUAUU 1400 AAUAGGCU CUGAUGAG GCCGUUAGGC CGAA ICACCAAA 5193
3204 UUGGUGCC A GCCUAUUC 1401 GAAUAGGC CUGAUGAG GCCGUUAGGC CGAA IGCACCAA 5194
3207 GUGCCAGC C UAUUCCUG 1402 CAGGAAUA CUGAUGAG GCCGUUAGGC CGAA ICUGGCAC 5195
3208 UGCCAGCC U AUUCCUGC 1403 GCAGGAAU CUGAUGAG GCCGUUAGGC CGAA IGCUGGCA 5196
3213 GCCUAUUC C UGCUGCUU 1404 AAGCAGCA CUGAUGAG GCCGUUAGGC CGAA IAAUAGGC 5197
3214 CCUAUUCC U GCUGCUUU 1405 AAAGCAGC CUGAUGAG GCCGUUAGGC CGAA IGAAUAGG 5198
3217 AUUCCUGC U GCUUUCAU 1406 AUGAAAGC CUGAUGAG GCCGUUAGGC CGAA ICAGGAAU 5199
3220 CCUGCUGC U UUCAUUGA 1407 UCAAUGAA CUGAUGAG GCCGUUAGGC CGAA ICAGCAGG 5200
3224 CUGCUUUC A UUGACAGU 1408 ACUGUCAA CUGAUGAG GCCGUUAGGC CGAA IAAAGCAG 5201
3230 UCAUUGAC A GUAUUCAG 1409 CUGAAUAC CUGAUGAG GCCGUUAGGC CGAA IUCAAUGA 5202
3237 CAGUAUUC A GCAUUGUG 1410 CACAAUGC CUGAUGAG GCCGUUAGGC CGAA IAAUACUG 5203
3240 UAUUCAGC A UUGUGAGC 1411 GCUCACAA CUGAUGAG GCCGUUAGGC CGAA ICUGAAUA 5204
3254 AGCGUAAC A GCCUACAU 1412 AUGUAGGC CUGAUGAG GCCGUUAGGC CGAA lUUACGCU 5205
3257 GUAACAGC C UACAUUGC 1413 GCAAUGUA CUGAUGAG GCCGUUAGGC CGAA ICUGUUAC 5206
3258 UAACAGCC U ACAUUGCC 1414 GGCAAUGU CUGAUGAG GCCGUUAGGC CGAA IGCUGUUA 5207
3261 CAGCCUAC A UUGCCUUG 1415 CAAGGCAA CUGAUGAG GCCGUUAGGC CGAA IUAGGCUG 5208
3266 UACAUUGC C UUGGCCCU 1416 AGGGCCAA CUGAUGAG GCCGUUAGGC CGAA ICAAUGUA 5209
3267 ACAUUGCC U UGGCCCUG 1417 CAGGGCCA CUGAUGAG GCCGUUAGGC CGAA IGCAAUGU 5210
3272 GCCUUGGC C CUGCUCUC 1418 GAGAGCAG CUGAUGAG GCCGUUAGGC CGAA ICCAAGGC 5211
3273 CCUUGGCC c UGCUCUCU 1419 AGAGAGGA CUGAUGAG GCCGUUAGGC CGAA IGCCAAGG 5212
3274 CUUGGCCC u GCUCUCUG 1420 CAGAGAGC CUGAUGAG GCCGUUAGGC CGAA IGGCCAAG 5213
3277 GGCCCUGC U CUCUGUGA 1421 UCACAGAG CUGAUGAG GCCGUUAGGC CGAA ICAGGGCC 5214
3279 CCCUGCUC U CUGUGACC 1422 GGUCACAG CUGAUGAG GCCGUUAGGC CGAA IAGCAGGG 5215
3281 CUGCUCUC U GUGACCAU 1423 AUGGUCAC CUGAUGAG GCCGUUAGGC CGAA IAGAGCAG 5216
3287 UCUGUGAC C AUCAGCUU 1424 AAGCUGAU CUGAUGAG GCCGUUAGGC CGAA lUCACAGA 5217
3288 CUGUGACC A UCAGCUUU 1425 AAAGCUGA CUGAUGAG GCCGUUAGGC CGAA IGUCACAG 5218
3291 UGACCAUC A GCUUUAGG 1426 CCUAAAGC CUGAUGAG GCCGUUAGGC CGAA IAUGGUCA 5219
3294 CCAUCAGC U UUAGGAUA 1427 UAUCCUAA CUGAUGAG GCCGUUAGGC CGAA ICUGAUGG 5220
3306 GGAUAUAC A AGGGUGUG 1428 CACACCCU CUGAUGAG GCCGUUAGGC CGAA IUAUAUCC 5221
3318 GUGUGAUC C AAGCUAUC 1429 GAUAGCUU CUGAUGAG GCCGUUAGGC CGAA IAUCACAC 5222
3319 UGUGAUCC A AGCUAUCC 1430 GGAUAGCU CUGAUGAG GCCGUUAGGC CGAA IGAUCACA 5223
3323 AUCCAAGC U AUCCAGAA 1431 UUCUGGAU CUGAUGAG GCCGUUAGGC CGAA ICUUGGAU 5224
3327 AAGCUAUC C AGAAAUCA 1432 UGAUUUCU CUGAUGAG GCCGUUAGGC CGAA IAUAGCUU 5225
3328 AGCUAUCC A GAAAUCAG 1433 CUGAUUUC CUGAUGAG GCCGUUAGGC CGAA IGAUAGCU 5226
3335 CAGAAAUC A GAUGAAGG 1434 CCUUCAUC CUGAUGAG GCCGUUAGGC CGAA IAUUUCUG 5227
3345 AUGAAGGC C ACCCAUUC 1435 GAAUGGGU CUGAUGAG GCCGUUAGGC CGAA ICCUUCAU 5228
3346 UGAAGGCC A CCCAUUCA 1436 UGAAUGGG CUGAUGAG GCCGUUAGGC CGAA IGCCUUCA 5229
3348 AAGGCCAC C CAUUCAGG 1437 CCUGAAUG CUGAUGAG GCCGUUAGGC CGAA IUGGCCUU 5230
3349 AGGCCACC C AUUCAGGG 1438 CCCUGAAU CUGAUGAG GCCGUUAGGC CGAA IGUGGCCU 5231
3350 GGCCACCC A UUCAGGGC 1439 GCCCUGAA CUGAUGAG GCCGUUAGGC CGAA IGGUGGCC 5232
3354 ACCCAUUC A GGGCAUAU 1440 AUAUGCCC CUGAUGAG GCCGUUAGGC CGAA IAAUGGGU 5233
3359 UUCAGGGC A UAUCUGGA 1441 UCCAGAUA CUGAUGAG GCCGUUAGGC CGAA ICCCUGAA 5234
3364 GGCAUAUC U GGAAUCUG 1442 CAGAUUCC CUGAUGAG GCCGUUAGGC CGAA IAUAUGCC 5235
3371 CUGGAAUC U GAAGUUGC 1443 GCAACUUC CUGAUGAG GCCGUUAGGC CGAA IAUUCCAG 5236
3380 GAAGUUGC U AUAUCUGA 1444 UCAGAUAU CUGAUGAG GCCGUUAGGC CGAA ICAACUUC 5237
3386 GCUAUAUC U GAGGAGUU 1445 AACUCCUC CUGAUGAG GCCGUUAGGC CGAA IAUAUAGC 5238
3400 GUUGGUUC A GAAGUACA 1446 UGUACUUC CUGAUGAG GCCGUUAGGC CGAA lAACCAAC 5239
3408 AGAAGUAC A GUAAUUCU 1447 AGAAUUAC CUGAUGAG GCCGUUAGGC CGAA IUACUUCU 5240
3416 AGUAAUUC U GCUCUUGG 1448 CCAAGAGC CUGAUGAG GCCGUUAGGC CGAA IAAUUACU 5241
3419 AAUUCUGC U CUUGGUCA 1449 UGACCAAG CUGAUGAG GCCGUUAGGC CGAA ICAGAAUU 5242
3421 UUCUGCUC U UGGUCAUG 1450 CAUGACCA CUGAUGAG GCCGUUAGGC CGAA IAGCAGAA 5243
3427 UCUUGGUC A UGUGAACU 1451 AGUUCACA CUGAUGAG GCCGUUAGGC CGAA lACCAAGA 5244
3435 AUGUGAAC U GCACGAUA 1452 UAUCGUGC CUGAUGAG GCCGUUAGGC CGAA IUUCACAU 5245
3438 UGAACUGC A CGAUAAAG 1453 CUUUAUCG CUGAUGAG GCCGUUAGGC CGAA ICAGUUCA 5246
3451 AAAGGAAC U CAGGCGCC 1454 GGCGCCUG CUGAUGAG GCCGUUAGGC CGAA IUUCCUUU 5247
3453 AGGAACUC A GGCGCCUC 1455 GAGGCGCC CUGAUGAG GCCGUUAGGC CGAA IAGUUCCU 5248
3459 UCAGGCGC C UCUUCUUA 1456 UAAGAAGA CUGAUGAG GCCGUUAGGC CGAA ICGCCUGA 5249
3460 CAGGCGCC U CUUCUUAG 1457 CUAAGAAG CUGAUGAG GCCGUUAGGC CGAA IGCGCCUG 5250
3462 GGCGCCUC U UCUUAGUU 1458 AACUAAGA CUGAUGAG GCCGUUAGGC CGAA IAGGCGCC 5251
3465 GCCUCUUC U UAGUUGAU 1459 AUCAACUA CUGAUGAG GCCGUUAGGC CGAA IAAGAGGC 5252
3488 GUUGAUUC U CUGAAGUU 1460 AACUUCAG CUGAUGAG GCCGUUAGGC CGAA IAAUCAAC 5253
3490 UGAUUCUC U GAAGUUUG 1461 CAAACUUC CUGAUGAG GCCGUUAGGC CGAA IAGAAUCA 5254
3500 AAGUUUGC A GUGUUGAU 1462 AUCAACAC CUGAUGAG GCCGUUAGGC CGAA ICAAACUU 5255
3521 GUAUUUAC C UAUGUUGG 1463 CCAACAUA CUGAUGAG GCCGUUAGGC CGAA IUAAAUAC 5256
3522 UAUUUACC U AUGUUGGU 1464 ACCAACAU CUGAUGAG GCCGUUAGGC CGAA IGUAAAUA 5257
3533 GUUGGUGC C UUGUUUAA 1465 UUAAACAA CUGAUGAG GCCGUUAGGC CGAA ICACCAAC 5258
3534 UUGGUGCC U UGUUUAAU 1466 AUUAAACA CUGAUGAG GCCGUUAGGC CGAA IGCACCAA 5259
3547 UAAUGGUC U GACACUAC 1467 GUAGUGUC CUGAUGAG GCCGUUAGGC CGAA IACCAUUA 5260
3551 GGUCUGAC A CUACUGAU 1468 AUCAGUAG CUGAUGAG GCCGUUAGGC CGAA IUCAGACC 5261
3553 UCUGACAC U ACUGAUUU 1469 AAAUCAGU CUGAUGAG GCCGUUAGGC CGAA IUGUCAGA 5262
3556 GACACUAC U GAUUUUGG 1470 CCAAAAUC CUGAUGAG GCCGUUAGGC CGAA IUAGUGUC 5263
3566 AUUUUGGC U CUCAUUUC 1471 GAAAUGAG CUGAUGAG GCCGUUAGGC CGAA ICCAAAAU 5264
3568 UUUGGCUC U CAUUUCAC 1472 GUGAAAUG CUGAUGAG GCCGUUAGGC CGAA IAGCCAAA 5265
3570 UGGCUCUC A UUUCACUC 1473 GAGUGAAA CUGAUGAG GCCGUUAGGC CGAA IAGAGCCA 5266
3575 CUCAUUUC A CUCUUCAG 1474 CUGAAGAG CUGAUGAG GCCGUUAGGC CGAA IAAAUGAG 5267
3577 CAUUUCAC U CUUCAGUG 1475 CACUGAAG CUGAUGAG GCCGUUAGGC CGAA IUGAAAUG 5268
3579 UUUCACUC U UCAGUGUU 1476 AACACUGA CUGAUGAG GCCGUUAGGC CGAA IAGUGAAA 5269
3582 CACUCUUC A GUGUUCCU 1477 AGGAACAC CUGAUGAG GCCGUUAGGC CGAA IAAGAGUG 5270
3589 CAGUGUUC C UGUUAUUU 1478 AAAUAACA CUGAUGAG GCCGUUAGGC CGAA IAACACUG 5271
3590 AGUGUUCC U GUUAUUUA 1479 UAAAUAAC CUGAUGAG GCCGUUAGGC CGAA IGAACACU 5272
3607 UGAACGGC A UCAGGCAC 1480 GUGCCUGA CUGAUGAG GCCGUUAGGC CGAA ICCGUUCA 5273
3610 ACGGCAUC A GGCACAGA 1481 UCUGUGCC CUGAUGAG GCCGUUAGGC CGAA IAUGCCGU 5274
3614 CAUCAGGC A CAGAUAGA 1482 UCUAUCUG CUGAUGAG GCCGUUAGGC CGAA ICCUGAUG 5275
3616 UCAGGCAC A GAUAGAUC 1483 GAUCUAUC CUGAUGAG GCCGUUAGGC CGAA IUGCCUGA 5276
3625 GAUAGAUC A UUAUCUAG 1484 CUAGAUAA CUGAUGAG GCCGUUAGGC CGAA IAUCUAUC 5277
3631 UCAUUAUC U AGGACUUG 1485 CAAGUCCU CUGAUGAG GCCGUUAGGC CGAA IAUAAUGA 5278
3637 UCUAGGAC U UGCAAAUA 1486 UAUUUGCA CUGAUGAG GCCGUUAGGC CGAA lUCCUAGA 5279
3641 GGACUUGC A AAUAAGAA 1487 UUCUUAUU CUGAUGAG GCCGUUAGGC CGAA ICAAGUCC 5280
3662 AAAGAUGC U AUGGCUAA 1488 UUAGCCAU CUGAUGAG GCCGUUAGGC CGAA ICAUCUUU 5281
3668 GCUAUGGC U AAAAUCCA 1489 UGGAUUUU CUGAUGAG GCCGUUAGGC CGAA ICCAUAGC 5282
3675 CUAAAAUC C AAGCAAAA 1490 UUUUGCUU CUGAUGAG GCCGUUAGGC CGAA IAUUUUAG 5283
3676 UAAAAUCC A AGGAAAAA 1491 UUUUUGCU CUGAUGAG GCCGUUAGGC CGAA IGAUUUUA 5284
3680 AUCCAAGC A AAAAUCCC 1492 GGGAUUUU CUGAUGAG GCCGUUAGGC CGAA ICUUGGAU 5285
3687 CAAAAAUC C CUGGAUUG 1493 CAAUCCAG CUGAUGAG GCCGUUAGGC CGAA IAUUUUUG 5286
3688 AAAAAUCC C UGGAUUGA 1494 UCAAUCCA CUGAUGAG GCCGUUAGGC CGAA IGAUUUUU 5287
3689 AAAAUCCC U GGAUUGAA 1495 UUCAAUCC CUGAUGAG GCCGUUAGGC CGAA IGGAUUUU 5288
3702 UGAAGCGC A AAGCUGAA 1496 UUCAGCUU CUGAUGAG GCCGUUAGGC CGAA ICGCUUCA 5289
3707 CGCAAAGC U GAAUGAAA 1497 UUUCAUUC CUGAUGAG GCCGUUAGGC CGAA ICUUUGCG 5290
3720 GAAAACGC C CAAAAUAA 1498 UUAUUUUG CUGAUGAG GCCGUUAGGC CGAA ICGUUUUC 5291
3721 AAAACGCC C AAAAUAAU 1499 AUUAUUUU CUGAUGAG GCCGUUAGGC CGAA IGCGUUUU 5292
3722 AAACGCCC A AAAUAAUU 1500 AAUUAUUU CUGAUGAG GCCGUUAGGC CGAA IGGCGUUU 5293
3742 AGGAGUUC A UCUUUAAA 1501 UUUAAAGA CUGAUGAG GCCGUUAGGC CGAA IAACUCCU 5294
3745 AGUUCAUC U UUAAAGGG 1502 CCCUUUAA CUGAUGAG GCCGUUAGGC CGAA IAUGAACU 5295
3761 GGAUAUUC A UUUGAUUA 1503 UAAUCAAA CUGAUGAG GCCGUUAGGC CGAA IAAUAUCC 5296
3784 GGAGGGUC A GGGAAGAA 1504 UUCUUCCC CUGAUGAG GCCGUUAGGC CGAA IACCCUCC 5297
3798 GAACGAAC C UUGACGUU 1505 AACGUCAA CUGAUGAG GCCGUUAGGC CGAA IUUCGUUC 5298
3799 AACGAACC U UGACGUUG 1506 CAACGUCA CUGAUGAG GCCGUUAGGC CGAA IGUUCGUU 5299
3809 GACGUUGC A GUGCAGUU 1507 AACUGCAC CUGAUGAG GCCGUUAGGC CGAA ICAACGUC 5300
3814 UGCAGUGC A GUUUCACA 1508 UGUGAAAC CUGAUGAG GCCGUUAGGC CGAA ICACUGCA 5301
3820 GCAGUUUC A CAGAUCGU 1509 ACGAUCUG CUGAUGAG GCCGUUAGGC CGAA IAAACUGC 5302
3822 AGUUUCAC A GAUCGUUG 1510 CAACGAUC CUGAUGAG GCCGUUAGGC CGAA IUGAAACU 5303
3838 GUUAGAUC U UUAUUUUU 1511 AAAAAUAA CUGAUGAG GCCGUUAGGC CGAA IAUCUAAC 5304
3850 UUUUUAGC C AUGCACUG 1512 CAGUGCAU CUGAUGAG GCCGUUAGGC CGAA ICUAAAAA 5305
3851 UUUUAGCC A UGCACUGU 1513 ACAGUGCA CUGAUGAG GCCGUUAGGC CGAA IGCUAAAA 5306
3855 AGCCAUGC A CUGUUGUG 1514 CACAACAG CUGAUGAG GCCGUUAGGC CGAA ICAUGGCU 5307
3857 CCAUGCAC U GUUGUGAG 1515 CUCACAAC CUGAUGAG GCCGUUAGGC CGAA IUGCAUGG 5308
3876 AAAAUUAC C UGUCUUGA 1516 UCAAGACA CUGAUGAG GCCGUUAGGC CGAA IUAAUUUU 5309
3877 AAAUUAGC U GUCUUGAC 1517 GUCAAGAC CUGAUGAG GCCGUUAGGC CGAA IGUAAUUU 5310
3881 UACCUGUC U UGACUGCC 1518 GGCAGUCA CUGAUGAG GCCGUUAGGC CGAA IACAGGUA 5311
3886 GUCUUGAC U GCCAUGUG 1519 CACAUGGC CUGAUGAG GCCGUUAGGC CGAA IUCAAGAC 5312
3889 UUGACUGC C AUGUGUUC 1520 GAACACAU CUGAUGAG GCCGUUAGGC CGAA ICAGUCAA 5313
3890 UGACUGCC A UGUGUUCA 1521 UGAACACA CUGAUGAG GCCGUUAGGC CGAA IGCAGUCA 5314
3898 AUGUGUUC A UCAUCUUA 1522 UAAGAUGA CUGAUGAG GCCGUUAGGC CGAA IAACACAU 5315
3901 UGUUCAUC A UCUUAAGU 1523 ACUUAAGA CUGAUGAG GCCGUUAGGC CGAA IAUGAACA 5316
3904 UCAUCAUC U UAAGUAUU 1524 AAUACUUA CUGAUGAG GCCGUUAGGC CGAA IAUGAUGA 5317
3919 UUGUAAGC U GCUAUGUA 1525 UACAUAGC CUGAUGAG GCCGUUAGGC CGAA ICUUACAA 5318
3922 UAAGCUGC U AUGUAUGG 1526 CCAUACAU CUGAUGAG GCCGUUAGGC CGAA ICAGCUUA 5319
3939 AUUUAAAC C GUAAUCAU 1527 AUGAUUAC CUGAUGAG GCCGUUAGGC CGAA IUUUAAAU 5320
3946 CCGUAAUC A' UAUCUUUU 1528 AAAAGAUA CUGAUGAG GCCGUUAGGC CGAA IAUUACGG 5321
3951 AUCAUAUC U UUUUCCUA 1529 UAGGAAAA CUGAUGAG GCCGUUAGGC CGAA IAUAUGAU 5322
3957 UCUUUUUC C UAUCUGAG 1530 CUCAGAUA CUGAUGAG GCCGUUAGGC CGAA IAAAAAGA 5323
3958 CUUUUUGC U AUCUGAGG 1531 CCUCAGAU CUGAUGAG GCCGUUAGGC CGAA IGAAAAAG 5324
3962 UUCCUAUC u GAGGCACU 1532 AGUGCCUC CUGAUGAG GCCGUUAGGC CGAA IAUAGGAA 5325
3968 UCUGAGGC A CUGGUGGA 1533 UCCACCAG CUGAUGAG GCCGUUAGGC CGAA ICCUCAGA 5326
3970 UGAGGCAC U GGUGGAAU 1534 AUUCCACC CUGAUGAG GCCGUUAGGC CGAA IUGCCUCA 5327
3986 UAAAAAAC C UGUAUAUU 1535 AAUAUACA CUGAUGAG GCCGUUAGGC CGAA IUUUUUUA 5328
3987 AAAAAACC U GUAUAUUU 1536 AAAUAUAC CUGAUGAG GCCGUUAGGC CGAA IGUUUUUU 5329
3999 UAUUUUAC u UUGUUGCA 1537 UGCAACAA CUGAUGAG GCCGUUAGGC CGAA IUAAAAUA 5330
4007 UUUGUUGC A GAUAGUCU 1538 AGACUAUC CUGAUGAG GCCGUUAGGC CGAA ICAACAAA 5331
4015 AGAUAGUC U UGCCGCAU 1539 AUGCGGCA CUGAUGAG GCCGUUAGGC CGAA IACUAUCU 5332
4019 AGUCUUGC C GCAUCUUG 1540 CAAGAUGC CUGAUGAG GCCGUUAGGC CGAA ICAAGACU 5333
4022 CUUGCCGC A UCUUGGCA 1541 UGCCAAGA CUGAUGAG GCCGUUAGGC CGAA ICGGCAAG 5334
4025 GCCGCAUC U UGGCAAGU 1542 ACUUGCCA CUGAUGAG GCCGUUAGGC CGAA IAUGCGGC 5335
4030 AUCUUGGC A AGUUGCAG 1543 CUGCAACU CUGAUGAG GCCGUUAGGC CGAA ICCAAGAU 5336
4037 CAAGUUGC A GAGAUGGU 1544 ACCAUCUC CUGAUGAG GCCGUUAGGC CGAA ICAACUUG 5337
Input Sequence = AB020693. Cut Site = CH/ .
Stem Length = 8 . Core Sequence = CUGAUGAG GCCGUUAGGC CGAA AB020693 (Homo sapiens mRNA for KIAA0886 protein (Nogo-A) ; 4053 bp)
Underlined region may be any X sequence or linker, as previously described herein. I = Inosine
Table V: Human NOGO G-Cleaver and Substrate Sequence
Pos Substrate Seq ID G-Cleaver Seq ID
66 CCACAACC G CCCGCGGC 1545 GCCGCGGG UGAUG GCAUGCACUAUGC GCG GGUUGUGG 5338
70 AACCGCCC G CGGCUCUG 1546 CAGAGCCG UGAUG GCAUGCACUAUGC GCG GGGCGGUU 5339
78 GCGGCUCU G AGACGCGG 1547 CCGCGUCU UGAUG GCAUGCACUAUGC GCG AGAGCCGC 5340
83 UCUGAGAC G CGGCCCCG 1548 CGGGGCCG UGAUG GCAUGCACUAUGC GCG GUCUCAGA 5341
110 CAGCAGCU G CAGCAUCA 1549 UGAUGCUG UGAUG GCAUGCACUAUGC GCG AGCUGCUG 5342
191 CCCCGGCC G CAGCCCGC 1550 GCGGGCUG UGAUG GCAUGCACUAUGC GCG GGCCGGGG 5343
198 CGCAGCCC G CGUUCAAG 1551 CUUGAACG UGAUG GCAUGCACUAUGC GCG GGGCUGCG 5344
218 CAGUUCGU G AGGGAGCC 1552 GGCUCCCU UGAUG GCAUGCACUAUGC GCG ACGAACUG 5345
228 GGGAGCCC G AGGACGAG 1553 CUCGUCCU UGAUG GCAUGCACUAUGC GCG GGGCUCCC 5346
234 CCGAGGAC G AGGAGGAA 1554 UUCCUCCU UGAUG GCAUGCACUAUGC GCG GUCCUCGG 5347
267 AGGAGGAC G AGGACGAA 1555 UUCGUCCU UGAUG GCAUGCACUAUGC GCG GUCCUCCU 5348
273 ACGAGGAC G AAGACCUG 1556 CAGGUCUU UGAUG GCAUGCACUAUGC GCG GUCCUCGU 5349
296 CUGGAGGU G CUGGAGAG 1557 CUCUCCAG UGAUG GCAUGCACUAUGC GCG ACCUCCAG 5350
312 GGAAGCCC G CCGCCGGG 1558 CCCGGCGG UGAUG GCAUGCACUAUGC GCG GGGCUUCC 5351
315 AGCCCGCC G CCGGGCUG 1559 CAGCCCGG UGAUG GCAUGCACUAUGC GCG GGCGGGCU 5352
327 GGCUGUCC G CGGCCCCA 1560 UGGGGCCG UGAUG GCAUGCACUAUGC GCG GGACAGCC 5353
338 GCCCCAGU G CCCACCGC 1561 GCGGUGGG UGAUG GCAUGCACUAUGC GCG ACUGGGGC 5354
345 UGCCCACC G CCCCUGCC 1562 GGCAGGGG UGAUG GCAUGCACUAUGC GCG GGUGGGCA 5355
351 CCGCCCCU G CCGCCGGC 1563 GCCGGCGG UGAUG GCAUGCACUAUGC GCG AGGGGCGG 5356
354 CCCCUGCC G CCGGCGCG 1564 CGCGCCGG UGAUG GCAUGCACUAUGC GCG GGCAGGGG 5357
360 CCGCCGGC G CGCCCCUG 1565 CAGGGGCG UGAUG GCAUGCACUAUGC GCG GCCGGCGG 5358
362 GCCGGCGC G CCCCUGAU 1566 AUCAGGGG UGAUG GCAUGCACUAUGC GCG GCGCCGGC 5359
368 GCGCCCCU G AUGGACUU 1567 AAGUCCAU UGAUG GCAUGCACUAUGC GCG AGGGGCGC 5360
384 UCGGAAAU G ACUUCGUG 1568 CACGAAGU UGAUG GCAUGCACUAUGC GCG AUUUCCGA 5361
392 GACUUCGU G CCGCCGGC 1569 GCCGGCGG UGAUG GCAUGCACUAUGC GCG ACGAAGUC 5362
395 UUCGUGCC G CCGGCGCC 1570 GGCGCCGG UGAUG GCAUGCACUAUGC GCG GGCACGAA 5363
401 CCGCCGGC G CCCCGGGG 1571 CCCCGGGG UGAUG GCAUGCACUAUGC GCG GCCGGCGG 5364
416 GGACCCCU G CCGGCCGC 1572 GCGGCCGG UGAUG GCAUGCACUAUGC GCG AGGGGUCC 5365
423 UGCCGGCC G CUCCCGCC 1573 GGGGGGAG UGAUG GCAUGCACUAUGC GCG GGCCGGCA 5366
435 CCCCCGUC G CCCCGGAG 1574 CUCCGGGG UGAUG GCAUGCACUAUGC GCG GACGGGGG 5367
464 UGGGACCC G AGCCCGGU 1575 ACCGGGCU UGAUG GCAUGCACUAUGC GCG GGGUCCCA 5368
479 GUGUCGUC G ACCGUGCC 1576 GGCACGGU UGAUG GCAUGCACUAUGC GCG GACGACAC 5369
485 UCGACCGU G CCCGCGCC 1577 GGCGCGGG UGAUG GCAUGCACUAUGC GCG ACGGUCGA 5370
489 CCGUGCCC G CGCCAUCC 1578 GGAUGGCG UGAUG GCAUGCACUAUGC GCG GGGCACGG 5371
491 GUGCCCGC G CCAUCCCC 1579 GGGGAUGG UGAUG GCAUGCACUAUGC GCG GCGGGCAC 5372
500 CCAUCCCC G CUGUCUGC 1580 GCAGACAG UGAUG GCAUGCACUAUGC GCG GGGGAUGG 5373
507 CGCUGUCU G CUGCCGCA 1581 UGCGGCAG UGAUG GCAUGCACUAUGC GCG AGACAGCG 5374
510 UGUCUGCU G CCGCAGUC 1582 GACUGCGG UGAUG GCAUGCACUAUGC GCG AGCAGACA 5375
513 CUGCUGCC G CAGUCUCG 1583 CGAGACUG UGAUG GCAUGCACUAUGC GCG GGCAGCAG 5376
521 GCAGUCUC G CCCUCCAA 1584 UUGGAGGG UGAUG GCAUGCACUAUGC GCG GAGACUGC 5377
537 AGCUCCCU G AGGACGAC 1585 GUCGUCCU UGAUG GCAUGCACUAUGC GCG AGGGAGCU 5378
543 CUGAGGAC G ACGAGCCU 1586 AGGCUCGU UGAUG GCAUGCACUAUGC GCG GUCCUCAG 5379
546 AGGACGAC G AGCCUCCG 1587 CGGAGGCU UGAUG GCAUGCACUAUGC GCG GUCGUCCU 5380
587 GCCAGCGU G AGCCCCCA 1588 UGGGGGCU UGAUG GCAUGCACUAUGC GCG ACGCUGGC 5381
617 UGGACCCC G CCAGCCCC 1589 GGGGCUGG UGAUG GCAUGCACUAUGC GCG GGGGUCCA 5382
633 CGGCUCCC G CCGCGCCC 1590 GGGCGCGG UGAUG GCAUGCACUAUGC GCG GGGAGCCG 5383
636 CUCCCGCC G CGCGCCCC 1591 GGGGGGCG UGAUG GCAUGCACUAUGC GCG GGCGGGAG 5384
638 CCCGCCGC G CCCCCCUC 1592 GAGGGGGG UGAUG GCAUGCACUAUGC GCG GCGGCGGG 5385
657 CCCCGGCC G CGCCCAAG 1593 CUUGGGCG UGAUG GCAUGCACUAUGC GCG GGCCGGGG 5386
659 CCGGCCGC G CCCAAGCG 1594 CGCUUGGG UGAUG GCAUGCACUAUGC GCG GCGGCCGG 5387
667 GCCCAAGC G CAGGGGCU 1595 AGCCCCUG UGAUG GCAUGCACUAUGC GCG GCUUGGGC 5388
693 CAGUGGAU G AGACCCUU 1596 AAGGGUCU UGAUG GCAUGCACUAUGC GCG AUCCACUG 5389
705 CCCUUUUU G CUCUUCCU 1597 AGGAAGAG UGAUG GCAUGCACUAUGC GCG AAAAAGGG 5390
714 CUCUUCCU G CUGCAUCU 1598 AGAUGCAG UGAUG GCAUGCACUAUGC GCG AGGAAGAG 5391
717 UUCCUGCU G CAUCUGAG 1599 CUCAGAUG UGAUG GCAUGCACUAUGC GCG AGCAGGAA 5392
723 CUGCAUCU G AGCCUGUG 1600 CACAGGCU UGAUG GCAUGCACUAUGC GCG AGAUGCAG 5393
731 GAGCCUGU G AUACGCUC 1601 GAGCGUAU UGAUG GCAUGCACUAUGC GCG ACAGGCUC 5394
736 UGUGAUAC G CUCCUCUG 1602 CAGAGGAG UGAUG GCAUGCACUAUGC GCG GUAUCACA 5395
744 GCUCCUCU G CAGAAAAU 1603 AUUUUCUG UGAUG GCAUGCACUAUGC GCG AGAGGAGC 5396
761 AUGGACUU G AAGGAGCA 1604 UGCUCCUU UGAUG GCAUGCACUAUGC GCG AAGUCCAU 5397
818 UCUGUCCU G CUUGAAAC 1605 GUUUCAAG UGAUG GCAUGCACUAUGC GCG AGGACAGA 5398
822 UCCUGCUU G AAACUGCU 1606 AGCAGUUU UGAUG GCAUGCACUAUGC GCG AAGCAGGA 5399
828 UUGAAACU G CUGCUUCU 1607 AGAAGCAG UGAUG GCAUGCACUAUGC GCG AGUUUCAA 5400
831 AAACUGCU G CUUCUCUU 1608 AAGAGAAG UGAUG GCAUGCACUAUGC GCG AGCAGUUU 5401
864 UCUCAGCC G CUUCUUUC 1609 GAAAGAAG UGAUG GCAUGCACUAUGC GCG GGCUGAGA 5402
882 AAGAACAU G AAUACCUU 1610 AAGGUAUU UGAUG GCAUGCACUAUGC GCG AUGUUCUU 5403
918 UACCCACU G AAGGAACA 1611 UGUUCCUU UGAUG GCAUGCACUAUGC GCG AGUGGGUA 5404
945 AUGUCAGU G AAGCUUCU 1612 AGAAGCUU UGAUG GCAUGCACUAUGC GCG ACUGACAU 5405
1071 CAGAAUCU G CCGUAAUA 1613 UAUUACGG UGAUG GCAUGCACUAUGC GCG AGAUUCUG 5406
1109 AUAAUCGU G AAAAAUAA 1614 UUAUUUUU UGAUG GCAUGCACUAUGC GCG ACGAUUAU 5407
1122 AUAAAGAU G AAGAAGAG 1615 CUCUUCUU UGAUG GCAUGCACUAUGC GCG AUCUUUAU 5408
1206 AAGAGGAU G AAGUUGUG 1616 CACAACUU UGAUG GCAUGCACUAUGC GCG AUCCUCUU 5409
1245 GUUUUAAU G AAAAGAGA 1617 UCUCUUUU UGAUG GCAUGCACUAUGC GCG AUUAAAAC 5410
1257 AGAGAGUU G CAGUGGAA 1618 UUCCACUG UGAUG GCAUGCACUAUGC GCG AACUCUCU 5411
1274 GCUCCUAU G AGGGAGGA 1619 UCCUCCCU UGAUG GCAUGCACUAUGC GCG AUAGGAGC 5412
1287 AGGAAUAU G CAGACUUC 1620 GAAGUCUG UGAUG GCAUGCACUAUGC GCG AUAUUCCU 5413
1305 AACCAUUU G AGCGAGUA 1621 UACUCGCU UGAUG GCAUGCACUAUGC GCG AAAUGGUU 5414
1309 AUUUGAGC G AGUAUGGG 1622 CCCAUACU UGAUG GCAUGCACUAUGC GCG GCUCAAAU 5415
1322 UGGGAAGU G AAAGAUAG 1623 CUAUCUUU UGAUG GCAUGCACUAUGC GCG ACUUCCCA 5416
1344 AAGAUAGU G AUAUGUUG 1624 CAACAUAU UGAUG GCAUGCACUAUGC GCG ACUAUCUU 5417
1356 UGUUGGCU G CUGGAGGU 1625 ACCUCCAG UGAUG GCAUGCACUAUGC GCG AGCCAACA 5418
1371 GUAAAAUC G AGAGCAAC 1626 GUUGCUCU UGAUG GCAUGCACUAUGC GCG GAUUUUAC 5419
1410 AAUGUUUU G CAGAUAGC 1627 GCUAUCUG UGAUG GCAUGCACUAUGC GCG AAAACAUU 5420
1422 AUAGCCUU G AGCAAACU 1628 AGUUUGCU UGAUG GCAUGCACUAUGC GCG AAGGCUAU 5421
1437 CUAAUCAC G AAAAAGAU 1629 AUCUUUUU UGAUG GCAUGCACUAUGC GCG GUGAUUAG 5422
1449 AAGAUAGU G AGAGUAGU 1630 ACUACUCU UGAUG GCAUGCACUAUGC GCG ACUAUCUU 5423
1461 GUAGUAAU G AUGAUACU 1631 AGUAUCAU UGAUG GCAUGCACUAUGC GCG AUUACUAC 5424
1464 GUAAUGAU G AUACUUCU 1632 AGAAGUAU UGAUG GCAUGCACUAUGC GCG AUCAUUAC 5425
1484 CCCAGUAC G CCAGAAGG 1633 CCUUCUGG UGAUG GCAUGCACUAUGC GCG GUACUGGG 5426
1527 UCACAUGU G CUCCCUUU 1634 AAAGGGAG UGAUG GCAUGCACUAUGC GCG ACAUGUGA 5427
1551 CAGCAACU G AGAGCAUU 1635 AAUGCUCU UGAUG GCAUGCACUAUGC GCG AGUUGCUG 5428
1560 AGAGCAUU G CAACAAAC 1636 GUUUGUUG UGAUG GCAUGCACUAUGC GCG AAUGCUCU 5429
1611 AUAAGACC G AUGAAAAA 1637 UUUUUCAU UGAUG GCAUGCACUAUGC GCG GGUCUUAU 5430
1614 AGACCGAU G AAAAAAAA 1638 UUUUUUUU UGAUG GCAUGCACUAUGC GCG AUCGGUCU 5431
1710 AGGAUUCU G AGACAGAU 1639 AUCUGUCU UGAUG GCAUGCACUAUGC GCG AGAAUCCU 5432
1748 ACAAAGGU G ACUGAGGA 1640 UCCUCAGU UGAUG GCAUGCACUAUGC GCG ACCUUUGU 5433
1752 AGGUGACU G AGGAAGUC 1641 GACUUCCU UGAUG GCAUGCACUAUGC GCG AGUCACCU 5434
1772 GCAAACAU G CCUGAAGG 1642 CCUUCAGG UGAUG GCAUGCACUAUGC GCG AUGUUUGC 5435
1776 ACAUGCCU G AAGGCCUG 1643 CAGGCCUU UGAUG GCAUGCACUAUGC GCG AGGCAUGU 5436
1784 GAAGGCCU G ACUCCAGA 1644 UCUGGAGU UGAUG GCAUGCACUAUGC GCG AGGCCUUC 5437
1812 AAGCAUGU G AAAGUGAA 1645 UUCACUUU UGAUG GCAUGCACUAUGC GCG ACAUGCUU 5438
1818 GUGAAAGU G AAUUGAAU 1646 AUUCAAUU UGAUG GCAUGCACUAUGC GCG ACUUUCAC 5439
1823 AGUGAAUU G AAUGAAGU 1647 ACUUCAUU UGAUG GCAUGCACUAUGC GCG AAUUCACU 5440
1827 AAUUGAAU G AAGUUACU 1648 AGUAACUU UGAUG GCAUGCACUAUGC GCG AUUCAAUU 5441
1848 CAAAGAUU G CUUAUGAA 1649 UUCAUAAG UGAUG GCAUGCACUAUGC GCG AAUCUUUG 5442
1854 UUGCUUAU G AAACAAAA 1650 UUUUGUUU UGAUG GCAUGCACUAUGC GCG AUAAGCAA 5443
1892 GAAGUUAU G CAAGAGUC 1651 GACUCUUG UGAUG GCAUGCACUAUGC GCG AUAACUUC 5444
1911 UCUAUCCU G CAGCACAG 1652 CUGUGCUG UGAUG GCAUGCACUAUGC GCG AGGAUAGA 5445
1924 ACAGCUUU G CCCAUCAU 1653 AUGAUGGG UGAUG GCAUGCACUAUGC GCG AAAGCUGU 5446
1935 CAUCAUUU G AAGAGUCA 1654 UGACUCUU UGAUG GCAUGCACUAUGC GCG AAAUGAUG 5447
1967 CCAGUUUU G CCUGACAU 1655 AUGUCAGG UGAUG GCAUGCACUAUGC GCG AAAACUGG 5448
1971 UUUUGCCU G ACAUUGUU 1656 AACAAUGU UGAUG GCAUGCACUAUGC GCG AGGCAAAA 5449
1994 GCACCAUU G AAUUCUGC 1657 GCAGAAUU UGAUG GCAUGCACUAUGC GCG AAUGGUGC 5450
2001 UGAAUUCU G CAGUUCCU 1658 AGGAACUG UGAUG GCAUGCACUAUGC GCG AGAAUUCA 5451
2013 UUCCUAGU G CUGGUGCU 1659 AGCACCAG UGAUG GCAUGCACUAUGC GCG ACUAGGAA 5452
2019 GUGCUGGU G CUUCCGUG 1660 CACGGAAG UGAUG GCAUGCACUAUGC GCG ACCAGCAC 5453
2027 GCUUCCGU G AUACAGCC 1661 GGCUGUAU UGAUG GCAUGCACUAUGC GCG ACGGAAGC 5454
2073 UUAAUUAU G AAAGCAUA 1662 UAUGCUUU UGAUG GCAUGCACUAUGC GCG AUAAUUAA 5455
2088 UAAAACAU G AGCCUGAA 1663 UUCAGGCU UGAUG GCAUGCACUAUGC GCG AUGUUUUA 5456
2094 AUGAGCCU G AAAACCCC 1664 GGGGUUUU UGAUG GCAUGCACUAUGC GCG AGGCUCAU 5457
2112 CACCAUAU G AAGAGGCC 1665 GGCCUCUU UGAUG GCAUGCACUAUGC GCG AUAUGGUG 5458
2123 GAGGCCAU G AGUGUAUC 1666 GAUACACU UGAUG GCAUGCACUAUGC GCG AUGGCCUC 5459
2175 AAGAGCCU G AAAAUAUU 1667 AAUAUUUU UGAUG GCAUGCACUAUGC GCG AGGCUCUU 5460
2187 AUAUUAAU G CAGCUCUU 1668 AAGAGCUG UGAUG GCAUGCACUAUGC GCG AUUAAUAU 5461
2226 UAUCUAUU G CAUGUGAU 1669 AUCACAUG UGAUG GCAUGCACUAUGC GCG AAUAGAUA 5462
2232 UUGCAUGU G AUUUAAUU 1670 AAUUAAAU UGAUG GCAUGCACUAUGC GCG ACAUGCAA 5463
2259 AGCUUUCU G CUGAACCA 1671 UGGUUCAG UGAUG GCAUGCACUAUGC GCG AGAAAGCU 5464
2262 UUUCUGCU G AACCAGCU 1672 AGCUGGUU UGAUG GCAUGCACUAUGC GCG AGCAGAAA 5465
2283 AUUUCUCU G AUUAUUCA 1673 UGAAUAAU UGAUG GCAUGCACUAUGC GCG AGAGAAAU 5466
2307 CAAAAGUU G AACAGCCA 1674 UGGCUGUU UGAUG GCAUGCACUAUGC GCG AACUUUUG 5467
2318 CAGCCAGU G CCUGAUCA 1675 UGAUCAGG UGAUG GCAUGCACUAUGC GCG ACUGGCUG 5468
2322 CAGUGCCU G AUCAUUCU 1676 AGAAUGAU UGAUG GCAUGCACUAUGC GCG AGGCACUG 5469
2331 AUCAUUCU G AGCUAGUU 1677 AACUAGCU UGAUG GCAUGCACUAUGC GCG AGAAUGAU 5470
2340 AGCUAGUU G AAGAUUCC 1678 GGAAUCUU UGAUG GCAUGCACUAUGC GCG AACUAGCU 5471
2355 CCUCACCU G AUUCUGAA 1679 UUCAGAAU UGAUG GCAUGCACUAUGC GCG AGGUGAGG 5472
2361 CUGAUUCU G AACCAGUU 1680 AACUGGUU UGAUG GCAUGCACUAUGC GCG AGAAUCAG 5473
2370 AACCAGUU G ACUUAUUU 1681 AAAUAAGU UGAUG GCAUGCACUAUGC GCG AACUGGUU 5474
2382 UAUUUAGU G AUGAUUCA 1682 UGAAUCAU UGAUG GCAUGCACUAUGC GCG ACUAAAUA 5475
2385 UUAGUGAU G AUUCAAUA 1683 UAUUGAAU UGAUG GCAUGCACUAUGC GCG AUCACUAA 5476
2397 CAAUACCU G ACGUUCCA 1684 UGGAACGU UGAUG GCAUGCACUAUGC GCG AGGUAUUG 5477
2418 AACAAGAU G AAACUGUG 1685 CACAGUUU UGAUG GCAUGCACUAUGC GCG AUCUUGUU 5478
2426 GAAACUGU G AUGCUUGU 1686 ACAAGCAU UGAUG GCAUGCACUAUGC GCG ACAGUUUC 5479
2429 ACUGUGAU G CUUGUGAA 1687 UUCACAAG UGAUG GCAUGCACUAUGC GCG AUCACAGU 5480
2435 AUGCUUGU G AAAGAAAG 1688 CUUUCUUU UGAUG GCAUGCACUAUGC GCG ACAAGCAU 5481
2451 GUCUCACU G AGACUUCA 1689 UGAAGUCU UGAUG GCAUGCACUAUGC GCG AGUGAGAC 5482
2463 CUUCAUUU G AGUCAAUG 1690 CAUUGACU UGAUG GCAUGCACUAUGC GCG AAAUGAAG 5483
2471 GAGUCAAU G AUAGAAUA 1691 UAUUCUAU UGAUG GCAUGCACUAUGC GCG AUUGACUC 5484
2481 UAGAAUAU G AAAAUAAG 1692 CUUAUUUU UGAUG GCAUGCACUAUGC GCG AUAUUCUA 5485
2502 AACUCAGU G CUUUGCCA 1693 UGGCAAAG UGAUG GCAUGCACUAUGC GCG ACUGAGUU 5486
2507 AGUGCUUU G CCACCUGA 1694 UCAGGUGG UGAUG GCAUGCACUAUGC GCG AAAGCACU 5487
2514 UGCCACCU G AGGGAGGA 1695 UCCUCCCU UGAUG GCAUGCACUAUGC GCG AGGUGGCA 5488
2583 UGUUACCU G AUGAAGUU 1696 AACUUCAU UGAUG GCAUGCACUAUGC GCG AGGUAACA 5489
2586 UACCUGAU G AAGUUUCA 1697 UGAAACUU UGAUG GCAUGCACUAUGC GCG AUCAGGUA 5490
2600 UCAACAUU G AGCAAAAA 1698 UUUUUGCU UGAUG GCAUGCACUAUGC GCG AAUGUUGA 5491
2624 AUUCCUUU G CAGAUGGA 1699 UCCAUCUG UGAUG GCAUGCACUAUGC GCG AAAGGAAU 5492
2646 UCAGUACU G CAGUUUAU 1700 AUAAACUG UGAUG GCAUGCACUAUGC GCG AGUACUGA 5493
2661 AUUCAAAU G AUGACUUA 1701 UAAGUCAU UGAUG GCAUGCACUAUGC GCG AUUUGAAU 5494
2664 CAAAUGAU G ACUUAUUU 1702 AAAUAAGU UGAUG GCAUGCACUAUGC GCG AUCAUUUG 5495
2703 GAGAAACU G AAACGUUU 1703 AAACGUUU UGAUG GCAUGCACUAUGC GCG AGUUUCUC 5496
2730 CUCCAAUU G AAAUUAUA 1704 UAUAAUUU UGAUG GCAUGCACUAUGC GCG AAUUGGAG 5497
2742 UUAUAGAU G AGUUCCCU 1705 AGGGAACU UGAUG GCAUGCACUAUGC GCG AUCUAUAA 5498
2756 CCUACAUU G AUCAGUUC 1706 GAACUGAU UGAUG GCAUGCACUAUGC GCG AAUGUAGG 5499
2772 CUAAAACU G AUUCAUUU 1707 AAAUGAAU UGAUG GCAUGCACUAUGC GCG AGUUUUAG 5500
2805 AAUAUACU G ACCUAGAA 1708 UUCUAGGU UGAUG GCAUGCACUAUGC GCG AGUAUAUU 5501
2829 ACAAAAGU G AAAUUGCU 1709 AGCAAUUU UGAUG GCAUGCACUAUGC GCG ACUUUUGU 5502
2835 GUGAAAUU G CUAAUGCC 1710 GGCAUUAG UGAUG GCAUGCACUAUGC GCG AAUUUCAC 5503
2841 UUGCUAAU G CCCCGGAU 1711 AUCCGGGG UGAUG GCAUGCACUAUGC GCG AUUAGCAA 5504
2864 GGGUCAUU G CCUUGCAC 1712 GUGCAAGG UGAUG GCAUGCACUAUGC GCG AAUGACCC 5505
2869 AUUGCCUU G CACAGAAU 1713 AUUCUGUG UGAUG GCAUGCACUAUGC GCG AAGGCAAU 5506
2879 ACAGAAUU G CCCCAUGA 1714 UCAUGGGG UGAUG GCAUGCACUAUGC GCG AAUUCUGU 5507
2886 UGCCCCAU G ACCUUUCU 1715 AGAAAGGU UGAUG GCAUGCACUAUGC GCG AUGGGGCA 5508
2897 CUUUCUUU G AAGAACAU 1716 AUGUUCUU UGAUG GCAUGCACUAUGC GCG AAAGAAAG 5509
2919 CCAAAGUU G AAGAGAAA 1717 UUUCUCUU UGAUG GCAUGCACUAUGC GCG AACUUUGG 5510
2943 UCUCAGAU G ACUUUUCU 1718 AGAAAAGU UGAUG GCAUGCACUAUGC GCG AUCUGAGA 5511
2964 AUGGGUCU G CUACAUCA 1719 UGAUGUAG UGAUG GCAUGCACUAUGC GCG AGACCCAU 5512
2978 UCAAAGGU G CUCUUAUU 1720 AAUAAGAG UGAUG GCAUGCACUAUGC GCG ACCUUUGA 5513
2987 CUGUUAUU G CCUCCAGA 1721 UCUGGAGG UGAUG GCAUGCACUAUGC GCG AAUAAGAG 5514
3003 AUGUUUCU G CUUUGGCC 1722 GGCCAAAG UGAUG GCAUGCACUAUGC GCG AGAAACAU 5515
3056 GUUCUUGU G AAAGAAGC 1723 GCUUCUUU UGAUG GCAUGCACUAUGC GCG ACAAGAAC 5516
3066 AAGAAGCU G AGAAAAAA 1724 UUUUUUCU UGAUG GCAUGCACUAUGC GCG AGCUUCUU 5517
3084 UUCCUUCC G AUACAGAA 1725 UUCUGUAU UGAUG GCAUGCACUAUGC GCG GGAAGGAA 5518
3114 CACCAUCU G CUAUAUUU 1726 AAAUAUAG UGAUG GCAUGCACUAUGC GCG AGAUGGUG 5519
3134 GCAGAGCU G AGUAAAAC 1727 GUUUUACU UGAUG GCAUGCACUAUGC GCG AGCUCUGC 5520
3153 CAGUUGUU G ACCUCCUG 1728 CAGGAGGU UGAUG GCAUGCACUAUGC GCG AACAACUG 5521
3201 UGUUUGGU G CCAGCCUA 1729 UAGGCUGG UGAUG GCAUGCACUAUGC GCG ACCAAACA 5522
3215 CUAUUCCU G CUGCUUUC 1730 GAAAGCAG UGAUG GCAUGCACUAUGC GCG AGGAAUAG 5523
3218 UUCCUGCU G CUUUCAUU 1731 AAUGAAAG UGAUG GCAUGCACUAUGC GCG AGCAGGAA 5524
3227 CUUUCAUU G ACAGUAUU 1732 AAUACUGU UGAUG GCAUGCACUAUGC GCG AAUGAAAG 5525
3245 AGCAUUGU G AGCGUAAC 1733 GUUACGCU UGAUG GCAUGCACUAUGC GCG ACAAUGCU 5526
3264 CCUACAUU G CCUUGGCC 1734 GGCCAAGG UGAUG GCAUGCACUAUGC GCG AAUGUAGG 5527
3275 UUGGCCCU G CUCUCUGU 1735 ACAGAGAG UGAUG GCAUGCACUAUGC GCG AGGGCCAA 5528
3284 CUCUCUGU G ACCAUCAG 1736 CUGAUGGU UGAUG GCAUGCACUAUGC GCG ACAGAGAG 5529
3314 AAGGGUGU G AUCCAAGC 1737 GCUUGGAU UGAUG GCAUGCACUAUGC GCG ACACCCUU 5530
3339 AAUCAGAU G AAGGCCAC 1738 GUGGCCUU UGAUG GCAUGCACUAUGC GCG AUCUGAUU 5531
3372 UGGAAUCU G AAGUUGCU 1739 AGCAACUU UGAUG GCAUGCACUAUGC GCG AGAUUCCA 5532
3378 CUGAAGUU G CUAUAUCU 1740 AGAUAUAG UGAUG GCAUGCACUAUGC GCG AACUUCAG 5533
3387 CUAUAUCU G AGGAGUUG 1741 CAACUCCU UGAUG GCAUGCACUAUGC GCG AGAUAUAG 5534
3417 GUAAUUCU G CUCUUGGU 1742 ACCAAGAG UGAUG GCAUGCACUAUGC GCG AGAAUUAC 5535
3431 GGUCAUGU G AACUGCAC 1743 GUGCAGUU UGAUG GCAUGCACUAUGC GCG ACAUGACC 5536
3436 UGUGAACU G CACGAUAA 1744 UUAUCGUG UGAUG GCAUGCACUAUGC GCG AGUUCACA 5537
3440 AACUGCAC G AUAAAGGA 1745 UCCUUUAU UGAUG GCAUGCACUAUGC GCG GUGCAGUU 5538
3457 ACUCAGGC G CCUCUUCU 1746 AGAAGAGG UGAUG GCAUGCACUAUGC GCG GCCUGAGU 5539
3471 UCUUAGUU G AUGAUUUA 1747 UAAAUCAU UGAUG GCAUGCACUAUGC GCG AACUAAGA 5540
3474 UAGUUGAU G AUUUAGUU 1748 AACUAAAU UGAUG GCAUGCACUAUGC GCG AUCAACUA 5541
3483 AUUUAGUU G AUUCUCUG 1749 CAGAGAAU UGAUG GCAUGCACUAUGC GCG AACUAAAU 5542
3491 GAUUCUCU G AAGUUUGC 1750 GCAAACUU UGAUG GCAUGCACUAUGC GCG AGAGAAUC 5543
3498 UGAAGUUU G CAGUGUUG 1751 CAACACUG UGAUG GCAUGCACUAUGC GCG AAACUUCA 5544
3506 GCAGUGUU G AUGUGGGU 1752 ACCCACAU UGAUG GCAUGCACUAUGC GCG AACACUGC 5545
3531 AUGUUGGU G CCUUGUUU 1753 AAACAAGG UGAUG GCAUGCACUAUGC GCG ACCAACAU 5546
3548 AAUGGUCU G ACACUACU 1754 AGUAGUGU UGAUG GCAUGCACUAUGC GCG AGACCAUU 5547
3557 ACACUACU G AUUUUGGC 1755 GCCAAAAU UGAUG GCAUGCACUAUGC GCG AGUAGUGU 5548
3600 UUAUUUAU G AACGGCAU 1756 AUGCCGUU UGAUG GCAUGCACUAUGC GCG AUAAAUAA 5549
3639 UAGGACUU G CAAAUAAG 1757 CUUAUUUG UGAUG GCAUGCACUAUGC GCG AAGUCCUA 5550
3660 UUAAAGAU G CUAUGGCU 1758 AGCCAUAG UGAUG GCAUGCACUAUGC GCG AUCUUUAA 5551
3695 CCUGGAUU G AAGCGCAA 1759 UUGCGCUU UGAUG GCAUGCACUAUGC GCG AAUCCAGG 5552
3700 AUUGAAGC G CAAAGCUG 1760 CAGCUUUG UGAUG GCAUGCACUAUGC GCG GCUUCAAU 5553
3708 GCAAAGCU G AAUGAAAA 1761 UUUUCAUU UGAUG GCAUGCACUAUGC GCG AGCUUUGC 5554
3712 AGCUGAAU G AAAACGCC 1762 GGCGUUUU UGAUG GCAUGCACUAUGC GCG AUUCAGCU 5555
3718 AUGAAAAC G CCCAAAAU 1763 AUUUUGGG UGAUG GCAUGCACUAUGC GCG GUUUUCAU 5556
3765 AUUCAUUU G AUUAUACG 1764 CGUAUAAU UGAUG GCAUGCACUAUGC GCG AAAUGAAU 5557
3794 GGAAGAAC G AACCUUGA 1765 UCAAGGUU UGAUG GCAUGCACUAUGC GCG GUUCUUCC 5558
3801 CGAACCUU G ACGUUGCA 1766 UGCAACGU UGAUG GCAUGCACUAUGC GCG AAGGUUCG 5559
3807 UUGACGUU G CAGUGCAG 1767 CUGCACUG UGAUG GCAUGCACUAUGC GCG AACGUCAA 5560
3812 GUUGCAGU G CAGUUUCA 1768 UGAAACUG UGAUG GCAUGCACUAUGC GCG ACUGCAAC 5561
3853 UUAGCCAU G CACUGUUG 1769 CAACAGUG UGAUG GCAUGCACUAUGC GCG AUGGCUAA 5562
3863 ACUGUUGU G AGGAAAAA 1770 UUUUUCCU UGAUG GCAUGCACUAUGC GCG ACAACAGU 5563
3883 CCUGUCUU G ACUGCCAU 1771 AUGGCAGU UGAUG GCAUGCACUAUGC GCG AAGACAGG 5564
3887 UCUUGACU G CCAUGUGU 1772 ACACAUGG UGAUG GCAUGCACUAUGC GCG AGUCAAGA 5565
3920 UGUAAGCU G CUAUGUAU 1773 AUACAUAG UGAUG GCAUGCACUAUGC GCG AGCUUACA 5566
3963 UCCUAUCU G AGGCACUG 1774 CAGUGCCU UGAUG GCAUGCACUAUGC GCG AGAUAGGA 5567
4005 ACUUUGUU G CAGAUAGU 1775 ACUAUCUG UGAUG GCAUGCACUAUGC GCG AACAAAGU 5568
4017 AUAGUCUU G CCGCAUCU 1776 AGAUGCGG UGAUG GCAUGCACUAUGC GCG AAGACUAU 5569
4020 GUCUUGCC G CAUCUUGG 1777 CCAAGAUG UGAUG GCAUGCACUAUGC GCG GGCAAGAC 5570
4035 GGCAAGUU G CAGAGAUG 1778 CAUCUCUG UGAUG GCAUGCACUAUGC GCG AACUUGCC 5571
Input Sequence = AB020693. Cut Site = YG/M or UG/U.
Stem Length = 8. Core Sequence = UGAUG GCAUGCACUAUGC GCG
AB020693 (Homo sapiens mRHA for KIAA0886 protein (Nogo-A) ; 4053 bp)
Table VI: Human NOGO Zinzyme and Substrate Sequence
Pos Substrate Seq ID Zinzyme Seq ID
66 CCACAACC G CCCGCGGC 1545 GCCGCGGG GCCGAAAGGCGAGUCAAGGUCU GGUUGUGG 5572
70 AACCGCCC G CGGCUCUG 1546 CAGAGCCG GCCGAAAGGCGAGUCAAGGUCU GGGCGGUU 5573
83 UCUGAGAC G CGGCCCCG 1548 CGGGGCCG GCCGAAAGGCGAGUCAAGGUCU GUCUCAGA 5574
110 CAGCAGCU G CAGCAUCA 1549 UGAUGCUG GCCGAAAGGCGAGUCAAGGUCU AGCUGCUG 5575
191 CCCCGGCC G CAGCCCGC 1550 GCGGGCUG GCCGAAAGGCGAGUCAAGGUCU GGCCGGGG 5576
198 CGCAGCCC G CGUUCAAG 1551 CUUGAACG GCCGAAAGGCGAGUCAAGGUCU GGGCUGCG 5577
296 CUGGAGGU G CUGGAGAG 1557 CUCUCCAG GCCGAAAGGCGAGUCAAGGUCU ACCUCCAG 5578
312 GGAAGCCC G CCGCCGGG 1558 CCCGGCGG GCCGAAAGGCGAGUCAAGGUCU GGGCUUCC 5579
315 AGCCCGCC G CCGGGCUG 1559 CAGCCCGG GCCGAAAGGCGAGUCAAGGUCU GGCGGGCU 5580
327 GGCUGUCC G CGGCCCCA 1560 UGGGGCCG GCCGAAAGGCGAGUCAAGGUCU GGACAGCC 5581
338 GCCCCAGU G CCCACCGC 1561 GCGGUGGG GCCGAAAGGCGAGUCAAGGUCU ACUGGGGC 5582
345 UGCCCACC G CCCCUGCC 1562 GGCAGGGG GCCGAAAGGCGAGUCAAGGUCU GGUGGGCA 5583
351 CCGCCCCU G CCGCCGGC 1563 GCCGGCGG GCCGAAAGGCGAGUCAAGGUCU AGGGGCGG 5584
354 CCCCUGCC G CCGGCGCG 1564 CGCGCCGG GCCGAAAGGCGAGUCAAGGUCU GGCAGGGG 5585
360 CCGCCGGC G CGCCCCUG 1565 CAGGGGCG GCCGAAAGGCGAGUCAAGGUCU GCCGGCGG 5586
362 GCCGGCGC G CCCCUGAU 1566 AUCAGGGG GCCGAAAGGCGAGUCAAGGUCU GCGCCGGC 5587
392 GACUUCGU G CCGCCGGC 1569 GCCGGCGG GCCGAAAGGCGAGUCAAGGUCU ACGAAGUC 5588
395 UUCGUGCC G CCGGCGGC 1570 GGCGCCGG GCCGAAAGGCGAGUCAAGGUCU GGCACGAA 5589
401 CCGCCGGC G CCCCGGGG 1571 CCCCGGGG GCCGAAAGGCGAGUCAAGGUCU GCCGGCGG 5590
416 GGACCCCU G CCGGCCGC 1572 GCGGCCGG GCCGAAAGGCGAGUCAAGGUCU AGGGGUCC 5591
423 UGCCGGCC G CUCCCCCC 1573 GGGGGGAG GCCGAAAGGCGAGUCAAGGUCU GGCCGGCA 5592
435 CCCCCGUC G CCCCGGAG 1574 CUCCGGGG GCCGAAAGGCGAGUCAAGGUCU GACGGGGG 5593
485 UCGACCGU G CCCGCGGC 1577 GGCGCGGG GCCGAAAGGCGAGUCAAGGUCU ACGGUCGA 5594
489 CCGUGCCC G CGCCAUCC 1578 GGAUGGCG GCCGAAAGGCGAGUCAAGGUCU GGGCACGG 5595
491 GUGCCCGC G CCAUCCCC 1579 GGGGAUGG GCCGAAAGGCGAGUCAAGGUCU GCGGGCAC 5596
500 CCAUCCCC G CUGUCUGC 1580 GCAGACAG GCCGAAAGGCGAGUCAAGGUCU GGGGAUGG 5597
507 CGCUGUCU G CUGCCGCA 1581 UGCGGCAG GCCGAAAGGCGAGUCAAGGUCU AGACAGCG 5598
510 UGUCUGCU G CCGCAGUC 1582 GACUGCGG GCCGAAAGGCGAGUCAAGGUCU AGCAGACA 5599
513 CUGCUGCC G CAGUCUCG 1583 CGAGACUG GCCGAAAGGCGAGUCAAGGUCU GGCAGCAG 5600
521 GCAGUCUC G CCCUCCAA 1584 UUGGAGGG GCCGAAAGGCGAGUCAAGGUCU GAGACUGC 5601
617 UGGACCCC G CCAGCCCC 1589 GGGGCUGG GCCGAAAGGCGAGUCAAGGUCU GGGGUCCA 5602
633 CGGCUCCC G CCGCGCCC 1590 GGGCGCGG GCCGAAAGGCGAGUCAAGGUCU GGGAGCCG 5603
636 CUCCCGCC G CGCCCCCC 1591 GGGGGGCG GCCGAAAGGCGAGUCAAGGUCU GGCGGGAG 5604
638 CCCGCCGC G CCCCCCUC 1592 GAGGGGGG GCCGAAAGGCGAGUCAAGGUCU GCGGCGGG 5605
657 CCCCGGCC G CGCCCAAG 1593 CUUGGGCG GCCGAAAGGCGAGUCAAGGUCU GGCCGGGG 5606
659 CCGGCCGC G CCCAAGCG 1594 CGCUUGGG GCCGAAAGGCGAGUCAAGGUCU GCGGCCGG 5607
667 GCCCAAGC G CAGGGGCU 1595 AGCCCCUG GCCGAAAGGCGAGUCAAGGUCU GCUUGGGC 5608
705 CCCUUUUU G CUCUUCCU 1597 AGGAAGAG GCCGAAAGGCGAGUCAAGGUCU AAAAAGGG 5609
714 CUCUUCCU G CUGCAUCU 1598 AGAUGCAG GCCGAAAGGCGAGUCAAGGUCU AGGAAGAG 5610
717 UUCCUGCU G CAUCUGAG 1599 CUCAGAUG GCCGAAAGGCGAGUCAAGGUCU AGCAGGAA 5611
736 UGUGAUAC G CUCCUCUG 1602 CAGAGGAG GCCGAAAGGCGAGUCAAGGUCU GUAUCACA 5612
744 GCUCCUCU G CAGAAAAU 1603 AUUUUCUG GCCGAAAGGCGAGUCAAGGUCU AGAGGAGC 5613
818 UCUGUCCU G CUUGAAAC 1605 GUUUCAAG GCCGAAAGGCGAGUCAAGGUCU AGGACAGA 5614
828 UUGAAACU G CUGCUUCU 1607 AGAAGCAG GCCGAAAGGCGAGUCAAGGUCU AGUUUCAA 5615
831 AAACUGCU G CUUCUCUU 1608 AAGAGAAG GCCGAAAGGCGAGUCAAGGUCU AGCAGUUU 5616
864 UCUCAGCC G CUUCUUUC 1609 GAAAGAAG GCCGAAAGGCGAGUCAAGGUCU GGCUGAGA 5617
1071 CAGAAUCU G CCGUAAUA 1613 UAUUACGG GCCGAAAGGCGAGUCAAGGUCU AGAUUCUG 5618
1257 AGAGAGUU G CAGUGGAA 1618 UUCCACUG GCCGAAAGGCGAGUCAAGGUCU AACUCUCU 5619
1287 AGGAAUAU G CAGACUUC 1620 GAAGUCUG GCCGAAAGGCGAGUCAAGGUCU AUAUUCCU 5620
1356 UGUUGGCU G CUGGAGGU 1625 ACCUCCAG GCCGAAAGGCGAGUCAAGGUCU AGCCAACA 5621
1410 AAUGUUUU G CAGAUAGC 1627 GCUAUCUG GCCGAAAGGCGAGUCAAGGUCU AAAACAUU 5622
1484 CCCAGUAC G CCAGAAGG 1633 CCUUCUGG GCCGAAAGGCGAGUCAAGGUCU GUACUGGG 5623
1527 UCACAUGU G CUCCCUUU 1634 AAAGGGAG GCCGAAAGGCGAGUCAAGGUCU ACAUGUGA 5624
1560 AGAGCAUU G CAACAAAC 1636 GUUUGUUG GCCGAAAGGCGAGUCAAGGUCU AAUGCUCU 5625
1772 GCAAACAU G CCUGAAGG 1642 CCUUCAGG GCCGAAAGGCGAGUCAAGGUCU AUGUUUGC 5626
1848 CAAAGAUU G CUUAUGAA 1649 UUCAUAAG GCCGAAAGGCGAGUCAAGGUCU AAUCUUUG 5627
1892 GAAGUUAU G CAAGAGUC 1651 GACUCUUG GCCGAAAGGCGAGUCAAGGUCU AUAACUUC 5628
1911 UCUAUCCU G CAGCACAG 1652 CUGUGCUG GCCGAAAGGCGAGUCAAGGUCU AGGAUAGA 5629
1924 ACAGCUUU G CCCAUCAU 1653 AUGAUGGG GCCGAAAGGCGAGUCAAGGUCU AAAGCUGU 5630
1967 CCAGUUUU G CCUGACAU 1655 AUGUCAGG GCCGAAAGGCGAGUCAAGGUCU AAAACUGG 5631
2001 UGAAUUCU G CAGUUCCU 1658 AGGAACUG GCCGAAAGGCGAGUCAAGGUCU AGAAUUCA 5632
2013 UUCCUAGU G CUGGUGCU 1659 AGCACCAG GCCGAAAGGCGAGUCAAGGUCU ACUAGGAA 5633
2019 GUGCUGGU G CUUCCGUG 1660 CACGGAAG GCCGAAAGGCGAGUCAAGGUCU ACCAGCAC 5634
2187 AUAUUAAU G CAGCUCUU 1668 AAGAGCUG GCCGAAAGGCGAGUCAAGGUCU AUUAAUAU 5635
2226 UAUCUAUU G CAUGUGAU 1669 AUCACAUG GCCGAAAGGCGAGUCAAGGUCU AAUAGAUA 5636
2259 AGCUUUCU G CUGAACCA 1671 UGGUUCAG GCCGAAAGGCGAGUCAAGGUCU AGAAAGCU 5637
2318 CAGCCAGU G CCUGAUCA 1675 UGAUCAGG GCCGAAAGGCGAGUCAAGGUCU ACUGGCUG 5638
2429 ACUGUGAU G CUUGUGAA 1687 UUCACAAG GCCGAAAGGCGAGUCAAGGUCU AUCACAGU 5639
2502 AACUCAGU G CUUUGCCA 1693 UGGCAAAG GCCGAAAGGCGAGUCAAGGUCU ACUGAGUU 5640
2507 AGUGCUUU G CCACCUGA 1694 UCAGGUGG GCCGAAAGGCGAGUCAAGGUCU AAAGCACU 5641
2624 AUUCCUUU G CAGAUGGA 1699 UCCAUCUG GCCGAAAGGCGAGUCAAGGUCU AAAGGAAU 5642
2646 UCAGUACU G CAGUUUAU 1700 AUAAACUG GCCGAAAGGCGAGUCAAGGUCU AGUACUGA 5643
2835 GUGAAAUU G CUAAUGCC 1710 GGCAUUAG GCCGAAAGGCGAGUCAAGGUCU AAUUUCAC 5644
2841 UUGCUAAU G CCCCGGAU 1711 AUCCGGGG GCCGAAAGGCGAGUCAAGGUCU AUUAGCAA 5645
2864 GGGUCAUU G CCUUGCAC 1712 GUGCAAGG GCCGAAAGGCGAGUCAAGGUCU AAUGACCC 5646
2869 AUUGCCUU G CACAGAAU 1713 AUUCUGUG GCCGAAAGGCGAGUCAAGGUCU AAGGCAAU 5647
2879 ACAGAAUU G CCCCAUGA 1714 UCAUGGGG GCCGAAAGGCGAGUCAAGGUCU AAUUCUGU 5648
2964 AUGGGUCU G CUACAUCA 1719 UGAUGUAG GCCGAAAGGCGAGUCAAGGUCU AGACCCAU 5649
2978 UCAAAGGU G CUGUUAUU 1720 AAUAAGAG GCCGAAAGGCGAGUCAAGGUCU ACCUUUGA 5650
2987 CUGUUAUU G CCUCCAGA 1721 UCUGGAGG GCCGAAAGGCGAGUCAAGGUCU AAUAAGAG 5651
3003 AUGUUUCU G CUUUGGCC 1722 GGCCAAAG GCCGAAAGGCGAGUCAAGGUCU AGAAACAU 5652
3114 CACCAUCU G CUAUAUUU 1726 AAAUAUAG GCCGAAAGGCGAGUCAAGGUCU AGAUGGUG 5653
3201 UGUUUGGU G CCAGCCUA 1729 UAGGCUGG GCCGAAAGGCGAGUCAAGGUCU ACCAAACA 5654
3215 CUAUUCCU G CUGCUUUC 1730 GAAAGCAG GCCGAAAGGCGAGUCAAGGUCU AGGAAUAG 5655
3218 UUCCUGCU G CUUUCAUU 1731 AAUGAAAG GCCGAAAGGCGAGUCAAGGUCU AGCAGGAA 5656
3264 CCUACAUU G CCUUGGCC 1734 GGCCAAGG GCCGAAAGGCGAGUCAAGGUCU AAUGUAGG 5657
3275 UUGGCCCU G CUCUCUGU 1735 ACAGAGAG GCCGAAAGGCGAGUCAAGGUCU AGGGCCAA 5658
3378 CUGAAGUU G CUAUAUCU 1740 AGAUAUAG GCCGAAAGGCGAGUCAAGGUCU AACUUCAG 5659
3417 GUAAUUCU G CUCUUGGU 1742 ACCAAGAG GCCGAAAGGCGAGUCAAGGUCU AGAAUUAC 5660
3436 UGUGAACU G CACGAUAA 1744 UUAUCGUG GCCGAAAGGCGAGUCAAGGUCU AGUUCACA 5661
3457 ACUCAGGC G CCUCUUCU 1746 AGAAGAGG GCCGAAAGGCGAGUCAAGGUCU GCCUGAGU 5662
3498 UGAAGUUU G CAGUGUUG 1751 CAACACUG GCCGAAAGGCGAGUCAAGGUCU AAACUUCA 5663
3531 AUGUUGGU G CCUUGUUU 1753 AAACAAGG GCCGAAAGGCGAGUCAAGGUCU ACCAACAU 5664
3639 UAGGACUU G CAAAUAAG 1757 CUUAUUUG GCCGAAAGGCGAGUCAAGGUCU AAGUCCUA 5665
3660 UUAAAGAU G CUAUGGCU 1758 AGCCAUAG GCCGAAAGGCGAGUCAAGGUCU AUCUUUAA 5666
3700 AUUGAAGC G CAAAGCUG 1760 CAGCUUUG GCCGAAAGGCGAGUCAAGGUCU GCUUCAAU 5667
3718 AUGAAAAC G CCCAAAAU 1763 AUUUUGGG GCCGAAAGGCGAGUCAAGGUCU GUUUUCAU 5668
3807 UUGACGUU G CAGUGCAG 1767 CUGCACUG GCCGAAAGGCGAGUCAAGGUCU AACGUCAA 5669
3812 GUUGCAGU G CAGUUUCA 1768 UGAAACUG GCCGAAAGGCGAGUCAAGGUCU ACUGCAAC 5670
3853 UUAGCCAU G CACUGUUG 1769 CAACAGUG GCCGAAAGGCGAGUCAAGGUCU AUGGCUAA 5671
3887 UCUUGACU G CCAUGUGU 1772 ACACAUGG GCCGAAAGGCGAGUCAAGGUCU AGUCAAGA 5672
3920 UGUAAGCU G CUAUGUAU 1773 AUACAUAG GCCGAAAGGCGAGUCAAGGUCU AGCUUACA 5673
4005 ACUUUGUU G CAGAUAGU 1775 ACUAUCUG GCCGAAAGGCGAGUCAAGGUCU AACAAAGU 5674
4017 AUAGUCUU G CCGCAUCU 1776 AGAUGCGG GCCGAAAGGCGAGUCAAGGUCU AAGACUAU 5675
4020 GUCUUGCC G CAUCUUGG 1777 CCAAGAUG GCCGAAAGGCGAGUCAAGGUCU GGCAAGAC 5676
4035 GGCAAGUU G CAGAGAUG 1778 CAUCUCUG GCCGAAAGGCGAGUCAAGGUCU AACUUGCC 5677
12 CACAGUAG G UCCCUCGG 1779 CCGAGGGA GCCGAAAGGCGAGUCAAGGUCU CUACUGUG 5678
20 GUCCCUCG G CUCAGUCG 1780 CGACUGAG GCCGAAAGGCGAGUCAAGGUCU CGAGGGAC 5679
25 UCGGCUCA G UCGGCCCA 1781 UGGGCCGA GCCGAAAGGCGAGUCAAGGUCU UGAGCCGA 5680
29 CUCAGUCG G CCCAGCCC 1782 GGGCUGGG GCCGAAAGGCGAGUCAAGGUCU CGACUGAG 5681
34 UCGGCCCA G CCCCUCUC 1783 GAGAGGGG GCCGAAAGGCGAGUCAAGGUCU UGGGCCGA 5682
44 CCCUCUCA G UCCUCCCC 1784 GGGGAGGA GCCGAAAGGCGAGUCAAGGUCU UGAGAGGG 5683
73 CGCCCGCG G CUCUGAGA 1785 UCUCAGAG GCCGAAAGGCGAGUCAAGGUCU CGCGGGCG 5684
86 GAGACGCG G CCCCGGCG 1786 CGCCGGGG GCCGAAAGGCGAGUCAAGGUCU CGCGUCUC 5685
92 CGGCCCCG G CGGCGGCG 1787 CGCCGCCG GCCGAAAGGCGAGUCAAGGUCU CGGGGCCG 5686
95 CCCCGGCG G CGGCGGCA 1788 UGCCGCCG GCCGAAAGGCGAGUCAAGGUCU CGCCGGGG 5687
98 CGGCGGCG G CGGCAGCA 1789 UGCUGCCG GCCGAAAGGCGAGUCAAGGUCU CGCCGCCG 5688
101 CGGCGGCG G CAGCAGCU 1790 AGCUGCUG GCCGAAAGGCGAGUCAAGGUCU CGCCGCCG 5689
104 CGGCGGCA G CAGCUGCA 1791 UGCAGCUG GCCGAAAGGCGAGUCAAGGUCU UGCCGCCG 5690
107 CGGCAGCA G CUGCAGCA 1792 UGCUGCAG GCCGAAAGGCGAGUCAAGGUCU UGCUGCCG 5691
113 CAGCUGCA G CAUCAUCU 1793 AGAUGAUG GCCGAAAGGCGAGUCAAGGUCU UGCAGCUG 5692
132 ACCCUCCA G CCAUGGAA 1794 UUCCAUGG GCCGAAAGGCGAGUCAAGGUCU UGGAGGGU 5693
152 CUGGACCA G UCUCCUCU 1795 AGAGGAGA GCCGAAAGGCGAGUCAAGGUCU UGGUCCAG 5694
162 CUCCUCUG G UCUCGUCC 1796 GGACGAGA GCCGAAAGGCGAGUCAAGGUCU CAGAGGAG 5695
167 CUGGUCUC G UCCUCGGA 1797 UCCGAGGA GCCGAAAGGCGAGUCAAGGUCU GAGACCAG 5696
178 CUCGGACA G CCCACCCC 1798 GGGGUGGG GCCGAAAGGCGAGUCAAGGUCU UGUCCGAG 5697
188 CCACCCCG G CCGCAGCC 1799 GGCUGCGG GCCGAAAGGCGAGUCAAGGUCU CGGGGUGG 5698
194 CGGCCGCA G CCCGCGUU 1800 AACGCGGG GCCGAAAGGCGAGUCAAGGUCU UGGGGCCG 5699
200 CAGCCCGC G UUCAAGUA 1801 UACUUGAA GCCGAAAGGCGAGUCAAGGUCU GCGGGCUG 5700
206 GCGUUCAA G UACCAGUU 1802 AACUGGUA GCCGAAAGGCGAGUCAAGGUCU UUGAACGC 5701
212 AAGUACCA G UUCGUGAG 1803 CUCACGAA GCCGAAAGGCGAGUCAAGGUCU UGGUACUU 5702
216 ACCAGUUC G UGAGGGAG 1804 CUCCCUCA GCCGAAAGGCGAGUCAAGGUCU GAACUGGU 5703
224 GUGAGGGA G CCCGAGGA 1805 UCCUCGGG GCCGAAAGGCGAGUCAAGGUCU UCCCUCAC 5704
287 CUGGAGGA G CUGGAGGU 1806 ACCUCCAG GCCGAAAGGCGAGUCAAGGUCU UCCUCCAG 5705
294 AGCUGGAG G UGCUGGAG 1807 CUCCAGCA GCCGAAAGGCGAGUCAAGGUCU CUCCAGCU 5706
308 GAGAGGAA G CCCGCCGC 1808 GCGGCGGG GCCGAAAGGCGAGUCAAGGUCU UUCCUCUC 5707
320 GCCGCCGG G CUGUCCGC 1809 GCGGACAG GCCGAAAGGCGAGUCAAGGUCU CCGGCGGC 5708
323 GCCGGGCU G UCCGCGGC 1810 GCCGCGGA GCCGAAAGGCGAGUCAAGGUCU AGCCCGGC 5709
330 UGUCCGCG G CCCCAGUG 1811 CACUGGGG GCCGAAAGGCGAGUCAAGGUCU CGCGGACA 5710
336 CGGCCCCA G UGCCCACC 1812 GGUGGGCA GCCGAAAGGCGAGUCAAGGUCU UGGGGCCG 5711
358 UGCCGCCG G CGCGCCCC 1813 GGGGCGCG GCCGAAAGGCGAGUCAAGGUCU CGGCGGCA 5712
390 AUGACUUC G UGCCGCCG 1814 CGGCGGCA GCCGAAAGGCGAGUCAAGGUCU GAAGUCAU 5713
399 UGCCGCCG G CGCCCCGG 1815 CCGGGGCG GCCGAAAGGCGAGUCAAGGUCU CGGCGGCA 5714
420 CCCUGCCG G CCGCUCCC 1816 GGGAGCGG GCCGAAAGGCGAGUCAAGGUCU CGGCAGGG 5715
432 CUCCCCCC G UCGCCCCG 1817 CGGGGCGA GCCGAAAGGCGAGUCAAGGUCU GGGGGGAG 5716
443 GCCCCGGA G CGGCAGCC 1818 GGCUGCCG GCCGAAAGGCGAGUCAAGGUCU UCCGGGGC 5717
446 CCGGAGCG G CAGCCGUC 1819 GACGGCUG GCCGAAAGGCGAGUCAAGGUCU CGCUCCGG 5718
449 GAGCGGCA G CCGUCUUG 1820 CAAGACGG GCCGAAAGGCGAGUCAAGGUCU UGCCGCUC 5719
452 CGGCAGCC G UCUUGGGA 1821 UCCCAAGA GCCGAAAGGCGAGUCAAGGUCU GGCUGCCG 5720
466 GGACCCGA G CCCGGUGU 1822 ACACCGGG GCCGAAAGGCGAGUCAAGGUCU UCGGGUCC 5721
471 CGAGCCCG G UGUCGUCG 1823 CGACGACA GCCGAAAGGCGAGUCAAGGUCU CGGGCUCG 5722
473 AGCCCGGU G UCGUCGAC 1824 GUCGACGA GCCGAAAGGCGAGUCAAGGUCU ACCGGGCU 5723
476 CCGGUGUC G UCGACCGU 1825 ACGGUCGA GCCGAAAGGCGAGUCAAGGUCU GACACCGG 5724
483 CGUCGACC G UGCCCGCG 1826 CGCGGGCA GCCGAAAGGCGAGUCAAGGUCU GGUCGACG 5725
503 UCCCCGCU G UCUGCUGC 1827 GCAGCAGA GCCGAAAGGCGAGUCAAGGUCU AGCGGGGA 5726
516 CUGCCGCA G UCUCGCCC 1828 GGGCGAGA GCCGAAAGGCGAGUCAAGGUCU UGCGGCAG 5727
530 CCCUCCAA G CUCCCUGA 1829 UCAGGGAG GCCGAAAGGCGAGUCAAGGUCU UUGGAGGG 5728
548 GACGACGA G CCUCCGGC 1830 GCCGGAGG GCCGAAAGGCGAGUCAAGGUCU UCGUCGUC 5729
555 AGCCUCCG G CCCGGCCU 1831 AGGCCGGG GCCGAAAGGCGAGUCAAGGUCU CGGAGGCU 5730
560 CCGGCCCG G CCUCCCCC 1832 GGGGGAGG GCCGAAAGGCGAGUCAAGGUCU CGGGCCGG 5731
579 CUCCCCCG G CCAGCGUG 1833 CACGCUGG GCCGAAAGGCGAGUCAAGGUCU CGGGGGAG 5732
583 CCCGGCCA G CGUGAGCC 1834 GGCUCACG GCCGAAAGGCGAGUCAAGGUCU UGGCCGGG 5733
585 CGGCCAGC G UGAGCCCC 1835 GGGGCUCA GCCGAAAGGCGAGUCAAGGUCU GCUGGCCG 5734
589 CAGCGUGA G CCCCCAGG 1836 CCUGGGGG GCCGAAAGGCGAGUCAAGGUCU UCACGCUG 5735
597 GCCCCCAG G CAGAGCCC 1837 GGGCUCUG GCCGAAAGGCGAGUCAAGGUCU CUGGGGGC 5736
602 CAGGCAGA G CCCGUGUG 1838 CACACGGG GCCGAAAGGCGAGUCAAGGUCU UCUGCCUG 5737
606 CAGAGCCC G UGUGGACC 1839 GGUCCACA GCCGAAAGGCGAGUCAAGGUCU GGGCUCUG 5738
608 GAGCCCGU G UGGACCCC 1840 GGGGUCCA GCCGAAAGGCGAGUCAAGGUCU ACGGGCUC 5739
621 CCCCGCCA G CCCCGGCU 1841 AGCCGGGG GCCGAAAGGCGAGUCAAGGUCU UGGCGGGG 5740
627 CAGCCCCG G CUCCCGCC 1842 GGCGGGAG GCCGAAAGGCGAGUCAAGGUCU CGGGGCUG 5741
654 CCACCCCG G CCGCGCCC 1843 GGGCGCGG GCCGAAAGGCGAGUCAAGGUCU CGGGGUGG 5742
665 GCGCCCAA G CGCAGGGG 1844 CCCCUGCG GCCGAAAGGCGAGUCAAGGUCU UUGGGCGC 5743
673 GCGCAGGG G CUCCUCGG 1845 CCGAGGAG GCCGAAAGGCGAGUCAAGGUCU CCCUGCGC 5744
682 CUCCUCGG G CUCAGUGG 1846 CCACUGAG GCCGAAAGGCGAGUCAAGGUCU CCGAGGAG 5745
687 CGGGCUCA G UGGAUGAG 1847 CUCAUCCA GCCGAAAGGCGAGUCAAGGUCU UGAGCCCG 5746
725 GCAUCUGA G CCUGUGAU 1848 AUCACAGG GCCGAAAGGCGAGUCAAGGUCU UCAGAUGC 5747
729 CUGAGCCU G UGAUACGC 1849 GCGUAUCA GCCGAAAGGCGAGUCAAGGUCU AGGCUCAG 5748
767 UUGAAGGA G CAGCCAGG 1850 CCUGGCUG GCCGAAAGGCGAGUCAAGGUCU UCCUUCAA 5749
770 AAGGAGCA G CCAGGUAA 1851 UUACCUGG GCCGAAAGGCGAGUCAAGGUCU UGCUCCUU 5750
775 GCAGCCAG G UAACACUA 1852 UAGUGUUA GCCGAAAGGCGAGUCAAGGUCU CUGGCUGC 5751
789 CUAUUUCG G CUGGUCAA 1853 UUGACCAG GCCGAAAGGCGAGUCAAGGUCU CGAAAUAG 5752
793 UUCGGCUG G UCAAGAGG 1854 CCUCUUGA GCCGAAAGGCGAGUCAAGGUCU CAGCCGAA 5753
813 UCCCAUCU G UCCUGCUU 1855 AAGCAGGA GCCGAAAGGCGAGUCAAGGUCU AGAUGGGA 5754
848 CCUUCUCU G UCUCCUCU 1856 AGAGGAGA GCCGAAAGGCGAGUCAAGGUCU AGAGAAGG 5755
861 CUCUCUCA G CCGCUUCU 1857 AGAAGCGG GCCGAAAGGCGAGUCAAGGUCU UGAGAGAG 5756
892 AUACCUUG G UAAUUUGU 1858 ACAAAUUA GCCGAAAGGCGAGUCAAGGUCU CAAGGUAU 5757
899 GGUAAUUU G UCAACAGU 1859 ACUGUUGA GCCGAAAGGCGAGUCAAGGUCU AAAUUACC 5758
906 UGUCAACA G UAUUACCC 1860 GGGUAAUA GCCGAAAGGCGAGUCAAGGUCU UGUUGACA 5759
939 AAGAAAAU G UCAGUGAA 1861 UUCACUGA GCCGAAAGGCGAGUCAAGGUCU AUUUUCUU 5760
943 AAAUGUCA G UGAAGCUU 1862 AAGCUUCA GCCGAAAGGCGAGUCAAGGUCU UGACAUUU 5761
948 UCAGUGAA G CUUCUAAA 1863 UUUAGAAG GCCGAAAGGCGAGUCAAGGUCU UUCACUGA 5762
960 CUAAAGAG G UCUCAGAG 1864 CUCUGAGA GCCGAAAGGCGAGUCAAGGUCU CUCUUUAG 5763
972 CAGAGAAG G CAAAAACU 1865 AGUUUUUG GCCGAAAGGCGAGUCAAGGUCU CUUCUCUG 5764
1007 UUAACAGA G UUUUCAGA 1866 UCUGAAAA GCCGAAAGGCGAGUCAAGGUCU UCUGUUAA 5765
1043 GGAUCAUC G UUCAGUGU 1867 ACACUGAA GCCGAAAGGCGAGUCAAGGUCU GAUGAUCC 5766
1048 AUCGUUCA G UGUCUCUC 1868 GAGAGACA GCCGAAAGGCGAGUCAAGGUCU UGAACGAU 5767
1050 CGUUCAGU G UCUCUCCA 1869 UGGAGAGA GCCGAAAGGCGAGUCAAGGUCU ACUGAACG 5768
1062 CUCCAAAA G CAGAAUCU 1870 AGAUUCUG GCCGAAAGGCGAGUCAAGGUCU UUUUGGAG 5769
1074 AAUCUGCC G UAAUAGUA 1871 UACUAUUA GCCGAAAGGCGAGUCAAGGUCU GGCAGAUU 5770
1080 CCGUAAUA G UAGCAAAU 1872 AUUUGCUA GCCGAAAGGCGAGUCAAGGUCU UAUUACGG 5771
1083 UAAUAGUA G CAAAUCCU 1873 AGGAUUUG GCCGAAAGGCGAGUCAAGGUCU UACUAUUA 5772
1107 AAAUAAUC G UGAAAAAU 1874 AUUUUUCA GCCGAAAGGCGAGUCAAGGUCU GAUUAUUU 5773
1133 GAAGAGAA G UUAGUUAG 1875 CUAACUAA GCCGAAAGGCGAGUCAAGGUCU UUCUCUUC 5774
1137 AGAAGUUA G UUAGUAAU 1876 AUUACUAA GCCGAAAGGCGAGUCAAGGUCU UAACϋUCU 5775
1141 GUUAGUUA G UAAUAACA 1877 UGUUAUUA GCCGAAAGGCGAGUCAAGGUCU UAACUAAC 5776
1169 CAACAAGA G UUACCUAC 1878 GUAGGUAA GCCGAAAGGCGAGUCAAGGUCU UCUUGUUG 5777
1179 UACCUACA G CUCUUACU 1879 AGUAAGAG GCCGAAAGGCGAGUCAAGGUCU UGUAGGUA 5778
1194 CUAAAUUG G UUAAAGAG 1880 CUCUUUAA GCCGAAAGGCGAGUCAAGGUCU CAAUUUAG 5779
1209 AGGAUGAA G UUGUGUCU 1881 AGACACAA GCCGAAAGGCGAGUCAAGGUCU UUCAUCCU 5780
1212 AUGAAGUU G UGUCUUCA 1882 UGAAGACA GCCGAAAGGCGAGUCAAGGUCU AACUUCAU 5781
1214 GAAGUUGU G UCUUCAGA 1883 UCUGAAGA GCCGAAAGGCGAGUCAAGGUCU ACAACUUC 5782
1227 CAGAAAAA G CAAAAGAC 1884 GUCUUUUG GCCGAAAGGCGAGUCAAGGUCU UUUUUCUG 5783
1237 AAAAGACA G UUUUAAUG 1885 CAUUAAAA GCCGAAAGGCGAGUCAAGGUCU UGUCUUUU 5784
1254 AAAAGAGA G UUGCAGUG 1886 CACUGCAA GCCGAAAGGCGAGUCAAGGUCU UCUCUUUU 5785
1260 GAGUUGCA G UGGAAGCU 1887 AGCUUCCA GCCGAAAGGCGAGUCAAGGUCU UGCAACUC 5786
1266 CAGUGGAA G CUCCUAUG 1888 CAUAGGAG GCCGAAAGGCGAGUCAAGGUCU UUCCACUG 5787
1307 CCAUUUGA G CGAGUAUG 1889 CAUACUCG GCCGAAAGGCGAGUCAAGGUCU UCAAAUGG 5788
1311 UUGAGCGA G UAUGGGAA 1890 UUCCCAUA GCCGAAAGGCGAGUCAAGGUCU UCGCUCAA 5789
1320 UAUGGGAA G UGAAAGAU 1891 AUCUUUCA GCCGAAAGGCGAGUCAAGGUCU UUCCCAUA 5790
1330 GAAAGAUA G UAAGGAAG 1892 CUUCCUUA GCCGAAAGGCGAGUCAAGGUCU UAUCUUUC 5791
1342 GGAAGAUA G UGAUAUGU 1893 ACAUAUCA GCCGAAAGGCGAGUCAAGGUCU UAUCUUCC 5792
1349 AGUGAUAU G UUGGCUGC 1894 GCAGCCAA GCCGAAAGGCGAGUCAAGGUCU AUAUCACU 5793
1353 AUAUGUUG G CUGCUGGA 1895 UCCAGCAG GCCGAAAGGCGAGUCAAGGUCU CAACAUAU 5794
1363 UGCUGGAG G UAAAAUCG 1896 CGAUUUUA GCCGAAAGGCGAGUCAAGGUCU CUCCAGCA 5795
1375 AAUCGAGA G CAACUUGG 1897 CCAAGUUG GCCGAAAGGCGAGUCAAGGUCU UCUCGAUU 5796
1387 CUUGGAAA G UAAAGUGG 1898 CCACUUUA GCCGAAAGGCGAGUCAAGGUCU UUUCCAAG 5797
1392 AAAGUAAA G UGGAUAAA 1899 UUUAUCCA GCCGAAAGGCGAGUCAAGGUCU UUUACUUU 5798
1405 UAAAAAAU G UUUUGCAG 1900 CUGCAAAA GCCGAAAGGCGAGUCAAGGUCU AUUUUUUA 5799
1417 UGCAGAUA G CCUUGAGC 1901 GCUCAAGG GCCGAAAGGCGAGUCAAGGUCU UAUCUGCA 5800
1424 AGCCUUGA G CAAACUAA 1902 UUAGUUUG GCCGAAAGGCGAGUCAAGGUCU UCAAGGCU 5801
1447 AAAAGAUA G UGAGAGUA 1903 UACUCUCA GCCGAAAGGCGAGUCAAGGUCU UAUCUUUU 5802
1453 UAGUGAGA G UAGUAAUG 1904 CAUUACUA GCCGAAAGGCGAGUCAAGGUCU UCUCACUA 5803
1456 UGAGAGUA G UAAUGAUG 1905 CAUCAUUA GCCGAAAGGCGAGUCAAGGUCU UACUCUCA 5804
1480 UUUCCCCA G UACGCCAG 1906 CUGGCGUA GCCGAAAGGCGAGUCAAGGUCU UGGGGAAA 5805
1492 GCCAGAAG G UAUAAAGG 1907 CCUUUAUA GCCGAAAGGCGAGUCAAGGUCU CUUCUGGC 5806
1504 AAAGGAUC G UUCAGGAG 1908 CUCCUGAA GCCGAAAGGCGAGUCAAGGUCU GAUCCUUU 5807
1512 GUUCAGGA G CAUAUAUC 1909 GAUAUAUG GCCGAAAGGCGAGUCAAGGUCU UCCUGAAC 5808
1525 UAUCACAU G UGCUCCCU 1910 AGGGAGCA GCCGAAAGGCGAGUCAAGGUCU AUGUGAUA 5809
1542 UUAACCCA G CAGCAACU 1911 AGUUGCUG GCCGAAAGGCGAGUCAAGGUCU UGGGUUAA 5810
1545 ACCCAGCA G CAACUGAG 1912 CUCAGUUG GCCGAAAGGCGAGUCAAGGUCU UGCUGGGU 5811
1555 AACUGAGA G CAUUGCAA 1913 UUGCAAUG GCCGAAAGGCGAGUCAAGGUCU UCUCAGUU 5812
1580 UUUCCUUU G UUAGGAGA 1914 UCUCCUAA GCCGAAAGGCGAGUCAAGGUCU AAAGGAAA 5813
1638 AAAAGAAG G CCCAAAUA 1915 UAUUUGGG GCCGAAAGGCGAGUCAAGGUCU CUUCUUUU 5814
1647 CCCAAAUA G UAACAGAG 1916 CUCUGUUA GCCGAAAGGCGAGUCAAGGUCU UAUUUGGG 5815
1666 GAAUACUA G CACCAAAA 1917 UUUUGGUG GCCGAAAGGCGAGUCAAGGUCU UAGUAUUC 5816
1692 CUUUUCUU G UAGCAGCA 1918 UGCUGCUA GCCGAAAGGCGAGUCAAGGUCU AAGAAAAG 5817
1695 UUCUUGUA G CAGCACAG 1919 CUGUGCUG GCCGAAAGGCGAGUCAAGGUCU UACAAGAA 5818
1698 UUGUAGCA G CACAGGAU 1920 AUCCUGUG GCCGAAAGGCGAGUCAAGGUCU UGCUACAA 5819
1722 CAGAUUAU G UCACAACA 1921 UGUUGUGA GCCGAAAGGCGAGUCAAGGUCU AUAAUCUG 5820
1746 UAACAAAG G UGACUGAG 1922 CUCAGUCA GCCGAAAGGCGAGUCAAGGUCU CUUUGUUA 5821
1758 CUGAGGAA G UCGUGGCA 1923 UGCCACGA GCCGAAAGGCGAGUCAAGGUCU UUCCUCAG 5822
1761 AGGAAGUC G UGGCAAAC 1924 GUUUGCCA GCCGAAAGGCGAGUCAAGGUCU GACUUCCU 5823
1764 AAGUCGUG G CAAACAUG 1925 CAUGUUUG GCCGAAAGGCGAGUCAAGGUCU CACGACUU 5824
1780 GCCUGAAG G CCUGACUC 1926 GAGUCAGG GCCGAAAGGCGAGUCAAGGUCU CUUCAGGC 5825
1797 CAGAUUUA G UACAGGAA 1927 UUCCUGUA GCCGAAAGGCGAGUCAAGGUCU UAAAUCUG 5826
1806 UACAGGAA G CAUGUGAA 1928 UUCACAUG GCCGAAAGGCGAGUCAAGGUCU UUCCUGUA 5827
1810 GGAAGCAU G UGAAAGUG 1929 CAGUUUCA GCCGAAAGGCGAGUCAAGGUCU AUGCUUCC 5828
1816 AUGUGAAA G UGAAUUGA 1930 UCAAUUCA GCCGAAAGGCGAGUCAAGGUCU UUUCACAU 5829
1830 UGAAUGAA G UUACUGGU 1931 ACCAGUAA GCCGAAAGGCGAGUCAAGGUCU UUCAUUCA 5830
1837 AGUUACUG G UACAAAGA 1932 UCUUUGUA GCCGAAAGGCGAGUCAAGGUCU CAGUAACU 5831
1872 UGGACUUG G UUCAAAGA 1933 UGUUUGAA GCCGAAAGGCGAGUCAAGGUCU CAAGUCCA 5832
1887 CAUCAGAA G UUAUGCAA 1934 UUGCAUAA GCCGAAAGGCGAGUCAAGGUCU UUCUGAUG 5833
1898 AUGCAAGA G UCACUCUA 1935 UAGAGUGA GCCGAAAGGCGAGUCAAGGUCU UCUUGCAU 5834
1914 AUCCUGCA G CACAGCUU 1936 AAGCUGUG GCCGAAAGGCGAGUCAAGGUCU UGCAGGAU 5835
1919 GCAGCACA G CUUUGCCC 1937 GGGCAAAG GCCGAAAGGCGAGUCAAGGUCU UGUGCUGC 5836
1940 UUUGAAGA G UCAGAAGC 1938 GCUUCUGA GCCGAAAGGCGAGUCAAGGUCU UCUUCAAA 5837
1947 AGUCAGAA G CUACUCCU 1939 AGGAGUAG GCCGAAAGGCGAGUCAAGGUCU UUCUGACU 5838
1962 CUUCACCA G UUUUGCCU 1940 AGGCAAAA GCCGAAAGGCGAGUCAAGGUCU UGGUGAAG 5839
1977 CUGACAUU G UUAUGGAA 1941 UUCCAUAA GCCGAAAGGCGAGUCAAGGUCU AAUGUCAG 5840
1986 UUAUGGAA G CACCAUUG 1942 CAAUGGUG GCCGAAAGGCGAGUCAAGGUCU UUCCAUAA 5841
2004 AUUCUGCA G UUCCUAGU 1943 ACUAGGAA GCCGAAAGGCGAGUCAAGGUCU UGCAGAAU 5842
2011 AGUUCCUA G UGCUGGUG 1944 CACCAGCA GCCGAAAGGCGAGUCAAGGUCU UAGGAACU 5843
2017 UAGUGCUG G UGCUUCCG 1945 CGGAAGCA GCCGAAAGGCGAGUCAAGGUCU CAGCACUA 5844
2025 GUGCUUCC G UGAUACAG 1946 CUGUAUCA GCCGAAAGGCGAGUCAAGGUCU GGAAGCAC 5845
2033 GUGAUACA G CCCAGCUC 1947 GAGCUGGG GCCGAAAGGCGAGUCAAGGUCU UGUAUCAC 5846
2038 ACAGCCCA G CUCAUCAC 1948 GUGAUGAG GCCGAAAGGCGAGUCAAGGUCU UGGGCUGU 5847
2055 CAUUAGAA G CUUCUUCA 1949 UGAAGAAG GCCGAAAGGCGAGUCAAGGUCU UUCUAAUG 5848
2064 CUUCUUCA G UUAAUUAU 1950 AUAAUUAA GCCGAAAGGCGAGUCAAGGUCU UGAAGAAG 5849
2077 UUAUGAAA G CAUAAAAC 1951 GUUUUAUG GCCGAAAGGCGAGUCAAGGUCU UUUCAUAA 5850
2090 AAACAUGA G CCUGAAAA 1952 UUUUCAGG GCCGAAAGGCGAGUCAAGGUCU UCAUGUUU 5851
2118 AUGAAGAG G CCAUGAGU 1953 ACUCAUGG GCCGAAAGGCGAGUCAAGGUCU CUCUUCAU 5852
2125 GGCCAUGA G UGUAUCAC 1954 GUGAUACA GCCGAAAGGCGAGUCAAGGUCU UCAUGGCC 5853
2127 CCAUGAGU G UAUCACUA 1955 UAGUGAUA GCCGAAAGGCGAGUCAAGGUCU ACUCAUGG 5854
2142 UAAAAAAA G UAUCAGGA 1956 UCCUGAUA GCCGAAAGGCGAGUCAAGGUCU UUUUUUUA 5855
2171 AUUAAAGA G CCUGAAAA 1957 UUUUCAGG GCCGAAAGGCGAGUCAAGGUCU UCUUUAAU 5856
2190 UUAAUGCA G CUCUUCAA 1958 UUGAAGAG GCCGAAAGGCGAGUCAAGGUCU UGCAUUAA 5857
2208 AAACAGAA G CUCCUUAU 1959 AUAAGGAG GCCGAAAGGCGAGUCAAGGUCU UUCUGUUU 5858
2230 UAUUGCAU G UGAUUUAA 1960 UUAAAUCA GCCGAAAGGCGAGUCAAGGUCU AUGCAAUA 5859
2252 GAAACAAA G CUUUCUGC 1961 GCAGAAAG GCCGAAAGGCGAGUCAAGGUCU UUUGUUUC 5860
2268 CUGAACCA G CUCCGGAU 1962 AUCCGGAG GCCGAAAGGCGAGUCAAGGUCU UGGUUCAG 5861
2298 CAGAAAUG G CAAAAGUU 1963 AACUUUUG GCCGAAAGGCGAGUCAAGGUCU CAUUUCUG 5862
2304 UGGCAAAA G UUGAACAG 1964 CUGUUCAA GCCGAAAGGCGAGUCAAGGUCU UUUUGCCA 5863
2312 GUUGAACA G CCAGUGCC 1965 GGCACUGG GCCGAAAGGCGAGUCAAGGUCU UGUUCAAC 5864
2316 AACAGCCA G UGCCUGAU 1966 AUCAGGCA GCCGAAAGGCGAGUCAAGGUCU UGGCUGUU 5865
2333 CAUUCUGA G CUAGUUGA 1967 UCAACUAG GCCGAAAGGCGAGUCAAGGUCU UCAGAAUG 5866
2337 CUGAGCUA G UUGAAGAU 1968 AUCUUCAA GCCGAAAGGCGAGUCAAGGUCU UAGCUCAG 5867
2367 CUGAACCA G UUGACUUA 1969 UAAGUCAA GCCGAAAGGCGAGUCAAGGUCU UGGUUCAG 5868
2380 CUUAUUUA G UGAUGAUU 1970 AAUCAUCA GCCGAAAGGCGAGUCAAGGUCU UAAAUAAG 5869
2400 UACCUGAC G UUCCACAA 1971 UUGUGGAA GCCGAAAGGCGAGUCAAGGUCU GUCAGGUA 5870
2424 AUGAAACU G UGAUGCUU 1972 AAGCAUCA GCCGAAAGGCGAGUCAAGGUCU AGUUUCAU 5871
2433 UGAUGCUU G UGAAAGAA 1973 UUCUUUCA GCCGAAAGGCGAGUCAAGGUCU AAGCAUCA 5872
2443 GAAAGAAA G UCUCACUG 1974 CAGUGAGA GCCGAAAGGCGAGUCAAGGUCU UUUCUUUC 5873
2465 UCAUUUGA G UCAAUGAU 1975 AUCAUUGA GCCGAAAGGCGAGUCAAGGUCU UCAAAUGA 5874
2500 AAAACUCA G UGCUUUGC 1976 GCAAAGCA GCCGAAAGGCGAGUCAAGGUCU UGAGUUUU 5875
2525 GGAGGAAA G CCAUAUUU 1977 AAAUAUGG GCCGAAAGGCGAGUCAAGGUCU UUUCCUCC 5876
2546 UCUUUUAA G CUCAGUUU 1978 AAACUGAG GCCGAAAGGCGAGUCAAGGUCU UUAAAAGA 5877
2551 UAAGCUCA G UUUAGAUA 1979 UAUCUAAA GCCGAAAGGCGAGUCAAGGUCU UGAGCUUA 5878
2576 GAUACCCU G UUACCUGA 1980 UCAGGUAA GCCGAAAGGCGAGUCAAGGUCU AGGGUAUC 5879
2589 CUGAUGAA G UUUCAACA 1981 UGUUGAAA GCCGAAAGGCGAGUCAAGGUCU UUCAUCAG 5880
2602 AACAUUGA G CAAAAAGG 1982 CCUUUUUG GCCGAAAGGCGAGUCAAGGUCU UCAAUGUU 5881
2636 AUGGAGGA G CUCAGUAC 1983 GUACUGAG GCCGAAAGGCGAGUCAAGGUCU UCCUCCAU 5882
2641 GGAGCUCA G UACUGCAG 1984 CUGCAGUA GCCGAAAGGCGAGUCAAGGUCU UGAGCUCC 5883
2649 GUACUGCA G UUUAUUCA 1985 UGAAUAAA GCCGAAAGGCGAGUCAAGGUCU UGCAGUAC 5884
2685 CUAAGGAA G CACAGAUA 1986 UAUCUGUG GCCGAAAGGCGAGUCAAGGUCU UUCCUUAG 5885
2708 ACUGAAAC G UUUUCAGA 1987 UCUGAAAA GCCGAAAGGCGAGUCAAGGUCU GUUUCAGU 5886
2744 AUAGAUGA G UUCCCUAC 1988 GUAGGGAA GCCGAAAGGCGAGUCAAGGUCU UCAUCUAU 5887
2761 AUUGAUCA G UUCUAAAA 1989 UUUUAGAA GCCGAAAGGCGAGUCAAGGUCU UGAUCAAU 5888
2790 CUAAAUUA G CCAGGGAA 1990 UUCCCUGG GCCGAAAGGCGAGUCAAGGUCU UAAUUUAG 5889
2814 ACCUAGAA G UAUCCCAC 1991 GUGGGAUA GCCGAAAGGCGAGUCAAGGUCU UUCUAGGU 5890
2827 CCACAAAA G UGAAAUUG 1992 CAAUUUCA GCCGAAAGGCGAGUCAAGGUCU UUUUGUGG 5891
2853 CGGAUGGA G CUGGGUCA 1993 UGACCCAG GCCGAAAGGCGAGUCAAGGUCU UCCAUCCG 5892
2858 GGAGCUGG G UCAUUGCC 1994 GGCAAUGA GCCGAAAGGCGAGUCAAGGUCU CCAGCUCC 5893
2916 AACCCAAA G UUGAAGAG 1995 CUCUUCAA GCCGAAAGGCGAGUCAAGGUCU UUUGGGUU 5894
2932 GAAAAUCA G UUUCUCAG 1996 CUGAGAAA GCCGAAAGGCGAGUCAAGGUCU UGAUUUUC 5895
2960 AAAAAUGG G UCUGCUAC 1997 GUAGCAGA GCCGAAAGGCGAGUCAAGGUCU CCAUUUUU 5896
2976 CAUCAAAG G UGCUCUUA 1998 UAAGAGCA GCCGAAAGGCGAGUCAAGGUCU CUUUGAUG 5897
2997 CUCCAGAU G UUUCUGCU 1999 AGCAGAAA GCCGAAAGGCGAGUCAAGGUCU AUCUGGAG 5898
3009 CUGCUUUG G CCACUCAA 2000 UUGAGUGG GCCGAAAGGCGAGUCAAGGUCU CAAAGCAG 5899
3018 CCACUCAA G CAGAGAUA 2001 UAUCUCUG GCCGAAAGGCGAGUCAAGGUCU UUGAGUGG 5900
3031 GAUAGAGA G CAUAGUUA 2002 UAACUAUG GCCGAAAGGCGAGUCAAGGUCU UCUCUAUC 5901
3036 AGAGCAUA G UUAAACCC 2003 GGGUUUAA GCCGAAAGGCGAGUCAAGGUCU UAUGCUCU 5902
3048 AACCCAAA G UUCUUGUG 2004 CACAAGAA GCCGAAAGGCGAGUCAAGGUCU UUUGGGUU 5903
3054 AAGUUCUU G UGAAAGAA 2005 UUCUUUCA GCCGAAAGGCGAGUCAAGGUCU AAGAACUU 5904
3063 UGAAAGAA G CUGAGAAA 2006 UUUCUCAG GCCGAAAGGCGAGUCAAGGUCU UUCUUUCA 5905
3126 UAUUUUCA G CAGAGCUG 2007 CAGCUCUG GCCGAAAGGCGAGUCAAGGUCU UGAAAAUA 5906
3131 UCAGCAGA G CUGAGUAA 2008 UUACUCAG GCCGAAAGGCGAGUCAAGGUCU UCUGCUGA 5907
3136 AGAGCUGA G UAAAACUU 2009 AAGUUUUA GCCGAAAGGCGAGUCAAGGUCU UCAGCUCU 5908
3147 AAACUUCA G UUGUUGAC 2010 GUCAACAA GCCGAAAGGCGAGUCAAGGUCU UGAAGUUU 5909
3150 CUUCAGUU G UUGACCUC 2011 GAGGUCAA GCCGAAAGGCGAGUCAAGGUCU AACUGAAG 5910
3161 GACCUCCU G UACUGGAG 2012 CUCCAGUA GCCGAAAGGCGAGUCAAGGUCU AGGAGGUC 5911
3189 AGACUGGA G UGGUGUUU 2013 AAACACCA GCCGAAAGGCGAGUCAAGGUCU UCCAGUCU 5912
3192 CUGGAGUG G UGUUUGGU 2014 ACCAAACA GCCGAAAGGCGAGUCAAGGUCU CACUCCAG 5913
3194 GGAGUGGU G UUUGGUGC 2015 GCACCAAA GCCGAAAGGCGAGUCAAGGUCU ACCACUCC 5914
3199 GGUGUUUG G UGCCAGCC 2016 GGCUGGCA GCCGAAAGGCGAGUCAAGGUCU CAAACACC 5915
3205 UGGUGCCA G CCUAUUCC 2017 GGAAUAGG GCCGAAAGGCGAGUCAAGGUCU UGGCACCA 5916
3231 CAUUGACA G UAUUCAGC 2018 GCUGAAUA GCCGAAAGGCGAGUCAAGGUCU UGUCAAUG 5917
3238 AGUAUUCA G CAUUGUGA 2019 UCACAAUG GCCGAAAGGCGAGUCAAGGUCU UGAAUACU 5918
3243 UCAGCAUU G UGAGCGUA 2020 UACGCUCA GCCGAAAGGCGAGUCAAGGUCU AAUGCUGA 5919
3247 CAUUGUGA G CGUAACAG 2021 CUGUUACG GCCGAAAGGCGAGUCAAGGUCU UCACAAUG 5920
3249 UUGUGAGC G UAACAGCC 2022 GGCUGUUA GCCGAAAGGCGAGUCAAGGUCU GCUCACAA 5921
3255 GCGUAACA G CCUACAUU 2023 AAUGUAGG GCCGAAAGGCGAGUCAAGGUCU UGUUACGC 5922
3270 UUGCCUUG G CCCUGCUC 2024 GAGCAGGG GCCGAAAGGCGAGUCAAGGUCU CAAGGCAA 5923
3282 UGCUCUCU G UGACCAUC 2025 GAUGGUCA GCCGAAAGGCGAGUCAAGGUCU AGAGAGCA 5924
3292 GACCAUCA G CUUUAGGA 2026 UCCUAAAG GCCGAAAGGCGAGUCAAGGUCU UGAUGGUC 5925
3310 AUACAAGG G UGUGAUCC 2027 GGAUCACA GCCGAAAGGCGAGUCAAGGUCU CCUUGUAU 5926
3312 ACAAGGGU G UGAUCCAA 2028 UUGGAUCA GCCGAAAGGCGAGUCAAGGUCU ACCCUUGU 5927
3321 UGAUCCAA G CUAUCCAG 2029 CUGGAUAG GCCGAAAGGCGAGUCAAGGUCU UUGGAUCA 5928
3343 AGAUGAAG G CCACCCAU 2030 AUGGGUGG GCCGAAAGGCGAGUCAAGGUCU CUUCAUCU 5929
3357 CAUUCAGG G CAUAUCUG 2031 CAGAUAUG GCCGAAAGGCGAGUCAAGGUCU CCUGAAUG 5930
3375 AAUCUGAA G UUGCUAUA 2032 UAUAGCAA GCCGAAAGGCGAGUCAAGGUCU UUCAGAUU 5931
3392 UCUGAGGA G UUGGUUCA 2033 UGAACCAA GCCGAAAGGCGAGUCAAGGUCU UCCUCAGA 5932
3396 AGGAGUUG G UUCAGAAG 2034 CUUCUGAA GCCGAAAGGCGAGUCAAGGUCU CAACUCCU 5933
3404 GUUCAGAA G UACAGUAA 2035 UUACUGUA GCCGAAAGGCGAGUCAAGGUCU UUCUGAAC 5934
3409 GAAGUACA G UAAUUCUG 2036 CAGAAUUA GCCGAAAGGCGAGUCAAGGUCU UGUACUUC 5935
3424 UGCUCUUG G UCAUGUGA 2037 UCACAUGA GCCGAAAGGCGAGUCAAGGUCU CAAGAGCA 5936
3429 UUGGUCAU G UGAACUGC 2038 GCAGUUCA GCCGAAAGGCGAGUCAAGGUCU AUGACCAA 5937
3455 GAACUCAG G CGCCUCUU 2039 AAGAGGCG GCCGAAAGGCGAGUCAAGGUCU CUGAGUUC 5938
3468 UCUUCUUA G UUGAUGAU 2040 AUCAUCAA GCCGAAAGGCGAGUCAAGGUCU UAAGAAGA 5939
3480 AUGAUUUA G UUGAUUCU 2041 AGAAUCAA GCCGAAAGGCGAGUCAAGGUCU UAAAUCAU 5940
3494 UCUCUGAA G UUUGCAGU 2042 ACUGCAAA GCCGAAAGGCGAGUCAAGGUCU UUCAGAGA 5941
3501 AGUUUGCA G UGUUGAUG 2043 CAUCAACA GCCGAAAGGCGAGUCAAGGUCU UGCAAACU 5942
3503 UUUGCAGU G UUGAUGUG 2044 CACAUCAA GCCGAAAGGCGAGUCAAGGUCU ACUGCAAA 5943
3509 GUGUUGAU G UGGGUAUU 2045 AAUACCCA GCCGAAAGGCGAGUCAAGGUCU AUCAACAC 5944
3513 UGAUGUGG G UAUUUACC 2046 GGUAAAUA GCCGAAAGGCGAGUCAAGGUCU CCACAUCA 5945
3525 UUACCUAU G UUGGUGCC 2047 GGCACCAA GCCGAAAGGCGAGUCAAGGUCU AUAGGUAA 5946
3529 CUAUGUUG G UGCCUUGU 2048 ACAAGGCA GCCGAAAGGCGAGUCAAGGUCU CAACAUAG 5947
3536 GGUGCCUU G UUUAAUGG 2049 CCAUUAAA GCCGAAAGGCGAGUCAAGGUCU AAGGCACC 5948
3544 GUUUAAUG G UCUGACAC 2050 GUGUCAGA GCCGAAAGGCGAGUCAAGGUCU CAUUAAAC 5949
3564 UGAUUUUG G CUCUCAUU 2051 AAUGAGAG GCCGAAAGGCGAGUCAAGGUCU CAAAAUCA 5950
3583 ACUCUUCA G UGUUCCUG 2052 CAGGAACA GCCGAAAGGCGAGUCAAGGUCU UGAAGAGU 5951
3585 UCUUCAGU G UUCCUGUU 2053 AACAGGAA GCCGAAAGGCGAGUCAAGGUCU ACUGAAGA 5952
3591 GUGUUCCU G UUAUUUAU 2054 AUAAAUAA GCCGAAAGGCGAGUCAAGGUCU AGGAACAC 5953
3605 UAUGAACG G CAUCAGGC 2055 GCCUGAUG GCCGAAAGGCGAGUCAAGGUCU CGUUCAUA 5954
3612 GGCAUCAG G CACAGAUA 2056 UAUCUGUG GCCGAAAGGCGAGUCAAGGUCU CUGAUGCC 5955
3651 AUAAGAAU G UUAAAGAU 2057 AUCUUUAA GCCGAAAGGCGAGUCAAGGUCU AUUCUUAU 5956
3666 AUGCUAUG G CUAAAAUC 2058 GAUUUUAG GCCGAAAGGCGAGUCAAGGUCU CAUAGCAU 5957
3678 AAAUCCAA G CAAAAAUC 2059 GAUUUUUG GCCGAAAGGCGAGUCAAGGUCU UUGGAUUU 5958
3698 GGAUUGAA G CGCAAAGC 2060 GCUUUGCG GCCGAAAGGCGAGUCAAGGUCU UUCAAUCC 5959
3705 AGCGCAAA G CUGAAUGA 2061 UCAUUCAG GCCGAAAGGCGAGUCAAGGUCU UUUGCGCU 5960
3732 AAUAAUUA G UAGGAGUU 2062 AACUCCUA GCCGAAAGGCGAGUCAAGGUCU UAAUUAUU 5961
3738 UAGUAGGA G UUCAUCUU 2063 AAGAUGAA GCCGAAAGGCGAGUCAAGGUCU UCCUACUA 5962
3781 GGGGGAGG G UCAGGGAA 2064 UUCCCUGA GCCGAAAGGCGAGUCAAGGUCU CCUCCCCC 5963
3804 ACCUUGAC G UUGCAGUG 2065 CACUGCAA GCCGAAAGGCGAGUCAAGGUCU GUCAAGGU 5964
3810 ACGUUGCA G UGCAGUUU 2066 AAACUGCA GCCGAAAGGCGAGUCAAGGUCU UGCAACGU 5965
3815 GCAGUGCA G UUUCACAG 2067 CUGUGAAA GCCGAAAGGCGAGUCAAGGUCU UGCACUGC 5966
3827 CACAGAUC G UUGUUAGA 2068 UCUAACAA GCCGAAAGGCGAGUCAAGGUCU GAUCUGUG 5967
3830 AGAUCGUU G UUAGAUCU 2069 AGAUCUAA GCCGAAAGGCGAGUCAAGGUCU AACGAUCU 5968
3848 UAUUUUUA G CCAUGCAC 2070 GUGCAUGG GCCGAAAGGCGAGUCAAGGUCU UAAAAAUA 5969
3858 CAUGCACU G UUGUGAGG 2071 CCUCACAA GCCGAAAGGCGAGUCAAGGUCU AGUGCAUG 5970
3861 GCACUGUU G UGAGGAAA 2072 UUUCCUCA GCCGAAAGGCGAGUCAAGGUCU AACAGUGC 5971
3878 AAUUACCU G UCUUGACU 2073 AGUCAAGA GCCGAAAGGCGAGUCAAGGUCU AGGUAAUU 5972
3892 ACUGCCAU G UGUUCAUC 2074 GAUGAACA GCCGAAAGGCGAGUCAAGGUCU AUGGCAGU 5973
3894 UGCCAUGU G UUCAUCAU 2075 AUGAUGAA GCCGAAAGGCGAGUCAAGGUCU ACAUGGCA 5974
3908 CAUCUUAA G UAUUGUAA 2076 UUACAAUA GCCGAAAGGCGAGUCAAGGUCU UUAAGAUG 5975
3913 UAAGUAUU G UAAGCUGC 2077 GCAGCUUA GCCGAAAGGCGAGUCAAGGUCU AAUACUUA 5976
3917 UAUUGUAA G CUGCUAUG 2078 CAUAGCAG GCCGAAAGGCGAGUCAAGGUCU UUACAAUA 5977
3925 GCUGCUAU G UAUGGAUU 2079 AAUCCAUA GCCGAAAGGCGAGUCAAGGUCU AUAGCAGC 5978
3940 UUUAAACC G UAAUCAUA 2080 UAUGAUUA GCCGAAAGGCGAGUCAAGGUCU GGUUUAAA 5979
3966 UAUCUGAG G CACUGGUG 2081 CACCAGUG GCCGAAAGGCGAGUCAAGGUCU CUCAGAUA 5980
3972 AGGCACUG G UGGAAUAA 2082 UUAUUCCA GCCGAAAGGCGAGUCAAGGUCU CAGUGCCU 5981
3988 AAAAACCU G UAUAUUUU 2083 AAAAUAUA GCCGAAAGGCGAGUCAAGGUCU AGGUUUUU 5982
4002 UUUACUUU G UUGCAGAU 2084 AUCUGCAA GCCGAAAGGCGAGUCAAGGUCU AAAGUAAA 5983
4012 UGCAGAUA G UCUUGCCG 2085 CGGCAAGA GCCGAAAGGCGAGUCAAGGUCU UAUCUGCA 5984
4028 GCAUCUUG G CAAGUUGC 2086 GCAACUUG GCCGAAAGGCGAGUCAAGGUCU CAAGAUGC 5985
4032 CUUGGCAA G UUGCAGAG 2087 CUCUGCAA GCCGAAAGGCGAGUCAAGGUCU UUGCCAAG 5986
4044 CAGAGAUG G UGGAGCUA 2088 UAGCUCCA GCCGAAAGGCGAGUCAAGGUCU CAUCUCUG 5987
Input Sequence = AB020693. Cut Site = G/Y
Stem Length = 8 . Core Sequence = GCcgaaagGCGaGuCaaGGuCu
AB020693 (Homo sapiens mRNA for KIAA0886 protein (Nogo-A) ; 4053 bp)
Table VII: Human NOGO DNAzyme and Substrate Sequence
Pos Substrate Seq ID DNAzyme Seq ID
208 GUUCAAGU A CCAGUUCG 24 CGAACTGG GGCTAGCTACAACGA ACTTGAAC 5988
734 CCUGUGAU A CGCUCCUC 61 GAGGAGCG GGCTAGCTACAACGA ATCACAGG 5989
753 CAGAAAAU A UGGACUUG 64 CAAGTCCA GGCTAGCTACAACGA ATTTTCTG 5990
783 GUAACACU A UUUCGGCU 67 AGCCGAAA GGCTAGCTACAACGA AGTGTTAC 5991
886 ACAUGAAU A CCUUGGUA 96 TACCAAGG GGCTAGCTACAACGA ATTCATGT 5992
908 UCAACAGU A UUACCCAC 102 GTGGGTAA GGCTAGCTACAACGA ACTGTTGA 5993
911 ACAGUAUU A CCCACUGA 104 TCAGTGGG GGCTAGCTACAACGA AATACTGT 5994
983 AAAACUCU A CUCAUAGA 114 TCTATGAG GGCTAGCTACAACGA AGAGTTTT 5995
1024 AUUAGAAU A CUCAGAAA 127 TTTCTGAG GGCTAGCTACAACGA ATTCTAAT 5996
1172 CAAGAGUU A CCUACAGC 157 GCTGTAGG GGCTAGCTACAACGA AACTCTTG 5997
1176 AGUUACCU A CAGCUCUU 158 AAGAGCTG GGCTAGCTACAACGA AGGTAACT 5998
1185 CAGCUCUU A CUAAAUUG 161 CAATTTAG GGCTAGCTACAACGA AAGAGCTG 5999
1272 AAGCUCCU A UGAGGGAG 176 CTCCCTCA GGCTAGCTACAACGA AGGAGCTT 6000
1285 GGAGGAAU A UGCAGACU 177 AGTCTGCA GGCTAGCTACAACGA ATTCCTCC 6001
1313 GAGCGAGU A UGGGAAGU 182 ACTTCCCA GGCTAGCTACAACGA ACTCGCTC 6002
1347 AUAGUGAU A UGUUGGCU 186 AGCCAACA GGCTAGCTACAACGA ATCACTAT 6003
1467 AUGAUGAU A CUUCUUUC 203 GAAAGAAG GGCTAGCTACAACGA ATCATCAT 6004
1482 UCCCCAGU A CGCCAGAA 209 TTCTGGCG GGCTAGCTACAACGA ACTGGGGA 6005
1494 CAGAAGGU A UAAAGGAU 210 ATCCTTTA GGCTAGCTACAACGA ACCTTCTG 6006
1516 AGGAGCAU A UAUCACAU 215 ATGTGATA GGCTAGCTACAACGA ATGCTCCT 6007
1518 GAGCAUAU A UCACAUGU 216 ACATGTGA GGCTAGCTACAACGA ATATGCTC 6008
1593 GAGAUCCU A CUUCAGAA 233 TTCTGAAG GGCTAGCTACAACGA AGGATCTC 6009
1662 AGAAGAAU A CUAGCACC 240 GGTGCTAG GGCTAGCTACAACGA ATTCTTCT 6010
1720 GACAGAUU A UGUCACAA 252 TTGTGACA GGCTAGCTACAACGA AATCTGTC 6011
1799 GAUUUAGU A CAGGAAGC 263 GCTTCCTG GGCTAGCTACAACGA ACTAAATC 6012
1833 AUGAAGUU A CUGGUACA 266 TGTACCAG GGCTAGCTACAACGA AACTTCAT 6013
1839 UUACUGGU A CAAAGAUU 267 AATCTTTG GGCTAGCTACAACGA ACCAGTAA 6014
1852 GAUUGCUU A UGAAACAA 270 TTGTTTCA GGCTAGCTACAACGA AAGCAATC 6015
1890 CAGAAGUU A UGCAAGAG 276 CTCTTGCA GGCTAGCTACAACGA AACTTCTG 6016
1906 GUCACUCU A UCCUGCAG 279 CTGCAGGA GGCTAGCTACAACGA AGAGTGAC 6017
1950 CAGAAGCU A CUCCUUCA 287 TGAAGGAG GGCTAGCTACAACGA AGCTTCTG 6018
1980 ACAUUGUU A UGGAAGCA 296 TGCTTCCA GGCTAGCTACAACGA AACAATGT 6019
2030 UCCGUGAU A CAGCCCAG 305 CTGGGCTG GGCTAGCTACAACGA ATCACGGA 6020
2071 AGUUAAUU A UGAAAGCA 317 TGCTTTCA GGCTAGCTACAACGA AATTAACT 6021
2110 CCCACCAU A UGAAGAGG 319 CCTCTTCA GGCTAGCTACAACGA ATGGTGGG 6022
2129 AUGAGUGU A UCACUAAA 320 TTTAGTGA GGCTAGCTACAACGA ACACTCAT 6023
2144 AAAAAAGU A UCAGGAAU 323 ATTCCTGA GGCTAGCTACAACGA ACTTTTTT 6024
2181 CUGAAAAU A UUAAUGCA 328 TGCATTAA GGCTAGCTACAACGA ATTTTCAG 6025
2215 AGCUCCUU A UAUAUCUA 336 TAGATATA GGCTAGCTACAACGA AAGGAGCT 6026
2217 CUCCUUAU A UAUCUAUU 337 AATAGATA GGCTAGCTACAACGA ATAAGGAG 6027
2219 CCUUAUAU A UCUAUUGC 338 GCAATAGA GGCTAGCTACAACGA ATATAAGG 6028
2223 AUAUAUCU A UUGCAUGU 340 ACATGCAA GGCTAGCTACAACGA AGATATAT 6029
2287 CUCUGAUU A UUCAGAAA 356 TTTCTGAA GGCTAGCTACAACGA AATCAGAG 6030
2375 GUUGACUU A UUUAGUGA 372 TCACTAAA GGCTAGCTACAACGA AAGTCAAC 6031
2393 GAUUCAAU A CCUGACGU 378 ACGTCAGG GGCTAGCTACAACGA ATTGAATC 6032
2479 GAUAGAAU A UGAAAAUA 390 TATTTTCA GGCTAGCTACAACGA ATTCTATC 6033
2530 AAAGCCAU A UUUGGAAU 395 ATTCCAAA GGCTAGCTACAACGA ATGGCTTT 6034
2571 CAAAAGAU A CCCUGUUA 408 TAACAGGG GGCTAGCTACAACGA ATCTTTTG 6035
2579 ACCCUGUU A CCUGAUGA 410 TCATCAGG GGCTAGCTACAACGA AACAGGGT 6036
2643 AGCUCAGU A CUGCAGUU 420 AACTGCAG GGCTAGCTACAACGA ACTGAGCT 6037
2653 UGCAGUUU A UUCAAAUG 423 CATTTGAA GGCTAGCTACAACGA AAACTGCA 6038
2669 GAUGACUU A UUUAUUUC 427 GAAATAAA GGCTAGCTACAACGA AAGTCATC 6039
2673 ACUUAUUU A UUUCUAAG 430 CTTAGAAA GGCTAGCTACAACGA AAATAAGT 6040
2736 UUGAAAUU A UAGAUGAG 446 CTCATCTA GGCTAGCTACAACGA AATTTCAA 6041
2751 AGUUCCCU A CAUUGAUC 450 GATCAATG GGCTAGCTACAACGA AGGGAACT 6042
2800 CAGGGAAU A UACUGACC 465 GGTCAGTA GGCTAGCTACAACGA ATTCCCTG 6043
2802 GGGAAUAU A CUGACCUA 466 TAGGTCAG GGCTAGCTACAACGA ATATTCCC 6044
2816 CUAGAAGU A UCCCACAA 468 TTGTGGGA GGCTAGCTACAACGA ACTTCTAG 6045
2906 AAGAACAU A CAACCCAA 481 TTGGGTTG GGCTAGCTACAACGA ATGTTCTT 6046
2967 GGUCUGCU A CAUCAAAG 494 CTTTGATG GGCTAGCTACAACGA AGCAGACC 6047
2984 GUGCUCUU A UUGCCUCC 498 GGAGGCAA GGCTAGCTACAACGA AAGAGCAC 6048
3087 CUUCCGAU A CAGAAAAA 518 TTTTTCTG GGCTAGCTACAACGA ATCGGAAG 6049
3117 CAUCUGCU A UAUUUUCA 521 TGAAAATA GGCTAGCTACAACGA AGCAGATG 6050
3119 UCUGCUAU A UUUUCAGC 522 GCTGAAAA GGCTAGCTACAACGA ATAGCAGA 6051
3163 CCUCCUGU A CUGGAGAG 533 CTCTCCAG GGCTAGCTACAACGA ACAGGAGG 6052
3209 GCCAGCCU A UUCCUGCU 538 AGCAGGAA GGCTAGCTACAACGA AGGCTGGC 6053
3233 UUGACAGU A UUCAGCAU 545 ATGCTGAA GGCTAGCTACAACGA ACTGTCAA 6054
3259 AACAGCCU A CAUUGCCU 550 AGGCAATG GGCTAGCTACAACGA AGGCTGTT 6055
3302 UUUAGGAU A UACAAGGG 559 CCCTTGTA GGCTAGCTACAACGA ATCCTAAA 6056
3304 UAGGAUAU A CAAGGGUG 560 CACCCTTG GGCTAGCTACAACGA ATATCCTA 6057
3324 UCCAAGCU A UCCAGAAA 562 TTTCTGGA GGCTAGCTACAACGA AGCTTGGA 6058
3361 CAGGGCAU A UCUGGAAU 567 ATTCCAGA GGCTAGCTACAACGA ATGCCCTG 6059
3381 AAGUUGCU A UAUCUGAG 571 CTCAGATA GGCTAGCTACAACGA AGCAACTT 6060
3383 GUUGCUAU A UCUGAGGA 572 TCCTCAGA GGCTAGCTACAACGA ATAGCAAC 6061
3406 UCAGAAGU A CAGUAAUU 577 AATTACTG GGCTAGCTACAACGA ACTTCTGA 6062
3515 AUGUGGGU A UUUACCUA 602 TAGGTAAA GGCTAGCTACAACGA ACCCACAT 6063
3519 GGGUAUUU A CCUAUGUU 605 AACATAGG GGCTAGCTACAACGA AAATACCC 6064
3523 AUUUACCU A UGUUGGUG 606 CACCAACA GGCTAGCTACAACGA AGGTAAAT 6065
3554 CUGACACU A CUGAUUUU 613 AAAATCAG GGCTAGCTACAACGA AGTGTCAG 6066
3594 UUCCUGUU A UUUAUGAA 628 TTCATAAA GGCTAGCTACAACGA AACAGGAA 6067
3598 UGUUAUUU A UGAACGGC 631 GCCGTTCA GGCTAGCTACAACGA AAATAACA 6068
3628 AGAUCAUU A UCUAGGAC 636 GTCCTAGA GGCTAGCTACAACGA AATGATCT 6069
3663 AAGAUGCU A UGGCUAAA 643 TTTAGCCA GGCTAGCTACAACGA AGCATCTT 6070
3757 AAGGGGAU A UUCAUUUG 658 CAAATGAA GGCTAGCTACAACGA ATCCCCTT 6071
3769 AUUUGAUU A UACGGGGG 664 CCCCCGTA GGCTAGCTACAACGA AATCAAAT 6072
3771 UUGAUUAU A CGGGGGAG 665 CTCCCCCG GGCTAGCTACAACGA ATAATCAA 6073
3841 AGAUCUUU A UUUUUAGC 679 GCTAAAAA GGCTAGCTACAACGA AAAGATCT 6074
3874 GAAAAAUU A CCUGUCUU 687 AAGACAGG GGCTAGCTACAACGA AATTTTTC 6075
3910 UCUUAAGU A UUGUAAGC 696 GCTTACAA GGCTAGCTACAACGA ACTTAAGA 6076
3923 AAGCUGCU A UGUAUGGA 699 TCCATACA GGCTAGCTACAACGA AGCAGCTT 6077
3927 UGCUAUGU A UGGAUUUA 700 TAAATCCA GGCTAGCTACAACGA ACATAGCA 6078
3948 GUAAUCAU A UCUUUUUC 706 GAAAAAGA GGCTAGCTACAACGA ATGATTAC 6079
3959 UUUUUCCU A UCUGAGGC 713 GCCTCAGA GGCTAGCTACAACGA AGGAAAAA 6080
3990 AAACCUGU A UAUUUUAC 716 GTAAAATA GGCTAGCTACAACGA ACAGGTTT 6081
3992 ACCUGUAU A UUUUACUU 717 AAGTAAAA GGCTAGCTACAACGA ATACAGGT 6082
3997 UAUAUUUU A CUUUGUUG 721 CAACAAAG GGCTAGCTACAACGA AAAATATA 6083
60 CAACCCCC A CAACCGCC 755 GGCGGTTG GGCTAGCTACAACGA GGGGGTTG 6084
115 GCUGCAGC A UCAUCUCC 769 GGAGATGA GGCTAGCTACAACGA GCTGCAGC 6085
118 GCAGCAUC A UCUCCACC 770 GGTGGAGA GGCTAGCTACAACGA GATGCTGC 6086
124 UCAUCUCC A CCCUCCAG 773 CTGGAGGG GGCTAGCTACAACGA GGAGATGA 6087
135 CUCCAGCC A UGGAAGAC 780 GTCTTCCA GGCTAGCTACAACGA GGCTGGAG 6088
182 GACAGCCC A CCCCGGCC 795 GGCCGGGG GGCTAGCTACAACGA GGGCTGTC 6089
342 CAGUGCCC A CCGCCCCU 824 AGGGGCGG GGCTAGCTACAACGA GGGCACTG 6090
494 CCCGCGCC A UCCCCGCU 869 AGCGGGGA GGCTAGCTACAACGA GGCGCGGG 6091
648 CCCCCUCC A CCCCGGCC 935 GGCCGGGG GGCTAGCTACAACGA GGAGGGGG 6092
719 CCUGCUGC A UCUGAGCC 957 GGCTCAGA GGCTAGCTACAACGA GCAGCAGG 6093
780 CAGGUAAC A CUAUUUCG 970 CGAAATAG GGCTAGCTACAACGA GTTACCTG 6094
809 GAUUUCCC A UCUGUCCU 976 AGGACAGA GGCTAGCTACAACGA GGGAAATC 6095
880 CAAAGAAC A UGAAUACC 1000 GGTATTCA GGCTAGCTACAACGA GTTCTTTG 6096
915 UAUUACCC A CUGAAGGA 1007 TCCTTCAG GGCTAGCTACAACGA GGGTAATA 6097
926 GAAGGAAC A CUUCAAGA 1009 TCTTGAAG GGCTAGCTACAACGA GTTCCTTC 6098
987 CUCUACUC A UAGAUAGA 1021 TCTATCTA GGCTAGCTACAACGA GAGTAGAG 6099
1040 AUGGGAUC A UCGUUCAG 1026 CTGAACGA GGCTAGCTACAACGA GATCCCAT 6100
1149 GUAAUAAC A UCCUUCAU 1038 ATGAAGGA GGCTAGCTACAACGA GTTATTAC 6101
1156 CAUCCUUC A UAAUCAAC 1041 GTTGATTA GGCTAGCTACAACGA GAAGGATG 6102
1301 UUCAAACC A UUUGAGCG 1062 CGCTCAAA GGCTAGCTACAACGA GGTTTGAA 6103
1435 AACUAAUC A CGAAAAAG 1072 CTTTTTCG GGCTAGCTACAACGA GATTAGTT 6104
1514 UCAGGAGC A UAUAUCAC 1082 GTGATATA GGCTAGCTACAACGA GCTCCTGA 6105
1521 CAUAUAUC A CAUGUGCU 1083 AGCACATG GGCTAGCTACAACGA GATATATG 6106
1523 UAUAUCAC A UGUGCUCC 1084 GGAGCACA GGCTAGCTACAACGA GTGATATA 6107
1557 CUGAGAGC A UUGCAACA 1095 TGTTGCAA GGCTAGCTACAACGA GCTCTCAG 6108
1569 CAACAAAC A UUUUUCCU 1098 AGGAAAAA GGCTAGCTACAACGA GTTTGTTG 6109
1668 AUACUAGC A CCAAAACA 1111 TGTTTTGG GGCTAGCTACAACGA GCTAGTAT 6110
1676 ACCAAAAC A UCAAACCC 1114 GGGTTTGA GGCTAGCTACAACGA GTTTTGGT 6111
1700 GUAGCAGC A CAGGAUUC 1121 GAATCCTG GGCTAGCTACAACGA GCTGCTAC 6112
1725 AUUAUGUC A CAACAGAU 1125 ATCTGTTG GGCTAGCTACAACGA GACATAAT 6113
1770 UGGCAAAC A UGCCUGAA 1131 TTCAGGCA GGCTAGCTACAACGA GTTTGCCA 6114
1808 CAGGAAGC A UGUGAAAG 1140 CTTTCACA GGCTAGCTACAACGA GCTTCCTG 6115
1880 GUUCAAAC A UCAGAAGU 1147 ACTTCTGA GGCTAGCTACAACGA GTTTGAAC 6116
1901 CAAGAGUC A CUCUAUCC 1150 GGATAGAG GGCTAGCTACAACGA GACTCTTG 6117
1916 GCUGCAGC A CAGCUUUG 1156 CAAAGCTG GGCTAGCTACAACGA GCTGCAGG 6118
1928 CUUUGCCC A UCAUUUGA 1161 TCAAATGA GGCTAGCTACAACGA GGGCAAAG 6119
1931 UGCCCAUC A UUUGAAGA 1162 TCTTCAAA GGCTAGCTACAACGA GATGGGCA 6120
1958 ACUCCUUC A CCAGUUUU 1168 AAAACTGG GGCTAGCTACAACGA GAAGGAGT 6121
1974 UGCCUGAC A UUGUUAUG 1173 CATAACAA GGCTAGCTACAACGA GTCAGGCA 6122
1988 AUGGAAGC A CCAUUGAA 1174 TTCAATGG GGCTAGCTACAACGA GCTTCCAT 6123
1991 GAAGCACC A UUGAAUUC 1176 GAATTCAA GGCTAGCTACAACGA GGTGCTTC 6124
2042 CCCAGCUC A UCACCAUU 1189 AATGGTGA GGCTAGCTACAACGA GAGCTGGG 6125
2045 AGCUCAUC A CCAUUAGA 1190 TCTAATGG GGCTAGCTACAACGA GATGAGCT 6126
2048 UCAUCACC A UUAGAAGC 1192 GCTTCTAA GGCTAGCTACAACGA GGTGATGA 6127
2079 AUGAAAGC A UAAAACAU 1196 ATGTTTTA GGCTAGCTACAACGA GCTTTCAT 6128
2086 CAUAAAAC A UGAGCCUG 1197 CAGGCTCA GGCTAGCTACAACGA GTTTTATG 6129
2105 AACCCCCC A CCAUAUGA 1205 TCATATGG GGCTAGCTACAACGA GGGGGGTT 6130
2108 CCCCCACC A UAUGAAGA 1207 TCTTCATA GGCTAGCTACAACGA GGTGGGGG 6131
2121 AAGAGGCC A UGAGUGUA 1209 TACACTCA GGCTAGCTACAACGA GGCCTCTT 6132
2132 AGUGUAUC A CUAAAAAA 1210 TTTTTTAG GGCTAGCTACAACGA GATACACT 6133
2228 UCUAUUGC A UGUGAUUU 1224 AAATCACA GGCTAGCTACAACGA GCAATAGA 6134
2326 GCCUGAUC A UUCUGAGC 1242 GCTCAGAA GGCTAGCTACAACGA GATCAGGC 6135
2351 GAUUCCUC A CCUGAUUC 1247 GAATCAGG GGCTAGCTACAACGA GAGGAATC 6136
2405 GACGUUCC A CAAAAACA 1258 TGTTTTTG GGCTAGCTACAACGA GGAACGTC 6137
2448 AAAGUCUC A CUGAGACU 1264 AGTCTCAG GGCTAGCTACAACGA GAGACTTT 6138
2459 GAGACUUC A UUUGAGUC 1267 GACTCAAA GGCTAGCTACAACGA GAAGTCTC 6139
2510 GCUUUGCC A CCUGAGGG 1273 CCCTCAGG GGCTAGCTACAACGA GGCAAAGC 6140
2528 GGAAAGCC A UAUUUGGA 1277 TCCAAATA GGCTAGCTACAACGA GGCTTTCC 6141
2562 UAGAUAAC A CAAAAGAU 1281 ATCTTTTG GGCTAGCTACAACGA GTTATCTA 6142
2597 GUUUCAAC A UUGAGCAA 1289 TTGCTCAA GGCTAGCTACAACGA GTTGAAAC 6143
2687 AAGGAAGC A CAGAUAAG 1301 CTTATCTG GGCTAGCTACAACGA GCTTCCTT 6144
2720 UCAGAUUC A UCUCCAAU 1305 ATTGGAGA GGCTAGCTACAACGA GAATCTGA 6145
2753 UUCCCUAC A UUGAUCAG 1312 CTGATCAA GGCTAGCTACAACGA GTAGGGAA 6146
2777 ACUGAUUC A UUUUCUAA 1316 TTAGAAAA GGCTAGCTACAACGA GAATCAGT 6147
2821 AGUAUCCC A CAAAAGUG 1325 CACTTTTG GGCTAGCTACAACGA GGGATACT 6148
2861 GCUGGGUC A UUGCCUUG 1332 CAAGGCAA GGCTAGCTACAACGA GACCCAGC 6149
2871 UGCCUUGC A CAGAAUUG 1335 CAATTCTG GGCTAGCTACAACGA GCAAGGCA 6150
2884 AUUGCCCC A UGACCUUU 1340 AAAGGTCA GGCTAGCTACAACGA GGGGCAAT 6151
2904 UGAAGAAC A UACAACCC 1344 GGGTTGTA GGCTAGCTACAACGA GTTCTTCA 6152
2969 UCUGCUAC A UCAAAGGU 1356 ACCTTTGA GGCTAGCTACAACGA GTAGCAGA 6153
3012 CUUUGGCC A CUCAAGCA 1367 TGCTTGAG GGCTAGCTACAACGA GGCCAAAG 6154
3033 UAGAGAGC A UAGUUAAA 1371 TTTAACTA GGCTAGCTACAACGA GCTCTCTA 6155
3107 GACAGAUC A CCAUCUGC 1383 GCAGATGG GGCTAGCTACAACGA GATCTGTC 6156
3110 AGAUCACC A UCUGCUAU 1385 ATAGCAGA GGCTAGCTACAACGA GGTGATCT 6157
3174 GGAGAGAC A UUAAGAAG 1398 CTTCTTAA GGCTAGCTACAACGA GTCTCTCC 6158
3224 CUGCUUUC A UUGACAGU 1408 ACTGTCAA GGCTAGCTACAACGA GAAAGCAG 6159
3240 UAUUCAGC A UUGUGAGC 1411 GCTCACAA GGCTAGCTACAACGA GCTGAATA 6160
3261 CAGCCUAC A UUGCCUUG 1415 CAAGGCAA GGCTAGCTACAACGA GTAGGCTG 6161
3288 CUGUGACC A UCAGCUUU 1425 AAAGCTGA GGCTAGCTACAACGA GGTCACAG 6162
3346 UGAAGGCC A CCCAUUCA 1436 TGAATGGG GGCTAGCTACAACGA GGCCTTCA 6163
3350 GGCCACCC A UUCAGGGC 1439 GCCCTGAA GGCTAGCTACAACGA GGGTGGCC 6164
3359 UUCAGGGC A UAUCUGGA 1441 TCCAGATA GGCTAGCTACAACGA GCCCTGAA 6165
3427 UCUUGGUC A UGUGAACU 1451 AGTTCACA GGCTAGCTACAACGA GACCAAGA 6166
3438 UGAACUGC A CGAUAAAG 1453 CTTTATCG GGCTAGCTACAACGA GCAGTTCA 6167
3551 GGUCUGAC A CUACUGAU 1468 ATCAGTAG GGCTAGCTACAACGA GTCAGACC 6168
3570 UGGCUCUC A UUUCACUC 1473 GAGTGAAA GGCTAGCTACAACGA GAGAGCCA 6169
3575 CUCAUUUC A CUCUUCAG 1474 CTGAAGAG GGCTAGCTACAACGA GAAATGAG 6170
3607 UGAACGGC A UCAGGCAC 1480 GTGCCTGA GGCTAGCTACAACGA GCCGTTCA 6171
3614 CAUCAGGC A CAGAUAGA 1482 TCTATCTG GGCTAGCTACAACGA GCCTGATG 6172
3625 GAUAGAUC A UUAUCUAG 1484 CTAGATAA GGCTAGCTACAACGA GATCTATC 6173
3742 AGGAGUUC A UCUUUAAA 1501 TTTAAAGA GGCTAGCTACAACGA GAACTCCT 6174
3761 GGAUAUUC A UUUGAUUA 1503 TAATCAAA GGCTAGCTACAACGA GAATATCC 6175
3820 GCAGUUUC A CAGAUCGU 1509 ACGATCTG GGCTAGCTACAACGA GAAACTGC 6176
3851 UUUUAGCC A UGCACUGU 1513 ACAGTGCA GGCTAGCTACAACGA GGCTAAAA 6177
3855 AGCCAUGC A CUGUUGUG 1514 CACAACAG GGCTAGCTACAACGA GCATGGCT 6178
3890 UGACUGCC A UGUGUUCA 1521 TGAACACA GGCTAGCTACAACGA GGCAGTCA 6179
3898 AUGUGUUC A UCAUCUUA 1522 TAAGATGA GGCTAGCTACAACGA GAACACAT 6180
3901 UGUUCAUC A UCUUAAGU 1523 ACTTAAGA GGCTAGCTACAACGA GATGAACA 6181
3946 CCGUAAUC A UAUCUUUU 1528 AAAAGATA GGCTAGCTACAACGA GATTACGG 6182
3968 UCUGAGGC A CUGGUGGA 1533 TCCACCAG GGCTAGCTACAACGA GCCTCAGA 6183
4022 CUUGCCGC A UCUUGGCA 1541 TGCCAAGA GGCTAGCTACAACGA GCGGCAAG 6184
66 CCACAACC G CCCGCGGC 1545 GCGGCGGG GGCTAGCTACAACGA GGTTGTGG 6185
70 AACCGCCC G CGGCUCUG 1546 CAGAGCCG GGCTAGCTACAACGA GGGCGGTT 6186
83 UCUGAGAC G CGGCCCCG 1548 CGGGGCCG GGCTAGCTACAACGA GTCTCAGA 6187
110 CAGCAGCU G CAGCAUCA 1549 TGATGCTG GGCTAGCTACAACGA AGCTGCTG 6188
191 CCCCGGCC G CAGCCCGC 1550 GCGGGCTG GGCTAGCTACAACGA GGCCGGGG 6189
198 CGCAGCCC G CGUUCAAG 1551 CTTGAACG GGCTAGCTACAACGA GGGCTGCG 6190
296 CUGGAGGU G CUGGAGAG 1557 CTCTCCAG GGCTAGCTACAACGA ACCTCCAG 6191
312 GGAAGCCC G CCGCCGGG 1558 CCCGGCGG GGCTAGCTACAACGA GGGCTTCC 6192
315 AGCCCGCC G CCGGGCUG 1559 CAGCCCGG GGCTAGCTACAACGA GGCGGGCT 6193
327 GGCUGUCC G CGGCCCCA 1560 TGGGGCCG GGCTAGCTACAACGA GGACAGCC 6194
338 GCCCCAGU G CCCACCGC 1561 GCGGTGGG GGCTAGCTACAACGA ACTGGGGC 6195
345 UGCCCACC G CCCCUGCC 1562 GGCAGGGG GGCTAGCTACAACGA GGTGGGCA 6196
351 CCGCCCCU G CCGCCGGC 1563 GCCGGCGG GGCTAGCTACAACGA AGGGGCGG 6197
354 CCCCUGCC G CCGGCGCG 1564 CGCGCCGG GGCTAGCTACAACGA GGCAGGGG 6198
360 CCGCCGGC G CGCCCCUG 1565 CAGGGGCG GGCTAGCTACAACGA GCCGGCGG 6199
362 GCCGGCGC G CCCCUGAU 1566 ATCAGGGG GGCTAGCTACAACGA GCGCCGGC 6200
392 GACUUCGU G CCGCCGGC 1569 GCCGGCGG GGCTAGCTACAACGA ACGAAGTC 6201
395 UUCGUGCC G CCGGCGCC 1570 GGCGCCGG GGCTAGCTACAACGA GGCACGAA 6202
401 CCGCCGGC G CCCCGGGG 1571 CCCCGGGG GGCTAGCTACAACGA GCCGGCGG 6203
416 GGACCCCU G CCGGCCGC 1572 GCGGCCGG GGCTAGCTACAACGA AGGGGTCC 6204
423 UGCCGGCC G CUCCCCCC 1573 GGGGGGAG GGCTAGCTACAACGA GGCCGGCA 6205
435 CCCCCGUC G CCCCGGAG 1574 CTCCGGGG GGCTAGCTACAACGA GACGGGGG 6206
485 UCGACCGU G GCCGCGCC 1577 GGCGCGGG GGCTAGCTACAACGA ACGGTCGA 6207
489 CCGUGCCC G CGCCAUCC 1578 GGATGGCG GGCTAGCTACAACGA GGGCACGG 6208
491 GUGCCCGC G CCAUCCCC 1579 GGGGATGG GGCTAGCTACAACGA GCGGGCAC 6209
500 CCAUCCCC G CUGUCUGC 1580 GCAGACAG GGCTAGCTACAACGA GGGGATGG 6210
507 CGCUGUCU G CUGCCGCA 1581 TGCGGCAG GGCTAGCTACAACGA AGACAGCG 6211
510 UGUCUGCU G CCGCAGUC 1582 GACTGCGG GGCTAGCTACAACGA AGGAGACA 6212
513 CUGCUGCC G CAGUCUCG 1583 CGAGACTG GGCTAGCTACAACGA GGCAGCAG 6213
521 GCAGUCUC G CCCUCCAA 1584 TTGGAGGG GGCTAGCTACAACGA GAGACTGC 6214
617 UGGACCCC G CCAGCCCC 1589 GGGGCTGG GGCTAGCTACAACGA GGGGTCCA 6215
633 CGGCUCCC G CCGCGCCC 1590 GGGCGCGG GGCTAGCTACAACGA GGGAGCCG 6216
636 CUCCCGCC G CGCCCCCC 1591 GGGGGGCG GGCTAGCTACAACGA GGCGGGAG 6217
638 CCCGCCGC' G CCCCCCUC 1592 GAGGGGGG GGCTAGCTACAACGA GCGGCGGG 6218
657 CCCCGGCC G CGCCCAAG 1593 CTTGGGCG GGCTAGCTACAACGA GGCCGGGG 6219
659 CCGGCCGC G CCCAAGCG 1594 CGCTTGGG GGCTAGCTACAACGA GCGGCCGG 6220
667 GCCCAAGC G CAGGGGCU 1595 AGCCCCTG GGCTAGCTACAACGA GCTTGGGC 6221
705 CCCUUUUU G CUCUUCCU 1597 AGGAAGAG GGCTAGCTACAACGA AAAAAGGG 6222
714 CUCUUCCU G CUGCAUCU 1598 AGATGCAG GGCTAGCTACAACGA AGGAAGAG 6223
717 UUCCUGCU G CAUCUGAG 1599 CTCAGATG GGCTAGCTACAACGA AGCAGGAA 6224
736 UGUGAUAC G CUCCUCUG 1602 CAGAGGAG GGCTAGCTACAACGA GTATCACA 6225
744 GCUCCUCU G CAGAAAAU 1603 ATTTTCTG GGCTAGCTACAACGA AGAGGAGC 6226
818 UCUGUCCU G CUUGAAAC 1605 GTTTCAAG GGCTAGCTACAACGA AGGACAGA 6227
828 UUGAAACU G CUGCUUCU 1607 AGAAGCAG GGCTAGCTACAACGA AGTTTCAA 6228
831 AAACUGCU G CUUCUCUU 1608 AAGAGAAG GGCTAGCTACAACGA AGCAGTTT 6229
864 UCUCAGCC G CUUCUUUC 1609 GAAAGAAG GGCTAGCTACAACGA GGCTGAGA 6230
1071 CAGAAUCU G CCGUAAUA 1613 TATTACGG GGCTAGCTACAACGA AGATTCTG 6231
1257 AGAGAGUU G CAGUGGAA 1618 TTCCACTG GGCTAGCTACAACGA AACTCTCT 6232
1287 AGGAAUAU G CAGACUUC 1620 GAAGTCTG GGCTAGCTACAACGA ATATTCCT 6233
1356 UGUUGGCU G CUGGAGGU 1625 ACCTCCAG GGCTAGCTACAACGA AGCCAACA 6234
1410 AAUGUUUU G CAGAUAGC 1627 GCTATCTG GGCTAGCTACAACGA AAAACATT 6235
1484 CCCAGUAC G CCAGAAGG 1633 CCTTCTGG GGCTAGCTACAACGA GTACTGGG 6236
1527 UCACAUGU G CUCCCUUU 1634 AAAGGGAG GGCTAGCTACAACGA ACATGTGA 6237
1560 AGAGCAUU G CAACAAAC 1636 GTTTGTTG GGCTAGCTACAACGA AATGCTCT 6238
1772 GCAAACAU G CCUGAAGG 1642 CCTTCAGG GGCTAGCTACAACGA ATGTTTGC 6239
1848 CAAAGAUU G CUUAUGAA 1649 TTCATAAG GGCTAGCTACAACGA AATCTTTG 6240
1892 GAAGUUAU G CAAGAGUC 1651 GACTCTTG GGCTAGCTACAACGA ATAACTTC 6241
1911 UCUAUCCU G CAGCACAG 1652 CTGTGCTG GGCTAGCTACAACGA AGGATAGA 6242
1924 ACAGCUUU G CCCAUCAU 1653 ATGATGGG GGCTAGCTACAACGA AAAGCTGT 6243
1967 CCAGUUUU G CCUGACAU 1655 ATGTCAGG GGCTAGCTACAACGA AAAACTGG 6244
2001 UGAAUUCU G CAGUUCCU 1658 AGGAACTG GGCTAGCTACAACGA AGAATTCA 6245
2013 UUCCUAGU G CUGGUGCU 1659 AGCACCAG GGCTAGCTACAACGA ACTAGGAA 6246
2019 GUGCUGGU G CUUCCGUG 1660 CACGGAAG GGCTAGCTACAACGA ACCAGCAC 6247
2187 AUAUUAAU G CAGCUCUU 1668 AAGAGCTG GGCTAGCTACAACGA ATTAATAT 6248
2226 UAUCUAUU G CAUGUGAU 1669 ATCACATG GGCTAGCTACAACGA AATAGATA 6249
2259 AGCUUUCU G CUGAACCA 1671 TGGTTCAG GGCTAGCTACAACGA AGAAAGCT 6250
2318 CAGCCAGU G CCUGAUCA 1675 TGATCAGG GGCTAGCTACAACGA ACTGGCTG 6251
2429 ACUGUGAU G CUUGUGAA 1687 TTCACAAG GGCTAGCTACAACGA ATCACAGT 6252
2502 AACUCAGU G CUUUGCCA 1693 TGGCAAAG GGCTAGCTACAACGA ACTGAGTT 6253
2507 AGUGCUUU G CCACCUGA 1694 TCAGGTGG GGCTAGCTACAACGA AAAGCACT 6254
2624 AUUCCUUU G CAGAUGGA 1699 TCCATCTG GGCTAGCTACAACGA AAAGGAAT 6255
2646 UCAGUACU G CAGUUUAU 1700 ATAAACTG GGCTAGCTACAACGA AGTACTGA 6256
2835 GUGAAAUU G CUAAUGCC 1710 GGCATTAG GGCTAGCTACAACGA AATTTCAC 6257
2841 UUGCUAAU G CCCCGGAU 1711 ATCCGGGG GGCTAGCTACAACGA ATTAGCAA 6258
2864 GGGUCAUU G CCUUGCAC 1712 GTGCAAGG GGCTAGCTACAACGA AATGACCC 6259
2869 AUUGCCUU G CACAGAAU 1713 ATTCTGTG GGCTAGCTACAACGA AAGGCAAT 6260
2879 ACAGAAUU G CCCCAUGA 1714 TCATGGGG GGCTAGCTACAACGA AATTCTGT 6261
2964 AUGGGUCU G CUACAUCA 1719 TGATGTAG GGCTAGCTACAACGA AGACCCAT 6262
2978 UCAAAGGU G CUCUUAUU 1720 AATAAGAG GGCTAGCTACAACGA ACCTTTGA 6263
2987 CUCUUAUU G CCUCCAGA 1721 TCTGGAGG GGCTAGCTACAACGA AATAAGAG 6264
3003 AUGUUUCU G CUUUGGCC 1722 GGCCAAAG GGCTAGCTACAACGA AGAAACAT 6265
3114 CACCAUCU G CUAUAUUU 1726 AAATATAG GGCTAGCTACAACGA AGATGGTG 6266
3201 UGUUUGGU G CCAGCCUA 1729 TAGGCTGG GGCTAGCTACAACGA ACCAAACA 6267
3215 CUAUUCCU G CUGCUUUC 1730 GAAAGCAG GGCTAGCTACAACGA AGGAATAG 6268
3218 UUCCUGCU G CUUUCAUU 1731 AATGAAAG GGCTAGCTACAACGA AGCAGGAA 6269
3264 CCUACAUU G CCUUGGCC 1734 GGCCAAGG GGCTAGCTACAACGA AATGTAGG 6270
3275 UUGGCCCU G CUCUCUGU 1735 ACAGAGAG GGCTAGCTACAACGA AGGGCCAA 6271
3378 CUGAAGUU G CUAUAUCU 1740 AGATATAG GGCTAGCTACAACGA AACTTCAG 6272
3417 GUAAUUCU G CUCUUGGU 1742 ACCAAGAG GGCTAGCTACAACGA AGAATTAC 6273
3436 UGUGAACU G CACGAUAA 1744 TTATCGTG GGCTAGCTACAACGA AGTTCACA 6274
3457 ACUCAGGC G CCUCUUCU 1746 AGAAGAGG GGCTAGCTACAACGA GCCTGAGT 6275
3498 UGAAGUUU G CAGUGUUG 1751 CAACACTG GGCTAGCTACAACGA AAACTTCA 6276
3531 AUGUUGGU G CCUUGUUU 1753 AAACAAGG GGCTAGCTACAACGA ACCAACAT 6277
3639 UAGGACUU G CAAAUAAG 1757 CTTATTTG GGCTAGCTACAACGA AAGTCCTA 6278
3660 UUAAAGAU G CUAUGGCU 1758 AGCCATAG GGCTAGCTACAACGA ATCTTTAA 6279
3700 AUUGAAGC G CAAAGCUG 1760 CAGCTTTG GGCTAGCTACAACGA GCTTCAAT 6280
3718 AUGAAAAC G CCCAAAAU 1763 ATTTTGGG GGCTAGCTACAACGA GTTTTCAT 6281
3807 UUGACGUU G CAGUGCAG 1767 CTGCACTG GGCTAGCTACAACGA AACGTCAA 6282
3812 GUUGCAGU G CAGUUUCA 1768 TGAAACTG GGCTAGCTACAACGA ACTGCAAC 6283
3853 UUAGCCAU G CACUGUUG 1769 CAACAGTG GGCTAGCTACAACGA ATGGCTAA 6284
3887 UCUUGACU G CCAUGUGU 1772 ACACATGG GGCTAGCTACAACGA AGTCAAGA 6285
3920 UGUAAGCU G CUAUGUAU 1773 ATACATAG GGCTAGCTACAACGA AGCTTACA 6286
4005 ACUUUGUU G CAGAUAGU 1775 ACTATCTG GGCTAGCTACAACGA AACAAAGT 6287
4017 AUAGUCUU G CCGCAUCU 1776 AGATGCGG GGCTAGCTACAACGA AAGACTAT 6288
4020 GUCUUGCC G CAUCUUGG 1777 CCAAGATG GGCTAGCTACAACGA GGCAAGAC 6289
4035 GGCAAGUU G CAGAGAUG 1778 CATCTCTG GGCTAGCTACAACGA AACTTGCC 6290
12 CACAGUAG G UCCCUCGG 1779 CCGAGGGA GGCTAGCTACAACGA CTACTGTG 6291
20 GUCCCUCG G CUCAGUCG 1780 CGACTGAG GGCTAGCTACAACGA CGAGGGAC 6292
25 UCGGCUCA G UCGGCCCA 1781 TGGGCCGA GGCTAGCTACAACGA TGAGCCGA 6293
29 CUCAGUCG G CCCAGCCC 1782 GGGCTGGG GGCTAGCTACAACGA CGACTGAG 6294
34 UCGGCCCA G CCCCUCUC 1783 GAGAGGGG GGCTAGCTACAACGA TGGGCCGA 6295
44 CCCUCUCA G UCCUCCCC 1784 GGGGAGGA GGCTAGCTACAACGA TGAGAGGG 6296
73 CGCCCGCG G CUCUGAGA 1785 TCTCAGAG GGCTAGCTACAACGA CGCGGGCG 6297
86 GAGACGCG G CCCCGGCG 1786 CGCCGGGG GGCTAGCTACAACGA CGCGTCTC 6298
92 CGGCCCCG G CGGCGGCG 1787 CGCCGCCG GGCTAGCTACAACGA CGGGGCCG 6299
95 CCCCGGCG G CGGCGGCA 1788 TGCCGCCG GGCTAGCTACAACGA CGCCGGGG 6300
98 CGGCGGCG G CGGCAGCA 1789 TGCTGCCG GGCTAGCTACAACGA CGCCGCCG 6301
101 CGGCGGCG G CAGCAGCU 1790 AGCTGCTG GGCTAGCTACAACGA CGCCGCCG 6302
104 CGGCGGCA G CAGCUGCA 1791 TGCAGCTG GGCTAGCTACAACGA TGCCGCCG 6303
107 CGGCAGCA G CUGCAGCA 1792 TGCTGCAG GGCTAGCTACAACGA TGCTGCCG 6304
113 CAGCUGCA G CAUCAUCU 1793 AGATGATG GGCTAGCTACAACGA TGCAGCTG 6305
132 ACCCUCCA G CCAUGGAA 1794 TTCCATGG GGCTAGCTACAACGA TGGAGGGT 6306
152 CUGGACCA G UCUCCUCU 1795 AGAGGAGA GGCTAGCTACAACGA TGGTCCAG 6307
162 CUCCUCUG G UCUCGUCC 1796 GGACGAGA GGCTAGCTACAACGA CAGAGGAG 6308
167 CUGGUCUC G UCCUCGGA 1797 TCCGAGGA GGCTAGCTACAACGA GAGACCAG 6309
178 CUCGGACA G CCCACCCC 1798 GGGGTGGG GGCTAGCTACAACGA TGTCCGAG 6310
188 CCACCCCG G CCGCAGCC 1799 GGCTGCGG GGCTAGCTACAACGA CGGGGTGG 6311
194 CGGCGGCA G CCCGCGUU 1800 AACGCGGG GGCTAGCTACAACGA TGCGGCCG 6312
200 CAGCCCGC G UUCAAGUA 1801 TACTTGAA GGCTAGCTACAACGA GCGGGCTG 6313
206 GCGUUCAA G UACCAGUU 1802 AACTGGTA GGCTAGCTACAACGA TTGAACGC 6314
212 AAGUACCA G UUCGUGAG 1803 CTCACGAA GGCTAGCTACAACGA TGGTACTT 6315
216 ACCAGUUC G UGAGGGAG 1804 CTCCCTCA GGCTAGCTACAACGA GAACTGGT 6316
224 GUGAGGGA G CCCGAGGA 1805 TCCTCGGG GGCTAGCTACAACGA TCCCTCAC 6317
287 CUGGAGGA G CUGGAGGU 1806 ACCTCCAG GGCTAGCTACAACGA TCCTCCAG 6318
294 AGCUGGAG G UGCUGGAG 1807 CTCCAGCA GGCTAGCTACAACGA CTCCAGCT 6319
308 GAGAGGAA G CCCGCCGC 1808 GCGGCGGG GGCTAGCTACAACGA TTCCTCTC 6320
320 GCCGCCGG G CUGUCCGC 1809 GCGGACAG GGCTAGCTACAACGA CCGGCGGC 6321
323 GCCGGGCU G UCCGCGGC 1810 GCCGCGGA GGCTAGCTACAACGA AGCCCGGC 6322
330 UGUCCGCG G CCCCAGUG 1811 CACTGGGG GGCTAGCTACAACGA CGCGGACA 6323
336 CGGCCCCA G UGCCCACC 1812 GGTGGGCA GGCTAGCTACAACGA TGGGGCCG 6324
358 UGCCGCCG G CGCGCCCC 1813 GGGGCGCG GGCTAGCTACAACGA CGGCGGCA 6325
390 AUGACUUC G UGCCGCCG 1814 CGGCGGCA GGCTAGCTACAACGA GAAGTCAT 6326
399 UGCCGCCG G CGCCCCGG 1815 CCGGGGCG GGCTAGCTACAACGA CGGCGGCA 6327
420 CCCUGCCG G CGGCUCCC 1816 GGGAGCGG GGCTAGCTACAACGA CGGCAGGG 6328
432 CUCCCCCC G UCGCCCCG 1817 CGGGGCGA GGCTAGCTACAACGA GGGGGGAG 6329
443 GCCCCGGA G CGGCAGCC 1818 GGCTGCCG GGCTAGCTACAACGA TCCGGGGC 6330
446 CCGGAGCG G CAGCCGUC 1819 GACGGCTG GGCTAGCTACAACGA CGCTCCGG 6331
449 GAGCGGCA G CCGUCUUG 1820 CAAGACGG GGCTAGCTACAACGA TGCCGCTC 6332
452 CGGCAGCC G UCUUGGGA 1821 TCCCAAGA GGCTAGCTACAACGA GGCTGCCG 6333
466 GGACCCGA G CCCGGUGU 1822 ACACCGGG GGCTAGCTACAACGA TCGGGTCC 6334
471 CGAGCCCG G UGUCGUCG 1823 CGACGACA GGCTAGCTACAACGA CGGGCTCG 6335
473 AGCCCGGU G UCGUCGAC 1824 GTCGACGA GGCTAGCTACAACGA ACCGGGCT 6336
476 CCGGUGUC G UCGACCGU 1825 ACGGTCGA GGCTAGCTACAACGA GACACCGG 6337
483 CGUCGACC G UGCCCGCG 1826 CGCGGGCA GGCTAGCTACAACGA GGTCGACG 6338
503 UCCCCGCU G UCUGCUGC 1827 GCAGCAGA GGCTAGCTACAACGA AGCGGGGA 6339
516 CUGCCGCA G UCUCGCCC 1828 GGGCGAGA GGCTAGCTACAACGA TGCGGCAG 6340
530 CCCUCCAA G CUCCCUGA 1829 TCAGGGAG GGCTAGCTACAACGA TTGGAGGG 6341
548 GACGACGA G CCUCCGGC 1830 GCCGGAGG GGCTAGCTACAACGA TCGTCGTC 6342
555 AGCCUCCG G CCCGGCCU 1831 AGGCCGGG GGCTAGCTACAACGA CGGAGGCT 6343
560 CCGGCCCG G CCUCCCCC 1832 GGGGGAGG GGCTAGCTACAACGA CGGGCCGG 6344
579 CUCCCCCG G CCAGCGUG 1833 CACGCTGG GGCTAGCTACAACGA CGGGGGAG 6345
583 CCCGGCCA G CGUGAGCC 1834 GGCTCACG GGCTAGCTACAACGA TGGCCGGG 6346
585 CGGCCAGC G UGAGCCCC 1835 GGGGCTCA GGCTAGCTACAACGA GCTGGCCG 6347
589 CAGCGUGA G CCCCCAGG 1836 CCTGGGGG GGCTAGCTACAACGA TCACGCTG 6348
597 GCCCCCAG G CAGAGCCC 1837 GGGCTCTG GGCTAGCTACAACGA CTGGGGGC 6349
602 CAGGCAGA G CCCGUGUG 1838 CACACGGG GGCTAGCTACAACGA TCTGCCTG 6350
606 CAGAGCCC G UGUGGACC 1839 GGTCCACA GGCTAGCTACAACGA GGGCTCTG 6351
608 GAGCCCGU G UGGACCCC 1840 GGGGTCCA GGCTAGCTACAACGA ACGGGCTC 6352
621 CCCCGCCA G CCCCGGCU 1841 AGCCGGGG GGCTAGCTACAACGA TGGCGGGG 6353
627 CAGCCCCG G CUCCCGCC 1842 GGCGGGAG GGCTAGCTACAACGA CGGGGCTG 6354
654 CCACCCCG G CCGCGCCC 1843 GGGCGCGG GGCTAGCTACAACGA CGGGGTGG 6355
665 GCGCCCAA G CGCAGGGG 1844 CCCCTGCG GGCTAGCTACAACGA TTGGGCGC 6356
673 GCGCAGGG G CUCCUCGG 1845 CCGAGGAG GGCTAGCTACAACGA CCCTGCGC 6357
682 CUCCUCGG G CUCAGUGG 1846 CGACTGAG GGCTAGCTACAACGA CCGAGGAG 6358
687 CGGGCUCA G UGGAUGAG 1847 CTCATCCA GGCTAGCTACAACGA TGAGCCCG 6359
725 GCAUCUGA G CCUGUGAU 1848 ATCACAGG GGCTAGCTACAACGA TCAGATGC 6360
729 CUGAGCCU G UGAUACGC 1849 GCGTATCA GGCTAGCTACAACGA AGGCTCAG 6361
767 UUGAAGGA G CAGCCAGG 1850 CCTGGCTG GGCTAGCTACAACGA TCCTTCAA 6362
770 AAGGAGCA G CCAGGUAA 1851 TTACCTGG GGCTAGCTACAACGA TGCTCCTT 6363
775 GCAGCCAG G UAACACUA 1852 TAGTGTTA GGCTAGCTACAACGA CTGGCTGC 6364
789 CUAUUUCG G CUGGUCAA 1853 TTGACCAG GGCTAGCTACAACGA CGAAATAG 6365
793 UUCGGCUG G UCAAGAGG 1854 CCTCTTGA GGCTAGCTACAACGA CAGCCGAA 6366
813 UCCCAUCU G UCCUGCUU 1855 AAGCAGGA GGCTAGCTACAACGA AGATGGGA 6367
848 CCUUCUCU G UCUCCUCU 1856 AGAGGAGA GGCTAGCTACAACGA AGAGAAGG 6368
861 CUCUCUCA G CCGCUUCU 1857 AGAAGCGG GGCTAGCTACAACGA TGAGAGAG 6369
892 AUACCUUG G UAAUUUGU 1858 ACAAATTA GGCTAGCTACAACGA CAAGGTAT 6370
899 GGUAAUUU G UCAACAGU 1859 ACTGTTGA GGCTAGCTACAACGA AAATTACC 6371
906 UGUCAACA G UAUUACCC 1860 GGGTAATA GGCTAGCTACAACGA TGTTGACA 6372
939 AAGAAAAU G UCAGUGAA 1861 TTCACTGA GGCTAGCTACAACGA ATTTTCTT 6373
943 AAAUGUCA G UGAAGCUU 1862 AAGCTTCA GGCTAGCTACAACGA TGACATTT 6374
948 UCAGUGAA G CUUCUAAA 1863 TTTAGAAG GGCTAGCTACAACGA TTCACTGA 6375
960 CUAAAGAG G UCUCAGAG 1864 CTCTGAGA GGCTAGCTACAACGA CTCTTTAG 6376
972 CAGAGAAG G CAAAAACU 1865 AGTTTTTG GGCTAGCTACAACGA CTTCTCTG 6377
1007 UUAACAGA G UUUUCAGA 1866 TCTGAAAA GGCTAGCTACAACGA TCTGTTAA 6378
1043 GGAUCAUC G UUCAGUGU 1867 ACACTGAA GGCTAGCTACAACGA GATGATCC 6379
1048 AUCGUUCA G UGUCUCUC 1868 GAGAGACA GGCTAGCTACAACGA TGAACGAT 6380
1050 CGUUCAGU G UCUCUCCA 1869 TGGAGAGA GGCTAGCTACAACGA ACTGAACG 6381
1062 CUCCAAAA G CAGAAUCU 1870 AGATTCTG GGCTAGCTACAACGA TTTTGGAG 6382
1074 AAUCUGCC G UAAUAGUA 1871 TACTATTA GGCTAGCTACAACGA GGCAGATT 6383
1080 CCGUAAUA G UAGCAAAU 1872 ATTTGCTA GGCTAGCTACAACGA TATTACGG 6384
1083 UAAUAGUA G CAAAUCCU 1873 AGGATTTG GGCTAGCTACAACGA TACTATTA 6385
1107 AAAUAAUC G UGAAAAAU 1874 ATTTTTCA GGCTAGCTACAACGA GATTATTT 6386
1133 GAAGAGAA G UUAGUUAG 1875 CTAACTAA GGCTAGCTACAACGA TTCTCTTC 6387
1137 AGAAGUUA G UUAGUAAU 1876 ATTACTAA GGCTAGCTACAACGA TAACTTCT 6388
1141 GUUAGUUA G UAAUAACA 1877 TGTTATTA GGCTAGCTACAACGA TAACTAAC 6389
1169 CAACAAGA G UUACCUAC 1878 GTAGGTAA GGCTAGCTACAACGA TCTTGTTG 6390
1179 UACCUACA G CUCUUACU 1879 AGTAAGAG GGCTAGCTACAACGA TGTAGGTA 6391
1194 CUAAAUUG G UUAAAGAG 1880 CTCTTTAA GGCTAGCTACAACGA CAATTTAG 6392
1209 AGGAUGAA G UUGUGUCU 1881 AGACACAA GGCTAGCTACAACGA TTCATCCT 6393
1212 AUGAAGUU G UGUCUUCA 1882 TGAAGACA GGCTAGCTACAACGA AACTTCAT 6394
1214 GAAGUUGU G UCUUCAGA 1883 TCTGAAGA GGCTAGCTACAACGA ACAACTTC 6395
1227 CAGAAAAA G CAAAAGAC 1884 GTCTTTTG GGCTAGCTACAACGA TTTTTCTG 6396
1237 AAAAGACA G UUUUAAUG 1885 CATTAAAA GGCTAGCTACAACGA TGTCTTTT 6397
1254 AAAAGAGA G UUGCAGUG 1886 CACTGCAA GGCTAGCTACAACGA TCTCTTTT 6398
1260 GAGUUGCA G UGGAAGCU 1887 AGCTTCCA GGCTAGCTACAACGA TGCAACTC 6399
1266 CAGUGGAA G CUCCUAUG 1888 CATAGGAG GGCTAGCTACAACGA TTCCACTG 6400
1307 CCAUUUGA G CGAGUAUG 1889 CATACTCG GGCTAGCTACAACGA TCAAATGG 6401
1311 UUGAGCGA G UAUGGGAA 1890 TTCCCATA GGCTAGCTACAACGA TCGCTCAA 6402
1320 UAUGGGAA G UGAAAGAU 1891 ATCTTTCA GGCTAGCTACAACGA TTCCCATA 6403
1330 GAAAGAUA G UAAGGAAG 1892 CTTCCTTA GGCTAGCTACAACGA TATCTTTC 6404
1342 GGAAGAUA G UGAUAUGU 1893 ACATATCA GGCTAGCTACAACGA TATCTTCC 6405
1349 AGUGAUAU G UUGGCUGC 1894 GCAGCCAA GGCTAGCTACAACGA ATATCACT 6406
1353 AUAUGUUG G CUGCUGGA 1895 TCCAGCAG GGCTAGCTACAACGA CAACATAT 6407
1363 UGCUGGAG G UAAAAUCG 1896 CGATTTTA GGCTAGCTACAACGA CTCCAGCA 6408
1375 AAUCGAGA G CAACUUGG 1897 CCAAGTTG GGCTAGCTACAACGA TCTCGATT 6409
1387 CUUGGAAA G UAAAGUGG 1898 CCACTTTA GGCTAGCTACAACGA TTTCCAAG 6410
1392 AAAGUAAA G UGGAUAAA 1899 TTTATCCA GGCTAGCTACAACGA TTTACTTT 6411
1405 UAAAAAAU G UUUUGCAG 1900 CTGCAAAA GGCTAGCTACAACGA ATTTTTTA 6412
1417 UGCAGAUA G CCUUGAGC 1901 GCTCAAGG GGCTAGCTACAACGA TATCTGCA 6413
1424 AGCCUUGA G CAAACUAA 1902 TTAGTTTG GGCTAGCTACAACGA TCAAGGCT 6414
1447 AAAAGAUA G UGAGAGUA 1903 TACTCTCA GGCTAGCTACAACGA TATCTTTT 6415
1453 UAGUGAGA G UAGUAAUG 1904 CATTACTA GGCTAGCTACAACGA TCTCACTA 6416
1456 UGAGAGUA G UAAUGAUG 1905 CATCATTA GGCTAGCTACAACGA TACTCTCA 6417
1480 UUUCCCCA G UACGCCAG 1906 CTGGCGTA GGCTAGCTACAACGA TGGGGAAA 6418
1492 GCCAGAAG G UAUAAAGG 1907 CCTTTATA GGCTAGCTACAACGA CTTCTGGC 6419
1504 AAAGGAUC G UUCAGGAG 1908 CTCCTGAA GGCTAGCTACAACGA GATCCTTT 6420
1512 GUUCAGGA G CAUAUAUC 1909 GATATATG GGCTAGCTACAACGA TCCTGAAC 6421
1525 UAUCACAU G UGCUCCCU 1910 AGGGAGCA GGCTAGCTACAACGA ATGTGATA 6422
1542 UUAACCCA G CAGCAACU 1911 AGTTGCTG GGCTAGCTACAACGA TGGGTTAA 6423
1545 ACCCAGCA G CAACUGAG 1912 CTCAGTTG GGCTAGCTACAACGA TGCTGGGT 6424
1555 AACUGAGA G CAUUGCAA 1913 TTGCAATG GGCTAGCTACAACGA TCTCAGTT 6425
1580 UUUCCUUU G UUAGGAGA 1914 TCTCCTAA GGCTAGCTACAACGA AAAGGAAA 6426
1638 AAAAGAAG G CCCAAAUA 1915 TATTTGGG GGCTAGCTACAACGA CTTCTTTT 6427
1647 CCCAAAUA G UAACAGAG 1916 CTCTGTTA GGCTAGCTACAACGA TATTTGGG 6428
1666 GAAUACUA G CACCAAAA 1917 TTTTGGTG GGCTAGCTACAACGA TAGTATTC 6429
1692 CUUUUCUU G UAGCAGCA 1918 TGCTGCTA GGCTAGCTACAACGA AAGAAAAG 6430
1695 UUCUUGUA G CAGCACAG 1919 CTGTGCTG GGCTAGCTACAACGA TACAAGAA 6431
1698 UUGUAGCA G CACAGGAU 1920 ATCCTGTG GGCTAGCTACAACGA TGCTACAA 6432
1722 CAGAUUAU G UCACAACA 1921 TGTTGTGA GGCTAGCTACAACGA ATAATCTG 6433
1746 UAACAAAG G UGACUGAG 1922 CTCAGTCA GGCTAGCTACAACGA CTTTGTTA 6434
1758 CUGAGGAA G UCGUGGCA 1923 TGCCACGA GGCTAGCTACAACGA TTCCTCAG 6435
1761 AGGAAGUC G UGGCAAAC 1924 GTTTGCCA GGCTAGCTACAACGA GACTTCCT 6436
1764 AAGUCGUG G CAAACAUG 1925 CATGTTTG GGCTAGCTACAACGA CACGACTT 6437
1780 GCCUGAAG G CCUGACUC 1926 GAGTCAGG GGCTAGCTACAACGA CTTCAGGC 6438
1797 CAGAUUUA G UACAGGAA 1927 TTCCTGTA GGCTAGCTACAACGA TAAATCTG 6439
1806 UACAGGAA G CAUGUGAA 1928 TTCACATG GGCTAGCTACAACGA TTCCTGTA 6440
1810 GGAAGCAU G UGAAAGUG 1929 CACTTTCA GGCTAGCTACAACGA ATGCTTCC 6441
1816 AUGUGAAA G UGAAUUGA 1930 TCAATTCA GGCTAGCTACAACGA TTTCACAT 6442
1830 UGAAUGAA G UUACUGGU 1931 ACCAGTAA GGCTAGCTACAACGA TTCATTCA 6443
1837 AGUUACUG G UACAAAGA 1932 TCTTTGTA GGCTAGCTACAACGA CAGTAACT 6444
1872 UGGACUUG G UUCAAACA 1933 TGTTTGAA GGCTAGCTACAACGA CAAGTCCA 6445
1887 CAUCAGAA G UUAUGCAA 1934 TTGCATAA GGCTAGCTACAACGA TTCTGATG 6446
1898 AUGCAAGA G UCACUCUA 1935 TAGAGTGA GGCTAGCTACAACGA TCTTGCAT 6447
1914 AUCCUGCA G CACAGCUU 1936 AAGCTGTG GGCTAGCTACAACGA TGCAGGAT 6448
1919 GCAGCACA G CUUUGCCC 1937 GGGCAAAG GGCTAGCTACAACGA TGTGCTGC 6449
1940 UUUGAAGA G UCAGAAGC 1938 GCTTCTGA GGCTAGCTACAACGA TCTTCAAA 6450
1947 AGUCAGAA G CUACUCCU 1939 AGGAGTAG GGCTAGCTACAACGA TTCTGACT 6451
1962 CUUCACCA G UUUUGCCU 1940 AGGCAAAA GGCTAGCTACAACGA TGGTGAAG 6452
1977 CUGACAUU G UUAUGGAA 1941 TTCCATAA GGCTAGCTACAACGA AATGTCAG 6453
1986 UUAUGGAA G CACCAUUG 1942 CAATGGTG GGCTAGCTACAACGA TTCCATAA 6454
2004 AUUCUGCA G UUCCUAGU 1943 ACTAGGAA GGCTAGCTACAACGA TGCAGAAT 6455
2011 AGUUCCUA G UGCUGGUG 1944 CACCAGCA GGCTAGCTACAACGA TAGGAACT 6456
2017 UAGUGCUG G UGCUUCCG 1945 CGGAAGCA GGCTAGCTACAACGA CAGCACTA 6457
2025 GUGCUUCC G UGAUACAG 1946 CTGTATCA GGCTAGCTACAACGA GGAAGCAC 6458
2033 GUGAUACA G CCCAGCUC 1947 GAGCTGGG GGCTAGCTACAACGA TGTATCAC 6459
2038 ACAGCCCA G CUCAUCAC 1948 GTGATGAG GGCTAGCTACAACGA TGGGCTGT 6460
2055 CAUUAGAA G CUUCUUCA 1949 TGAAGAAG GGCTAGCTACAACGA TTCTAATG 6461
2064 CUUCUUCA G UUAAUUAU 1950 ATAATTAA GGCTAGCTACAACGA TGAAGAAG 6462
2077 UUAUGAAA G CAUAAAAC 1951 GTTTTATG GGCTAGCTACAACGA TTTCATAA 6463
2090 AAACAUGA G CCUGAAAA 1952 TTTTCAGG GGCTAGCTACAACGA TCATGTTT 6464
2118 AUGAAGAG G CCAUGAGU 1953 ACTCATGG GGCTAGCTACAACGA CTCTTCAT 6465
2125 GGCCAUGA G UGUAUCAC 1954 GTGATACA GGCTAGCTACAACGA TCATGGCC 6466
2127 CCAUGAGU G UAUCACUA 1955 TAGTGATA GGCTAGCTACAACGA ACTCATGG 6467
2142 UAAAAAAA G UAUCAGGA 1956 TCCTGATA GGCTAGCTACAACGA TTTTTTTA 6468
2171 AUUAAAGA G CCUGAAAA 1957 TTTTCAGG GGCTAGCTACAACGA TCTTTAAT 6469
2190 UUAAUGCA G CUCUUCAA 1958 TTGAAGAG GGCTAGCTACAACGA TGCATTAA 6470
2208 AAACAGAA G CUCCUUAU 1959 ATAAGGAG GGCTAGCTACAACGA TTCTGTTT 6471
2230 UAUUGCAU G UGAUUUAA 1960 TTAAATCA GGCTAGCTACAACGA ATGCAATA 6472
2252 GAAACAAA G CUUUCUGC 1961 GCAGAAAG GGCTAGCTACAACGA TTTGTTTC 6473
2268 CUGAACCA G CUCCGGAU 1962 ATCCGGAG GGCTAGCTACAACGA TGGTTCAG 6474
2298 CAGAAAUG G CAAAAGUU 1963 AACTTTTG GGCTAGCTACAACGA CATTTCTG 6475
2304 UGGCAAAA G UUGAACAG 1964 CTGTTCAA GGCTAGCTACAACGA TTTTGCCA 6476
2312 GUUGAACA G CCAGUGCC 1965 GGCACTGG GGCTAGCTACAACGA TGTTCAAC 6477
2316 AACAGCCA G UGCCUGAU 1966 ATCAGGCA GGCTAGCTACAACGA TGGCTGTT 6478
2333 CAUUGUGA G CUAGUUGA 1967 TCAACTAG GGCTAGCTACAACGA TCAGAATG 6479
2337 CUGAGCUA G UUGAAGAU 1968 ATCTTCAA GGCTAGCTACAACGA TAGCTCAG 6480
2367 CUGAACCA G UUGACUUA 1969 TAAGTCAA GGCTAGCTACAACGA TGGTTCAG 6481
2380 CUUAUUUA G UGAUGAUU 1970 AATCATCA GGCTAGCTACAACGA TAAATAAG 6482
2400 UACCUGAC G UUCCACAA 1971 TTGTGGAA GGCTAGCTACAACGA GTCAGGTA 6483
2424 AUGAAACU G UGAUGCUU 1972 AAGCATCA GGCTAGCTACAACGA AGTTTCAT 6484
2433 UGAUGCUU G UGAAAGAA 1973 TTCTTTCA GGCTAGCTACAACGA AAGCATCA 6485
2443 GAAAGAAA G UCUCACUG 1974 CAGTGAGA GGCTAGCTACAACGA TTTCTTTC 6486
2465 UCAUUUGA G UCAAUGAU 1975 ATCATTGA GGCTAGCTACAACGA TCAAATGA 6487
2500 AAAACUCA G UGCUUUGC 1976 GCAAAGCA GGCTAGCTACAACGA TGAGTTTT 6488
2525 GGAGGAAA G CCAUAUUU 1977 AAATATGG GGCTAGCTACAACGA TTTCCTCC 6489
2546 UCUUUUAA G CUCAGUUU 1978 AAACTGAG GGCTAGCTACAACGA TTAAAAGA 6490
2551 UAAGCUCA G UUUAGAUA 1979 TATCTAAA GGCTAGCTACAACGA TGAGCTTA 6491
2576 GAUACCCU G UUACCUGA 1980 TCAGGTAA GGCTAGCTACAACGA AGGGTATC 6492
2589 CUGAUGAA G UUUCAACA 1981 TGTTGAAA GGCTAGCTACAACGA TTCATCAG 6493
2602 AACAUUGA G CAAAAAGG 1982 CCTTTTTG GGCTAGCTACAACGA TCAATGTT 6494
2636 AUGGAGGA G CUCAGUAC 1983 GTACTGAG GGCTAGCTACAACGA TCCTCCAT 6495
2641 GGAGCUCA G UACUGCAG 1984 CTGCAGTA GGCTAGCTACAACGA TGAGCTCC 6496
2649 GUACUGCA G UUUAUUCA 1985 TGAATAAA GGCTAGCTACAACGA TGCAGTAC 6497
2685 CUAAGGAA G CACAGAUA 1986 TATCTGTG GGCTAGCTACAACGA TTCCTTAG 6498
2708 ACUGAAAC G UUUUCAGA 1987 TCTGAAAA GGCTAGCTACAACGA GTTTCAGT 6499
2744 AUAGAUGA G UUCCCUAC 1988 GTAGGGAA GGCTAGCTACAACGA TCATCTAT 6500
2761 AUUGAUCA G UUCUAAAA 1989 TTTTAGAA GGCTAGCTACAACGA TGATCAAT 6501
2790 CUAAAUUA G CCAGGGAA 1990 TTCCCTGG GGCTAGCTACAACGA TAATTTAG 6502
2814 ACCUAGAA G UAUCCCAC 1991 GTGGGATA GGCTAGCTACAACGA TTCTAGGT 6503
2827 CCACAAAA G UGAAAUUG 1992 CAATTTCA GGCTAGCTACAACGA TTTTGTGG 6504
2853 CGGAUGGA G CUGGGUCA 1993 TGACCCAG GGCTAGCTACAACGA TCCATCCG 6505
2858 GGAGCUGG G UCAUUGCC 1994 GGCAATGA GGCTAGCTACAACGA CCAGCTCC 6506
2916 AACCCAAA G UUGAAGAG 1995 CTCTTCAA GGCTAGCTACAACGA TTTGGGTT 6507
2932 GAAAAUCA G UUUCUCAG 1996 CTGAGAAA GGCTAGCTACAACGA TGATTTTC 6508
2960 AAAAAUGG G UCUGCUAC 1997 GTAGCAGA GGCTAGCTACAACGA CCATTTTT 6509
2976 CAUCAAAG G UGCUCUUA 1998 TAAGAGCA GGCTAGCTACAACGA CTTTGATG 6510
2997 CUCCAGAU G UUUCUGCU 1999 AGCAGAAA GGCTAGCTACAACGA ATCTGGAG 6511
3009 CUGCUUUG G CCACUCAA 2000 TTGAGTGG GGCTAGCTACAACGA CAAAGCAG 6512
3018 CCACUCAA G CAGAGAUA 2001 TATCTCTG GGCTAGCTACAACGA TTGAGTGG 6513
3031 GAUAGAGA G CAUAGUUA 2002 TAACTATG GGCTAGCTACAACGA TCTCTATC 6514
3036 AGAGCAUA G UUAAACCC 2003 GGGTTTAA GGCTAGCTACAACGA TATGCTCT 6515
3048 AACCCAAA G UUCUUGUG 2004 CACAAGAA GGCTAGCTACAACGA TTTGGGTT 6516
3054 AAGUUCUU G UGAAAGAA 2005 TTCTTTCA GGCTAGCTACAACGA AAGAACTT 6517
3063 UGAAAGAA G CUGAGAAA 2006 TTTCTCAG GGCTAGCTACAACGA TTCTTTCA 6518
3126 UAUUUUCA G CAGAGCUG 2007 CAGCTCTG GGCTAGCTACAACGA TGAAAATA 6519
3131 UCAGCAGA G CUGAGUAA 2008 TTACTCAG GGCTAGCTACAACGA TCTGCTGA 6520
3136 AGAGCUGA G UAAAACUU 2009 AAGTTTTA GGCTAGCTACAACGA TCAGCTCT 6521
3147 AAACUUCA G UUGUUGAC 2010 GTCAACAA GGCTAGCTACAACGA TGAAGTTT 6522
3150 CUUCAGUU G UUGACCUC 2011 GAGGTCAA GGCTAGCTACAACGA AACTGAAG 6523
3161 GACCUCCU G UACUGGAG 2012 CTCCAGTA GGCTAGCTACAACGA AGGAGGTC 6524
3189 AGACUGGA G UGGUGUUU 2013 AAACACCA GGCTAGCTACAACGA TCCAGTCT 6525
3192 CUGGAGUG G UGUUUGGU 2014 ACCAAACA GGCTAGCTACAACGA CACTCCAG 6526
3194 GGAGUGGU G UUUGGUGC 2015 GCACCAAA GGCTAGCTACAACGA ACCACTCC 6527
3199 GGUGUUUG G UGCCAGCC 2016 GGCTGGCA GGCTAGCTACAACGA CAAACACC 6528
3205 UGGUGCCA G CCUAUUCC 2017 GGAATAGG GGCTAGCTACAACGA TGGCACCA 6529
3231 CAUUGACA G UAUUCAGC 2018 GCTGAATA GGCTAGCTACAACGA TGTCAATG 6530
3238 AGUAUUCA G CAUUGUGA 2019 TCACAATG GGCTAGCTACAACGA TGAATACT 6531
3243 UCAGCAUU G UGAGCGUA 2020 TACGCTCA GGCTAGCTACAACGA AATGCTGA 6532
3247 CAUUGUGA G CGUAACAG 2021 CTGTTACG GGCTAGCTACAACGA TCACAATG 6533
3249 UUGUGAGC G UAACAGCC 2022 GGCTGTTA GGCTAGCTACAACGA GCTCACAA 6534
3255 GCGUAACA G CCUACAUU 2023 AATGTAGG GGCTAGCTACAACGA TGTTACGC 6535
3270 UUGCCUUG G CCCUGCUC 2024 GAGCAGGG GGCTAGCTACAACGA CAAGGCAA 6536
3282 UGCUCUCU G UGACCAUC 2025 GATGGTCA GGCTAGCTACAACGA AGAGAGGA 6537
3292 GACCAUCA G CUUUAGGA 2026 TCCTAAAG GGCTAGCTACAACGA TGATGGTC 6538
3310 AUACAAGG G UGUGAUCC 2027 GGATCACA GGCTAGCTACAACGA CCTTGTAT 6539
3312 ACAAGGGU G UGAUCCAA 2028 TTGGATCA GGCTAGCTACAACGA ACCCTTGT 6540
3321 UGAUCCAA G CUAUCCAG 2029 CTGGATAG GGCTAGCTACAACGA TTGGATCA 6541
3343 AGAUGAAG G CCACCCAU 2030 ATGGGTGG GGCTAGCTACAACGA CTTCATCT 6542
3357 CAUUCAGG G CAUAUCUG 2031 CAGATATG GGCTAGCTACAACGA CCTGAATG 6543
3375 AAUCUGAA G UUGCUAUA 2032 TATAGCAA GGCTAGCTACAACGA TTCAGATT 6544
3392 UCUGAGGA G UUGGUUCA 2033 TGAACCAA GGCTAGCTACAACGA TCCTCAGA 6545
3396 AGGAGUUG G UUCAGAAG 2034 CTTCTGAA GGCTAGCTACAACGA CAACTCCT 6546
3404 GUUCAGAA G UACAGUAA 2035 TTACTGTA GGCTAGCTACAACGA TTCTGAAC 6547
3409 GAAGUACA G UAAUUCUG 2036 CAGAATTA GGCTAGCTACAACGA TGTACTTC 6548
3424 UGCUCUUG G UCAUGUGA 2037 TCACATGA GGCTAGCTACAACGA CAAGAGCA 6549
3429 UUGGUCAU G UGAACUGC 2038 GCAGTTCA GGCTAGCTACAACGA ATGACCAA 6550
3455 GAACUCAG G CGCCUCUU 2039 AAGAGGCG GGCTAGCTACAACGA CTGAGTTC 6551
3468 UCUUCUUA G UUGAUGAU 2040 ATCATCAA GGCTAGCTACAACGA TAAGAAGA 6552
3480 AUGAUUUA G UUGAUUCU 2041 AGAATCAA GGCTAGCTACAACGA TAAATCAT 6553
3494 UCUCUGAA G UUUGCAGU 2042 ACTGCAAA GGCTAGCTACAACGA TTCAGAGA 6554
3501 AGUUUGCA G UGUUGAUG 2043 CATCAACA GGCTAGCTACAACGA TGCAAACT 6555
3503 UUUGCAGU G UUGAUGUG 2044 CACATCAA GGCTAGCTACAACGA ACTGCAAA 6556
3509 GUGUUGAU G UGGGUAUU 2045 AATACCCA GGCTAGCTACAACGA ATCAACAC 6557
3513 UGAUGUGG G UAUUUACC 2046 GGTAAATA GGCTAGCTACAACGA CCACATCA 6558
3525 UUACCUAU G UUGGUGCC 2047 GGCACCAA GGCTAGCTACAACGA ATAGGTAA 6559
3529 CUAUGUUG G UGCCUUGU 2048 ACAAGGCA GGCTAGCTACAACGA CAACATAG 6560
3536 GGUGCCUU G UUUAAUGG 2049 CCATTAAA GGCTAGCTACAACGA AAGGCACC 6561
3544 GUUUAAUG G UCUGACAC 2050 GTGTCAGA GGCTAGCTACAACGA CATTAAAC 6562
3564 UGAUUUUG G CUCUCAUU 2051 AATGAGAG GGCTAGCTACAACGA CAAAATCA 6563
3583 ACUCUUCA G UGUUCCUG 2052 CAGGAACA GGCTAGCTACAACGA TGAAGAGT 6564
3585 UCUUCAGU G UUCCUGUU 2053 AACAGGAA GGCTAGCTACAACGA ACTGAAGA 6565
3591 GUGUUCCU G UUAUUUAU 2054 ATAAATAA GGCTAGCTACAACGA AGGAACAC 6566
3605 UAUGAACG G CAUCAGGC 2055 GCCTGATG GGCTAGCTACAACGA CGTTCATA 6567
3612 GGCAUCAG G CACAGAUA 2056 TATCTGTG GGCTAGCTACAACGA CTGATGCC 6568
3651 AUAAGAAU G UUAAAGAU 2057 ATCTTTAA GGCTAGCTACAACGA ATTCTTAT 6569
3666 AUGCUAUG G CUAAAAUC 2058 GATTTTAG GGCTAGCTACAACGA CATAGCAT 6570
3678 AAAUCCAA G CAAAAAUC 2059 GATTTTTG GGCTAGCTACAACGA TTGGATTT 6571
3698 GGAUUGAA G CGCAAAGC 2060 GCTTTGCG GGCTAGCTACAACGA TTCAATCC 6572
3705 AGCGCAAA G CUGAAUGA 2061 TCATTCAG GGCTAGCTACAACGA TTTGCGCT 6573
3732 AAUAAUUA G UAGGAGUU 2062 AACTCCTA GGCTAGCTACAACGA TAATTATT 6574
3738 UAGUAGGA G UUCAUCUU 2063 AAGATGAA GGCTAGCTACAACGA TCCTACTA 6575
3781 GGGGGAGG G UCAGGGAA 2064 TTCCCTGA GGCTAGCTACAACGA CCTCCCCC 6576
3804 ACCUUGAC G UUGCAGUG 2065 CACTGCAA GGCTAGCTACAACGA GTCAAGGT 6577
3810 ACGUUGCA G UGCAGUUU 2066 AAACTGCA GGCTAGCTACAACGA TGCAACGT 6578
3815 GCAGUGCA G UUUCACAG 2067 CTGTGAAA GGCTAGCTACAACGA TGCACTGC 6579
3827 CACAGAUC G UUGUUAGA 2068 TCTAACAA GGCTAGCTACAACGA GATCTGTG 6580
3830 AGAUCGUU G UUAGAUCU 2069 AGATCTAA GGCTAGCTACAACGA AACGATCT 6581
3848 UAUUUUUA G CCAUGCAC 2070 GTGCATGG GGCTAGCTACAACGA TAAAAATA 6582
3858 CAUGCACU G UUGUGAGG 2071 CCTCACAA GGCTAGCTACAACGA AGTGCATG 6583
3861 GCACUGUU G UGAGGAAA 2072 TTTCCTCA GGCTAGCTACAACGA AACAGTGC 6584
3878 AAUUACCU G UCUUGACU 2073 AGTCAAGA GGCTAGCTACAACGA AGGTAATT 6585
3892 ACUGCCAU G UGUUCAUC 2074 GATGAACA GGCTAGCTACAACGA ATGGCAGT 6586
3894 UGCCAUGU G UUCAUCAU 2075 ATGATGAA GGCTAGCTACAACGA ACATGGCA 6587
3908 CAUCUUAA G UAUUGUAA 2076 TTACAATA GGCTAGCTACAACGA TTAAGATG 6588
3913 UAAGUAUU G UAAGCUGC 2077 GCAGCTTA GGCTAGCTACAACGA AATACTTA 6589
3917 UAUUGUAA G CUGCUAUG 2078 CATAGCAG GGCTAGCTACAACGA TTACAATA 6590
3925 GCUGCUAU G UAUGGAUU 2079 AATCCATA GGCTAGCTACAACGA ATAGCAGC 6591
3940 UUUAAACC G UAAUCAUA 2080 TATGATTA GGCTAGCTACAACGA GGTTTAAA 6592
3966 UAUCUGAG G CACUGGUG 2081 CACCAGTG GGCTAGCTACAACGA CTCAGATA 6593
3972 AGGCACUG G UGGAAUAA 2082 TTATTCCA GGCTAGCTACAACGA CAGTGCCT 6594
3988 AAAAACCU G UAUAUUUU 2083 AAAATATA GGCTAGCTACAACGA AGGTTTTT 6595
4002 UUUACUUU G UUGCAGAU 2084 ATCTGCAA GGCTAGCTACAACGA AAAGTAAA 6596
4012 UGCAGAUA G UCUUGCCG 2085 CGGCAAGA GGCTAGCTACAACGA TATCTGCA 6597
4028 GCAUCUUG G CAAGUUGC 2086 GCAACTTG GGCTAGCTACAACGA CAAGATGC 6598
4032 CUUGGCAA G UUGCAGAG 2087 CTCTGCAA GGCTAGCTACAACGA TTGCCAAG 6599
4044 CAGAGAUG G UGGAGCUA 2088 TAGCTCCA GGCTAGCTACAACGA CATCTCTG 6600
54 CCUCCCCA A CCCCCACA 2089 TGTGGGGG GGCTAGCTACAACGA TGGGGAGG 6601
63 CCCCCACA A CCGCCGGC 2090 GCGGGCGG GGCTAGCTACAACGA TGTGGGGG 6602
81 GCUCUGAG A CGCGGCCC 2091 GGGCCGCG GGCTAGCTACAACGA CTCAGAGC 6603
142 CAUGGAAG A CCUGGACC 2092 GGTCCAGG GGCTAGCTACAACGA CTTCCATG 6604
148 AGACCUGG A CCAGUCUC 2093 GAGACTGG GGCTAGCTACAACGA CCAGGTCT 6605
175 GUCCUCGG A CAGCCCAC 2094 GTGGGCTG GGCTAGCTACAACGA CCGAGGAC 6606
232 GCCCGAGG A CGAGGAGG 2095 CCTCCTCG GGCTAGCTACAACGA CCTCGGGC 6607
265 AGAGGAGG A CGAGGACG 2096 CGTCCTCG GGCTAGCTACAACGA CCTCCTCT 6608
271 GGACGAGG A CGAAGACC 2097 GGTCTTCG GGCTAGCTACAACGA CCTCGTCC 6609
277 GGACGAAG A CCUGGAGG 2098 CCTCCAGG GGCTAGCTACAACGA CTTCGTCC 6610
369 CGCCCCUG A UGGACUUC 2099 GAAGTCCA GGCTAGCTACAACGA CAGGGGCG 6611
373 CCUGAUGG A CUUCGGAA 2100 TTCCGAAG GGCTAGCTACAACGA CCATCAGG 6612
382 CUUCGGAA A UGACUUCG 2101 CGAAGTCA GGCTAGCTACAACGA TTCCGAAG 6613
385 CGGAAAUG A CUUCGUGC 2102 GCACGAAG GGCTAGCTACAACGA CATTTCCG 6614
410 CCCCGGGG A CCCCUGCC 2103 GGCAGGGG GGCTAGCTACAACGA CCCCGGGG 6615
460 GUCUUGGG A CCCGAGCC 2104 GGCTCGGG GGCTAGCTACAACGA CCCAAGAC 6616
480 UGUCGUCG A CCGUGCCC 2105 GGGCACGG GGCTAGCTACAACGA CGACGACA 6617
541 CCCUGAGG A CGACGAGC 2106 GCTCGTCG GGCTAGCTACAACGA CCTCAGGG 6618
544 UGAGGACG A CGAGCCUC 2107 GAGGCTCG GGCTAGCTACAACGA CGTCCTCA 6619
612 CCGUGUGG A CCCCGCCA 2108 TGGCGGGG GGCTAGCTACAACGA CCACACGG 6620
691 CUCAGUGG A UGAGAGCC 2109 GGGTCTCA GGCTAGCTACAACGA CCACTGAG 6621
696 UGGAUGAG A CCCUUUUU 2110 AAAAAGGG GGCTAGCTACAACGA CTCATCCA 6622
732 AGCCUGUG A UACGCUCC 2111 GGAGCGTA GGCTAGCTACAACGA CACAGGCT 6623
751 UGCAGAAA A UAUGGACU 2112 AGTCCATA GGCTAGCTACAACGA TTTCTGCA 6624
757 AAAUAUGG A CUUGAAGG 2113 CCTTCAAG GGCTAGCTACAACGA CCATATTT 6625
778 GCCAGGUA A CACUAUUU 2114 AAATAGTG GGCTAGCTACAACGA TACCTGGC 6626
802 UCAAGAGG A UUUCCCAU 2115 ATGGGAAA GGCTAGCTACAACGA CCTCTTGA 6627
825 UGCUUGAA A CUGCUGCU 2116 AGCAGCAG GGCTAGCTACAACGA TTCAAGCA 6628
878 UUCAAAGA A CAUGAAUA 2117 TATTCATG GGCTAGCTACAACGA TCTTTGAA 6629
884 GAACAUGA A UACCUUGG 2118 CCAAGGTA GGCTAGCTACAACGA TCATGTTC 6630
895 CCUUGGUA A UUUGUCAA 2119 TTGACAAA GGCTAGCTACAACGA TACCAAGG 6631
903 AUUUGUCA A CAGUAUUA 2120 TAATACTG GGCTAGCTACAACGA TGACAAAT 6632
924 CUGAAGGA A CACUUCAA 2121 TTGAAGTG GGCTAGCTACAACGA TCCTTCAG 6633
937 UCAAGAAA A UGUCAGUG 2122 CACTGACA GGCTAGCTACAACGA TTTCTTGA 6634
978 AGGCAAAA A CUCUACUC 2123 GAGTAGAG GGCTAGCTACAACGA TTTTGCCT 6635
991 ACUCAUAG A UAGAGAUU 2124 AATCTCTA GGCTAGCTACAACGA CTATGAGT 6636
997 AGAUAGAG A UUUAACAG 2125 CTGTTAAA GGCTAGCTACAACGA CTCTATCT 6637
1002 GAGAUUUA A CAGAGUUU 2126 AAACTCTG GGCTAGCTACAACGA TAAATCTC 6638
1016 UUUUCAGA A UUAGAAUA 2127 TATTCTAA GGCTAGCTACAACGA TCTGAAAA 6639
1022 GAAUUAGA A UACUCAGA 2128 TCTGAGTA GGCTAGCTACAACGA TCTAATTC 6640
1032 ACUCAGAA A UGGGAUCA 2129 TGATCCCA GGCTAGCTACAACGA TTCTGAGT 6641
1037 GAAAUGGG A UCAUCGUU 2130 AACGATGA GGCTAGCTACAACGA CCCATTTC 6642
1067 AAAGCAGA A UCUGCCGU 2131 ACGGCAGA GGCTAGCTACAACGA TCTGCTTT 6643
1077 CUGCCGUA A UAGUAGGA 2132 TGCTACTA GGCTAGCTACAACGA TACGGCAG 6644
1087 AGUAGCAA A UCCUAGGG 2133 CCCTAGGA GGCTAGCTACAACGA TTGCTACT 6645
1101 GGGAAGAA A UAAUCGUG 2134 CACGATTA GGCTAGCTACAACGA TTCTTCCC 6646
1104 AAGAAAUA A UCGUGAAA 2135 TTTCACGA GGCTAGCTACAACGA TATTTCTT 6647
1114 CGUGAAAA A UAAAGAUG 2136 CATCTTTA GGCTAGCTACAACGA TTTTCACG 6648
1120 AAAUAAAG A UGAAGAAG 2137 CTTCTTCA GGCTAGCTACAACGA CTTTATTT 6649
1144 AGUUAGUA A UAACAUCC 2138 GGATGTTA GGCTAGCTACAACGA TACTAACT 6650
1147 UAGUAAUA A CAUCCUUC 2139 GAAGGATG GGCTAGCTACAACGA TATTACTA 6651
1159 CCUUCAUA A UCAACAAG 2140 CTTGTTGA GGCTAGCTACAACGA TATGAAGG 6652
1163 CAUAAUCA A CAAGAGUU 2141 AACTCTTG GGCTAGCTACAACGA TGATTATG 6653
1190 CUUACUAA A UUGGUUAA 2142 TTAACCAA GGCTAGCTACAACGA TTAGTAAG 6654
1204 UAAAGAGG A UGAAGUUG 2143 CAACTTCA GGCTAGCTACAACGA CCTCTTTA 6655
1234 AGCAAAAG A CAGUUUUA 2144 TAAAACTG GGCTAGCTACAACGA CTTTTGCT 6656
1243 CAGUUUUA A UGAAAAGA 2145 TCTTTTCA GGCTAGCTACAACGA TAAAACTG 6657
1283 AGGGAGGA A UAUGCAGA 2146 TCTGCATA GGCTAGCTACAACGA TCCTCCCT 6658
1291 AUAUGCAG A CUUCAAAC 2147 GTTTGAAG GGCTAGCTACAACGA CTGCATAT 6659
1298 GACUUCAA A CCAUUUGA 2148 TCAAATGG GGCTAGCTACAACGA TTGAAGTC 6660
1327 AGUGAAAG A UAGUAAGG 2149 CCTTACTA GGCTAGCTACAACGA CTTTCACT 6661
1339 UAAGGAAG A UAGUGAUA 2150 TATCACTA GGCTAGCTACAACGA CTTCCTTA 6662
1345 AGAUAGUG A UAUGUUGG 2151 CCAACATA GGCTAGCTACAACGA CACTATCT 6663
1368 GAGGUAAA A UCGAGAGC 2152 GCTCTCGA GGCTAGCTACAACGA TTTACCTC 6664
1378 CGAGAGCA A CUUGGAAA 2153 TTTCCAAG GGCTAGCTACAACGA TGCTCTCG 6665
1396 UAAAGUGG A UAAAAAAU 2154 ATTTTTTA GGCTAGCTACAACGA CCACTTTA 6666
1403 GAUAAAAA A UGUUUUGC 2155 GCAAAACA GGCTAGCTACAACGA TTTTTATC 6667
1414 UUUUGCAG A UAGCCUUG 2156 CAAGGCTA GGCTAGCTACAACGA CTGCAAAA 6668
1428 UUGAGCAA A CUAAUCAC 2157 GTGATTAG GGCTAGCTACAACGA TTGCTCAA 6669
1432 GCAAACUA A UCACGAAA 2158 TTTCGTGA GGCTAGCTACAACGA TAGTTTGC 6670
1444 CGAAAAAG A UAGUGAGA 2159 TCTCACTA GGCTAGCTACAACGA CTTTTTCG 6671
1459 GAGUAGUA A UGAUGAUA 2160 TATCATCA GGCTAGCTACAACGA TACTACTC 6672
1462 UAGUAAUG A UGAUACUU 2161 AAGTATCA GGCTAGCTACAACGA CATTACTA 6673
1465 UAAUGAUG A UACUUCUU 2162 AAGAAGTA GGCTAGCTACAACGA CATCATTA 6674
1501 UAUAAAGG A UCGUUCAG 2163 CTGAACGA GGCTAGCTACAACGA CCTTTATA 6675
1537 UCCCUUUA A CCCAGCAG 2164 CTGCTGGG GGCTAGCTACAACGA TAAAGGGA 6676
1548 CAGCAGCA A CUGAGAGC 2165 GCTCTCAG GGCTAGCTACAACGA TGCTGCTG 6677
1563 GCAUUGCA A CAAACAUU 2166 AATGTTTG GGCTAGCTACAACGA TGCAATGC 6678
1567 UGCAACAA A CAUUUUUC 2167 GAAAAATG GGCTAGCTACAACGA TTGTTGCA 6679
1588 GUUAGGAG A UCCUACUU 2168 AAGTAGGA GGCTAGCTACAACGA CTCCTAAC 6680
1603 UUCAGAAA A UAAGACCG 2169 CGGTCTTA GGCTAGCTACAACGA TTTCTGAA 6681
1608 AAAAUAAG A CCGAUGAA 2170 TTCATCGG GGCTAGCTACAACGA CTTATTTT 6682
1612 UAAGACCG A UGAAAAAA 2171 TTTTTTCA GGCTAGCTACAACGA CGGTCTTA 6683
1623 AAAAAAAA A UAGAAGAA 2172 TTCTTCTA GGCTAGCTACAACGA 6684
1644 AGGCCCAA A UAGUAACA 2173 TGTTACTA GGCTAGCTACAACGA TTGGGCCT 6685
1650 AAAUAGUA A CAGAGAAG 2174 CTTCTCTG GGCTAGCTACAACGA TACTATTT 6686
1660 AGAGAAGA A UACUAGCA 2175 TGCTAGTA GGCTAGCTACAACGA TCTTCTCT 6687
1674 GCACCAAA A CAUCAAAG 2176 GTTTGATG GGCTAGCTACAACGA TTTGGTGC 6688
1681 AACAUCAA A CCCUUUUC 2177 GAAAAGGG GGCTAGCTACAACGA TTGATGTT 6689
1705 AGCACAGG A UUCUGAGA 2178 TCTCAGAA GGCTAGCTACAACGA CCTGTGCT 6690
1713 AUUCUGAG A CAGAUUAU 2179 ATAATCTG GGCTAGCTACAACGA CTCAGAAT 6691
1717 UGAGACAG A UUAUGUCA 2180 TGACATAA GGCTAGCTACAACGA CTGTCTCA 6692
1728 AUGUCACA A CAGAUAAU 2181 ATTATCTG GGCTAGCTACAACGA TGTGACAT 6693
1732 CACAACAG A UAAUUUAA 2182 TTAAATTA GGCTAGCTACAACGA CTGTTGTG 6694
1735 AACAGAUA A UUUAACAA 2183 TTGTTAAA GGCTAGCTACAACGA TATCTGTT 6695
1740 AUAAUUUA A CAAAGGUG 2184 CACCTTTG GGCTAGCTACAACGA TAAATTAT 6696
1749 CAAAGGUG A CUGAGGAA 2185 TTCCTCAG GGCTAGCTACAACGA CACCTTTG 6697
1768 CGUGGCAA A CAUGCCUG 2186 CAGGCATG GGCTAGCTACAACGA TTGCCACG 6698
1785 AAGGCCUG A CUCCAGAU 2187 ATCTGGAG GGCTAGCTACAACGA CAGGCCTT 6699
1792 GACUCCAG A UUUAGUAC 2188 GTACTAAA GGCTAGCTACAACGA CTGGAGTC 6700
1820 GAAAGUGA A UUGAAUGA 2189 TCATTCAA GGCTAGCTACAACGA TCACTTTC 6701
1825 UGAAUUGA A UGAAGUUA 2190 TAACTTCA GGCTAGCTACAACGA TCAATTCA 6702
1845 GUACAAAG A UUGCUUAU 2191 ATAAGCAA GGCTAGCTACAACGA CTTTGTAC 6703
1857 CUUAUGAA A CAAAAAUG 2192 GATTTTTG GGCTAGCTACAACGA TTCATAAG 6704
1863 AAACAAAA A UGGACUUG 2193 CAAGTCCA GGCTAGCTACAACGA TTTTGTTT 6705
1867 AAAAAUGG A CUUGGUUC 2194 GAACCAAG GGCTAGCTACAACGA CCATTTTT 6706
1878 UGGUUCAA A CAUCAGAA 2195 TTCTGATG GGCTAGCTACAACGA TTGAACCA 6707
1972 UUUGCCUG A CAUUGUUA 2196 TAACAATG GGCTAGCTACAACGA CAGGCAAA 6708
1996 ACCAUUGA A UUCUGCAG 2197 CTGCAGAA GGCTAGCTACAACGA TCAATGGT 6709
2028 CUUCCGUG A UACAGCCC 2198 GGGCTGTA GGCTAGCTACAACGA CACGGAAG 6710
2068 UUCAGUUA A UUAUGAAA 2199 TTTCATAA GGCTAGCTACAACGA TAACTGAA 6711
2084 AGCAUAAA A CAUGAGCC 2200 GGCTCATG GGCTAGCTACAACGA TTTATGCT 6712
2098 GCCUGAAA A CCCCCCAC 2201 GTGGGGGG GGCTAGCTACAACGA TTTCAGGC 6713
2151 UAUCAGGA A UAAAGGAA 2202 TTCCTTTA GGCTAGCTACAACGA TCCTGATA 6714
2163 AGGAAGAA A UUAAAGAG 2203 CTCTTTAA GGCTAGCTACAACGA TTCTTCCT 6715
2179 GCCUGAAA A UAUUAAUG 2204 CATTAATA GGCTAGCTACAACGA TTTCAGGC 6716
2185 AAAUAUUA A UGCAGCUC 2205 GAGCTGCA GGCTAGCTACAACGA TAATATTT 6717
2202 UUCAAGAA A CAGAAGCU 2206 AGCTTCTG GGCTAGCTACAACGA TTCTTGAA 6718
2233 UGCAUGUG A UUUAAUUA 2207 TAATTAAA GGCTAGCTACAACGA CACATGCA 6719
2238 GUGAUUUA A UUAAAGAA 2208 TTCTTTAA GGCTAGCTACAACGA TAAATCAC 6720
2247 UUAAAGAA A CAAAGCUU 2209 AAGCTTTG GGCTAGCTACAACGA TTCTTTAA 6721
2264 UCUGCUGA A CCAGCUCC 2210 GGAGCTGG GGCTAGCTACAACGA TCAGCAGA 6722
2275 AGCUCCGG A UUUCUCUG 2211 CAGAGAAA GGCTAGCTACAACGA CCGGAGCT 6723
2284 UUUCUCUG A UUAUUCAG 2212 CTGAATAA GGCTAGCTACAACGA CAGAGAAA 6724
2295 AUUCAGAA A UGGCAAAA 2213 TTTTGCCA GGCTAGCTACAACGA TTCTGAAT 6725
2309 AAAGUUGA A CAGCCAGU 2214 ACTGGCTG GGCTAGCTACAACGA TCAACTTT 6726
2323 AGUGCCUG A UCAUUCUG 2215 CAGAATGA GGCTAGCTACAACGA CAGGCACT 6727
2344 AGUUGAAG A UUCCUCAC 2216 GTGAGGAA GGCTAGCTACAACGA CTTCAACT 6728
2356 CUCACCUG A UUCUGAAC 2217 GTTCAGAA GGCTAGCTACAACGA CAGGTGAG 6729
2363 GAUUCUGA A CCAGUUGA 2218 TCAACTGG GGCTAGCTACAACGA TCAGAATC 6730
2371 ACCAGUUG A CUUAUUUA 2219 TAAATAAG GGCTAGCTACAACGA CAACTGGT 6731
2383 AUUUAGUG A UGAUUCAA 2220 TTGAATCA GGCTAGCTACAACGA CACTAAAT 6732
2386 UAGUGAUG A UUCAAUAC 2221 GTATTGAA GGCTAGCTACAACGA CATCACTA 6733
2391 AUGAUUCA A UACCUGAC 2222 GTCAGGTA GGCTAGCTACAACGA TGAATCAT 6734
2398 AAUACCUG A CGUUCCAC 2223 GTGGAACG GGCTAGCTACAACGA CAGGTATT 6735
2411 CCACAAAA A CAAGAUGA 2224 TCATCTTG GGCTAGCTACAACGA TTTTGTGG 6736
2416 AAAACAAG A UGAAACUG 2225 CAGTTTCA GGCTAGCTACAACGA CTTGTTTT 6737
2421 AAGAUGAA A CUGUGAUG 2226 CATCACAG GGCTAGCTACAACGA TTCATCTT 6738
2427 AAACUGUG A UGCUUGUG 2227 CACAAGCA GGCTAGCTACAACGA CACAGTTT 6739
2454 UCACUGAG A CUUCAUUU 2228 AAATGAAG GGCTAGCTACAACGA CTCAGTGA 6740
2469 UUGAGUCA A UGAUAGAA 2229 TTCTATCA GGCTAGCTACAACGA TGACTCAA 6741
2472 AGUCAAUG A UAGAAUAU 2230 ATATTCTA GGCTAGCTACAACGA CATTGACT 6742
2477 AUGAUAGA A UAUGAAAA 2231 TTTTCATA GGCTAGCTACAACGA TCTATCAT 6743
2485 AUAUGAAA A UAAGGAAA 2232 TTTCCTTA GGCTAGCTACAACGA TTTCATAT 6744
2495 AAGGAAAA A CUCAGUGC 2233 GCACTGAG GGCTAGCTACAACGA TTTTCCTT 6745
2537 UAUUUGGA A UCUUUUAA 2234 TTAAAAGA GGCTAGCTACAACGA TCCAAATA 6746
2557 CAGUUUAG A UAACACAA 2235 TTGTGTTA GGCTAGCTACAACGA CTAAACTG 6747
2560 UUUAGAUA A CACAAAAG 2236 CTTTTGTG GGCTAGCTACAACGA TATCTAAA 6748
2569 CACAAAAG A UACCCUGU 2237 ACAGGGTA GGCTAGCTACAACGA CTTTTGTG 6749
2584 GUUACCUG A UGAAGUUU 2238 AAACTTCA GGCTAGCTACAACGA CAGGTAAC 6750
2595 AAGUUUCA A CAUUGAGC 2239 GCTCAATG GGCTAGCTACAACGA TGAAACTT 6751
2616 AGGAGAAA A UUCCUUUG 2240 CAAAGGAA GGCTAGCTACAACGA TTTCTCCT 6752
2628 CUUUGCAG A UGGAGGAG 2241 CTCCTCCA GGCTAGCTACAACGA CTGCAAAG 6753
2659 UUAUUCAA A UGAUGACU 2242 AGTCATCA GGCTAGCTACAACGA TTGAATAA 6754
2662 UUCAAAUG A UGACUUAU 2243 ATAAGTCA GGCTAGCTACAACGA CATTTGAA 6755
2665 AAAUGAUG A CUUAUUUA 2244 TAAATAAG GGCTAGCTACAACGA CATCATTT 6756
2691 AAGCACAG A UAAGAGAA 2245 TTCTCTTA GGCTAGCTACAACGA CTGTGCTT 6757
2700 UAAGAGAA A CUGAAACG 2246 CGTTTCAG GGCTAGCTACAACGA TTCTCTTA 6758
2706 AAACUGAA A CGUUUUCA 2247 TGAAAACG GGCTAGCTACAACGA TTCAGTTT 6759
2716 GUUUUCAG A UUCAUCUC 2248 GAGATGAA GGCTAGCTACAACGA CTGAAAAC 6760
2727 CAUCUCCA A UUGAAAUU 2249 AATTTCAA GGCTAGCTACAACGA TGGAGATG 6761
2733 CAAUUGAA A UUAUAGAU 2250 ATCTATAA GGCTAGCTACAACGA TTCAATTG 6762
2740 AAUUAUAG A UGAGUUCC 2251 GGAACTCA GGCTAGCTACAACGA CTATAATT 6763
2757 CUACAUUG A UCAGUUCU 2252 AGAACTGA GGCTAGCTACAACGA CAATGTAG 6764
2769 GUUCUAAA A CUGAUUCA 2253 TGAATCAG GGCTAGCTACAACGA TTTAGAAC 6765
2773 UAAAACUG A UUCAUUUU 2254 AAAATGAA GGCTAGCTACAACGA CAGTTTTA 6766
2786 UUUUCUAA A UUAGCCAG 2255 CTGGCTAA GGCTAGCTACAACGA TTAGAAAA 6767
2798 GCCAGGGA A UAUACUGA 2256 TCAGTATA GGCTAGCTACAACGA TCCCTGGC 6768
2806 AUAUACUG A CCUAGAAG 2257 CTTCTAGG GGCTAGCTACAACGA CAGTATAT 6769
2832 AAAGUGAA A UUGCUAAU 2258 ATTAGCAA GGCTAGCTACAACGA TTCACTTT 6770
2839 AAUUGCUA A UGCCCCGG 2259 CCGGGGCA GGCTAGCTACAACGA TAGCAATT 6771
2848 UGCCCCGG A UGGAGCUG 2260 CAGCTCCA GGCTAGCTACAACGA CCGGGGCA 6772
2876 UGCACAGA A UUGCCCCA 2261 TGGGGCAA GGCTAGCTACAACGA TCTGTGCA 6773
2887 GCCCCAUG A CCUUUCUU 2262 AAGAAAGG GGCTAGCTACAACGA CATGGGGC 6774
2902 UUUGAAGA A CAUACAAC 2263 GTTGTATG GGCTAGCTACAACGA TCTTCAAA 6775
2909 AACAUACA A CCCAAAGU 2264 ACTTTGGG GGCTAGCTACAACGA TGTATGTT 6776
2928 AAGAGAAA A UCAGUUUC 2265 GAAACTGA GGCTAGCTACAACGA TTTCTCTT 6777
2941 UUUCUCAG A UGACUUUU 2266 AAAAGTCA GGCTAGCTACAACGA CTGAGAAA 6778
2944 CUCAGAUG A CUUUUCUA 2267 TAGAAAAG GGCTAGCTACAACGA CATCTGAG 6779
2956 UUCUAAAA A UGGGUCUG 2268 CAGACCCA GGCTAGCTACAACGA TTTTAGAA 6780
2995 GCCUCCAG A UGUUUCUG 2269 CAGAAACA GGCTAGCTACAACGA CTGGAGGC 6781
3024 AAGCAGAG A UAGAGAGC 2270 GCTCTCTA GGCTAGCTACAACGA CTGTGCTT 6782
3041 AUAGUUAA A CCCAAAGU 2271 ACTTTGGG GGCTAGCTACAACGA TTAACTAT 6783
3074 GAGAAAAA A CUUCCUUC 2272 GAAGGAAG GGCTAGCTACAACGA TTTTTCTC 6784
3085 UCCUUCCG A UACAGAAA 2273 TTTCTGTA GGCTAGCTACAACGA CGGAAGGA 6785
3100 AAAAGAGG A CAGAUCAC 2274 GTGATCTG GGCTAGCTACAACGA CCTCTTTT 6786
3104 GAGGACAG A UCACCAUC 2275 GATGGTGA GGCTAGCTACAACGA CTGTCCTC 6787
3141 UGAGUAAA A CUUCAGUU 2276 AACTGAAG GGCTAGCTACAACGA TTTACTCA 6788
3154 AGUUGUUG A CCUCCUGU 2277 ACAGGAGG GGCTAGCTACAACGA CAACAACT 6789
3172 CUGGAGAG A CAUUAAGA 2278 TCTTAATG GGCTAGCTACAACGA CTCTCCAG 6790
3183 UUAAGAAG A CUGGAGUG 2279 CACTCCAG GGCTAGCTACAACGA CTTCTTAA 6791
3228 UUUCAUUG A CAGUAUUC 2280 GAATACTG GGCTAGCTACAACGA CAATGAAA 6792
3252 UGAGCGUA A CAGCCUAC 2281 GTAGGCTG GGCTAGCTACAACGA TACGCTCA 6793
3285 UCUCUGUG A CCAUCAGC 2282 GCTGATGG GGCTAGCTACAACGA CACAGAGA 6794
3300 GCUUUAGG A UAUACAAG 2283 CTTGTATA GGCTAGCTACAACGA CCTAAAGC 6795
3315 AGGGUGUG A UCCAAGCU 2284 AGCTTGGA GGCTAGCTACAACGA CACACCCT 6796
3332 AUCCAGAA A UCAGAUGA 2285 TCATCTGA GGCTAGCTACAACGA TTCTGGAT 6797
3337 GAAAUCAG A UGAAGGCC 2286 GGCCTTCA GGCTAGCTACAACGA CTGATTTC 6798
3368 UAUCUGGA A UCUGAAGU 2287 ACTTCAGA GGCTAGCTACAACGA TCCAGATA 6799
3412 GUACAGUA A UUCUGCUC 2288 GAGCAGAA GGCTAGCTACAACGA TACTGTAC 6800
3433 UCAUGUGA A CUGCACGA 2289 TCGTGCAG GGCTAGCTACAACGA TCACATGA 6801
3441 ACUGCACG A UAAAGGAA 2290 TTCCTTTA GGCTAGCTACAACGA CGTGCAGT 6802
3449 AUAAAGGA A CUCAGGCG 2291 CGCCTGAG GGCTAGCTACAACGA TCCTTTAT 6803
3472 CUUAGUUG A UGAUUUAG 2292 CTAAATCA GGCTAGCTACAACGA CAACTAAG 6804
3475 AGUUGAUG A UUUAGUUG 2293 CAACTAAA GGCTAGCTACAACGA CATCAACT 6805
3484 UUUAGUUG A UUCUCUGA 2294 TCAGAGAA GGCTAGCTACAACGA CAACTAAA 6806
3507 CAGUGUUG A UGUGGGUA 2295 TACCCACA GGCTAGCTACAACGA CAACACTG 6807
3541 CUUGUUUA A UGGUCUGA 2296 TCAGACCA GGCTAGCTACAACGA TAAACAAG 6808
3549 AUGGUCUG A CAGUACUG 2297 CAGTAGTG GGCTAGCTACAACGA CAGACCAT 6809
3558 CAGUACUG A UUUUGGCU 2298 AGCCAAAA GGCTAGCTACAACGA CAGTAGTG 6810
3602 AUUUAUGA A CGGCAUCA 2299 TGATGCCG GGCTAGCTACAACGA TCATAAAT 6811
3618 AGGCACAG A UAGAUCAU 2300 ATGATCTA GGCTAGCTACAACGA CTGTGCCT 6812
3622 ACAGAUAG A UCAUUAUC 2301 GATAATGA GGCTAGCTACAACGA CTATCTGT 6813
3635 UAUCUAGG A CUUGCAAA 2302 TTTGCAAG GGCTAGCTACAACGA CCTAGATA 6814
3643 ACUUGCAA A UAAGAAUG 2303 CATTCTTA GGCTAGCTACAACGA TTGCAAGT 6815
3649 AAAUAAGA A UGUUAAAG 2304 CTTTAACA GGCTAGCTACAACGA TCTTATTT 6816
3658 UGUUAAAG A UGCUAUGG 2305 CCATAGCA GGCTAGCTACAACGA CTTTAACA 6817
3672 UGGCUAAA A UCCAAGCA 2306 TGCTTGGA GGCTAGCTACAACGA TTTAGCCA 6818
3684 AAGGAAAA A UCCCUGGA 2307 TCCAGGGA GGCTAGCTACAACGA TTTTGCTT 6819
3692 AUCCCUGG A UUGAAGCG 2308 CGCTTCAA GGCTAGCTACAACGA CCAGGGAT 6820
3710 AAAGCUGA A UGAAAACG 2309 CGTTTTCA GGCTAGCTACAACGA TCAGCTTT 6821
3716 GAAUGAAA A CGCCCAAA 2310 TTTGGGCG GGCTAGCTACAACGA TTTCATTC 6822
3725 CGCCCAAA A UAAUUAGU 2311 ACTAATTA GGCTAGCTACAACGA TTTGGGCG 6823
3728 CCAAAAUA A UUAGUAGG 2312 CCTACTAA GGCTAGCTACAACGA TATTTTGG 6824
3755 UAAAGGGG A UAUUCAUU 2313 AATGAATA GGCTAGCTACAACGA CCCCTTTA 6825
3766 UUCAUUUG A UUAUACGG 2314 CCGTATAA GGCTAGCTACAACGA CAAATGAA 6826
3792 AGGGAAGA A CGAACCUU 2315 AAGGTTCG GGCTAGCTACAACGA TCTTCCCT 6827
3796 AAGAACGA A CCUUGACG 2316 CGTCAAGG GGCTAGCTACAACGA TCGTTCTT 6828
3802 GAACCUUG A CGUUGCAG 2317 CTGCAACG GGCTAGCTACAACGA CAAGGTTC 6829
3824 UUUCACAG A UCGUUGUU 2318 AACAACGA GGCTAGCTACAACGA CTGTGAAA 6830
3835 GUUGUUAG A UCUUUAUU 2319 AATAAAGA GGCTAGCTACAACGA CTAACAAC 6831
3871 GAGGAAAA A UUACCUGU 2320 ACAGGTAA GGCTAGCTACAACGA TTTTCCTC 6832
3884 CUGUCUUG A CUGCCAUG 2321 CATGGCAG GGCTAGCTACAACGA CAAGACAG 6833
3931 AUGUAUGG A UUUAAACC 2322 GGTTTAAA GGCTAGCTACAACGA CCATACAT 6834
3937 GGAUUUAA A CCGUAAUC 2323 GATTACGG GGCTAGCTACAACGA TTAAATCC 6835
3943 AAACCGUA A UCAUAUCU 2324 AGATATGA GGCTAGCTACAACGA TACGGTTT 6836
3977 CUGGUGGA A UAAAAAAC 2325 GTTTTTTA GGCTAGCTACAACGA TCCACCAG 6837
3984 AAUAAAAA A CCUGUAUA 2326 TATACAGG GGCTAGCTACAACGA TTTTTATT 6838
4009 UGUUGCAG A UAGUCUUG 2327 CAAGACTA GGCTAGCTACAACGA CTGCAACA 6839
4041 UUGCAGAG A UGGUGGAG 2328 CTCCACCA GGCTAGCTACAACGA CTCTGCAA 6840
Input Sequence = AB020693 . Cut Site = R/Y
Stem Length = 8 . Core Sequence = GGCTAGCTACAACGA
AB020693 (Homo sapiens mRNA for KIAA0886 protein (Nogo-A) ; 4053 bp)
Table VIII: Human NOGO Amberzyme and Substrate Sequence
Pos Substrate Seq ID Amberzyme Seq ID
66 CCACAACC G CCCGCGGC 1545 GCGGCGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGUUGUGG 6841
70 AACCGCCC G CGGCUCUG 1546 CAGAGCCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGCGGUU 6842
78 GCGGCUCU G AGACGCGG 1547 CCGCGUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAGGCGC 6843
83 UCUGAGAC G CGGCCCCG 1548 CGGGGCCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUCUCAGA 6844
110 CAGCAGCU G CAGCAUCA 1549 UGAUGCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCUGCUG 6845
191 CCCCGGCC G CAGCCCGC 1550 GCGGGCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGCCGGGG 6846
198 CGCAGCCC G CGUUCAAG 1551 CUUGAACG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGCUGCG 6847
218 CAGUUCGU G AGGGAGCC 1552 GGCUCCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACGAACUG 6848
228 GGGAGCCC G AGGACGAG 1553 CUCGUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGCUCCC 6849
234 CCGAGGAC G AGGAGGAA 1554 UUCCUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUCCUCGG 6850
267 AGGAGGAC G AGGACGAA 1555 UUCGUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUCCUCCU 6851
273 ACGAGGAC G AAGAGCUG 1556 CAGGUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUCCUCGU 6852
296 CUGGAGGU G CUGGAGAG 1557 CUCUCCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACCUCCAG 6853
312 GGAAGCCC G CCGCCGGG 1558 CCCGGCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGCUUCC 6854
315 AGCCCGCC G CCGGGCUG 1559 CAGCCCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGCGGGCU 6855
327 GGCUGUCC G CGGCCCCA 1560 UGGGGCCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGACAGCC 6856
338 GCCCCAGU G CCCACCGC 1561 GCGGUGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUGGGGC 6857
345 UGCCCACC G CCCCUGCC 1562 GGCAGGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGUGGGCA 6858
351 CCGCCCCU G CCGCCGGC 1563 GCCGGCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGGGCGG 6859
354 CCCCUGCC G CCGGCGCG 1564 CGCGCCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGCAGGGG 6860
360 CCGCCGGC G CGCCCCUG 1565 CAGGGGCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCCGGCGG 6861
362 GCCGGCGC G CCCCUGAU 1566 AUCAGGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCGCCGGC 6862
368 GCGCCCCU G AUGGACUU 1567 AAGUCCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGGGCGC 6863
384 UCGGAAAU G ACUUCGUG 1568 CACGAAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUUCCGA 6864
392 GACUUCGU G CCGCCGGC 1569 GCCGGCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACGAAGUC 6865
395 UUCGUGCC G CCGGCGGC 1570 GGCGCCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGCACGAA 6866
401 CCGCCGGC G CCCCGGGG 1571 CCCCGGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCCGGCGG 6867
416 GGACCCCU G CCGGCCGC 1572 GCGGCCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGGGUCC 6868
423 UGCCGGCC G CUCCCCCC 1573 GGGGGGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGCCGGCA 6869
435 CCCCCGUC G CCCCGGAG 1574 CUCCGGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GACGGGGG 6870
464 UGGGACCC G AGCCCGGU 1575 ACCGGGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGUCCCA 6871
479 GUGUCGUC G ACCGUGCC 1576 GGCACGGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GACGACAC 6872
485 UCGACCGU G CCCGCGCC 1577 GGCGCGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACGGUCGA 6873
489 CCGUGCCC G CGCCAUCC 1578 GGAUGGCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGCACGG 6874
491 GUGCCCGC G CCAUCCCC 1579 GGGGAUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCGGGCAC 6875
500 CCAUCCCC G CUGUCUGC 1580 GCAGACAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGGAUGG 6876
507 CGCUGUCU G CUGCCGCA 1581 UGCGGCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGACAGCG 6877
510 UGUCUGCU G CCGCAGUC 1582 GACUGCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCAGACA 6878
513 CUGCUGCC G CAGUCUCG 1583 CGAGACUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGCAGCAG 6879
521 GCAGUCUC G CCCUCCAA 1584 UUGGAGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAGACUGC 6880
537 AGCUCCCU G AGGACGAC 1585 GUCGUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGGAGCU 6881
543 CUGAGGAC G ACGAGCCU 1586 AGGCUCGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUCCUCAG 6882
546 AGGACGAC G AGCCUCCG 1587 CGGAGGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUCGUCCU 6883
587 GCCAGCGU G AGCCCCCA 1588 UGGGGGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACGCUGGC 6884
617 UGGACCCC G CCAGCCCC 1589 GGGGCUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGGUCCA 6885
633 CGGCUCCC G CCGCGCCC 1590 GGGCGCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGAGCCG 6886
636 CUCCCGCC G CGCCCCCC 1591 GGGGGGCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGCGGGAG 6887
638 CCCGCCGC G CCCCCCUC 1592 GAGGGGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCGGCGGG 6888
657 CCCCGGCC G CGCCCAAG 1593 CUUGGGCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGCCGGGG 6889
659 CCGGCCGC G CCCAAGCG 1594 CGCUUGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCGGCCGG 6890
661 GCCCAAGC G CAGGGGCU 1595 AGCCCCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCUUGGGC 6891
693 CAGUGGAU G AGACCCUU 1596 AAGGGUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCCACUG 6892
705 CCCUUUUU G CUCUUCCU 1597 AGGAAGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAAAGGG 6893
714 CUCUUCCU G CUGCAUCU 1598 AGAUGCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGAAGAG 6894
717 UUCCUGCU G CAUCUGAG 1599 CUCAGAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCAGGAA 6895
723 CUGCAUCU G AGCCUGUG 1600 CACAGGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAUGCAG 6896
731 GAGCCUGU G AUACGCUC 1601 GAGCGUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAGGCUC 6897
736 UGUGAUAC G CUCCUCUG 1602 CAGAGGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUAUCACA 6898
744 GCUCCUCU G CAGAAAAU 1603 AUUUUCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAGGAGC 6899
761 AUGGACUU G AAGGAGCA 1604 UGCUCCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGUCCAU 6900
818 UCUGUCCU G CUUGAAAC 1605 GUUUCAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGACAGA 6901
822 UCCUGCUU G AAACUGCU 1606 AGCAGUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGCAGGA 6902
828 UUGAAACU G CUGCUUCU 1607 AGAAGCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUUUCAA 6903
831 AAACUGCU G CUUCUCUU 1608 AAGAGAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCAGUUU 6904
864 UCUCAGCC G CUUCUUUC 1609 GAAAGAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGCUGAGA 6905
882 AAGAACAU G AAUACCUU 1610 AAGGUAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGUUCUU 6906
918 UACCCACU G AAGGAAGA 1611 UGUUCCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUGGGUA 6907
945 AUGUCAGU G AAGCUUCU 1612 AGAAGCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUGACAU 6908
1071 CAGAAUCU G CCGUAAUA 1613 UAUUACGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAUUCUG 6909
1109 AUAAUCGU G AAAAAUAA 1614 UUAUUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACGAUUAU 6910
1122 AUAAAGAU G AAGAAGAG 1615 CUCUUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCUUUAU 6911
1206 AAGAGGAU G AAGUUGUG 1616 CACAACUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCCUCUU 6912
1245 GUUUUAAU G AAAAGAGA 1617 UCUCUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUAAAAC 6913
1257 AGAGAGUU G CAGUGGAA 1618 UUCCACUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACUCUCU 6914
1274 GCUCCUAU G AGGGAGGA 1619 UCCUCCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAGGAGC 6915
1287 AGGAAUAU G CAGACUUC 1620 GAAGUCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAUUCCU 6916
1305 AACCAUUU G AGCGAGUA 1621 UACUCGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAUGGUU 6917
1309 AUUUGAGC G AGUAUGGG 1622 CCCAUACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCUCAAAU 6918
1322 UGGGAAGU G AAAGAUAG 1623 CUAUCUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUUCCCA 6919
1344 AAGAUAGU G AUAUGUUG 1624 CAACAUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUAUCUU 6920
1356 UGUUGGCU G CUGGAGGU 1625 ACCUCCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCCAACA 6921
1371 GUAAAAUC G AGAGCAAC 1626 GUUGCUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAUUUUAC 6922
1410 AAUGUUUU G CAGAUAGC 1627 GCUAUCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAACAUU 6923
1422 AUAGCCUU G AGCAAACU 1628 AGUUUGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGGCUAU 6924
1437 CUAAUCAC G AAAAAGAU 1629 AUCUUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUGAUUAG 6925
1449 AAGAUAGU G AGAGUAGU 1630 ACUACUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUAUCUU 6926
1461 GUAGUAAU G AUGAUACU 1631 AGUAUCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUACUAC 6927
1464 GUAAUGAU G AUACUUCU 1632 AGAAGUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCAUUAC 6928
1484 CCCAGUAC G CCAGAAGG 1633 CCUUCUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUACUGGG 6929
1527 UCACAUGU G CUCCCUUU 1634 AAAGGGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAUGUGA 6930
1551 CAGCAACU G AGAGCAUU 1635 AAUGCUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUUGCUG 6931
1560 AGAGCAUU G CAACAAAC 1636 GUUUGUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUGCUCU 6932
1611 AUAAGACC G AUGAAAAA 1637 UUUUUCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGUCUUAU 6933
1614 AGACCGAU G AAAAAAAA 1638 UUUUUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCGGUCU 6934
1710 AGGAUUCU G AGACAGAU 1639 AUCUGUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAAUCCU 6935
1748 ACAAAGGU G ACUGAGGA 1640 UCCUCAGU GGAGGAAACUCC Cϋ UCAAGGACAUCGUCCGGG ACCUUUGU 6936
1752 AGGUGACU G AGGAAGUC 1641 GACUUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUCACCU 6937
1772 GCAAACAU G CCUGAAGG 1642 CCUUCAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGUUUGC 6938
1776 ACAUGCCU G AAGGCCUG 1643 CAGGCCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGCAUGU 6939
1784 GAAGGCCU G ACUCCAGA 1644 UCUGGAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGCCUUC 6940
1812 AAGCAUGU G AAAGUGAA 1645 UUCACUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAUGCUU 6941
1818 GUGAAAGU G AAUUGAAU 1646 AUUCAAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUUUCAC 6942
1823 AGUGAAUU G AAUGAAGU 1647 ACUUCAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUUCACU 6943
1827 AAUUGAAU G AAGUUACU 1648 AGUAACUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUCAAUU 6944
1848 CAAAGAUU G CUUAUGAA 1649 UUCAUAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUCUUUG 6945
1854 UUGCUUAU G AAACAAAA 1650 UUUUGUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAAGCAA 6946
1892 GAAGUUAU G CAAGAGUC 1651 GACUCUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAACUUC 6947
1911 UCUAUCCU G CAGCACAG 1652 CUGUGCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGAUAGA 6948
1924 ACAGCUUU G CCCAUCAU 1653 AUGAUGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAGCUGU 6949
1935 CAUCAUUU G AAGAGUCA 1654 UGACUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAUGAUG 6950
1967 CCAGUUUU G CCUGACAU 1655 AUGUCAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAACUGG 6951
1971 UUUUGCCU G ACAUUGUU 1656 AACAAUGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGCAAAA 6952
1994 GCACCAUU G AAUUCUGC 1657 GCAGAAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUGGUGC 6953
2001 UGAAUUCU G CAGUUCCU 1658 AGGAACUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAAUUCA 6954
2013 UUCCUAGU G CUGGUGCU 1659 AGCACCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUAGGAA 6955
2019 GUGCUGGU G CUUCCGUG 1660 CACGGAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACCAGCAC 6956
2027 GCUUCCGU G AUACAGCC 1661 GGCUGUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACGGAAGC 6957
2073 UUAAUUAU G AAAGCAUA 1662 UAUGCUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAAUUAA 6958
2088 UAAAACAU G AGCCUGAA 1663 UUCAGGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGUUUUA 6959
2094 AUGAGCCU G AAAACCCC 1664 GGGGUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGCUCAU 6960
2112 CACCAUAU G AAGAGGCC 1665 GGCCUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAUGGUG 6961
2123 GAGGCCAU G AGUGUAUC 1666 GAUACACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGGCCUC 6962
2175 AAGAGCCU G AAAAUAUU 1667 AAUAUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGCUCUU 6963
2187 AUAUUAAU G CAGCUCUU 1668 AAGAGCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUAAUAU 6964
2226 UAUCUAUU G CAUGUGAU 1669 AUCACAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUAGAUA 6965
2232 UUGCAUGU G AUUUAAUU 1670 AAUUAAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAUGCAA 6966
2259 AGCUUUCU G CUGAACCA 1671 UGGUUCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAAAGCU 6967
2262 UUUCUGCU G AACCAGCU 1672 AGCUGGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCAGAAA 6968
2283 AUUUCUCU G AUUAUUCA 1673 UGAAUAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAGAAAU 6969
2307 CAAAAGUU G AACAGCCA 1674 UGGCUGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACUUUUG 6970
2318 CAGCCAGU G CCUGAUCA 1675 UGAUCAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUGGCUG 6971
2322 CAGUGCCU G AUCAUUCU 1676 AGAAUGAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGCACUG 6972
2331 AUCAUUCU G AGCUAGUU 1677 AACUAGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAAUGAU 6973
2340 AGCUAGUU G AAGAUUCC 1678 GGAAUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACUAGCU 6974
2355 CCUCACCU G AUUCUGAA 1679 UUCAGAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGUGAGG 6975
2361 CUGAUUCU G AACCAGUU 1680 AACUGGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAAUCAG 6976
2370 AACCAGUU G ACUUAUUU 1681 AAAUAAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACUGGUU 6977
2382 UAUUUAGU G AUGAUUCA 1682 UGAAUCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUAAAUA 6978
2385 UUAGUGAU G AUUCAAUA 1683 UAUUGAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCACUAA 6979
2397 CAAUACCU G ACGUUCCA 1684 UGGAACGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGUAUUG 6980
2418 AACAAGAU G AAACUGUG 1685 CACAGUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCUUGUU 6981
2426 GAAACUGU G AUGCUUGU 1686 ACAAGCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAGUUUC 6982
2429 ACUGUGAU G CUUGUGAA 1687 UUCACAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCACAGU 6983
2435 AUGCUUGU G AAAGAAAG 1688 CUUUCUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAAGCAU 6984
2451 GUCUCACU G AGACUUCA 1689 UGAAGUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUGAGAC 6985
2463 CUUCAUUU G AGUCAAUG 1690 CAUUGACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAUGAAG 6986
2471 GAGUCAAU G AUAGAAUA 1691 UAUUCUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUGACUC 6987
2481 UAGAAUAU G AAAAUAAG 1692 CUUAUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAUUCUA 6988
2502 AACUCAGU G CUUUGCCA 1693 UGGCAAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUGAGUU 6989
2507 AGUGCUUU G CCACCUGA 1694 UCAGGUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAGCACU 6990
2514 UGCCACCU G AGGGAGGA 1695 UCCUCCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGUGGCA 6991
2583 UGUUACCU G AUGAAGUU 1696 AACUUCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGUAACA 6992
2586 UACCUGAU G AAGUUUCA 1697 UGAAACUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCAGGUA 6993
2600 UCAACAUU G AGCAAAAA 1698 UUUUUGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUGUUGA 6994
2624 AUUCCUUU G CAGAUGGA 1699 UCCAUCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAGGAAU 6995
2646 UCAGUACU G CAGUUUAU 1700 AUAAACUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUACUGA 6996
2661 AUUCAAAU G AUGACUUA 1701 UAAGUCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUUGAAU 6997
2664 CAAAUGAU G ACUUAUUU 1702 AAAUAAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCAUUUG 6998
2703 GAGAAACU G AAACGUUU 1703 AAACGUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUUUCUC 6999
2730 CUCCAAUU G AAAUUAUA 1704 UAUAAUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUUGGAG 7000
2742 UUAUAGAU G AGUUCCCU 1705 AGGGAACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCUAUAA 7001
2756 CCUACAUU G AUCAGUUC 1706 GAACUGAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUGUAGG 7002
2772 CUAAAACU G AUUCAUUU 1707 AAAUGAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUUUUAG 7003
2805 AAUAUACU G ACCUAGAA 1708 UUCUAGGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUAUAUU 7004
2829 ACAAAAGU G AAAUUGCU 1709 AGCAAUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUUUUGU 7005
2835 GUGAAAUU G CUAAUGCC 1710 GGCAUUAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUUUCAC 7006
2841 UUGCUAAU G CCCCGGAU 1711 AUCCGGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUAGCAA 7007
2864 GGGUCAUU G CCUUGCAC 1712 GUGCAAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUGACCC 7008
2869 AUUGCCUU G CACAGAAU 1713 AUUCUGUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGGCAAU 7009
2879 ACAGAAUU G CCCCAUGA 1714 UCAUGGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUUCUGU 7010
2886 UGCCCCAU G ACCUUUCU 1715 AGAAAGGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGGGGCA 7011
2897 CUUUCUUU G AAGAACAU 1716 AUGUUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAGAAAG 7012
2919 CCAAAGUU G AAGAGAAA 1717 UUUCUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACUUUGG 7013
2943 UCUCAGAU G ACUUUUCU 1718 AGAAAAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCUGAGA 7014
2964 AUGGGUCU G CUACAUCA 1719 UGAUGUAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGACCCAU 7015
2978 UCAAAGGU G CUCUUAUU 1720 AAUAAGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACCUUUGA 7016
2987 CUCUUAUU G CCUCCAGA 1721 UCUGGAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUAAGAG 7017
3003 AUGUUUCU G CUUUGGCC 1722 GGCCAAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAAACAU 7018
3056 GUUCUUGU G AAAGAAGC 1723 GCUUCUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAAGAAC 7019
3066 AAGAAGCU G AGAAAAAA 1724 UUUUUUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCUUCUU 7020
3084 UUCCUUCC G AUACAGAA 1725 UUCUGUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGAAGGAA 7021
3114 CACCAUCU G CUAUAUUU 1726 AAAUAUAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAUGGUG 7022
3134 GCAGAGCU G AGUAAAAC 1727 GUUUUACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCUCUGC 7023
3153 CAGUUGUU G ACCUCCUG 1728 CAGGAGGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACAACUG 7024
3201 UGUUUGGU G CCAGCCUA 1729 UAGGCUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACCAAACA 7025
3215 CUAUUCCU G CUGCUUUC 1730 GAAAGCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGAAUAG 7026
3218 UUCCUGCU G CUUUCAUU 1731 AAUGAAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCAGGAA 7027
3227 CUUUCAUU G ACAGUAUU 1732 AAUACUGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUGAAAG 7028
3245 AGCAUUGU G AGCGUAAC 1733 GUUACGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAAUGCU 7029
3264 CCUACAUU G CCUUGGCC 1734 GGCCAAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUGUAGG 7030
3275 UUGGCCCU G CUCUCUGU 1735 ACAGAGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGGCCAA 7031
3284 CUCUCUGU G ACCAUCAG 1736 CUGAUGGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAGAGAG 7032
3314 AAGGGUGU G AUCCAAGC 1737 GCUUGGAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACACCCUU 7033
3339 AAUCAGAU G AAGGCCAC 1738 GUGGCCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCUGAUU 7034
3372 UGGAAUCU G AAGUUGCU 1739 AGCAACUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAUUCCA 7035
3378 CUGAAGUU G CUAUAUCU 1740 AGAUAUAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACUUCAG 7036
3387 CUAUAUCU G AGGAGUUG 1741 CAACUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAUAUAG 7037
3417 GUAAUUCU G CUCUUGGU 1742 ACCAAGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAAUUAC 7038
3431 GGUCAUGU G AACUGCAC 1743 GUGCAGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAUGACC 7039
3436 UGUGAACU G CACGAUAA 1744 UUAUCGUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUUCACA 7040
3440 AACUGCAC G AUAAAGGA 1745 UCCUUUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUGCAGUU 7041
3457 ACUCAGGC G CCUCUUCU 1746 AGAAGAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCCUGAGU 7042
3471 UCUUAGUU G AUGAUUUA 1747 UAAAUCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACUAAGA 7043
3474 UAGUUGAU G AUUUAGUU 1748 AACUAAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCAACUA 7044
3483 AUUUAGUU G AUUCUCUG 1749 CAGAGAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACUAAAU 7045
3491 GAUUCUCU G AAGUUUGC 1750 GCAAACUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAGAAUC 7046
3498 UGAAGUUU G CAGUGUUG 1751 CAACACUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAACUUCA 7047
3506 GCAGUGUU G AUGUGGGU 1752 ACCCACAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACACUGC 7048
3531 AUGUUGGU G CCUUGUUU 1753 AAACAAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACCAACAU 7049
3548 AAUGGUCU G ACACUACU 1754 AGUAGUGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGACCAUU 7050
3557 ACACUACU G AUUUUGGC 1755 GCCAAAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUAGUGU 7051
3600 UUAUUUAU G AACGGCAU 1756 AUGCCGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAAAUAA 7052
3639 UAGGACUU G CAAAUAAG 1757 CUUAUUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGUCCUA 7053
3660 UUAAAGAU G CUAUGGCU 1758 AGCCAUAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCUUUAA 7054
3695 CCUGGAUU G AAGCGCAA 1759 UUGCGCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUCCAGG 7055
3700 AUUGAAGC G CAAAGCUG 1760 CAGCUUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCUUCAAU 7056
3708 GCAAAGCU G AAUGAAAA 1761 UUUUCAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCUUUGC 7057
3712 AGCUGAAU G AAAACGCC 1762 GGCGUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUCAGCU 7058
3718 AUGAAAAC G CCCAAAAU 1763 AUUUUGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUUUUCAU 7059
3765 AUUCAUUU G AUUAUACG 1764 CGUAUAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAUGAAU 7060
3794 GGAAGAAC G AACCUUGA 1765 UCAAGGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUUCUUCC 7061
3801 CGAACCUU G ACGUUGCA 1766 UGCAACGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGGUUCG 7062
3807 UUGACGUU G CAGUGCAG 1767 CUGCACUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACGUCAA 7063
3812 GUUGCAGU G CAGUUUCA 1768 UGAAACUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUGCAAC 7064
3853 UUAGCCAU G CACUGUUG 1769 CAACAGUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGGCUAA 7065
3863 ACUGUUGU G AGGAAAAA 1770 UUUUUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAACAGU 7066
3883 CCUGUCUU G ACUGCCAU 1771 AUGGCAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGACAGG 7067
3887 UCUUGACU G CCAUGUGU 1772 ACACAUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUCAAGA 7068
3920 UGUAAGCU G CUAUGUAU 1773 AUACAUAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCUUACA 7069
3963 UCCUAUCU G AGGCACUG 1774 CAGUGCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAUAGGA 7070
4005 ACUUUGUU G CAGAUAGU 1775 ACUAUCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACAAAGU 7071
4017 AUAGUCUU G CCGCAUCU 1776 AGAUGCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGACUAU 7072
4020 GUCUUGCC G CAUCUUGG 1777 CCAAGAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGCAAGAC 7073
4035 GGCAAGUU G CAGAGAUG 1778 CAUCUCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACUUGCC 7074
12 CACAGUAG G UCCCUCGG 1779 CCGAGGGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUACUGUG 7075
20 GUCCCUCG G CUCAGUCG 1780 CGACUGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGAGGGAC 7076
25 UCGGCUCA G UCGGCCCA 1781 UGGGCCGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAGCCGA 7077
29 CUCAGUCG G CCCAGCCC 1782 GGGCUGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGACUGAG 7078
34 UCGGCCCA G CCCCUCUC 1783 GAGAGGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGGCCGA 7079
44 CCCUCUCA G UCCUCCCC 1784 GGGGAGGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAGAGGG 7080
73 CGCCCGCG G CUCUGAGA 1785 UCUCAGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGCGGGCG 7081
86 GAGACGCG G CCCCGGCG 1786 CGCCGGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGCGUCUC 7082
92 CGGCCCCG G CGGCGGCG 1787 CGCCGCCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGGGGCCG 7083
95 CCCCGGCG G CGGCGGCA 1788 UGCCGCCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGCCGGGG 7084
98 CGGCGGCG G CGGCAGCA 1789 UGCUGCCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGCCGCCG 7085
101 CGGCGGCG G CAGCAGCU 1790 AGCUGCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGCCGCCG 7086
104 CGGCGGCA G CAGCUGCA 1791 UGCAGCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCCGCCG 7087
107 CGGCAGCA G CUGCAGCA 1792 UGCUGCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCUGCCG 7088
113 CAGCUGCA G CAUCAUCU 1793 AGAUGAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCAGCUG 7089
132 ACCCUCCA G CCAUGGAA 1794 UUCCAUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGAGGGU 7090
152 CUGGACCA G UCUCCUCU 1795 AGAGGAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGUCCAG 7091
162 CUCCUCUG G UCUCGUCC 1796 GGACGAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGAGGAG 7092
167 CUGGUCUC G UCCUCGGA 1797 UCCGAGGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAGACCAG 7093
178 CUCGGACA G CCCACCCC 1798 GGGGUGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUCCGAG 7094
188 CCACCCCG G CCGCAGCC 1799 GGCUGCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGGGGUGG 7095
194 CGGCCGCA G CCCGCGUU 1800 AACGCGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGGGCCG 7096
200 CAGCCCGC G UUCAAGUA 1801 UACUUGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCGGGCUG 7097
206 GCGUUCAA G UACCAGUU 1802 AACUGGUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGAACGC 7098
212 AAGUACCA G UUCGUGAG 1803 CUCACGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGUACUU 7099
216 ACCAGUUC G UGAGGGAG 1804 CUCCCUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAACUGGU 7100
224 GUGAGGGA G CCCGAGGA 1805 UCCUCGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCCUCAC 7101
287 CUGGAGGA G CUGGAGGU 1806 ACCUCCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCUCCAG 7102
294 AGCUGGAG G UGCUGGAG 1807 CUCCAGCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCCAGCU 7103
308 GAGAGGAA G CCCGCCGC 1808 GCGGCGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCUCUC 7104
320 GCCGCCGG G CUGUCCGC 1809 GCGGACAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCGGCGGC 7105
323 GCCGGGGU G UCCGCGGC 1810 GCCGCGGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCCCGGC 7106
330 UGUCCGCG G CCCCAGUG 1811 CACUGGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGCGGACA 7107
336 CGGCCCCA G UGCCCACC 1812 GGUGGGCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGGGCCG 7108
358 UGCCGCCG G CGCGCCCC 1813 GGGGCGCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGGCGGCA 7109
390 AUGACUUC G UGCCGCCG 1814 CGGCGGCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAAGUCAU 7110
399 UGCCGCCG G CGCCCCGG 1815 CCGGGGCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGGCGGCA 7111
420 CCCUGCCG G CCGCUCCC 1816 GGGAGCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGGCAGGG 7112
432 CUCCCCCC G UCGCCCCG 1817 CGGGGCGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGGGGAG 7113
443 GCCCCGGA G CGGCAGCC 1818 GGCUGCCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCGGGGC 7114
446 CCGGAGCG G CAGCCGUC 1819 GACGGCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGCUCCGG 7115
449 GAGCGGCA G CCGUCUUG 1820 CAAGACGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCCGCUC 7116
452 CGGCAGCC G UCUUGGGA 1821 UCCCAAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGCUGCCG 7117
466 GGACCCGA G CCCGGUGU 1822 ACACCGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCGGGUCC 7118
471 CGAGCCCG G UGUCGUCG 1823 CGACGACA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGGGCUCG 7119
473 AGCCCGGU G UCGUCGAC 1824 GUCGACGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACCGGGCU 7120
476 CCGGUGUC G UCGACCGU 1825 ACGGUCGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GACACCGG 7121
483 CGUCGACC G UGCCCGCG 1826 CGCGGGCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGUCGACG 7122
503 UCCCCGCU G UCUGCUGC 1827 GCAGCAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCGGGGA 7123
516 CUGCCGCA G UCUCGCCC 1828 GGGCGAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCGGCAG 7124
530 CCCUCCAA G CUCCCUGA 1829 UCAGGGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGGAGGG 7125
548 GACGACGA G CCUCCGGC 1830 GCCGGAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCGUCGUC 7126
555 AGCCUCCG G CCCGGCCU 1831 AGGCCGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGGAGGCU 7127
560 CCGGCCCG G CCUCCCCC 1832 GGGGGAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGGGCCGG 7128
579 CUCCCCCG G CCAGCGUG 1833 CACGCUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGGGGAG 7129
583 CCCGGCCA G CGUGAGCC 1834 GGCUCACG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGCCGGG 7130
585 CGGCCAGC G UGAGCCCC 1835 GGGGCUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCUGGCCG 7131
589 CAGCGUGA G CCCCCAGG 1836 CCUGGGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCACGCUG 7132
597 GCCCCCAG G CAGAGCCC 1837 GGGCUCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGGGGGC 7133
602 CAGGCAGA G CCCGUGUG 1838 CACACGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUGCCUG 7134
606 CAGAGCCC G UGUGGACC 1839 GGUCCACA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGCUCUG 7135
608 GAGCCCGU G UGGACCCC 1840 GGGGUCCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACGGGCUC 7136
621 CCCCGCCA G CCCCGGCU 1841 AGCCGGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGCGGGG 7137
627 CAGCCCCG G CUCCCGCC 1842 GGCGGGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGGGGCUG 7138
654 CCACCCCG G CCGCGCCC 1843 GGGCGCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGGGGUGG 7139
665 GCGCCCAA G GGCAGGGG 1844 CCCCUGCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGGGCGC 7140
673 GCGCAGGG G CUCCUCGG 1845 CCGAGGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCCUGCGC 7141
682 CUCCUCGG G CUCAGUGG 1846 CCACUGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCGAGGAG 7142
687 CGGGCUCA G UGGAUGAG 1847 CUCAUCCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAGCCCG 7143
725 GCAUCUGA G CCUGUGAU 1848 AUCACAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAGAUGC 7144
729 CUGAGCCU G UGAUACGC 1849 GCGUAUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGCUCAG 7145
767 UUGAAGGA G CAGCCAGG 1850 CCUGGCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCUUCAA 7146
770 AAGGAGCA G CCAGGUAA 1851 UUACCUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCUCCUU 7147
775 GCAGCCAG G UAACACUA 1852 UAGUGUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGGCUGC 7148
789 CUAUUUCG G CUGGUCAA 1853 UUGACCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGAAAUAG 7149
793 UUCGGCUG G UCAAGAGG 1854 CCUCUUGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGCCGAA 7150
813 UCCCAUCU G UCCUGCUU 1855 AAGCAGGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAUGGGA 7151
848 CCUUCUCU G UCUCCUCU 1856 AGAGGAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAGAAGG 7152
861 CUCUCUCA G CCGCUUCU 1857 AGAAGCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAGAGAG 7153
892 AUACCUUG G UAAUUUGU 1858 ACAAAUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAAGGUAU 7154
899 GGUAAUUU G UCAACAGU 1859 ACUGUUGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAUUACC 7155
906 UGUCAACA G UAUUACCC 1860 GGGUAAUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUUGACA 7156
939 AAGAAAAU G UCAGUGAA 1861 UUCACUGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUUUCUU 7157
943 AAAUGUCA G UGAAGCUU 1862 AAGCUUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGACAUUU 7158
948 UCAGUGAA G CUUCUAAA 1863 UUUAGAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCACUGA 7159
960 CUAAAGAG G UCUCAGAG 1864 CUCUGAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCUUUAG 7160
972 CAGAGAAG G CAAAAACU 1865 AGUUUUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUCUCUG 7161
1007 UUAACAGA G UUUUCAGA 1866 UCUGAAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUGUUAA 7162
1043 GGAUCAUC G UUCAGUGU 1867 ACACUGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAUGAUCC 7163
1048 AUCGUUCA G UGUCUCUC 1868 GAGAGACA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAACGAU 7164
1050 CGUUCAGU G UCUCUCCA 1869 UGGAGAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUGAACG 7165
A G CAGAAUCU 1870 AGAUUCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUUGGAG 7166
:c G UAAUAGUA 1871 UACUAUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGCAGAUU 7167
ΓA G UAGCAAAU 1872 AUUUGCUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUUACGG 7168
ΓA G CAAAUCCU 1873 AGGAUUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UACUAUUA 7169 re G UGAAAAAU 1874 AUUUUUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAUUAUUU 7170
A G UUAGUUAG 1875 CUAACUAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUCUUC 7171
A G UUAGUAAU 1876 AUUACUAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAACUUCU 7172
ΓA G UAAUAACA 1877 UGUUAUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAACUAAC 7173
!A G UUACCUAC 1878 GUAGGUAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUUGUUG 7174
:A G CUCUUACU 1879 AGUAAGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUAGGUA 7175
ΓG G UUAAAGAG 1880 CUCUUUAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAAUUUAG 7176
A G UUGUGUCU 1881 AGACACAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAUCCU 7177
U G UGUCUUCA 1882 UGAAGACA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACUUCAU 7178
IU G UCUUCAGA 1883 UCUGAAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAACUUC 7179
A G CAAAAGAC 1884 GUCUUUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUUUCUG 7180
A G UUUUAAUG 1885 CAUUAAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUCUUUU 7181
!A G UUGCAGUG 1886 CACUGCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUCUUUU 7182
:A G UGGAAGCU 1887 AGCUUCCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCAACUC 7183
A G CUCCUAUG 1888 CAUAGGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCACUG 7184 iA G CGAGUAUG 1889 CAUACUCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAAAUGG 7185
IA G UAUGGGAA 1890 UUCCCAUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCGCUCAA 7186
A G UGAAAGAU 1891 AUCUUUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCCAUA 7187
A G UAAGGAAG 1892 CUUCCUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUCUUUC 7188
A G UGAUAUGU 1893 ACAUAUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUCUUCC 7189
U G UUGGCUGC 1894 GCAGCCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAUCACU 7190
G G CUGCUGGA 1895 UCCAGCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAACAUAU 7191
G G UAAAAUCG 1896 CGAUUUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCCAGCA 7192
A G CAACUUGG 1897 CCAAGUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUCGAUU 7193
A G UAAAGUGG 1898 CCACUUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUCCAAG 7194
A G UGGAUAAA 1899 UUUAUCCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUACUUU 7195
U G UUUUGCAG 1900 CUGCAAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUUUUUA 7196
A G CCUUGAGC 1901 GCUCAAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUCUGCA 7197
A G CAAACUAA 1902 UUAGUUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAAGGCU 7198
A G UGAGAGUA 1903 UACUCUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUCUUUU , 7199
A G UAGUAAUG 1904 CAUUACUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUCACUA '7200
A G UAAUGAUG 1905 CAUCAUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UACUCUCA 7201
A G UACGCCAG 1906 CUGGCGUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGGGAAA 7202
G G UAUAAAGG 1907 CCUUUAUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUCUGGC 7203
C G UUCAGGAG 1908 CUCCUGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAUCCUUU 7204
A G CAUAUAUC 1909 GAUAUAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCUGAAC 7205
U G UGCUCCCU 1910 AGGGAGCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGUGAUA 7206
1542 UUAACCCA G CAGCAACU 1911 AGUUGCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGGUUAA 7207
1545 ACCCAGCA G CAACUGAG 1912 CUCAGUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCUGGGU 7208
1555 AACUGAGA G CAUUGCAA 1913 UUGCAAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUCAGUU 7209
1580 UUUCCUUU G UUAGGAGA 1914 UCUCCUAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAGGAAA 7210
1638 AAAAGAAG G CCCAAAUA 1915 UAUUUGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUCUUUU 7211
1647 CCCAAAUA G UAACAGAG 1916 CUCUGUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUUUGGG 7212
1666 GAAUACUA G CACCAAAA 1917 UUUUGGUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAGUAUUC 7213
1692 CUUUUCUU G UAGCAGCA 1918 UGCUGCUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGAAAAG 7214
1695 UUCUUGUA G CAGCACAG 1919 CUGUGCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UACAAGAA 7215
1698 UUGUAGCA G CACAGGAU 1920 AUCCUGUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCUACAA 7216
1722 CAGAUUAU G UCACAACA 1921 UGUUGUGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAAUCUG 7217
1746 UAACAAAG G UGACUGAG 1922 CUCAGUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUUGUUA 7218
1758 CUGAGGAA G UCGUGGCA 1923 UGCCACGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCUCAG 7219
1761 AGGAAGUC G UGGCAAAC 1924 GUUUGCCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GACUUCCU 7220
1764 AAGUCGUG G CAAACAUG 1925 CAUGUUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CACGACUU 7221
1780 GCCUGAAG G CCUGACUC 1926 GAGUCAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUCAGGC 7222
1797 CAGAUUUA G UACAGGAA 1927 UUCCUGUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAAAUCUG 7223
1806 UACAGGAA G CAUGUGAA 1928 UUCACAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCUGUA 7224
1810 GGAAGCAU G UGAAAGUG 1929 CACUUUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGCUUCC 7225
1816 AUGUGAAA G UGAAUUGA 1930 UCAAUUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUCACAU 7226
1830 UGAAUGAA G UUACUGGU 1931 ACCAGUAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAUUCA 7227
1837 AGUUACUG G UACAAAGA 1932 UCUUUGUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGUAACU 7228
1872 UGGACUUG G UUCAAACA 1933 UGUUUGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAAGUCCA 7229
1887 CAUCAGAA G UUAUGCAA 1934 UUGCAUAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUGAUG 7230
1898 AUGCAAGA G UCACUCUA 1935 UAGAGUGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUUGCAU 7231
1914 AUCCUGCA G CACAGCUU 1936 AAGCUGUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCAGGAU 7232
1919 GCAGCACA G CUUUGCCC 1937 GGGCAAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUGCUGC 7233
1940 UUUGAAGA G UCAGAAGC 1938 GCUUCUGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUUCAAA 7234
1947 AGUCAGAA G CUACUCCU 1939 AGGAGUAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUGACU 7235
1962 CUUCACCA G UUUUGCCU 1940 AGGCAAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGUGAAG 7236
1977 CUGACAUU G UUAUGGAA 1941 UUCCAUAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUGUCAG 7237
1986 UUAUGGAA G CACCAUUG 1942 CAAUGGUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCAUAA 7238
2004 AUUCUGCA G UUCCUAGU 1943 ACUAGGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCAGAAU 7239
2011 AGUUCCUA G UGCUGGUG 1944 CACCAGCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAGGAACU 7240
2017 UAGUGCUG G UGCUUCCG 1945 CGGAAGCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGCACUA 7241
2025 GUGCUUCC G UGAUACAG 1946 CUGUAUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGAAGCAC 7242
2033 GUGAUACA G CCCAGCUC 1947 GAGCUGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUAUCAC 7243
2038 ACAGCCCA G CUCAUCAC 1948 GUGAUGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGGCUGU 7244
2055 CAUUAGAA G CUUCUUCA 1949 UGAAGAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUAAUG 7245
2064 CUUCUUCA G UUAAUUAU 1950 AUAAUUAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAAGAAG 7246
2077 UUAUGAAA G CAUAAAAC 1951 GUUUUAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUCAUAA 7247
2090 AAACAUGA G CCUGAAAA 1952 UUUUCAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAUGUUU 7248
2118 AUGAAGAG G CCAUGAGU 1953 ACUCAUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCUUCAU 7249
2125 GGCCAUGA G UGUAUCAC 1954 GUGAUACA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAUGGCC 7250
2127 CCAUGAGU G UAUCACUA 1955 UAGUGAUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUCAUGG 7251
2142 UAAAAAAA G UAUCAGGA 1956 UCCUGAUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUUUUUA 7252
2171 AUUAAAGA G CCUGAAAA 1957 UUUUCAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUUUAAU 7253
2190 UUAAUGCA G CUCUUCAA 1958 UUGAAGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCAUUAA 7254
2208 AAACAGAA G CUCCUUAU 1959 AUAAGGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUGUUU 7255
2230 UAUUGCAU G UGAUUUAA 1960 UUAAAUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGCAAUA 7256
2252 GAAACAAA G CUUUCUGC 1961 GCAGAAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUGUUUC 7257
2268 CUGAACCA G CUCCGGAU 1962 AUCCGGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGUUCAG 7258
2298 CAGAAAUG G CAAAAGUU 1963 AACUUUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUUUCUG 7259
2304 UGGCAAAA G UUGAACAG 1964 CUGUUCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUUGCCA 7260
2312 GUUGAACA G CCAGUGCC 1965 GGCACUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUUCAAC 7261
2316 AACAGCCA G UGCCUGAU 1966 AUCAGGCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGCUGUU 7262
2333 CAUUCUGA G CUAGUUGA 1967 UCAACUAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAGAAUG 7263
2337 CUGAGCUA G UUGAAGAU 1968 AUCUUCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAGCUCAG 7264
2367 CUGAACCA G UUGACUUA 1969 UAAGUCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGUUCAG 7265
2380 CUUAUUUA G UGAUGAUU 1970 AAUCAUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAAAUAAG 7266
2400 UACCUGAC G UUCCACAA 1971 UUGUGGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUCAGGUA 7267
2424 AUGAAACU G UGAUGCUU 1972 AAGCAUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUUUCAU 7268
2433 UGAUGCUU G UGAAAGAA 1973 UUCUUUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGCAUCA 7269
2443 GAAAGAAA G UCUCACUG 1974 CAGUGAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUCUUUC 7270
2465 UCAUUUGA G UCAAUGAU 1975 AUCAUUGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAAAUGA 7271
2500 AAAACUCA G UGCUUUGC 1976 GCAAAGCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAGUUUU 7272
2525 GGAGGAAA G CCAUAUUU 1977 AAAUAUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUCCUCC 7273
2546 UCUUUUAA G CUCAGUUU 1978 AAACUGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUAAAAGA 7274
2551 UAAGCUCA G UUUAGAUA 1979 UAUCUAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAGCUUA 7275
2576 GAUACCCU G UUACCUGA 1980 UCAGGUAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGGUAUC 7276
2589 CUGAUGAA G UUUCAACA 1981 UGUUGAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAUCAG 7277
2602 AACAUUGA G CAAAAAGG 1982 CCUUUUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAAUGUU 7278
2636 AUGGAGGA G CUCAGUAC 1983 GUACUGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCUCCAU 7279
2641 GGAGCUCA G UACUGCAG 1984 CUGCAGUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAGCUCC 7280
2649 GUACUGCA G UUUAUUCA 1985 UGAAUAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCAGUAC 7281
2685 CUAAGGAA G CACAGAUA 1986 UAUCUGUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCUUAG 7282
2708 ACUGAAAC G UUUUCAGA 1987 UCUGAAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUUUCAGU 7283
2744 AUAGAUGA G UUCCCUAC 1988 GUAGGGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAUCUAU 7284
2761 AUUGAUCA G UUCUAAAA 1989 UUUUAGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAUCAAU 7285
2790 CUAAAUUA G CCAGGGAA 1990 UUCCCUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAAUUUAG 7286
2814 ACCUAGAA G UAUCCCAC 1991 GUGGGAUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUAGGU 7287
2827 CCACAAAA G UGAAAUUG 1992 CAAUUUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUUGUGG 7288
2853 CGGAUGGA G CUGGGUCA 1993 UGACCCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCAUCCG 7289
2858 GGAGCUGG G UCAUUGCC 1994 GGCAAUGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCAGCUCC 7290
2916 AACCCAAA G UUGAAGAG 1995 CUCUUCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUGGGUU 7291
2932 GAAAAUCA G UUUCUCAG 1996 CUGAGAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAUUUUC 7292
2960 AAAAAUGG G UCUGCUAC 1997 GUAGCAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCAUUUUU 7293
2976 CAUCAAAG G UGCUCUUA 1998 UAAGAGCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUUGAUG 7294
2997 CUCCAGAU G UUUCUGCU 1999 AGCAGAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCUGGAG 7295
3009 CUGCUUUG G CCACUCAA 2000 UUGAGUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAAAGCAG 7296
3018 CCACUCAA G CAGAGAUA 2001 UAUCUCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGAGUGG 7297
3031 GAUAGAGA G CAUAGUUA 2002 UAACUAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUCUAUC 7298
3036 AGAGCAUA G UUAAACCC 2003 GGGUUUAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUGCUCU 7299
3048 AACCCAAA G UUCUUGUG 2004 CACAAGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUGGGUU 7300
3054 AAGUUCUU G UGAAAGAA 2005 UUCUUUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGAACUU 7301
3063 UGAAAGAA G CUGAGAAA 2006 UUUCUCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUUUCA 7302
3126 UAUUUUCA G CAGAGCUG 2007 CAGCUCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAAAAUA 7303
3131 UCAGCAGA G CUGAGUAA 2008 UUACUCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUGCUGA 7304
3136 AGAGCUGA G UAAAACUU 2009 AAGUUUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAGCUCU 7305
3147 AAACUUCA G UUGUUGAC 2010 GUCAACAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAAGUUU 7306
3150 CUUCAGUU G UUGACCUC 2011 GAGGUCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACUGAAG 7307
3161 GACCUCCU G UACUGGAG 2012 CUCCAGUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGAGGUC 7308
3189 AGACUGGA G UGGUGUUU 2013 AAACACCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCAGUCU 7309
3192 CUGGAGUG G UGUUUGGU 2014 ACCAAACA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CACUCCAG 7310
3194 GGAGUGGU G UUUGGUGC 2015 GCACCAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACCACUCC 7311
3199 GGUGUUUG G UGCCAGCC 2016 GGCUGGCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAAACACC 7312
3205 UGGUGCCA G CCUAUUCC 2017 GGAAUAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGCACCA 7313
3231 CAUUGACA G UAUUCAGC 2018 GCUGAAUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUCAAUG 7314
3238 AGUAUUCA G CAUUGUGA 2019 UCACAAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAAUACU 7315
3243 UCAGCAUU G UGAGCGUA 2020 UACGCUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUGCUGA 7316
3247 CAUUGUGA G CGUAACAG 2021 CUGUUACG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCACAAUG 7317
3249 UUGUGAGC G UAACAGCC 2022 GGCUGUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCUCACAA 7318
3255 GCGUAACA G CCUACAUU 2023 AAUGUAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUUACGC 7319
3270 UUGCCUUG G CCCUGCUC 2024 GAGCAGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAAGGCAA 7320
3282 UGCUCUCU G UGACCAUC 2025 GAUGGUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAGAGCA 7321
3292 GACCAUCA G CUUUAGGA 2026 UCCUAAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAUGGUC 7322
3310 AUACAAGG G UGUGAUCC 2027 GGAUCACA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUUGUAU 7323
3312 ACAAGGGU G UGAUCCAA 2028 UUGGAUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACCCUUGU 7324
3321 UGAUCCAA G CUAUCCAG 2029 CUGGAUAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGGAUCA 7325
3343 AGAUGAAG G CCACCCAU 2030 AUGGGUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUCAUCU 7326
3357 CAUUCAGG G CAUAUCUG 2031 CAGAUAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUGAAUG 7327
3375 AAUCUGAA G UUGCUAUA 2032 UAUAGCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAGAUU 7328
3392 UCUGAGGA G UUGGUUCA 2033 UGAACCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCUCAGA 7329
3396 AGGAGUUG G UUCAGAAG 2034 CUUCUGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAACUCCU 7330
3404 GUUCAGAA G UACAGUAA 2035 UUACUGUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUGAAC 7331
3409 GAAGUACA G UAAUUCUG 2036 CAGAAUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUACUUC 7332
3424 UGCUCUUG G UCAUGUGA 2037 UCACAUGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAAGAGCA 7333
3429 UUGGUCAU G UGAACUGC 2038 GCAGUUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGACCAA 7334
3455 GAACUCAG G CGCCUCUU 2039 AAGAGGCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGAGUUC 7335
3468 UCUUCUUA G UUGAUGAU 2040 AUCAUCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAAGAAGA 7336
3480 AUGAUUUA G UUGAUUCU 2041 AGAAUCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAAAUCAU 7337
3494 UCUCUGAA G UUUGCAGU 2042 ACUGCAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAGAGA 7338
3501 AGUUUGCA G UGUUGAUG 2043 CAUCAACA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCAAACU 7339
3503 UUUGCAGU G UUGAUGUG 2044 CACAUCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUGCAAA 7340
3509 GUGUUGAU G UGGGUAUU 2045 AAUACCCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCAACAC 7341
3513 UGAUGUGG G UAUUUACC 2046 GGUAAAUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCACAUCA 7342
3525 UUACCUAU G UUGGUGCC 2047 GGCACCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAGGUAA 7343
3529 CUAUGUUG G UGCCUUGU 2048 ACAAGGCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAACAUAG 7344
3536 GGUGCCUU G UUUAAUGG 2049 CCAUUAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGGCACC 7345
3544 GUUUAAUG G UCUGACAC 2050 GUGUCAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUUAAAC 7346
3564 UGAUUUUG G CUCUGAUU 2051 AAUGAGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAAAAUCA 7347
3583 ACUCUUCA G UGUUCCUG 2052 CAGGAACA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAAGAGU 7348
3585 UCUUCAGU G UUCCUGUU 2053 AACAGGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUGAAGA 7349
3591 GUGUUCCU G UUAUUUAU 2054 AUAAAUAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGAACAC 7350
3605 UAUGAACG G CAUCAGGC 2055 GCCUGAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGUUCAUA 7351
3612 GGCAUCAG G CACAGAUA 2056 UAUCUGUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGAUGCC 7352
3651 AUAAGAAU G UUAAAGAU 2057 AUCUUUAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUCUUAU 7353
3666 AUGCUAUG G CUAAAAUC 2058 GAUUUUAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUAGCAU 7354
3678 AAAUCCAA G CAAAAAUC 2059 GAUUUUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGGAUUU 7355
3698 GGAUUGAA G CGCAAAGC 2060 GCUUUGCG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAAUCC 7356
3705 AGCGCAAA G CUGAAUGA 2061 UCAUUCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUGCGCU 7357
3732 AAUAAUUA G UAGGAGUU 2062 AACUCCUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAAUUAUU 7358
3738 UAGUAGGA G UUCAUCUU 2063 AAGAUGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCUACUA 7359
3781 GGGGGAGG G UCAGGGAA 2064 UUCCCUGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUCCCCC 7360
3804 ACCUUGAC G UUGCAGUG 2065 CACUGCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUCAAGGU 7361
3810 ACGUUGCA G UGCAGUUU 2066 AAACUGCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCAACGU 7362
3815 GCAGUGCA G UUUCACAG 2067 CUGUGAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCACUGC 7363
3827 CACAGAUC G UUGUUAGA 2068 UCUAACAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAUCUGUG 7364
3830 AGAUCGUU G UUAGAUCU 2069 AGAUCUAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACGAUCU 7365
3848 UAUUUUUA G CCAUGCAC 2070 GUGCAUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAAAAAUA 7366
3858 CAUGCACU G UUGUGAGG 2071 CCUCACAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUGCAUG 7367
3861 GCACUGUU G UGAGGAAA 2072 UUUCCUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACAGUGC 7368
3878 AAUUACCU G UCUUGACU 2073 AGUCAAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGUAAUU 7369
3892 ACUGCCAU G UGUUCAUC 2074 GAUGAACA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGGCAGU 7370
3894 UGCCAUGU G UUCAUCAU 2075 AUGAUGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAUGGCA 7371
3908 CAUCUUAA G UAUUGUAA 2076 UUACAAUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUAAGAUG 7372
3913 UAAGUAUU G UAAGCUGC 2077 GCAGCUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUACUUA 7373
3917 UAUUGUAA G CUGCUAUG 2078 CAUAGCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUACAAUA 7374
3925 GCUGCUAU G UAUGGAUU 2079 AAUCCAUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAGCAGC 7375
3940 UUUAAACC G UAAUCAUA 2080 UAUGAUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGUUUAAA 7376
3966 UAUCUGAG G CACUGGUG 2081 CACCAGUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCAGAUA 7377
3972 AGGCACUG G UGGAAUAA 2082 UUAUUCCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGUGCCU 7378
3988 AAAAACCU G UAUAUUUU 2083 AAAAUAUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGUUUUU 7379
4002 UUUACUUU G UUGCAGAU 2084 AUCUGCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAGUAAA 7380
4012 UGCAGAUA G UCUUGCCG 2085 CGGCAAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUCUGCA 7381
4028 GCAUCUUG G CAAGUUGC 2086 GCAACUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAAGAUGC 7382
4032 CUUGGCAA G UUGCAGAG 2087 CUCUGCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGCCAAG 7383
4044 CAGAGAUG G UGGAGCUA 2088 UAGCUCCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUCUCUG 7384
11 CCACAGUA G GUCCCUCG 2329 CGAGGGAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UACUGUGG 7385
19 GGUCCCUC G GCUCAGUC 2330 GACUGAGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAGGGACC 7386
28 GCUCAGUC G GCCCAGCC 2331 GGCUGGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GACUGAGC 7387
72 CCGCCCGC G GCUCUGAG 2332 CUCAGAGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCGGGCGG 7388
80 GGCUCUGA G ACGCGGCC 2333 GGCCGCGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAGAGCC 7389
85 UGAGACGC G GCCCCGGC 2334 GCCGGGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCGUCUCA 7390
91 GCGGCCCC G GCGGCGGC 2335 GCCGCCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGGCCGC 7391
94 GCGCCGGC G GCGGCGGC 2336 GCCGCCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCCGGGGC 7392
97 CCGGCGGC G GCGGCAGC 2337 GCUGCCGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCCGCCGG 7393
100 GCGGCGGC G GCAGCAGC 2338 GCUGCUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCCGCCGG 7394
137 CCAGCCAU G GAAGACCU 2339 AGGUCUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGGCUGG 7395
138 CAGCCAUG G AAGACCUG 2340 CAGGUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUGGCUG 7396
141 CCAUGGAA G ACCUGGAC 2341 GUCCAGGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCAUGG 7397
146 GAAGACCU G GACCAGUC 2342 GACUGGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGUCUUC 7398
147 AAGACCUG G ACCAGUCU 2343 AGACUGGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGGUCUU 7399
161 UCUCCUCU G GUCUCGUC 2344 GACGAGAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAGGAGA 7400
173 UCGUCCUC G GACAGCCC 2345 GGGCUGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAGGACGA 7401
174 CGUCCUCG G ACAGCCCA 2346 UGGGCUGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGAGGACG 7402
187 CCCACCCC G GCCGCAGC 2347 GCUGCGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGGUGGG 7403
220 GUUCGUGA G GGAGCCCG 2348 CGGGCUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCACGAAC 7404
221 UUCGUGAG G GAGCCCGA 2349 UCGGGCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCACGAA 7405
222 UCGUGAGG G AGCCCGAG 2350 CUCGGGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUCACGA 7406
230 GAGCCCGA G GACGAGGA 2351 UCCUCGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCGGGCUC 7407
231 AGCCCGAG G ACGAGGAG 2352 CUCCUCGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCGGGCU 7408
236 GAGGACGA G GAGGAAGA 2353 UCUUCCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCGUCCUC 7409
237 AGGACGAG G AGGAAGAA 2354 uucuuccu GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUCGUCCU 7410
239 GACGAGGA G GAAGAAGA 2355 ucuucuuc GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCUCGUC 7411
240 ACGAGGAG G AAGAAGAG 2356 CUCUUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUCCUCGU 7412
243 AGGAGGAA G AAGAGGAG 2357 CUCCUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCUCCU 7413
246 AGGAAGAA G AGGAGGAG 2358 CUCCUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUUCCU 7414
248 GAAGAAGA G GAGGAGGA 2359 uccuccuc GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ucuucuuc 7415
249 AAGAAGAG G AGGAGGAA 2360 uuccuccu GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCUUCUU 7416
251 GAAGAGGA G GAGGAAGA 2361 ucuuccuc GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG uccucuuc 7417
252 AAGAGGAG G AGGAAGAG 2362 cucuuccu GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG cuccucuu 7418
254 GAGGAGGA G GAAGAGGA 2363 uccucuuc GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG uccuccuc 7419
255 AGGAGGAG G AAGAGGAG 2364 CUCCUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCCUCCU 7420
258 AGGAGGAA G AGGAGGAC 2365 GUCCUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCUCCU 7421
260 GAGGAAGA G GAGGACGA 2366 UCGUCCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ucuuccuc 7422
261 AGGAAGAG G AGGACGAG 2367 CUCGUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCUUCCU 7423
263 GAAGAGGA G GACGAGGA 2368 UCCUCGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUCUUC 7424
264 AAGAGGAG G ACGAGGAC 2369 GUCCUCGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCCUCUU 7425
269 GAGGACGA G GACGAAGA 2370 UCUUCGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCGUCCUC 7426
270 AGGACGAG G ACGAAGAC 2371 GUCUUCGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCGUCCU 7427
276 AGGACGAA G ACCUGGAG 2372 CUCCAGGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCGUCCU 7428
281 GAAGACCU G GAGGAGCU 2373 AGCUCCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGUCUUC 7429
282 AAGACCUG G AGGAGCUG 2374 CAGCUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGGUCUU 7430
284 GACCUGGA G GAGCUGGA 2375 UCCAGCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCAGGUC 7431
285 ACCUGGAG G AGCUGGAG 2376 CUCCAGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCCAGGU 7432
290 GAGGAGCU G GAGGUGCU 2377 AGCACCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCUCCUC 7433
291 AGGAGCUG G AGGUGCUG 2378 CAGCAGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGCUCCU 7434
293 GAGCUGGA G GUGCUGGA 2379 UCCAGCAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCAGCUC 7435
299 GAGGUGCU G GAGAGGAA 2380 UUCCUCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCACCUC 7436
300 AGGUGCUG G AGAGGAAG 2381 CUUCCUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGCACCU 7437
302 GUGCUGGA G AGGAAGCC 2382 GGCUUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCAGCAC 7438
304 GCUGGAGA G GAAGCCCG 2383 CGGGCUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUCCAGC 7439
305 CUGGAGAG G AAGCCCGC 2384 GCGGGCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCUCCAG 7440
318 CCGCCGCC G GGCUGUCC 2385 GGACAGCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGCGGCGG 7441
319 CGCCGCCG G GCUGUCCG 2386 CGGACAGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGGCGGCG 7442
329 CUGUCCGC G GCCCCAGU 2387 ACUGGGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCGGACAG 7443
357 CUGCCGGC G GCGCGCCC 2388 GGGCGCGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGCGGCAG 7444
371 CCCCUGAU G GACUUCGG 2389 CCGAAGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCAGGGG 7445
372 CCCUGAUG G ACUUCGGA 2390 UCCGAAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUCAGGG 7446
378 UGGACUUC G GAAAUGAC 2391 GUCAUUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAAGUCCA 7447
379 GGACUUCG G AAAUGACU 2392 AGUCAUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGAAGUCC 7448
398 GUGCCGCC G GCGCCCCG 2393 CGGGGCGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGCGGCAC 7449
406 GGCGCCCC G GGGACCCC 2394 GGGGUCCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGGCGCG 7450
407 GCGCCCCG G GGACCCCU 2395 AGGGGUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGGGGCGC 7451
408 CGCCCCGG G GACCCCUG 2396 CAGGGGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCGGGGCG 7452
409 GCCCCGGG G ACCCCUGC 2397 GCAGGGGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCCGGGGC 7453
419 CCCCUGCC G GCCGCUCC 2398 GGAGCGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGCAGGGG 7454
440 GUCGGCCC G GAGCGGCA 2399 UGCCGCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGGCGAC 7455
441 UCGCCCCG G AGCGGCAG 2400 CUGCCGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGGGGCGA 7456
445 CCCGGAGC G GCAGCCGU 2401 ACGGCUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GCUCCGGG 7457
457 GCCGUCUU G GGACCCGA 2402 UCGGGUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGACGGC 7458
458 CCGUCUUG G GACCCGAG 2403 CUCGGGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAAGACGG 7459
459 CGUCUUGG G ACCCGAGC 2404 GCUCGGGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCAAGACG 7460
470 CCGAGCCC G GUGUCGUC 2405 GACGACAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGCUCGG 7461
539 CUCCCUGA G GACGAGGA 2406 UCGUCGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAGGGAG 7462
540 UCCCUGAG G AGGACGAG 2407 CUCGUCGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCAGGGA 7463
554 GAGCCUCC G GCCCGGCC 2408 GGCCGGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGAGGCUC 7464
559 UCCGGCCC G GCCUCCCC 2409 GGGGAGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGCCGGA 7465
578 CCUCCCCC G GCCAGCGU 2410 ACGCUGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGGGAGG 7466
596 AGCCCCCA G GCAGAGCC 2411 GGCUCUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGGGGCU 7467
600 CCCAGGCA G AGCCCGUG 2412 CACGGGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCCUGGG 7468
610 GCCCGUGU G GACCCCGC 2413 GCGGGGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACACGGGC 7469
611 CCCGUGUG G ACCCCGCC 2414 GGCGGGGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CACACGGG 7470
626 CCAGCCCC G GCUCCCGC 2415 GCGGGAGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGGCUGG 7471
653 UCCACCCC G GCCGCGCC 2416 GGCGCGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGGUGGA 7472
670 CAAGCGCA G GGGCUCCU 2417 AGGAGCCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCGCUUG 7473
671 AAGCGCAG G GGCUCCUC 2418 GAGGAGCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGCGCUU 7474
672 AGCGCAGG G GCUCCUCG 2419 CGAGGAGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUGCGCU 7475
680 GGCUCCUC G GGCUCAGU 2420 ACUGAGCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAGGAGCC 7476
681 GCUCCUCG G GCUCAGUG 2421 CACUGAGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGAGGAGC 7477
689 GGCUCAGU G GAUGAGAC 2422 GUCUCAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUGAGCC 7478
690 GCUCAGUG G AUGAGACC 2423 GGUCUCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CACUGAGC 7479
695 GUGGAUGA G ACCCUUUU 2424 AAAAGGGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAUCCAC 7480
747 CCUCUGCA G AAAAUAUG 2425 CAUAUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCAGAGG 7481
755 GAAAAUAU G GACUUGAA 2426 UUCAAGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAUUUUC 7482
756 AAAAUAUG G ACUUGAAG 2427 CUUCAAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUAUUUU 7483
764 GACUUGAA G GAGCAGCC 2428 GGCUGCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAAGUC 7484
765 ACUUGAAG G AGCAGCCA 2429 UGGCUGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUCAAGU 7485
774 AGCAGCCA G GUAACACU 2430 AGUGUUAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGCUGCU 7486
788 ACUAUUUC G GCUGGUCA 2431 UGACCAGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAAAUAGU 7487
792 UUUCGGCU G GUCAAGAG 2432 CUCUUGAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCCGAAA 7488
798 CUGGUCAA G AGGAUUUC 2433 GAAAUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGACCAG 7489
800 GGUCAAGA G GAUUUCCC 2434 GGGAAAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUUGACC 7490
801 GUCAAGAG G AUUUCCCA 2435 UGGGAAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCUUGAC 7491
876 CUUUCAAA G AACAUGAA 2436 UUCAUGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUGAAAG 7492
891 AAUACCUU G GUAAUUUG 2437 CAAAUUAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGGUAUU 7493
921 CCACUGAA G GAACACUU 2438 AAGUGUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGAGUGG 7494
922 CACUGAAG G AACACUUC 2439 GAAGUGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUCAGUG 7495
933 CACUUCAA G AAAAUGUC 2440 GACAUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGAAGUG 7496
957 CUUCUAAA G AGGUCUCA 2441 UGAGACCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUAGAAG 7497
959 UCUAAAGA G GUCUCAGA 2442 UCUGAGAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUUUAGA 7498
966 AGGUCUCA G AGAAGGCA 2443 UGCCUUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAGACCU 7499
968 GUCUCAGA G AAGGCAAA 2444 UUUGCCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUGAGAC 7500
971 UCAGAGAA G GCAAAAAC 2445 GUUUUUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUCUGA 7501
990 UACUCAUA G AUAGAGAU 2446 AUCUCUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUGAGUA 7502
994 CAUAGAUA G AGAUUUAA 2447 UUAAAUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUCUAUG 7503
996 UAGAUAGA G AUUUAACA 2448 UGUUAAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUAUCUA 7504
1005 AUUUAACA G AGUUUUCA 2449 UGAAAACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUUAAAU 7505
1014 AGUUUUCA G AAUUAGAA 2450 UUCUAAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAAAACU 7506
1020 CAGAAUUA G AAUACUCA 2451 UGAGUAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAAUUCUG 7507
1029 AAUACUCA G AAAUGGGA 2452 UCCCAUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAGUAUU 7508
1034 UCAGAAAU G GGAUCAUC 2453 GAUGAUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUUCUGA 7509
1035 CAGAAAUG G GAUCAUCG 2454 CGAUGAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUUUCUG 7510
1036 AGAAAUGG G AUCAUCGU 2455 ACGAUGAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCAUUUCU 7511
1065 CAAAAGCA G AAUCUGCC 2456 GGCAGAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCUUUUG 7512
1093 AAAUCCUA G GGAAGAAA 2457 UUUCUUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAGGAUUU 7513
1094 AAUCCUAG G GAAGAAAU 2458 AUUUCUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUAGGAUU 7514
1095 AUCCUAGG G AAGAAAUA 2459 UAUUUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUAGGAU 7515
1098 CUAGGGAA G AAAUAAUC 2460 GAUUAUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCCUAG 7516
1119 AAAAUAAA G AUGAAGAA 2461 UUCUUCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUAUUUU 7517
1125 AAGAUGAA G AAGAGAAG 2462 CUUCUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAUCUU 7518
1128 AUGAAGAA G AGAAGUUA 2463 UAACUUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUUCAU 7519
1130 GAAGAAGA G AAGUUAGU 2464 ACUAACUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUUCUUC 7520
1167 AUCAACAA G AGUUACCU 2465 AGGUAACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGUUGAU 7521
1193 ACUAAAUU G GUUAAAGA 2466 UCUUUAAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUUUAGU 7522
1200 UGGUUAAA G AGGAUGAA 2467 UUCAUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUAACCA 7523
1202 GUUAAAGA G GAUGAAGU 2468 ACUUCAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUUUAAC 7524
1203 UUAAAGAG G AUGAAGUU 2469 AACUUCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCUUUAA 7525
1221 UGUCUUCA G AAAAAGCA 2470 UGCUUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAAGACA 7526
1233 AAGCAAAA G ACAGUUUU 2471 AAAACUGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUUGCUU 7527
1250 AAUGAAAA G AGAGUUGC 2472 GCAACUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUUCAUU 7528
1252 UGAAAAGA G AGUUGCAG 2473 CUGCAACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUUUUCA 7529
1262 GUUGCAGU G GAAGCUCC 2474 GGAGCUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUGCAAC 7530
1263 UUGCAGUG G AAGCUCCU 2475 AGGAGCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CACUGCAA 7531
1276 UCCUAUGA G GGAGGAAU 2476 AUUCCUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAUAGGA 7532
1277 CCUAUGAG G GAGGAAUA 2477 UAUUCCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCAUAGG 7533
1278 CUAUGAGG G AGGAAUAU 2478 AUAUUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUCAUAG 7534
1280 AUGAGGGA G GAAUAUGC 2479 GCAUAUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCCUCAU 7535
1281 UGAGGGAG G AAUAUGCA 2480 UGCAUAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCCCUCA 7536
1290 AAUAUGCA G ACUUCAAA 2481 UUUGAAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCAUAUU 7537
1315 GCGAGUAU G GGAAGUGA 2482 UCACUUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUACUCGC 7538
1316 CGAGUAUG G GAAGUGAA 2483 UUCACUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUACUCG 7539
1317 GAGUAUGG G AAGUGAAA 2484 UUUCACUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCAUACUC 7540
1326 AAGUGAAA G AUAGUAAG 2485 CUUACUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUCACUU 7541
1334 GAUAGUAA G GAAGAUAG 2486 CUAUCUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUACUAUC 7542
1335 AUAGUAAG G AAGAUAGU 2487 ACUAUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUACUAU 7543
1338 GUAAGGAA G AUAGUGAU 2488 AUCACUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCUUAC 7544
1352 GAUAUGUU G GCUGCUGG 2489 CCAGCAGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACAUAUC 7545
1359 UGGCUGCU G GAGGUAAA 2490 UUUACCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCAGCCA 7546
1360 GGCUGCUG G AGGUAAAA 2491 UUUUACCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGCAGCC 7547
1362 CUGCUGGA G GUAAAAUC 2492 GAUUUUAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCAGCAG 7548
1373 AAAAUCGA G AGCAACUU 2493 AAGUUGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCGAUUUU 7549
1382 AGCAACUU G GAAAGUAA 2494 UUACUUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGUUGCU 7550
1383 GCAACUUG G AAAGUAAA 2495 UUUACUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAAGUUGC 7551
1394 AGUAAAGU G GAUAAAAA 2496 UUUUUAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUUUACU 7552
1395 GUAAAGUG G AUAAAAAA 2497 UUUUUUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CACUUUAC 7553
1413 GUUUUGCA G AUAGCCUU 2498 AAGGCUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCAAAAC 7554
1443 ACGAAAAA G AUAGUGAG 2499 CUCACUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUUUCGU 7555
1451 GAUAGUGA G AGUAGUAA 2500 UUACUACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCACUAUC 7556
1488 GUACGCCA G AAGGUAUA 2501 UAUACCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGCGUAC 7557
1491 CGCCAGAA G GUAUAAAG 2502 CUUUAUAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUGGCG 7558
1499 GGUAUAAA G GAUCGUUC 2503 GAACGAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUAUACC 7559
1500 GUAUAAAG G AUCGUUCA 2504 UGAACGAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUUAUAC 7560
1509 AUCGUUCA G GAGCAUAU 2505 AUAUGCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAACGAU 7561
1510 UCGUUCAG G AGCAUAUA 2506 UAUAUGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGAACGA 7562
1553 GCAACUGA G AGCAUUGC 2507 GCAAUGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAGUUGC 7563
1584 CUUUGUUA G GAGAUCCU 2508 AGGAUCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAACAAAG 7564
1585 UUUGUUAG G AGAUCCUA 2509 UAGGAUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUAACAAA 7565
1587 UGUUAGGA G AUCCUACU 2510 AGUAGGAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCUAACA 7566
1599 CUACUUCA G AAAAUAAG 2511 CUUAUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAAGUAG 7567
1607 GAAAAUAA G ACCGAUGA 2512 UCAUCGGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUAUUUUC 7568
1626 AAAAAAUA G AAGAAAAG 2513 CUUUUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUUUUUU 7569
1629 AAAUAGAA G AAAAGAAG 2514 CUUCUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUAUUU 7570
1634 GAAGAAAA G AAGGCCCA 2515 UGGGCCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUUCUUC 7571
1637 GAAAAGAA G GCCCAAAU 2516 AUUUGGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG uucuuuuc 7572
1653 UAGUAACA G AGAAGAAU 2517 AUUCUUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUUACUA 7573
1655 GUAACAGA G AAGAAUAC 2518 GUAUUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUGUUAC 7574
1658 ACAGAGAA G AAUACUAG 2519 CUAGUAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUCUGU 7575
1703 GCAGCACA G GAUUCUGA 2520 UCAGAAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUGCUGC 7576
1704 CAGCACAG G AUUCUGAG 2521 CUCAGAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGUGCUG 7577
1712 GAUUCUGA G ACAGAUUA 2522 UAAUCUGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAGAAUC 7578
1716 CUGAGACA G AUUAUGUC 2523 GACAUAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUCUCAG 7579
1731 UCACAACA G AUAAUUUA 2524 UAAAUUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUUGUGA 7580
1745 UUAACAAA G GUGACUGA 2525 UCAGUCAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUGUUAA 7581
1754 GUGACUGA G GAAGUCGU 2526 ACGACUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAGUCAC 7582
1755 UGACUGAG G AAGUCGUG 2527 CACGACUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCAGUCA 7583
1763 GAAGUCGU G GCAAACAU 2528 AUGUUUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACGACUUC 7584
1779 UGCCUGAA G GCCUGACU 2529 AGUCAGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAGGCA 7585
1791 UGACUCCA G AUUUAGUA 2530 UACUAAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGAGUCA 7586
1802 UUAGUACA G GAAGCAUG 2531 CAUGCUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUACUAA 7587
1803 UAGUACAG G AAGCAUGU 2532 ACAUGCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGUACUA 7588
1836 AAGUUACU G GUACAAAG 2533 CUUUGUAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUAACUU 7589
1844 GGUACAAA G AUUGCUUA 2534 UAAGCAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUGUACC 7590
1865 ACAAAAAU G GACUUGGU 2535 ACCAAGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUUUUGU 7591
1866 CAAAAAUG G ACUUGGUU 2536 AACCAAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUUUUUG 7592
1871 AUGGACUU G GUUCAAAC 2537 GUUUGAAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGUCCAU 7593
1884 AAACAUCA G AAGUUAUG 2538 CAUAACUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAUGUUU 7594
1896 UUAUGCAA G AGUCACUC 2539 GAGUGACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGCAUAA 7595
1938 CAUUUGAA G AGUCAGAA 2540 UUCUGACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAAAUG 7596
1944 AAGAGUCA G AAGCUACU 2541 AGUAGCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGACUCUU 7597
1982 AUUGUUAU G GAAGCACC 2542 GGUGCUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAACAAU 7598
1983 UUGUUAUG G AAGCACCA 2543 UGGUGCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUAACAA 7599
2016 CUAGUGCU G GUGCUUCC 2544 GGAAGCAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCACUAG 7600
2052 CACCAUUA G AAGCUUCU 2545 AGAAGCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAAUGGUG 7601
2115 CAUAUGAA G AGGCCAUG 2546 CAUGGCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAUAUG 7602
2117 UAUGAAGA G GCCAUGAG 2547 CUCAUGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUUCAUA 7603
2148 AAGUAUCA G GAAUAAAG 2548 GUUUAUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAUACUU 7604
2149 AGUAUCAG G AAUAAAGG 2549 CCUUUAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGAUACU 7605
2156 GGAAUAAA G GAAGAAAU 2550 AUUUCUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUAUUCC 7606
2157 GAAUAAAG G AAGAAAUU 2551 AAUUUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUUUAUUC 7607
2160 UAAAGGAA G AAAUUAAA 2552 UUUAAUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCUUUA 7608
2169 AAAUUAAA G AGCCUGAA 2553 UUCAGGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUAAUUU 7609
2199 CUCUUCAA G AAACAGAA 2554 UUCUGUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGAAGAG 7610
2205 AAGAAACA G AAGCUCCU 2555 AGGAGCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUUUCUU 7611
2244 UAAUUAAA G AAACAAAG 2556 CUUUGUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUAAUUA 7612
2273 CCAGCUCC G GAUUUCUC 2557 GAGAAAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGAGCUGG 7613
2274 CAGCUCCG G AUUUCUCU 2558 AGAGAAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGGAGCUG 7614
2292 AUUAUUCA G AAAUGGCA 2559 UGCCAUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAAUAAU 7615
2297 UCAGAAAU G GCAAAAGU 2560 ACUUUUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUUCUGA 7616
2343 UAGUUGAA G AUUCCUCA 2561 UGAGGAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAACUA 7617
2415 AAAAACAA G AUGAAACU 2562 AGUUUCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGUUUUU 7618
2439 UUGUGAAA G AAAGUCUC 2563 GAGACUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUCACAA 7619
2453 CUCACUGA G ACUUCAUU 2564 AAUGAAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAGUGAG 7620
2475 CAAUGAUA G AAUAUGAA 2565 UUCAUAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUCAUUG 7621
2489 GAAAAUAA G GAAAAACU 2566 AGUUUUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUAUUUUC 7622
2490 AAAAUAAG G AAAAACUC 2567 GAGUUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUAUUUU 7623
2516 CCACCUGA G GGAGGAAA 2568 UUUCCUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAGGUGG 7624
2517 CACCUGAG G GAGGAAAG 2569 CUUUCCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCAGGUG 7625
2518 ACCUGAGG G AGGAAAGC 2570 GCUUUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUCAGGU 7626
2520 CUGAGGGA G GAAAGCCA 2571 UGGCUUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCCUCAG 7627
2521 UGAGGGAG G AAAGCCAU 2572 AUGGCUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCCCUCA 7628
2534 CCAUAUUU G GAAUCUUU 2573 AAAGAUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAUAUGG 7629
2535 CAUAUUUG G AAUCUUUU 2574 AAAAGAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAAAUAUG 7630
2556 UCAGUUUA G AUAACACA 2575 UGUGUUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAAACUGA 7631
2568 ACACAAAA G AUACCCUG 2576 CAGGGUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUUGUGU 7632
2609 AGGAAAAA G GAGAAAAU 2577 AUUUUCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUUUGCU 7633
2610 GCAAAAAG G AGAAAAUU 2578 AAUUUUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUUUUGC 7634
2612 AAAAAGGA G AAAAUUCC 2579 GGAAUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCUUUUU 7635
2627 CCUUUGCA G AUGGAGGA 2580 UCCUCCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCAAAGG 7636
2630 UUGCAGAU G GAGGAGCU 2581 AGCUCCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCUGCAA 7637
2631 UGCAGAUG G AGGAGCUC 2582 GAGCUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUCUGCA 7638
2633 CAGAUGGA G GAGCUCAG 2583 CUGAGCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCAUCUG 7639
2634 AGAUGGAG G AGCUCAGU 2584 ACUGAGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCCAUCU 7640
2681 AUUUCUAA G GAAGCACA 2585 UGUGCUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUAGAAAU 7641
2682 UUUCUAAG G AAGCACAG 2586 CUGUGCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUAGAAA 7642
2690 GAAGCACA G AUAAGAGA 2587 UCUCUUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUGCUUC 7643
2695 ACAGAUAA G AGAAACUG 2588 CAGUUUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUAUCUGU 7644
2697 AGAUAAGA G AAACUGAA 2589 UUCAGUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUUAUCU 7645
2715 CGUUUUCA G AUUCAUCU 2590 AGAUGAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAAAACG 7646
2739 AAAUUAUA G AUGAGUUC 2591 GAACUCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUAAUUU 7647
2794 AUUAGCCA G GGAAUAUA 2592 UAUAUUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGCUAAU 7648
2795 UUAGCCAG G GAAUAUAC 2593 GUAUAUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGGCUAA 7649
2796 UAGCCAGG G AAUAUACU 2594 AGUAUAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUGGCUA 7650
2811 CUGACCUA G AAGUAUCC 2595 GGAUACUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAGGUCAG 7651
2846 AAUGCCCC G GAUGGAGC 2596 GCUCCAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGGGCAUU 7652
2847 AUGCCCCG G AUGGAGCU 2597 AGCUCCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGGGGCAU 7653
2850 CCCCGGAU G GAGCUGGG 2598 CCCAGCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCCGGGG 7654
2851 CCCGGAUG G AGCUGGGU 2599 ACCCAGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUCCGGG 7655
2856 AUGGAGCU G GGUCAUUG 2600 CAAUGACC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCUCCAU 7656
2857 UGGAGCUG G GUCAUUGC 2601 GCAAUGAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGCUCCA 7657
2874 CUUGCACA G AAUUGCCC 2602 GGGCAAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUGCAAG 7658
2900 UCUUUGAA G AACAUACA 2603 UGUAUGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAAAGA 7659
2922 AAGUUGAA G AGAAAAUC 2604 GAUUUUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAACUU 7660
2924 GUUGAAGA G AAAAUCAG 2605 CUGAUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUUCAAC 7661
2940 GUUUCUCA G AUGACUUU 2606 AAAGUCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAGAAAC 7662
2958 CUAAAAAU G GGUCUGCU 2607 AGCAGACC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUUUUAG 7663
2959 UAAAAAUG G GUCUGCUA 2608 UAGCAGAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUUUUUA 7664
2975 ACAUCAAA G GUGCUCUU 2609 AAGAGCAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUGAUGU 7665
2994 UGCCUCCA G AUGUUUCU 2610 AGAAACAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGAGGCA 7666
3008 UCUGCUUU G GCCACUCA 2611 UGAGUGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAGCAGA 7667
3021 CUCAAGCA G AGAUAGAG 2612 CUCUAUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCUUGAG 7668
3023 CAAGCAGA G AUAGAGAG 2613 CUCUCUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUGCUUG 7669
3027 CAGAGAUA G AGAGCAUA 2614 UAUGCUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUCUCUG 7670
3029 GAGAUAGA G AGCAUAGU 2615 ACUAUGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUAUCUC 7671
3060 UUGUGAAA G AAGCUGAG 2616 CUCAGCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUCACAA 7672
3068 GAAGCUGA G AAAAAACU 2617 AGUUUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAGCUUC 7673
3090 CCGAUACA G AAAAAGAG 2618 CUCUUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUAUCGG 7674
3096 CAGAAAAA G AGGACAGA 2619 UCUGUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUUUCUG 7675
3098 GAAAAAGA G GACAGAUC 2620 GAUCUGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUUUUUC 7676
3099 AAAAAGAG G ACAGAUCA 2621 UGAUCUGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCUUUUU 1611
3103 AGAGGAGA G AUCACCAU 2622 AUGGUGAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUCCUCU 7678
3129 UUUCAGCA G AGCUGAGU 2623 ACUCAGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCUGAAA 7679
3166 CCUGUACU G GAGAGACA 2624 UGUCUCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUACAGG 7680
3167 CUGUACUG G AGAGACAU 2625 AUGUCUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGUACAG 7681
3169 GUACUGGA G AGACAUUA 2626 UAAUGUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCAGUAC 7682
3171 ACUGGAGA G ACAUUAAG 2627 CUUAAUGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUCCAGU 7683
3179 GACAUUAA G AAGACUGG 2628 CCAGUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUAAUGUC 7684
3182 AUUAAGAA G ACUGGAGU 2629 ACUCCAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUUAAU 7685
3186 AGAAGACU G GAGUGGUG 2630 CACCACUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUCUUCU 7686
3187 GAAGACUG G AGUGGUGU 2631 ACACCACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGUCUUC 7687
3191 ACUGGAGU G GUGUUUGG 2632 CCAAACAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUCCAGU 7688
3198 UGGUGUUU G GUGCCAGC 2633 GCUGGCAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAACACCA 7689
3269 AUUGCCUU G GCCCUGCU 2634 AGCAGGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGGCAAU 7690
3298 CAGCUUUA G GAUAUACA 2635 UGUAUAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAAAGCUG 7691
3299 AGCUUUAG G AUAUACAA 2636 UUGUAUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUAAAGCU 7692
3308 AUAUACAA G GGUGUGAU 2637 AUCACACC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGUAUAU 7693
3309 UAUACAAG G GUGUGAUC 2638 GAUCACAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUGUAUA 7694
3329 GCUAUCCA G AAAUCAGA 2639 UCUGAUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGAUAGC 7695
3336 AGAAAUCA G AUGAAGGC 2640 GCCUUCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAUUUCU 7696
3342 CAGAUGAA G GCCACCCA 2641 UGGGUGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAUCUG 7697
3355 CCCAUUCA G GGCAUAUC 2642 GAUAUGCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAAUGGG 7698
3356 CCAUUCAG G GCAUAUCU 2643 AGAUAUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGAAUGG 7699
3365 GCAUAUCU G GAAUCUGA 2644 UCAGAUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAUAUGC 7700
3366 CAUAUCUG G AAUCUGAA 2645 UUCAGAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGAUAUG 7701
3389 AUAUCUGA G GAGUUGGU 2646 ACCAACUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAGAUAU 7702
3390 UAUCUGAG G AGUUGGUU 2647 AACCAACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCAGAUA 7703
3395 GAGGAGUU G GUUCAGAA 2648 UUCUGAAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACUCCUC 7704
3401 UUGGUUCA G AAGUACAG 2649 CUGUACUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAACCAA 7705
3423 CUGCUCUU G GUCAUGUG 2650 CACAUGAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGAGCAG 7706
3446 ACGAUAAA G GAACUCAG 2651 CUGAGUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUAUCGU 7707
3447 CGAUAAAG G AACUCAGG 2652 CCUGAGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUUAUCG 7708
3454 GGAACUCA G GCGCCUCU 2653 AGAGGCGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAGUUCC 7709
3511 GUUGAUGU G GGUAUUUA 2654 UAAAUACC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAUCAAC 7710
3512 UUGAUGUG G GUAUUUAC 2655 GUAAAUAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CACAUCAA 7711
3528 CCUAUGUU G GUGCCUUG 2656 CAAGGCAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACAUAGG 7712
3543 UGUUUAAU G GUCUGACA 2657 UGUCAGAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUAAACA 7713
3563 CUGAUUUU G GCUCUCAU 2658 AUGAGAGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAAUCAG 7714
3604 UUAUGAAC G GCAUCAGG 2659 CCUGAUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUUCAUAA 7715
3611 CGGCAUCA G GCACAGAU 2660 AUCUGUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAUGCCG 7716
3617 CAGGCACA G AUAGAUCA 2661 UGAUCUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUGCCUG 7717
3621 CACAGAUA G AUCAUUAU 2662 AUAAUGAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUCUGUG 7718
3633 AUUAUCUA G GACUUGCA 2663 UGCAAGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAGAUAAU 7719
3634 UUAUCUAG G ACUUGCAA 2664 UUGCAAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUAGAUAA 7720
3647 GCAAAUAA G AAUGUUAA 2665 UUAACAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUAUUUGC 7721
3657 AUGUUAAA G AUGCUAUG 2666 CAUAGCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUAACAU 7722
3665 GAUGCUAU G GCUAAAAU 2667 AUUUUAGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAGCAUC 7723
3690 AAAUCCCU G GAUUGAAG 2668 CUUCAAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGGAUUU 7724
3691 AAUCCCUG G AUUGAAGC 2669 GCUUCAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGGGAUU 7725
3735 AAUUAGUA G GAGUUCAU 2670 AUGAACUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UACUAAUU 7726
3736 AUUAGUAG G AGUUCAUC 2671 GAUGAACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUACUAAU 7727
3751 UCUUUAAA G GGGAUAUU 2672 AAUAUCCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUAAAGA 7728
3752 CUUUAAAG G GGAUAUUC 2673 GAAUAUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUUAAAG 7729
3753 UUUAAAGG G GAUAUUCA 2674 UGAAUAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUUUAAA 7730
3754 UUAAAGGG G AUAUUCAU 2675 AUGAAUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCCUUUAA 7731
3773 GAUUAUAC G GGGGAGGG 2676 CCCUCCCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUAUAAUC 7732
3774 AUUAUACG G GGGAGGGU 2677 ACCCUCCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGUAUAAU 7733
3775 UUAUACGG G GGAGGGUC 2678 GACCCUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCGUAUAA 7734
3776 UAUACGGG G GAGGGUCA 2679 UGACCCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCCGUAUA 7735
3777 AUACGGGG G AGGGUCAG 2680 CUGACCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCCCGUAU 7736
3779 ACGGGGGA G GGUCAGGG 2681 CCCUGACC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCCCCGU 7737
3780 CGGGGGAG G GUCAGGGA 2682 UCCCUGAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCCCCCG 7738
3785 GAGGGUCA G GGAAGAAC 2683 GUUCUUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGACCCUC 7739
3786 AGGGUCAG G GAAGAACG 2684 CGUUCUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGACCCU 7740
3787 GGGUCAGG G AAGAACGA 2685 UCGUUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUGACCC 7741
3790 UCAGGGAA G AACGAACC 2686 GGUUCGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCCUGA 7742
3823 GUUUCACA G AUCGUUGU 2687 ACAACGAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUGAAAC 7743
3834 CGUUGUUA G AUCUUUAU 2688 AUAAAGAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAACAACG 7744
3865 UGUUGUGA G GAAAAAUU 2689 AAUUUUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCACAACA 7745
3866 GUUGUGAG G AAAAAUUA 2690 UAAUUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCACAAC 7746
3929 CUAUGUAU G GAUUUAAA 2691 UUUAAAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUACAUAG 7747
3930 UAUGUAUG G AUUUAAAC 2692 GUUUAAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUACAUA 7748
3965 CUAUCUGA G GCACUGGU 2693 ACCAGUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAGAUAG 7749
3971 GAGGCACU G GUGGAAUA 2694 UAUUCCAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUGCCUC 7750
3974 GCACUGGU G GAAUAAAA 2695 UUUUAUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACCAGUGC 7751
3975 CACUGGUG G AAUAAAAA 2696 UUUUUAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CACCAGUG 7752
4008 UUGUUGCA G AUAGUCUU 2697 AAGACUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCAACAA 7753
4027 CGCAUCUU G GCAAGUUG 2698 CAACUUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGAUGCG 7754
4038 AAGUUGCA G AGAUGGUG 2699 CACCAUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCAACUU 7755
4040 GUUGCAGA G AUGGUGGA 2700 UCCACCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUGCAAC 7756
4043 GCAGAGAU G GUGGAGCU 2701 AGCUCCAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCUCUGC 7757
Input Sequence = AB020693. Cut Site = G/ .
Stem Length = 8. Core Sequence = GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG
AB020693 (Homo sapiens mRNA for KIAA0886 protein (Nogo-A) ; 4053 bp)
Table IX: Human CD20 Hammerhead Ribozyme and Substrate Sequence
Pos Substrate Seq ID Ribozyme Seq ID
23 ACUGAACU C CGCAGCUA 2702 UAGCUGCG CUGAUGAG GCCGUUAGGC CGAA AGUUCAGU 7758
31 CCGCAGCU A GCAUCCAA 2703 UUGGAUGC CUGAUGAG GCCGUUAGGC CGAA AGCUGCGG 7759
36 GCUAGCAU C CAAAUCAG 2704 CUGAUUUG CUGAUGAG GCCGUUAGGC CGAA AUGCUAGC 7760
42 AUCCAAAU C AGCCCUUG 2705 CAAGGGCU CUGAUGAG GCCGUUAGGC CGAA AUUUGGAU 7761
49 UCAGCCCU U GAGAUUUG 2706 CAAAUCUC CUGAUGAG GCCGUUAGGC CGAA AGGGCUGA 7762
55 CUUGAGAU U UGAGGCCU 2707 AGGCCUCA CUGAUGAG GCCGUUAGGC CGAA AUCUCAAG 7763
56 UUGAGAUU U GAGGCCUU 2708 AAGGCCUC CUGAUGAG GCCGUUAGGC CGAA AAUCUCAA 7764
64 UGAGGCCU U GGAGACUC 2709 GAGUCUCC CUGAUGAG GCCGUUAGGC CGAA AGGCCUCA 7765
72 UGGAGACU C AGGAGUUU 2710 AAACUCCU CUGAUGAG GCCGUUAGGC CGAA AGUCUCCA 7766
79 UGAGGAGU U UUGAGAGC 2711 GCUCUCAA CUGAUGAG GCCGUUAGGC CGAA ACUCCUGA 7767
80 CAGGAGUU u UGAGAGCA 2712 UGCUCUCA CUGAUGAG GCCGUUAGGC CGAA AACUCCUG 7768
81 AGGAGUUU u GAGAGCAA 2713 UUGCUCUC CUGAUGAG GCCGUUAGGC CGAA AAACUCCU 7769
109 CCAGAAAU u CAGUAAAU 2714 AUUUACUG CUGAUGAG GCCGUUAGGC CGAA AUUUCUGG 7770
110 CAGAAAUU c AGUAAAUG 2715 CAUUUACU CUGAUGAG GCCGUUAGGC CGAA AAUUUCUG 7771
114 AAUUCAGU A AAUGGGAC 2716 GUCCCAUU CUGAUGAG GCCGUUAGGC CGAA ACUGAAUU 7772
124 AUGGGACU U UCCUGGCA 2717 UGCCAGGA CUGAUGAG GCCGUUAGGC CGAA AGUCCCAU 7773
125 UGGGACUU U CCUGGCAG 2718 CUGCCAGG CUGAUGAG GCCGUUAGGC CGAA AAGUCCCA 7774
126 GGGACUUU c CUGGCAGA 2719 UCUGCCAG CUGAUGAG GCCGUUAGGC CGAA AAAGUCCC 7775
151 AAGGCCCU A UUGCUAUG 2720 CAUAGCAA CUGAUGAG GCCGUUAGGC CGAA AGGGCCUU 7776
153 GGCCCUAU U GCUAUGCA 2721 UGCAUAGC CUGAUGAG GCCGUUAGGC CGAA AUAGGGCC 7777
157 CUAUUGCU A UGCAAUCU 2722 AGAUUGCA CUGAUGAG GCCGUUAGGC CGAA AGCAAUAG 7778
164 UAUGCAAU c UGGUCCAA 2723 UUGGACCA CUGAUGAG GCCGUUAGGC CGAA AUUGCAUA 7779
169 AAUCUGGU C CAAAACCA 2724 UGGUUUUG CUGAUGAG GCCGUUAGGC CGAA ACCAGAUU 7780
180 AAACCACU C UUCAGGAG 2725 CUCCUGAA CUGAUGAG GCCGUUAGGC CGAA AGUGGUUU 7781
182 ACCACUCU U CAGGAGGA 2726 UCCUCCUG CUGAUGAG GCCGUUAGGC CGAA AGAGUGGU 7782
183 CCACUCUU c AGGAGGAU 2727 AUCCUCCU CUGAUGAG GCCGUUAGGC CGAA AAGAGUGG 7783
194 GAGGAUGU c UUCACUGG 2728 CCAGUGAA CUGAUGAG GCCGUUAGGC CGAA ACAUCCUC 7784
196 GGAUGUCU u CACUGGUG 2729 CACCAGUG CUGAUGAG GCCGUUAGGC CGAA AGACAUCC 7785
197 GAUGUCUU c ACUGGUGG 2730 CCACCAGU CUGAUGAG GCCGUUAGGC CGAA AAGACAUC 7786
221 GCAAAGCU u CUUCAUGA 2731 UCAUGAAG CUGAUGAG GCCGUUAGGC CGAA AGCUUUGC 7787
222 CAAAGCUU c UUCAUGAG 2732 CUCAUGAA CUGAUGAG GCCGUUAGGC CGAA AAGCUUUG 7788
224 AAGCUUCU u CAUGAGGG 2733 CCCUCAUG CUGAUGAG GCCGUUAGGC CGAA AGAAGCUU 7789
225 AGCUUCUU c AUGAGGGA 2734 UCCCUCAU CUGAUGAG GCCGUUAGGC CGAA AAGAAGCU 7790
236 GAGGGAAU c UAAGACUU 2735 AAGUCUUA CUGAUGAG GCCGUUAGGC CGAA AUUCCCUC 7791
238 GGGAAUCU A AGACUUUG 2736 CAAAGUCU CUGAUGAG GCCGUUAGGC CGAA AGAUUCCC 7792
244 CUAAGACU U UGGGGGCU 2737 AGCCCCCA CUGAUGAG GCCGUUAGGC CGAA AGUCUUAG 7793
245 UAAGACUU u GGGGGCUG 2738 CAGCCCGC CUGAUGAG GCCGUUAGGC CGAA AAGUCUUA 7794
255 GGGGCUGU c CAGAUUAU 2739 AUAAUCUG CUGAUGAG GCCGUUAGGC CGAA ACAGCCCC 7795
261 GUCCAGAU u AUGAAUGG 2740 CCAUUCAU CUGAUGAG GCCGUUAGGC CGAA AUCUGGAC 7796
262 UCCAGAUU A UGAAUGGG 2741 CCCAUUCA CUGAUGAG GCCGUUAGGC CGAA AAUCUGGA 7797
273 AAUGGGCU C UUCCACAU 2742 AUGUGGAA CUGAUGAG GCCGUUAGGC CGAA AGCCCAUU 7798
275 UGGGCUCU u CCACAUUG 2743 CAAUGUGG CUGAUGAG GCCGUUAGGC CGAA AGAGCCCA 7799
276 GGGCUCUU c CACAUUGC 2744 GCAAUGUG CUGAUGAG GCCGUUAGGC CGAA AAGAGCCC 7800
282 UUCCACAU u GCCCUGGG 2745 CCCAGGGC CUGAUGAG GCCGUUAGGC CGAA AUGUGGAA 7801
295 UGGGGGGU c UUCUGAUG 2746 CAUCAGAA CUGAUGAG GCCGUUAGGC CGAA ACCCCCCA 7802
297 GGGGGUCU u CUGAUGAU 2747 AUCAUCAG CUGAUGAG GCCGUUAGGC CGAA AGACCCCC 7803
298 GGGGUCUU c UGAUGAUC 2748 GAUCAUCA CUGAUGAG GCCGUUAGGC CGAA AAGACCCC 7804
306 CUGAUGAU c CCAGCAGG 2749 CCUGCUGG CUGAUGAG GCCGUUAGGC CGAA AUCAUCAG 7805
318 GCAGGGAU c UAUGCACC 2750 GGUGCAUA CUGAUGAG GCCGUUAGGC CGAA AUCCCUGC 7806
320 AGGGAUCU A UGCACCCA 2751 UGGGUGCA CUGAUGAG GCCGUUAGGC CGAA AGAUCCCU 7807
330 GCACCCAU C UGUGUGAC 2752 GUCACACA CUGAUGAG GCCGUUAGGC CGAA AUGGGUGG 7808
347 UGUGUGGU A CCCUCUCU 2753 AGAGAGGG CUGAUGAG GCCGUUAGGC CGAA ACCACACA 7809
352 GGUACCCU C UCUGGGGA 2754 UCCCCAGA CUGAUGAG GCCGUUAGGC CGAA AGGGUACC 7810
354 UACCCUCU C UGGGGAGG 2755 CCUCCCCA CUGAUGAG GCCGUUAGGC CGAA AGAGGGUA 7811
366 GGAGGCAU u AUGUAUAU 2756 AUAUACAU CUGAUGAG GCCGUUAGGC CGAA AUGCCUCC 7812
367 GAGGCAUU A UGUAUAUU 2757 AAUAUACA CUGAUGAG GCCGUUAGGC CGAA AAUGCCUC 7813
371 CAUUAUGU A UAUUAUUU 2758 AAAUAAUA CUGAUGAG GCCGUUAGGC CGAA ACAUAAUG 7814
373 UUAUGUAU A UUAUUUCC 2759 GGAAAUAA CUGAUGAG GCCGUUAGGC CGAA AUACAUAA 7815
375 AUGUAUAU U AUUUCCGG 2760 CCGGAAAU CUGAUGAG GCCGUUAGGC CGAA AUAUACAU 7816
376 UGUAUAUU A UUUCCGGA 2761 UCCGGAAA CUGAUGAG GCCGUUAGGC CGAA AAUAUACA 7817
378 UAUAUUAU U UCCGGAUC 2762 GAUCCGGA CUGAUGAG GCCGUUAGGC CGAA AUAAUAUA 7818
379 AUAUUAUU U CCGGAUCA 2763 UGAUCCGG CUGAUGAG GCCGUUAGGC CGAA AAUAAUAU 7819
380 UAUUAUUU C CGGAUCAC 2764 GUGAUCCG CUGAUGAG GCCGUUAGGC CGAA AAAUAAUA 7820
386 UUCCGGAU C ACUCCUGG 2765 CCAGGAGU CUGAUGAG GCCGUUAGGC CGAA AUCCGGAA 7821
390 GGAUCACU C CUGGCAGC 2766 GCUGCCAG CUGAUGAG GCCGUUAGGC CGAA AGUGAUCC 7822
413 GAAAAACU C CAGGAAGU 2767 ACUUCCUG CUGAUGAG GCCGUUAGGC CGAA AGUUUUUC 7823
424 GGAAGUGU U UGGUCAAA 2768 UUUGACCA CUGAUGAG GCCGUUAGGC CGAA ACACUUCC 7824
425 GAAGUGUU U GGUCAAAG 2769 CUUUGACC CUGAUGAG GCCGUUAGGC CGAA AACACUUC 7825
429 UGUUUGGU C AAAGGAAA 2770 UUUCCUUU CUGAUGAG GCCGUUAGGC CGAA ACCAAACA 7826
444 AAAAUGAU A AUGAAUUC 2771 GAAUUCAU CUGAUGAG GCCGUUAGGC CGAA AUCAUUUU 7827
451 UAAUGAAU U CAUUGAGC 2772 GCUCAAUG CUGAUGAG GCCGUUAGGC CGAA AUUCAUUA 7828
452 AAUGAAUU C AUUGAGCC 2773 GGCUCAAU CUGAUGAG GCCGUUAGGC CGAA AAUUCAUU 7829
455 GAAUUCAU U GAGCCUCU 2774 AGAGGCUC CUGAUGAG GCCGUUAGGC CGAA AUGAAUUC 7830
462 UUGAGCCU C UUUGCUGC 2775 GCAGCAAA CUGAUGAG GCCGUUAGGC CGAA AGGCUCAA 7831
464 GAGCCUCU U UGCUGCCA 2776 UGGCAGCA CUGAUGAG GCCGUUAGGC CGAA AGAGGCUC 7832
465 AGCCUCUU U GCUGCCAU 2777 AUGGCAGC CUGAUGAG GCCGUUAGGC CGAA AAGAGGCU 7833
474 GCUGCCAU U UCUGGAAU 2778 AUUCCAGA CUGAUGAG GCCGUUAGGC CGAA AUGGCAGC 7834
475 CUGCCAUU U CUGGAAUG 2779 CAUUCCAG CUGAUGAG GCCGUUAGGC CGAA AAUGGCAG 7835
476 UGCCAUUU C UGGAAUGA 2780 UCAUUCCA CUGAUGAG GCCGUUAGGC CGAA AAAUGGCA 7836
486 GGAAUGAU U CUUUCAAU 2781 AUUGAAAG CUGAUGAG GCCGUUAGGC CGAA AUCAUUCC 7837
487 GAAUGAUU C UUUCAAUC 2782 GAUUGAAA CUGAUGAG GCCGUUAGGC CGAA AAUCAUUC 7838
489 AUGAUUCU u UCAAUCAU 2783 AUGAUUGA CUGAUGAG GCCGUUAGGC CGAA AGAAUCAU 7839
490 UGAUUCUU u CAAUCAUG 2784 CAUGAUUG CUGAUGAG GCCGUUAGGC CGAA AAGAAUCA 7840
491 GAUUCUUU c AAUCAUGG 2785 CCAUGAUU CUGAUGAG GCCGUUAGGC CGAA AAAGAAUC 7841
495 CUUUCAAU c AUGGACAU 2786 AUGUCCAU CUGAUGAG GCCGUUAGGC CGAA AUUGAAAG 7842
504 AUGGACAU A CUUAAUAU 2787 AUAUUAAG CUGAUGAG GCCGUUAGGC CGAA AUGUCCAU 7843
507 GACAUACU U AAUAUUAA 2788 UUAAUAUU CUGAUGAG GCCGUUAGGC CGAA AGUAUGUC 7844
508 ACAUACUU A AUAUUAAA 2789 UUUAAUAU CUGAUGAG GCCGUUAGGC CGAA AAGUAUGU 7845
511 UACUUAAU A UUAAAAUU 2790 AAUUUUAA CUGAUGAG GCCGUUAGGC CGAA AUUAAGUA 7846
513 CUUAAUAU U AAAAUUUC 2791 GAAAUUUU CUGAUGAG GCCGUUAGGC CGAA AUAUUAAG 7847
514 UUAAUAUU A AAAUUUCC 2792 GGAAAUUU CUGAUGAG GCCGUUAGGC CGAA AAUAUUAA 7848
519 AUUAAAAU U UCCCAUUU 2793 AAAUGGGA CUGAUGAG GCCGUUAGGC CGAA AUUUUAAU 7849
520 UUAAAAUU U CCCAUUUU 2794 AAAAUGGG CUGAUGAG GCCGUUAGGC CGAA AAUUUUAA 7850
521 UAAAAUUU C CCAUUUUU 2795 AAAAAUGG CUGAUGAG GCCGUUAGGC CGAA AAAUUUUA 7851
526 UUUCCCAU U UUUUAAAA 2796 UUUUAAAA CUGAUGAG GCCGUUAGGC CGAA AUGGGAAA 7852
527 UUCCCAUU U UUUAAAAA 2797 UUUUUAAA CUGAUGAG GCCGUUAGGC CGAA AAUGGGAA 7853
528 UCCCAUUU U UUAAAAAU 2798 AUUUUUAA CUGAUGAG GCCGUUAGGC CGAA AAAUGGGA 7854
529 CCCAUUUU U UAAAAAUG 2799 CAUUUUUA CUGAUGAG GCCGUUAGGC CGAA AAAAUGGG 7855
530 CCAUUUUU U AAAAAUGG 2800 CCAUUUUU CUGAUGAG GCCGUUAGGC CGAA AAAAAUGG 7856
531 CAUUUUUU A AAAAUGGA 2801 UCCAUUUU CUGAUGAG GCCGUUAGGC CGAA AAAAAAUG 7857
544 UGGAGAGU C UGAAUUUU 2802 AAAAUUCA CUGAUGAG GCCGUUAGGC CGAA ACUCUCCA 7858
550 GUCUGAAU U UUAUUAGA 2803 UCUAAUAA CUGAUGAG GCCGUUAGGC CGAA AUUCAGAC 7859
551 UCUGAAUU u UAUUAGAG 2804 CUCUAAUA CUGAUGAG GCCGUUAGGC CGAA AAUUCAGA 7860
552 CUGAAUUU u AUUAGAGC 2805 GCUCUAAU CUGAUGAG GCCGUUAGGC CGAA AAAUUCAG 7861
553 UGAAUUUU A UUAGAGCU 2806 AGCUCUAA CUGAUGAG GCCGUUAGGC CGAA AAAAUUCA 7862
555 AAUUUUAU U AGAGCUCA 2807 UGAGCUCU CUGAUGAG GCCGUUAGGC CGAA AUAAAAUU 7863
556 AUUUUAUU A GAGCUCAC 2808 GUGAGCUC CUGAUGAG GCCGUUAGGC CGAA AAUAAAAU 7864
562 UUAGAGCU C ACACACCA 2809 UGGUGUGU CUGAUGAG GCCGUUAGGC CGAA AGCUCUAA 7865
572 CACACCAU A UAUUAACA 2810 UGUUAAUA CUGAUGAG GCCGUUAGGC CGAA AUGGUGUG 7866
574 CACCAUAU A UUAACAUA 2811 UAUGUUAA CUGAUGAG GCCGUUAGGC CGAA AUAUGGUG 7867
576 CCAUAUAU U AACAUAUA 2812 UAUAUGUU CUGAUGAG GCCGUUAGGC CGAA AUAUAUGG 7868
577 CAUAUAUU A ACAUAUAC 2813 GUAUAUGU CUGAUGAG GCCGUUAGGC CGAA AAUAUAUG 7869
582 AUUAACAU A UACAACUG 2814 CAGUUGUA CUGAUGAG GCCGUUAGGC CGAA AUGUUAAU 7870
584 UAACAUAU A CAACUGUG 2815 CACAGUUG CUGAUGAG GCCGUUAGGC CGAA AUAUGUUA 7871
601 AACCAGCU A AUCCCUCU 2816 AGAGGGAU CUGAUGAG GCCGUUAGGC CGAA AGCUGGUU 7872
604 CAGCUAAU C CCUCUGAG 2817 CUCAGAGG CUGAUGAG GCCGUUAGGC CGAA AUUAGCUG 7873
608 UAAUCCCU C UGAGAAAA 2818 UUUUCUCA CUGAUGAG GCCGUUAGGC CGAA AGGGAUUA 7874
620 GAAAAACU C CCCAUCUA 2819 UAGAUGGG CUGAUGAG GCCGUUAGGC CGAA AGUUUUUC 7875
626 CUCCCCAU C UACCCAAU 2820 AUUGGGUA CUGAUGAG GCCGUUAGGC CGAA AUGGGGAG 7876
628 CCCCAUCU A CCCAAUAC 2821 GUAUUGGG CUGAUGAG GCCGUUAGGC CGAA AGAUGGGG 7877
635 UACCCAAU A CUGUUACA 2822 UGUAACAG CUGAUGAG GCCGUUAGGC CGAA AUUGGGUA 7878
640 AAUACUGU U ACAGCAUA 2823 UAUGCUGU CUGAUGAG GCCGUUAGGC CGAA ACAGUAUU 7879
641 AUACUGUU A CAGCAUAC 2824 GUAUGCUG CUGAUGAG GCCGUUAGGC CGAA AACAGUAU 7880
648 UACAGCAU A CAAUCUCU 2825 AGAGAUUG CUGAUGAG GCCGUUAGGC CGAA AUGCUGUA 7881
653 CAUACAAU C UCUGUUCU 2826 AGAACAGA CUGAUGAG GCCGUUAGGC CGAA AUUGUAUG 7882
655 UACAAUCU C UGUUCUUG 2827 CAAGAACA CUGAUGAG GCCGUUAGGC CGAA AGAUUGUA 7883
659 AUCUCUGU U CUUGGGCA 2828 UGCCCAAG CUGAUGAG GCCGUUAGGC CGAA ACAGAGAU 7884
660 UCUCUGUU C UUGGGCAU 2829 AUGCCCAA CUGAUGAG GCCGUUAGGC CGAA AACAGAGA 7885
662 UCUGUUCU U GGGCAUUU 2830 AAAUGCCC CUGAUGAG GCCGUUAGGC CGAA AGAACAGA 7886
669 UUGGGCAU U UUGUCAGU 2831 ACUGACAA CUGAUGAG GCCGUUAGGC CGAA AUGCCCAA 7887
670 UGGGCAUU U UGUCAGUG 2832 CACUGACA CUGAUGAG GCCGUUAGGC CGAA AAUGCCCA 7888
671 GGGCAUUU U GUCAGUGA 2833 UCACUGAC CUGAUGAG GCCGUUAGGC CGAA AAAUGCCC 7889
674 CAUUUUGU C AGUGAUGC 2834 GCAUCACU CUGAUGAG GCCGUUAGGC CGAA AGAAAAUG 7890
687 AUGGUGAU c UUUGCCUU 2835 AAGGCAAA CUGAUGAG GCCGUUAGGC CGAA AUCAGCAU 7891
689 GCUGAUCU u UGCCUUCU 2836 AGAAGGCA CUGAUGAG GCCGUUAGGC CGAA AGAUCAGC 7892
690 CUGAUCUU u GCCUUCUU 2837 AAGAAGGC CUGAUGAG GCCGUUAGGC CGAA AAGAUCAG 7893
695 CUUUGCCU u CUUCCAGG 2838 CCUGGAAG CUGAUGAG GCCGUUAGGC CGAA AGGCAAAG 7894
696 UUUGCCUU c UUCCAGGA 2839 UCCUGGAA CUGAUGAG GCCGUUAGGC CGAA AAGGCAAA 7895
698 UGCCUUCU u CCAGGAAC 2840 GUUCCUGG CUGAUGAG GCCGUUAGGC CGAA AGAAGGCA 7896
699 GCCUUCUU c CAGGAACU 2841 AGUUCCUG CUGAUGAG GCCGUUAGGC CGAA AAGAAGGC 7897
708 CAGGAACU u GUAAUAGC 2842 GCUAUUAC CUGAUGAG GCCGUUAGGC CGAA AGUUCCUG 7898
711 GAACUUGU A AUAGCUGG 2843 CCAGCUAU CUGAUGAG GCCGUUAGGC CGAA ACAAGUUC 7899
714 CUUGUAAU A GCUGGCAU 2844 AUGCCAGC CUGAUGAG GCCGUUAGGC CGAA AUUACAAG 7900
723 GCUGGCAU C GUUGAGAA 2845 UUCUCAAC CUGAUGAG GCCGUUAGGC CGAA AUGCCAGC 7901
726 GGCAUCGU U GAGAAUGA 2846 UCAUUCUC CUGAUGAG GCCGUUAGGC CGAA ACGAUGCC 7902
752 AACGUGCU C CAGACCCA 2847 UGGGUCUG CUGAUGAG GCCGUUAGGC CGAA AGCACGUU 7903
764 ACCCAAAU C UAACAUAG 2848 CUAUGUUA CUGAUGAG GCCGUUAGGC CGAA AUUUGGGU 7904
766 CCAAAUCU A ACAUAGUU 2849 AACUAUGU CUGAUGAG GCCGUUAGGC CGAA AGAUUUGG 7905
771 UCUAACAU A GUUCUCCU 2850 AGGAGAAC CUGAUGAG GCCGUUAGGC CGAA AUGUUAGA 7906
774 AAGAUAGU U CUCCUGUC 2851 GACAGGAG CUGAUGAG GCCGUUAGGC CGAA ACUAUGUU 7907
775 ACAUAGUU c UCCUGUCA 2852 UGACAGGA CUGAUGAG GCCGUUAGGC CGAA AACUAUGU 7908
777 AUAGUUCU c CUGUCAGC 2853 GCUGACAG CUGAUGAG GCCGUUAGGC CGAA AGAACUAU 7909
782 UCUCCUGU c AGCAGAAG 2854 CUUCUGCU CUGAUGAG GCCGUUAGGC CGAA ACAGGAGA 7910
808 AACAGACU A UUGAAAUA 2855 UAUUUCAA CUGAUGAG GCCGUUAGGC CGAA AGUCUGUU 7911
810 CAGACUAU U GAAAUAAA 2856 UUUAUUUC CUGAUGAG GCCGUUAGGC CGAA AUAGUCUG 7912
816 AUUGAAAU A AAAGAAGA 2857 UCUUCUUU CUGAUGAG GCCGUUAGGC CGAA AUUUCAAU 7913
831 GAAGUGGU U GGGCUAAC 2858 GUUAGCCC CUGAUGAG GCCGUUAGGC CGAA ACCACUUC 7914
837 GUUGGGCU A ACUGAAAC 2859 GUUUCAGU CUGAUGAG GCCGUUAGGC CGAA AGCCCAAC 7915
848 UGAAACAU C UUCCCAAC 2860 GUUGGGAA CUGAUGAG GCCGUUAGGC CGAA AUGUUUCA 7916
850 AAAGAUCU U CCCAACCA 2861 UGGUUGGG CUGAUGAG GCCGUUAGGC CGAA AGAUGUUU 7917
851 AACAUCUU C CCAACCAA 2862 UUGGUUGG CUGAUGAG GCCGUUAGGC CGAA AAGAUGUU 7918
876 GAAGACAU U GAAAUUAU 2863 AUAAUUUC CUGAUGAG GCCGUUAGGC CGAA AUGUCUUC 7919
882 AUUGAAAU u AUUCCAAU 2864 AUUGGAAU CUGAUGAG GCCGUUAGGC CGAA AUUUCAAU 7920
883 UUGAAAUU A UUCCAAUC 2865 GAUUGGAA CUGAUGAG GCCGUUAGGC CGAA AAUUUCAA 7921
885 GAAAUUAU u CCAAUCCA 2866 UGGAUUGG CUGAUGAG GCCGUUAGGC CGAA AUAAUUUC 7922
886 AAAUUAUU c CAAUCCAA 2867 UUGGAUUG CUGAUGAG GCCGUUAGGC CGAA AAUAAUUU 7923
891 AUUCCAAU c CAAGAAGA 2868 UCUUCUUG CUGAUGAG GCCGUUAGGC CGAA AUUGGAAU 7924
926 GACGAACU u UCCAGAAC 2869 GUUCUGGA CUGAUGAG GCCGUUAGGC CGAA AGUUCGUC 7925
927 ACGAACUU u CCAGAACC 2870 GGUUCUGG CUGAUGAG GCCGUUAGGC CGAA AAGUUCGU 7926
928 CGAACUUU c CAGAACCU 2871 AGGUUCUG CUGAUGAG GCCGUUAGGC CGAA AAAGUUCG 7927
937 CAGAACCU c CCCAAGAU 2872 AUCUUGGG CUGAUGAG GCCGUUAGGC CGAA AGGUUCUG 7928
946 CCCAAGAU c AGGAAUCC 2873 GGAUUCCU CUGAUGAG GCCGUUAGGC CGAA AUCUUGGG 7929
953 UCAGGAAU c CUCACCAA 2874 UUGGUGAG CUGAUGAG GCCGUUAGGC CGAA AUUCCUGA 7930
956 GGAAUCCU c ACCAAUAG 2875 CUAUUGGU CUGAUGAG GCCGUUAGGC CGAA AGGAUUCC 7931
963 UCACCAAU A GAAAAUGA 2876 UCAUUUUC CUGAUGAG GCCGUUAGGC CGAA AUUGGUGA 7932
977 UGACAGCU c UCCUUAAG 2877 CUUAAGGA CUGAUGAG GCCGUUAGGC CGAA AGCUGUCA 7933
979 ACAGCUCU c CUUAAGUG 2878 CACUUAAG CUGAUGAG GCCGUUAGGC CGAA AGAGCUGU 7934
982 GCUCUCCU u AAGUGAUU 2879 AAUCAGUU CUGAUGAG GCCGUUAGGC CGAA AGGAGAGC 7935
983 CUCUCCUU A AGUGAUUU 2880 AAAUCAGU CUGAUGAG GCCGUUAGGC CGAA AAGGAGAG 7936
990 UAAGUGAU U UCUUCUGU 2881 ACAGAAGA CUGAUGAG GCCGUUAGGC CGAA AUCACUUA 7937
991 AAGUGAUU U CUUCUGUU 2882 AACAGAAG CUGAUGAG GCCGUUAGGC CGAA AAUCACUU 7938
992 AGUGAUUU C UUCUGUUU 2883 AAACAGAA CUGAUGAG GCCGUUAGGC CGAA AAAUCACU 7939
994 UGAUUUCU U CUGUUUUC 2884 GAAAACAG CUGAUGAG GCCGUUAGGC CGAA AGAAAUCA 7940
995 GAUUUCUU C UGUUUUCU 2885 AGAAAACA CUGAUGAG GCCGUUAGGC CGAA AAGAAAUC 7941
999 UCUUCUGU u UUCUGUUU 2886 AAACAGAA CUGAUGAG GCCGUUAGGC CGAA ACAGAAGA 7942
1000 CUUCUGUU u UCUGUUUC 2887 GAAACAGA CUGAUGAG GCCGUUAGGC CGAA AACAGAAG 7943
1001 UUCUGUUU U CUGUUUCC 2888 GGAAACAG CUGAUGAG GCCGUUAGGC CGAA AAACAGAA 7944
1002 UCUGUUUU C UGUUUCCU 2889 AGGAAACA CUGAUGAG GCCGUUAGGC CGAA AAAACAGA 7945
1006 UUUUCUGU U UCCUUUUU 2890 AAAAAGGA CUGAUGAG GCCGUUAGGC CGAA ACAGAAAA 7946
1007 UUUCUGUU U ccuuuuuu 2891 AAAAAAGG CUGAUGAG GCCGUUAGGC CGAA AACAGAAA 7947
1008 UUCUGUUU C CUUUUUUA 2892 UAAAAAAG CUGAUGAG GCCGUUAGGC CGAA AAACAGAA 7948
1011 UGUUUCCU U UUUUAAAC 2893 GUUUAAAA CUGAUGAG GCCGUUAGGC CGAA AGGAAACA 7949
1012 GUUUCCUU U UUUAAAGA 2894 UGUUUAAA CUGAUGAG GCCGUUAGGC CGAA AAGGAAAC 7950
1013 UUUCCUUU U UUAAAGAU 2895 AUGUUUAA CUGAUGAG GCCGUUAGGC CGAA AAAGGAAA 7951
1014 uuccuuuu U UAAACAUU 2896 AAUGUUUA CUGAUGAG GCCGUUAGGC CGAA AAAAGGAA 7952
1015 uccuuuuu U AAACAUUA 2897 UAAUGUUU CUGAUGAG GCCGUUAGGC CGAA AAAAAGGA 7953
1016 ccuuuuuu A AACAUUAG 2898 CUAAUGUU CUGAUGAG GCCGUUAGGC CGAA AAAAAAGG 7954
1022 UUAAAGAU u AGUGUUCA 2899 UGAACACU CUGAUGAG GCCGUUAGGC CGAA AUGUUUAA 7955
1023 UAAACAUU A GUGUUCAU 2900 AUGAACAC CUGAUGAG GCCGUUAGGC CGAA AAUGUUUA 7956
1028 AUUAGUGU U CAUAGCUU 2901 AAGCUAUG CUGAUGAG GCCGUUAGGC CGAA ACACUAAU 7957
1029 UUAGUGUU c AUAGCUUG 2902 GAAGCUAU CUGAUGAG GCCGUUAGGC CGAA AACACUAA 7958
1032 GUGUUCAU A GCUUCCAA 2903 UUGGAAGC CUGAUGAG GCCGUUAGGC CGAA AUGAACAC 7959
1036 UCAUAGCU U CCAAGAGA 2904 UCUCUUGG CUGAUGAG GCCGUUAGGC CGAA AGCUAUGA 7960
1037 CAUAGCUU C CAAGAGAC 2905 GUCUCUUG CUGAUGAG GCCGUUAGGC CGAA AAGCUAUG 7961
1055 UGCUGACU U UCAUUUCU 2906 AGAAAUGA CUGAUGAG GCCGUUAGGC CGAA AGUCAGCA 7962
1056 GCUGACUU U CAUUUCUU 2907 AAGAAAUG CUGAUGAG GCCGUUAGGC CGAA AAGUCAGC 7963
1057 CUGACUUU C AUUUCUUG 2908 GAAGAAAU CUGAUGAG GCCGUUAGGC CGAA AAAGUCAG 7964
1060 ACUUUCAU u UCUUGAGG 2909 CCUCAAGA CUGAUGAG GCCGUUAGGC CGAA AUGAAAGU 7965
1061 CUUUCAUU u CUUGAGGU 2910 ACCUCAAG CUGAUGAG GCCGUUAGGC CGAA AAUGAAAG 7966
1062 UUUCAUUU c UUGAGGUA 2911 UACCUCAA CUGAUGAG GCCGUUAGGC CGAA AAAUGAAA 7967
1064 UCAUUUCU u GAGGUACU 2912 AGUACCUC CUGAUGAG GCCGUUAGGC CGAA AGAAAUGA 7968
1070 CUUGAGGU A CUCUGCAC 2913 GUGCAGAG CUGAUGAG GCCGUUAGGC CGAA ACCUCAAG 7969
1073 GAGGUACU C UGCACAUA 2914 UAUGUGCA CUGAUGAG GCCGUUAGGC CGAA AGUACCUC 7970
1081 CUGCACAU A CGCACCAC 2915 GUGGUGCG CUGAUGAG GCCGUUAGGC CGAA AUGUGCAG 7971
1092 CACCACAU C UCUAUCUG 2916 CAGAUAGA CUGAUGAG GCCGUUAGGC CGAA AUGUGGUG 7972
1094 CCACAUCU C UAUCUGGC 2917 GCCAGAUA CUGAUGAG GCCGUUAGGC CGAA AGAUGUGG 7973
1096 ACAUCUCU A UCUGGCCU 2918 AGGCCAGA CUGAUGAG GCCGUUAGGC CGAA AGAGAUGU 7974
1098 AUCUCUAU C UGGCCUUU 2919 AAAGGCCA CUGAUGAG GCCGUUAGGC CGAA AUAGAGAU 7975
1105 UCUGGCCU U UGCAUGGA 2920 UCCAUGCA CUGAUGAG GCCGUUAGGC CGAA AGGCCAGA 7976
1106 CUGGCCUU U GCAUGGAG 2921 CUCCAUGC CUGAUGAG GCCGUUAGGC CGAA AAGGCCAG 7977
1122 GUGACCAU A GCUCCUUC 2922 GAAGGAGC CUGAUGAG GCCGUUAGGC CGAA AUGGUCAC 7978
1126 CCAUAGCU C CUUCUCUC 2923 GAGAGAAG CUGAUGAG GCCGUUAGGC CGAA AGCUAUGG 7979
1129 UAGCUCCU U CUCUCUUA 2924 UAAGAGAG CUGAUGAG GCCGUUAGGC CGAA AGGAGCUA 7980
1130 AGCUCCUU C UCUCUUAC 2925 GUAAGAGA CUGAUGAG GCCGUUAGGC CGAA AAGGAGCU 7981
1132 CUCCUUCU C UCUUACAU 2926 AUGUAAGA CUGAUGAG GCCGUUAGGC CGAA AGAAGGAG 7982
1134 CCUUCUCU C UUACAUUG 2927 CAAUGUAA CUGAUGAG GCCGUUAGGC CGAA AGAGAAGG 7983
1136 uucucucu U ACAUUGAA 2928 UUCAAUGU CUGAUGAG GCCGUUAGGC CGAA AGAGAGAA 7984
1137 ucucucuu A CAUUGAAU 2929 AUUCAAUG CUGAUGAG GCCGUUAGGC CGAA AAGAGAGA 7985
1141 UCUUACAU U GAAUGUAG 2930 CUACAUUC CUGAUGAG GCCGUUAGGC CGAA AUGUAAGA 7986
1148 UUGAAUGU A GAGAAUGU 2931 ACAUUCUC CUGAUGAG GCCGUUAGGC CGAA ACAUUCAA 7987
1157 GAGAAUGU A GCCAUUGU 2932 ACAAUGGC CUGAUGAG GCCGUUAGGC CGAA ACAUUCUC 7988
1163 GUAGCCAU U GUAGCAGC 2933 GCUGCUAC CUGAUGAG GCCGUUAGGC CGAA AUGGCUAC 7989
1166 GCCAUUGU A GCAGCUUG 2934 CAAGCUGC CUGAUGAG GCCGUUAGGC CGAA ACAAUGGC 7990
1173 UAGCAGCU U GUGUUGUC 2935 GACAACAC CUGAUGAG GCCGUUAGGC CGAA AGCUGCUA 7991
1178 GCUUGUGU U GUCACGCU 2936 AGCGUGAC CUGAUGAG GCCGUUAGGC CGAA ACACAAGC 7992
1181 UGUGUUGU C ACGCUUCU 2937 AGAAGCGU CUGAUGAG GCCGUUAGGC CGAA ACAACACA 7993
1187 GUCACGCU U CUUCUUUU 2938 AAAAGAAG CUGAUGAG GCCGUUAGGC CGAA AGCGUGAC 7994
1188 UCACGCUU C UUCUUUUG 2939 CAAAAGAA CUGAUGAG GCCGUUAGGC CGAA AAGCGUGA 7995
1190 ACGCUUCU U CUUUUGAG 2940 CUCAAAAG CUGAUGAG GCCGUUAGGC CGAA AGAAGCGU 7996
1191 CGCUUCUU c UUUUGAGC 2941 GCUCAAAA CUGAUGAG GCCGUUAGGC CGAA AAGAAGCG 7997
1193 CUUCUUCU u UUGAGCAA 2942 UUGCUCAA CUGAUGAG GCCGUUAGGC CGAA AGAAGAAG 7998
1194 uucuucuu u UGAGCAAC 2943 GUUGCUCA CUGAUGAG GCCGUUAGGC CGAA AAGAAGAA 7999
1195 ucuucuuu u GAGCAACU 2944 AGUUGCUC CUGAUGAG GCCGUUAGGC CGAA AAAGAAGA 8000
1204 GAGCAACU u UCUUACAC 2945 GUGUAAGA CUGAUGAG GCCGUUAGGC CGAA AGUUGCUC 8001
1205 AGCAACUU u CUUACACU 2946 AGUGUAAG CUGAUGAG GCCGUUAGGC CGAA AAGUUGCU 8002
1206 GCAACUUU c UUACACUG 2947 CAGUGUAA CUGAUGAG GCCGUUAGGC CGAA AAAGUUGC 8003
1208 AACUUUCU u ACACUGAA 2948 UUCAGUGU CUGAUGAG GCCGUUAGGC CGAA AGAAAGUU 8004
1209 ACUUUCUU A CACUGAAG 2949 CUUCAGUG CUGAUGAG GCCGUUAGGC CGAA AAGAAAGU 8005
1236 UGAGUGCU U CAGAAUGU 2950 AGAUUCUG CUGAUGAG GCCGUUAGGC CGAA AGCACUCA 8006
1237 GAGUGCUU C AGAAUGUG 2951 CACAUUCU CUGAUGAG GCCGUUAGGC CGAA AAGCACUC 8007
1248 AAUGUGAU U UCCUACUA 2952 UAGUAGGA CUGAUGAG GCCGUUAGGC CGAA AUCACAUU 8008
1249 AUGUGAUU U CCUACUAA 2953 UUAGUAGG CUGAUGAG GCCGUUAGGC CGAA AAUCACAU 8009
1250 UGUGAUUU C CUACUAAC 2954 GUUAGUAG CUGAUGAG GCCGUUAGGC CGAA AAAUCACA 8010
1253 GAUUUCCU A CUAACCUG 2955 CAGGUUAG CUGAUGAG GCCGUUAGGC CGAA AGGAAAUC 8011
1256 UUCCUACU A ACCUGUUC 2956 GAACAGGU CUGAUGAG GCCGUUAGGC CGAA AGUAGGAA 8012
1263 UAACCUGU U CCUUGGAU 2957 AUCCAAGG CUGAUGAG GCCGUUAGGC CGAA ACAGGUUA 8013
1264 AACCUGUU c CUUGGAUA 2958 UAUCCAAG CUGAUGAG GCCGUUAGGC CGAA AACAGGUU 8014
1267 CUGUUCCU u GGAUAGGC 2959 GCCUAUCC CUGAUGAG GCCGUUAGGC CGAA AGGAAGAG 8015
1272 CCUUGGAU A GGCUUUUU 2960 AAAAAGCC CUGAUGAG GCCGUUAGGC CGAA AUCCAAGG 8016
1277 GAUAGGCU u UUUAGUAU 2961 AUACUAAA CUGAUGAG GCCGUUAGGC CGAA AGCCUAUC 8017
1278 AUAGGCUU u UUAGUAUA 2962 UAUACUAA CUGAUGAG GCCGUUAGGC CGAA AAGCCUAU 8018
1279 UAGGCUUU u UAGUAUAG 2963 CUAUACUA CUGAUGAG GCCGUUAGGC CGAA AAAGCCUA 8019
1280 AGGCUUUU u AGUAUAGU 2964 ACUAUACU CUGAUGAG GCCGUUAGGC CGAA AAAAGCCU 8020
1281 GGCUUUUU A GUAUAGUA 2965 UACUAUAC CUGAUGAG GCCGUUAGGC CGAA AAAAAGCC 8021
1284 UUUUUAGU A UAGUAUUU 2966 AAAUACUA CUGAUGAG GCCGUUAGGC CGAA ACUAAAAA 8022
1286 UUUAGUAU A GUAUUUUU 2967 AAAAAUAC CUGAUGAG GCCGUUAGGC CGAA AUACUAAA 8023
1289 AGUAUAGU A UUUUUUUU 2968 AAAAAAAA CUGAUGAG GCCGUUAGGC CGAA ACUAUACU 8024
1291 UAUAGUAU U UUUUUUUG 2969 CAAAAAAA CUGAUGAG GCCGUUAGGC CGAA AUACUAUA 8025
1292 AUAGUAUU U UUUUUUGU 2970 ACAAAAAA CUGAUGAG GCCGUUAGGC CGAA AAUACUAU 8026
1293 UAGUAUUU U UUUUUGUC 2971 GACAAAAA CUGAUGAG GCCGUUAGGC CGAA AAAUACUA 8027
1294 AGUAUUUU U UUUUGUCA 2972 UGACAAAA CUGAUGAG GCCGUUAGGC CGAA AAAAUACU 8028
1295 GUAUUUUU U UUUGUCAU 2973 AUGACAAA CUGAUGAG GCCGUUAGGC CGAA AAAAAUAC 8029
1296 UAUUUUUU U UUGUCAUU 2974 AAUGACAA CUGAUGAG GCCGUUAGGC CGAA AAAAAAUA 8030
1297 AUUUUUUU U UGUCAUUU 2975 AAAUGACA CUGAUGAG GCCGUUAGGC CGAA AAAAAAAU 8031
1298 UUUUUUUU U GUCAUUUU 2976 AAAAUGAC CUGAUGAG GCCGUUAGGC CGAA AAAAAAAA 8032
1301 UUUUUUGU C AUUUUCUC 2977 GAGAAAAU CUGAUGAG GCCGUUAGGC CGAA ACAAAAAA 8033
1304 UUUGUCAU U UUCUCCAU 2978 AUGGAGAA CUGAUGAG GCCGUUAGGC CGAA AUGACAAA 8034
1305 UUGUCAUU u UCUCCAUC 2979 GAUGGAGA CUGAUGAG GCCGUUAGGC CGAA AAUGACAA 8035
1306 UGUCAUUU u CUCCAUCA 2980 UGAUGGAG CUGAUGAG GCCGUUAGGC CGAA AAAUGACA 8036
1307 GUCAUUUU c UCCAUCAG 2981 CUGAUGGA CUGAUGAG GCCGUUAGGC CGAA AAAAUGAC 8037
1309 CAUUUUCU c CAUCAGCA 2982 UGCUGAUG CUGAUGAG GCCGUUAGGC CGAA AGAAAAUG 8038
1313 UUCUCCAU c AGCAACCA 2983 UGGUUGCU CUGAUGAG GCCGUUAGGC CGAA AUGGAGAA 8039
1348 GAAAAGAU A UAUGACUG 2984 CAGUCAUA CUGAUGAG GCCGUUAGGC CGAA AUCUUUUG 8040
1350 AAAGAUAU A UGACUGCU 2985 AGCAGUCA CUGAUGAG GCCGUUAGGC CGAA AUAUCUUU 8041
1359 UGACUGCU U CAUGACAU 2986 AUGUCAUG CUGAUGAG GCCGUUAGGC CGAA AGCAGUCA 8042
1360 GACUGCUU C AUGACAUU 2987 AAUGUCAU CUGAUGAG GCCGUUAGGC CGAA AAGCAGUC 8043
1368 CAUGACAU U CCUAAACU 2988 AGUUUAGG CUGAUGAG GCCGUUAGGC CGAA AUGUCAUG 8044
1369 AUGACAUU C CUAAACUA 2989 UAGUUUAG CUGAUGAG GCCGUUAGGC CGAA AAUGUCAU 8045
1372 ACAUUCCU A AACUAUCU 2990 AGAUAGUU CUGAUGAG GCCGUUAGGC CGAA AGGAAUGU 8046
1377 CCUAAACU A UCUUUUUU 2991 AAAAAAGA CUGAUGAG GCCGUUAGGC CGAA AGUUUAGG 8047
1379 UAAACUAU C UUUUUUUU 2992 AAAAAAAA CUGAUGAG GCCGUUAGGC CGAA AUAGUUUA 8048
1381 AACUAUGU U UUUUUUAU 2993 AUAAAAAA CUGAUGAG GCCGUUAGGC CGAA AGAUAGUU 8049
1382 ACUAUCUU U UUUUUAUU 2994 AAUAAAAA CUGAUGAG GCCGUUAGGC CGAA AAGAUAGU 8050
1383 CUAUCUUU U UUUUAUUC 2995 GAAUAAAA CUGAUGAG GCCGUUAGGC CGAA AAAGAUAG 8051
1384 UAUCUUUU U UUUAUUCC 2996 GGAAUAAA CUGAUGAG GCCGUUAGGC CGAA AAAAGAUA 8052
1385 AUCUUUUU U UUAUUCCA 2997 UGGAAUAA CUGAUGAG GCCGUUAGGC CGAA AAAAAGAU 8053
1386 UCUUUUUU U UAUUCCAC 2998 GUGGAAUA CUGAUGAG GCCGUUAGGC CGAA AAAAAAGA 8054
1387 cuuuuuuu U AUUCCACA 2999 UGUGGAAU CUGAUGAG GCCGUUAGGC CGAA AAAAAAAG 8055
1388 UUUUUUUU A UUCCACAU 3000 AUGUGGAA CUGAUGAG GCCGUUAGGC CGAA AAAAAAAA 8056
1390 UUUUUUAU U CCACAUCU 3001 AGAUGUGG CUGAUGAG GCCGUUAGGC CGAA AUAAAAAA 8057
1391 UUUUUAUU C CACAUCUA 3002 UAGAUGUG CUGAUGAG GCCGUUAGGC CGAA AAUAAAAA 8058
1397 UUCCACAU C UACGUUUU 3003 AAAACGUA CUGAUGAG GCCGUUAGGC CGAA AUGUGGAA 8059
1399 CCACAUCU A CGUUUUUG 3004 CAAAAACG CUGAUGAG GCCGUUAGGC CGAA AGAUGUGG 8060
1403 AUCUACGU U UUUGGUGG 3005 CCACCAAA CUGAUGAG GCCGUUAGGC CGAA ACGUAGAU 8061
1404 UCUACGUU U UUGGUGGA 3006 UCCACCAA CUGAUGAG GCCGUUAGGC CGAA AACGUAGA 8062
1405 CUACGUUU u UGGUGGAG 3007 CUCCACCA CUGAUGAG GCCGUUAGGC CGAA AAACGUAG 8063
1406 UACGUUUU u GGUGGAGU 3008 ACUCCACC CUGAUGAG GCCGUUAGGC CGAA AAAACGUA 8064
1415 GGUGGAGU C CCUUUUGC 3009 GCAAAAGG CUGAUGAG GCCGUUAGGC CGAA ACUCCACC 8065
1419 GAGUCCCU u UUGCAUCA 3010 UGAUGCAA CUGAUGAG GCCGUUAGGC CGAA AGGGACUC 8066
1420 AGUCCCUU u UGCAUCAU 3011 AUGAUGCA CUGAUGAG GCCGUUAGGC CGAA AAGGGACU 8067
1421 GUCCCUUU u GCAUCAUU 3012 AAUGAUGC CUGAUGAG GCCGUUAGGC CGAA AAAGGGAG 8068
1426 UUUUGCAU c AUUGUUUU 3013 AAAACAAU CUGAUGAG GCCGUUAGGC CGAA AUGCAAAA 8069
1429 UGCAUCAU U GUUUUAAG 3014 CUUAAAAC CUGAUGAG GCCGUUAGGC CGAA AUGAUGCA 8070
1432 AUCAUUGU U UUAAGGAU 3015 AUCCUUAA CUGAUGAG GCCGUUAGGC CGAA ACAAUGAU 8071
1433 UCAUUGUU U UAAGGAUG 3016 CAUCCUUA CUGAUGAG GCCGUUAGGC CGAA AACAAUGA 8072
1434 CAUUGUUU U AAGGAUGA 3017 UCAUCCUU CUGAUGAG GCCGUUAGGC CGAA AAACAAUG 8073
1435 AUUGUUUU A AGGAUGAU 3018 AUCAUCCU CUGAUGAG GCCGUUAGGC CGAA AAAACAAU 8074
1444 AGGAUGAU A AAAAAAAA 3019 UUUUUUUU CUGAUGAG GCCGUUAGGC CGAA AUCAUCCU 8075
1455 AAAAAAAU A ACAACUAG 3020 CUAGUUGU CUGAUGAG GCCGUUAGGC CGAA AUUUUUUU 8076
1462 UAACAACU A GGGACAAU 3021 AUUGUCCC CUGAUGAG GCCGUUAGGC CGAA AGUUGUUA 8077
1471 GGGACAAU A CAGAACCC 3022 GGGUUCUG CUGAUGAG GCCGUUAGGC CGAA AUUGUCCC 8078
1482 GAACCCAU U CCAUUUAU 3023 AUAAAUGG CUGAUGAG GCCGUUAGGC CGAA AUGGGUUC 8079
1483 AACCCAUU C CAUUUAUC 3024 GAUAAAUG CUGAUGAG GCCGUUAGGC CGAA AAUGGGUU 8080
1487 CAUUCCAU U UAUCUUUC 3025 GAAAGAUA CUGAUGAG GCCGUUAGGC CGAA AUGGAAUG 8081
1488 AUUCCAUU U AUCUUUCU 3026 AGAAAGAU CUGAUGAG GCCGUUAGGC CGAA AAUGGAAU 8082
1489 UUCCAUUU A UCUUUCUA 3027 UAGAAAGA CUGAUGAG GCCGUUAGGC CGAA AAAUGGAA 8083
1491 CCAUUUAU C UUUCUACA 3028 UGUAGAAA CUGAUGAG GCCGUUAGGC CGAA AUAAAUGG 8084
1493 AUUUAUCU U UCUACAGG 3029 CCUGUAGA CUGAUGAG GCCGUUAGGC CGAA AGAUAAAU 8085
1494 UUUAUCUU U CUACAGGG 3030 CCCUGUAG CUGAUGAG GCCGUUAGGC CGAA AAGAUAAA 8086
1495 UUAUCUUU C UACAGGGC 3031 GCCCUGUA CUGAUGAG GCCGUUAGGC CGAA AAAGAUAA 8087
1497 AUCUUUCU A CAGGGCUG 3032 CAGCCCUG CUGAUGAG GCCGUUAGGC CGAA AGAAAGAU 8088
1510 GCUGACAU U GUGGCACA 3033 UGUGCCAC CUGAUGAG GCCGUUAGGC CGAA AUGUCAGC 8089
1520 UGGCACAU U CUUAGAGU 3034 ACUCUAAG CUGAUGAG GCCGUUAGGC CGAA AUGUGCCA 8090
1521 GGCACAUU C UUAGAGUU 3035 AACUCUAA CUGAUGAG GCCGUUAGGC CGAA AAUGUGCC 8091
1523 CACAUUCU U AGAGUUAC 3036 GUAACUCU CUGAUGAG GCCGUUAGGC CGAA AGAAUGUG 8092
1524 ACAUUCUU A GAGUUACC 3037 GGUAACUC CUGAUGAG GCCGUUAGGC CGAA AAGAAUGU 8093
1529 CUUAGAGU U ACCACACC 3038 GGUGUGGU CUGAUGAG GCCGUUAGGC CGAA ACUCUAAG 8094
1530 UUAGAGUU A CCACACCC 3039 GGGUGUGG CUGAUGAG GCCGUUAGGC CGAA AACUCUAA 8095
1552 GGGAAGCU C UAAAUAGC 3040 GCUAUUUA CUGAUGAG GCCGUUAGGC CGAA AGCUUCCC 8096
1554 GAAGCUCU A AAUAGCCA 3041 UGGCUAUU CUGAUGAG GCCGUUAGGC CGAA AGAGCUUC 8097
1558 CUCUAAAU A GCCAACAC 3042 GUGUUGGC CUGAUGAG GCCGUUAGGC CGAA AUUUAGAG 8098
1571 ACACCCAU C UGUUUUUU 3043 AAAAAACA CUGAUGAG GCCGUUAGGC CGAA AUGGGUGU 8099
1575 CCAUCUGU U UUUUGUAA 3044 UUACAAAA CUGAUGAG GCCGUUAGGC CGAA ACAGAUGG 8100
1576 CAUCUGUU U UUUGUAAA 3045 UUUACAAA CUGAUGAG GCCGUUAGGC CGAA AACAGAUG 8101
1577 AUCUGUUU U UUGUAAAA 3046 UUUUACAA CUGAUGAG GCCGUUAGGC CGAA AAACAGAU 8102
1578 UCUGUUUU u UGUAAAAA 3047 UUUUUACA CUGAUGAG GCCGUUAGGC CGAA AAAACAGA 8103
1579 CUGUUUUU U GUAAAAAC 3048 GUUUUUAC CUGAUGAG GCCGUUAGGC CGAA AAAAACAG 8104
1582 UUUUUUGU A AAAACAGC 3049 GCUGUUUU CUGAUGAG GCCGUUAGGC CGAA ACAAAAAA 8105
Input Sequence = HSCD20A. Cut Site = UH/ .
Stem Length = 8 . Core Sequence = CUGAUGAG GCCGUUAGGC CGAA
HSCD20A (Human mRNA for CD20 receptor (S7) ; 1597 bp)
Underlined region can be any X sequence or linker, as previously described herein.
Table X: Human CD20 Inozyme and Substrate Sequence
Pos Substrate Seq ID Inozyme Seq ID
11 CAAACUGC A CCCACUGA 3050 UCAGUGGG CUGAUGAG GCCGUUAGGC CGAA ICAGUUUG 8106
13 AACUGCAC C CACUGAAC 3051 GUUCAGUG CUGAUGAG GCCGUUAGGC CGAA IUGCAGUU 8107
14 ACUGCACC C ACUGAACU 3052 AGUUCAGU CUGAUGAG GCCGUUAGGC CGAA IGUGCAGU 8108
15 CUGCACCC A CUGAACUC 3053 GAGUUCAG CUGAUGAG GCCGUUAGGC CGAA IGGUGGAG 8109
17 GCACCCAC U GAACUCCG 3054 CGGAGUUC CUGAUGAG GCCGUUAGGC CGAA IUGGGUGC 8110
22 CACUGAAC U CCGCAGCU 3055 AGCUGCGG CUGAUGAG GCCGUUAGGC CGAA IUUCAGUG 8111
24 CUGAACUC C GCAGCUAG 3056 CUAGCUGC CUGAUGAG GCCGUUAGGC CGAA IAGUUCAG 8112
27 AACUCCGC A GCUAGCAU 3057 AUGCUAGC CUGAUGAG GCCGUUAGGC CGAA ICGGAGUU 8113
30 UCCGCAGC U AGCAUCCA 3058 UGGAUGCU CUGAUGAG GCCGUUAGGC CGAA ICUGCGGA 8114
34 CAGCUAGC A UCCAAAUC 3059 GAUUUGGA CUGAUGAG GCCGUUAGGC CGAA ICUAGCUG 8115
37 CUAGCAUC C AAAUCAGC 3060 GCUGAUUU CUGAUGAG GCCGUUAGGC CGAA IAUGCUAG 8116
38 UAGCAUCC A AAUCAGCC 3061 GGCUGAUU CUGAUGAG GCCGUUAGGC CGAA IGAUGCUA 8117
43 UCCAAAUC A GCCCUUGA 3062 UCAAGGGC CUGAUGAG GCCGUUAGGC CGAA IAUUUGGA 8118
46 AAAUCAGC C CUUGAGAU 3063 AUCUCAAG CUGAUGAG GCCGUUAGGC CGAA ICUGAUUU 8119
47 AAUCAGCC C UUGAGAUU 3064 AAUCUCAA CUGAUGAG GCCGUUAGGC CGAA IGCUGAUU 8120
48 AUCAGCCC U UGAGAUUU 3065 AAAUCUCA CUGAUGAG GCCGUUAGGC CGAA IGGCUGAU 8121
62 UUUGAGGC C UUGGAGAC 3066 GUCUCCAA CUGAUGAG GCCGUUAGGC CGAA ICCUCAAA 8122
63 UUGAGGCC U UGGAGACU 3067 AGUCUCCA CUGAUGAG GCCGUUAGGC CGAA IGCCUCAA 8123
71 UUGGAGAC U CAGGAGUU 3068 AACUCCUG CUGAUGAG GCCGUUAGGC CGAA IUCUCCAA 8124
73 GGAGACUC A GGAGUUUU 3069 AAAACUCC CUGAUGAG GCCGUUAGGC CGAA IAGUCUCC 8125
88 UUGAGAGC A AAAUGACA 3070 UGUCAUUU CUGAUGAG GCCGUUAGGC CGAA ICUCUCAA 8126
96 AAAAUGAC A ACACCCAG 3071 CUGGGUGU CUGAUGAG GCCGUUAGGC CGAA IUCAUUUU 8127
99 AUGACAAC A CCCAGAAA 3072 UUUCUGGG CUGAUGAG GCCGUUAGGC CGAA IUUGUCAU 8128
101 GACAACAC C CAGAAAUU 3073 AAUUUCUG CUGAUGAG GCCGUUAGGC CGAA IUGUUGUC 8129
102 ACAACACC C AGAAAUUC 3074 GAAUUUCU CUGAUGAG GCCGUUAGGC CGAA IGUGUUGU 8130
103 CAACACCC A GAAAUUCA 3075 UGAAUUUC CUGAUGAG GCCGUUAGGC CGAA IGGUGUUG 8131
111 AGAAAUUC A GUAAAUGG 3076 CCAUUUAC CUGAUGAG GCCGUUAGGC CGAA IAAUUUCU 8132
123 AAUGGGAC U UUCCUGGC 3077 GCCAGGAA CUGAUGAG GCCGUUAGGC CGAA IUCCCAUU 8133
127 GGACUUUC C UGGCAGAG 3078 CUCUGCCA CUGAUGAG GCCGUUAGGC CGAA IAAAGUCC 8134
128 GACUUUCC U GGCAGAGC 3079 GCUCUGCC CUGAUGAG GCCGUUAGGC CGAA IGAAAGUC 8135
132 UUCCUGGC A GAGCCAAU 3080 AUUGGCUC CUGAUGAG GCCGUUAGGC CGAA ICCAGGAA 8136
137 GGCAGAGC C AAUGAAAG 3081 CUUUCAUU CUGAUGAG GCCGUUAGGC CGAA ICUCUGCC 8137
138 GCAGAGCC A AUGAAAGG 3082 CCUUUCAU CUGAUGAG GCCGUUAGGC CGAA IGCUCUGC 8138
148 UGAAAGGC C CUAUUGCU 3083 AGCAAUAG CUGAUGAG GCCGUUAGGC CGAA ICCUUUCA 8139
149 GAAAGGCC C UAUUGCUA 3084 UAGCAAUA CUGAUGAG GCCGUUAGGC CGAA IGCCUUUC 8140
150 AAAGGCCC U AUUGCUAU 3085 AUAGCAAU CUGAUGAG GCCGUUAGGC CGAA IGGCCUUU 8141
156 CCUAUUGC U AUGCAAUC 3086 GAUUGCAU CUGAUGAG GCCGUUAGGC CGAA ICAAUAGG 8142
161 UGCUAUGC A AUCUGGUC 3087 GACCAGAU CUGAUGAG GCCGUUAGGC CGAA ICAUAGCA 8143
165 AUGCAAUC U GGUCCAAA 3088 UUUGGACC CUGAUGAG GCCGUUAGGC CGAA IAUUGCAU 8144
170 AUCUGGUC C AAAACCAC 3089 GUGGUUUU CUGAUGAG GCCGUUAGGC CGAA IACCAGAU 8145
171 UCUGGUCC A AAACCACU 3090 AGUGGUUU CUGAUGAG GCCGUUAGGC CGAA IGACCAGA 8146
176 UCCAAAAC C ACUCUUCA 3091 UGAAGAGU CUGAUGAG GCCGUUAGGC CGAA IUUUUGGA 8147
177 CCAAAACC A CUCUUCAG 3092 CUGAAGAG CUGAUGAG GCCGUUAGGC CGAA IGUUUUGG 8148
179 AAAACCAC U CUUCAGGA 3093 UCCUGAAG CUGAUGAG GCCGUUAGGC CGAA IUGGUUUU 8149
181 AACCACUC U UCAGGAGG 3094 CCUCCUGA CUGAUGAG GCCGUUAGGC CGAA IAGUGGUU 8150
184 CACUCUUC A GGAGGAUG 3095 CAUCCUCC CUGAUGAG GCCGUUAGGC CGAA IAAGAGUG 8151
195 AGGAUGUC U UCACUGGU 3096 ACCAGUGA CUGAUGAG GCCGUUAGGC CGAA IACAUCCU 8152
198 AUGUCUUC A CUGGUGGG 3097 CCCACCAG CUGAUGAG GCCGUUAGGC CGAA IAAGACAU 8153
200 GUCUUCAC U GGUGGGCC 3098 GGCCCACC CUGAUGAG GCCGUUAGGC CGAA IUGAAGAC 8154
208 UGGUGGGC C CCACGCAA 3099 UUGCGUGG CUGAUGAG GCCGUUAGGC CGAA ICCCACCA 8155
209 GGUGGGCC C CACGCAAA 3100 UUUGCGUG CUGAUGAG GCCGUUAGGC CGAA IGCCCACC 8156
210 GUGGGCCC C ACGCAAAG 3101 CUUUGCGU CUGAUGAG GCCGUUAGGC CGAA IGGCCCAC 8157
211 UGGGCCCC A CGCAAAGC 3102 GCUUUGCG CUGAUGAG GCCGUUAGGC CGAA IGGGCCCA 8158
215 CCCCACGC A AAGCUUCU 3103 AGAAGCUU CUGAUGAG GCCGUUAGGC CGAA ICGUGGGG 8159
220 CGCAAAGC U UCUUCAUG 3104 CAUGAAGA CUGAUGAG GCCGUUAGGC CGAA ICUUUGCG 8160
223 AAAGCUUC U UCAUGAGG 3105 CCUCAUGA CUGAUGAG GCCGUUAGGC CGAA IAAGCUUU 8161
226 GCUUCUUC A UGAGGGAA 3106 UUCCCUCA CUGAUGAG GCCGUUAGGC CGAA IAAGAAGC 8162
237 AGGGAAUC U AAGACUUU 3107 AAAGUCUU CUGAUGAG GCCGUUAGGC CGAA IAUUCCCU 8163
243 UCUAAGAC U UUGGGGGC 3108 GCCCCCAA CUGAUGAG GCCGUUAGGC CGAA IUCUUAGA 8164
252 UUGGGGGC U GUCCAGAU 3109 AUCUGGAC CUGAUGAG GCCGUUAGGC CGAA ICCCCCAA 8165
256 GGGCUGUC C AGAUUAUG 3110 CAUAAUCU CUGAUGAG GCCGUUAGGC CGAA IACAGCCC 8166
257 GGCUGUCC A GAUUAUGA 3111 UCAUAAUC CUGAUGAG GCCGUUAGGC CGAA IGACAGCC 8167
272 GAAUGGGC U CUUCCACA 3112 UGUGGAAG CUGAUGAG GCCGUUAGGC CGAA ICCCAUUC 8168
274 AUGGGCUC U UCCACAUU 3113 AAUGUGGA CUGAUGAG GCCGUUAGGC CGAA IAGCCCAU 8169
277 GGCUCUUC C ACAUUGCC 3114 GGCAAUGU CUGAUGAG GCCGUUAGGC CGAA IAAGAGCC 8170
278 GCUCUUCC A CAUUGCCC 3115 GGGCAAUG CUGAUGAG GCCGUUAGGC CGAA IGAAGAGC 8171
280 UCUUCCAC A UUGCCCUG 3116 CAGGGCAA CUGAUGAG GCCGUUAGGC CGAA IUGGAAGA 8172
285 CACAUUGC C CUGGGGGG 3117 CCCCCCAG CUGAUGAG GCCGUUAGGC CGAA ICAAUGUG 8173
286 ACAUUGCC C UGGGGGGU 3118 ACCCCCCA CUGAUGAG GCCGUUAGGC CGAA IGCAAUGU 8174
287 CAUUGCCC U GGGGGGUC 3119 GACCCCCC CUGAUGAG GCCGUUAGGC CGAA IGGCAAUG 8175
296 GGGGGGUC U UCUGAUGA 3120 UCAUCAGA CUGAUGAG GCCGUUAGGC CGAA IACCCCCC 8176
299 GGGUCUUC U GAUGAUCC 3121 GGAUCAUC CUGAUGAG GCCGUUAGGC CGAA IAAGACCC 8177
307 UGAUGAUC C CAGCAGGG 3122 CCCUGCUG CUGAUGAG GCCGUUAGGC CGAA IAUCAUCA 8178
308 GAUGAUCC C AGCAGGGA 3123 UCCCUGCU CUGAUGAG GCCGUUAGGC CGAA IGAUCAUC 8179
309 AUGAUCCC A GCAGGGAU 3124 AUCCCUGC CUGAUGAG GCCGUUAGGC CGAA IGGAUCAU 8180
312 AUCCCAGC A GGGAUCUA 3125 UAGAUCCC CUGAUGAG GCCGUUAGGC CGAA ICUGGGAU 8181
319 CAGGGAUC U AUGCACCC 3126 GGGUGCAU CUGAUGAG GCCGUUAGGC CGAA IAUCCCUG 8182
324 AUCUAUGC A CCCAUCUG 3127 CAGAUGGG CUGAUGAG GCCGUUAGGC CGAA ICAUAGAU 8183
326 CUAUGCAC C CAUCUGUG 3128 CACAGAUG CUGAUGAG GCCGUUAGGC CGAA IUGCAUAG 8184
327 UAUGCACC C AUCUGUGU 3129 ACACAGAU CUGAUGAG GCCGUUAGGC CGAA IGUGCAUA 8185
328 AUGCACCC A UCUGUGUG 3130 CACACAGA CUGAUGAG GCCGUUAGGC CGAA IGGUGCAU 8186
331 CACCCAUC U GUGUGACU 3131 AGUCACAC CUGAUGAG GCCGUUAGGC CGAA IAUGGGUG 8187
339 UGUGUGAC U GUGUGGUA 3132 UACCACAC CUGAUGAG GCCGUUAGGC CGAA IUCACACA 8188
349 UGUGGUAC C CUCUCUGG 3133 CCAGAGAG CUGAUGAG GCCGUUAGGC CGAA IUACCACA 8189
350 GUGGUACC C UCUCUGGG 3134 CCCAGAGA CUGAUGAG GCCGUUAGGC CGAA IGUACCAC 8190
351 UGGUACCC U CUCUGGGG 3135 CCCCAGAG CUGAUGAG GCCGUUAGGC CGAA IGGUACCA 8191
353 GUACCCUC U CUGGGGAG 3136 CUCCCCAG CUGAUGAG GCCGUUAGGC CGAA IAGGGUAC 8192
355 ACCCUCUC u GGGGAGGC 3137 GCCUCCCC CUGAUGAG GCCGUUAGGC CGAA IAGAGGGU 8193
364 GGGGAGGC A UUAUGUAU 3138 AUACAUAA CUGAUGAG GCCGUUAGGC CGAA ICCUCCCC 8194
381 AUUAUUUC C GGAUCACU 3139 AGUGAUCC CUGAUGAG GCCGUUAGGC CGAA IAAAUAAU 8195
387 UCCGGAUC A CUCCUGGC 3140 GCCAGGAG CUGAUGAG GCCGUUAGGC CGAA IAUCCGGA 8196
389 CGGAUCAC U CCUGGCAG 3141 CUGCCAGG CUGAUGAG GCCGUUAGGC CGAA IUGAUCCG 8197
391 GAUCACUC C UGGCAGCA 3142 UGCUGCCA CUGAUGAG GCCGUUAGGC CGAA IAGUGAUC 8198
392 AUCACUCC U GGCAGCAA 3143 UUGCUGCC CUGAUGAG GCCGUUAGGC CGAA IGAGUGAU 8199
396 CUCCUGGC A GCAACGGA 3144 UCCGUUGC CUGAUGAG GCCGUUAGGC CGAA ICCAGGAG 8200
399 CUGGCAGC A ACGGAGAA 3145 UUCUCCGU CUGAUGAG GCCGUUAGGC CGAA ICUGCCAG 8201
412 AGAAAAAC U CCAGGAAG 3146 CUUCCUGG CUGAUGAG GCCGUUAGGC CGAA IUUUUUCU 8202
414 AAAAACUC C AGGAAGUG 3147 CACUUCCU CUGAUGAG GCCGUUAGGC CGAA IAGUUUUU 8203
415 AAAACUCC A GGAAGUGU 3148 ACACUUCC CUGAUGAG GCCGUUAGGC CGAA IGAGUUUU 8204
430 GUUUGGUC A AAGGAAAA 3149 UUUUCCUU CUGAUGAG GCCGUUAGGC CGAA IACCAAAC 8205
453 AUGAAUUC A UUGAGCCU 3150 AGGCUCAA CUGAUGAG GCCGUUAGGC CGAA IAAUUCAU 8206
460 CAUUGAGC C UCUUUGCU 3151 AGCAAAGA CUGAUGAG GCCGUUAGGC CGAA ICUCAAUG 8207
461 AUUGAGCC U CUUUGCUG 3152 CAGCAAAG CUGAUGAG GCCGUUAGGC CGAA IGCUCAAU 8208
463 UGAGCCUC U UUGGUGCC 3153 GGCAGCAA CUGAUGAG GCCGUUAGGC CGAA IAGGCUCA 8209
468 CUCUUUGC U GCCAUUUC 3154 GAAAUGGC CUGAUGAG GCCGUUAGGC CGAA ICAAAGAG 8210
471 UUUGCUGC C AUUUCUGG 3155 CCAGAAAU CUGAUGAG GCCGUUAGGC CGAA ICAGCAAA 8211
472 UUGGUGCC A UUUCUGGA 3156 UCCAGAAA CUGAUGAG GCCGUUAGGC CGAA IGCAGCAA 8212
477 GCCAUUUC U GGAAUGAU 3157 AUCAUUCC CUGAUGAG GCCGUUAGGC CGAA IAAAUGGC 8213
488 AAUGAUUC U UUCAAUCA 3158 UGAUUGAA CUGAUGAG GCCGUUAGGC CGAA IAAUCAUU 8214
492 AUUCUUUC A AUCAUGGA 3159 UCCAUGAU CUGAUGAG GCCGUUAGGC CGAA IAAAGAAU 8215
496 UUUCAAUC A UGGACAUA 3160 UAUGUCCA CUGAUGAG GCCGUUAGGC CGAA IAUUGAAA 8216
502 UCAUGGAC A UACUUAAU 3161 AUUAAGUA CUGAUGAG GCCGUUAGGC CGAA IUCCAUGA 8217
506 GGACAUAC U UAAUAUUA 3162 UAAUAUUA CUGAUGAG GCCGUUAGGC CGAA IUAUGUCC 8218
522 AAAAUUUC C CAUUUUUU 3163 AAAAAAUG CUGAUGAG GCCGUUAGGC CGAA IAAAUUUU 8219
523 AAAUUUCC C AUUUUUUA 3164 UAAAAAAU CUGAUGAG GCCGUUAGGC CGAA IGAAAUUU 8220
524 AAUUUCCC A UUUUUUAA 3165 UUAAAAAA CUGAUGAG GCCGUUAGGC CGAA IGGAAAUU 8221
545 GGAGAGUC U GAAUUUUA 3166 UAAAAUUC CUGAUGAG GCCGUUAGGC CGAA IACUCUCC 8222
561 AUUAGAGC U CACACACC 3167 GGUGUGUG CUGAUGAG GCCGUUAGGC CGAA ICUCUAAU 8223
563 UAGAGCUC A CACACCAU 3168 AUGGUGUG CUGAUGAG GCCGUUAGGC CGAA IAGCUCUA 8224
565 GAGCUCAC A CACCAUAU 3169 AUAUGGUG CUGAUGAG GCCGUUAGGC CGAA IUGAGCUC 8225
567 GCUCACAC A CCAUAUAU 3170 AUAUAUGG CUGAUGAG GCCGUUAGGC CGAA IUGUGAGC 8226
569 UCACACAC C AUAUAUUA 3171 UAAUAUAU CUGAUGAG GCCGUUAGGC CGAA IUGUGUGA 8227 .
570 CACACACC A UAUAUUAA 3172 UUAAUAUA CUGAUGAG GCCGUUAGGC CGAA IGUGUGUG 8228
580 AUAUUAAC A UAUACAAC 3173 GUUGUAUA CUGAUGAG GCCGUUAGGC CGAA IUUAAUAU 8229
586 ACAUAUAC A ACUGUGAA 3174 UUCACAGU CUGAUGAG GCCGUUAGGC CGAA lUAUAUGU 8230
589 UAUACAAC U GUGAACCA 3175 UGGUUCAC CUGAUGAG GCCGUUAGGC CGAA lUUGUAUA 8231
596 CUGUGAAC C AGCUAAUC 3176 GAUUAGCU CUGAUGAG GCCGUUAGGC CGAA IUUCACAG 8232
597 UGUGAACC A GCUAAUCC 3177 GGAUUAGC CUGAUGAG GCCGUUAGGC CGAA IGUUCACA 8233
600 GAACCAGC U AAUCCCUC 3178 GAGGGAUU CUGAUGAG GCCGUUAGGC CGAA ICUGGUUC 8234
605 AGCUAAUC C CUCUGAGA 3179 UCUCAGAG CUGAUGAG GCCGUUAGGC CGAA IAUUAGCU 8235
606 GCUAAUCC C UCUGAGAA 3180 UUCUCAGA CUGAUGAG GCCGUUAGGC CGAA IGAUUAGC 8236
607 CUAAUCCC U CUGAGAAA 3181 UUUCUCAG CUGAUGAG GCCGUUAGGC CGAA IGGAUUAG 8237
609 AAUCCCUC u GAGAAAAA 3182 UUUUUCUC CUGAUGAG GCCGUUAGGC CGAA IAGGGAUU 8238
619 AGAAAAAC u CCGCAUCU 3183 AGAUGGGG CUGAUGAG GCCGUUAGGC CGAA IUUUUUCU 8239
621 AAAAACUC c CCAUCUAC 3184 GUAGAUGG CUGAUGAG GCCGUUAGGC CGAA IAGUUUUU 8240
622 AAAACUCC c CAUCUACC 3185 GGUAGAUG CUGAUGAG GCCGUUAGGC CGAA IGAGUUUU 8241
623 AAACUCCC c AUCUACCC 3186 GGGUAGAU CUGAUGAG GCCGUUAGGC CGAA IGGAGUUU 8242
624 AACUCCCC A UCUACCCA 3187 UGGGUAGA CUGAUGAG GCCGUUAGGC CGAA IGGGAGUU 8243
627 UCCCCAUC U ACCCAAUA 3188 UAUUGGGU CUGAUGAG GCCGUUAGGC CGAA IAUGGGGA 8244
630 CCAUCUAC c CAAUACUG 3189 CAGUAUUG CUGAUGAG GCCGUUAGGC CGAA IUAGAUGG 8245
631 CAUCUACC c AAUACUGU 3190 ACAGUAUU CUGAUGAG GCCGUUAGGC CGAA IGUAGAUG 8246
632 AUCUACCC A AUACUGUU 3191 AACAGUAU CUGAUGAG GCCGUUAGGC CGAA IGGUAGAU 8247
637 CCCAAUAC U GUUACAGC 3192 GCUGUAAC CUGAUGAG GCCGUUAGGC CGAA IUAUUGGG 8248
643 ACUGUUAC A GCAUACAA 3193 UUGUAUGC CUGAUGAG GCCGUUAGGC CGAA IUAACAGU 8249
646 GUUACAGC A UACAAUCU 3194 AGAUUGUA CUGAUGAG GCCGUUAGGC CGAA ICUGUAAC 8250
650 CAGCAUAC A AUCUCUGU 3195 ACAGAGAU CUGAUGAG GCCGUUAGGC CGAA IUAUGCUG 8251
654 AUACAAUC U CUGUUCUU 3196 AAGAACAG CUGAUGAG GCCGUUAGGC CGAA IAUUGUAU 8252
656 ACAAUCUC U GUUCUUGG 3197 CCAAGAAC CUGAUGAG GCCGUUAGGC CGAA IAGAUUGU 8253
661 CUCUGUUC U UGGGCAUU 3198 AAUGCCCA CUGAUGAG GCCGUUAGGC CGAA IAACAGAG 8254
667 UCUUGGGC A UUUUGUCA 3199 UGACAAAA CUGAUGAG GCCGUUAGGC CGAA ICCCAAGA 8255
675 AUUUUGUC A GUGAUGCU 3200 AGCAUCAC CUGAUGAG GCCGUUAGGC CGAA IACAAAAU 8256
683 AGUGAUGC U GAUCUUUG 3201 CAAAGAUC CUGAUGAG GCCGUUAGGC CGAA ICAUCACU 8257
688 UGCUGAUC U UUGCCUUC 3202 GAAGGCAA CUGAUGAG GCCGUUAGGC CGAA IAUCAGCA 8258
693 AUCUUUGC C UUCUUCCA 3203 UGGAAGAA CUGAUGAG GCCGUUAGGC CGAA ICAAAGAU 8259
694 UCUUUGCC U UCUUCCAG 3204 CUGGAAGA CUGAUGAG GCCGUUAGGC CGAA IGCAAAGA 8260
697 UUGCCUUC U UCCAGGAA 3205 UUCCUGGA CUGAUGAG GCCGUUAGGC CGAA IAAGGCAA 8261
700 CCUUCUUC C AGGAACUU 3206 AAGUUGCU CUGAUGAG GCCGUUAGGC CGAA IAAGAAGG 8262
701 cuucuucc A GGAACUUG 3207 CAAGUUCC CUGAUGAG GCCGUUAGGC CGAA IGAAGAAG 8263
707 CCAGGAAC U UGUAAUAG 3208 CUAUUACA CUGAUGAG GCCGUUAGGC CGAA IUUCCUGG 8264
717 GUAAUAGC U GGCAUCGU 3209 ACGAUGCC CUGAUGAG GCCGUUAGGC CGAA ICUAUUAC 8265
721 UAGCUGGC A UCGUUGAG 3210 CUCAACGA CUGAUGAG GCCGUUAGGC CGAA ICCAGCUA 8266
751 GAACGUGC U CCAGACCC 3211 GGGUCUGG CUGAUGAG GCCGUUAGGC CGAA ICACGUUC 8267
753 ACGUGCUC C AGACCCAA 3212 UUGGGUCU CUGAUGAG GCCGUUAGGC CGAA IAGCACGU 8268
754 CGUGCUCC A GACCCAAA 3213 UUUGGGUC CUGAUGAG GCCGUUAGGC CGAA IGAGCACG 8269
758 CUCCAGAC C CAAAUCUA 3214 UAGAUUUG CUGAUGAG GCCGUUAGGC CGAA IUCUGGAG 8270
759 UCCAGACC C AAAUCUAA 3215 UUAGAUUU CUGAUGAG GCCGUUAGGC CGAA IGUCUGGA 8271
760 CCAGACCC A AAUCUAAC 3216 GUUAGAUU CUGAUGAG GCCGUUAGGC CGAA IGGUCUGG 8272
765 CCCAAAUC U AAGAUAGU 3217 ACUAUGUU CUGAUGAG GCCGUUAGGC CGAA IAUUUGGG 8273
769 AAUCUAAC A UAGUUCUC 3218 GAGAACUA CUGAUGAG GCCGUUAGGC CGAA IUUAGAUU 8274
776 CAUAGUUC U CCUGUCAG 3219 CUGACAGG CUGAUGAG GCCGUUAGGC CGAA IAACUAUG 8275
778 UAGUUCUC C UGUCAGCA 3220 UGCUGACA CUGAUGAG GCCGUUAGGC CGAA IAGAACUA 8276
779 AGUUCUCC U GUCAGCAG 3221 CUGCUGAC CUGAUGAG GCCGUUAGGC CGAA IGAGAACU 8277
783 CUCCUGUC A GCAGAAGA 3222 UCUUCUGC CUGAUGAG GCCGUUAGGC CGAA IACAGGAG 8278
786 CUGUCAGC A GAAGAAAA 3223 UUUUCUUC CUGAUGAG GCCGUUAGGC CGAA ICUGACAG 8279
803 AAAAGAAC A GACUAUUG 3224 CAAUAGUC CUGAUGAG GCCGUUAGGC CGAA IUUCUUUU 8280
807 GAACAGAC U AUUGAAAU 3225 AUUUCAAU CUGAUGAG GCCGUUAGGC CGAA IUCUGUUC 8281
836 GGUUGGGC U AACUGAAA 3226 UUUCAGUU CUGAUGAG GCCGUUAGGC CGAA ICCCAACC 8282
840 GGGCUAAC U GAAACAUC 3227 GAUGUUUC CUGAUGAG GCCGUUAGGC CGAA IUUAGCCC 8283
846 ACUGAAAC A UCUUCCCA 3228 UGGGAAGA CUGAUGAG GCCGUUAGGC CGAA IUUUCAGU 8284
849 GAAACAUC U UCCCAACC 3229 GGUUGGGA CUGAUGAG GCCGUUAGGC CGAA IAUGUUUC 8285
852 ACAUCUUC C CAACCAAA 3230 UUUGGUUG CUGAUGAG GCCGUUAGGC CGAA IAAGAUGU 8286
853 CAUCUUCC C AACCAAAG 3231 CUUUGGUU CUGAUGAG GCCGUUAGGC CGAA IGAAGAUG 8287
854 AUCUUCCC A ACCAAAGA 3232 UGUUUGGU CUGAUGAG GCCGUUAGGC CGAA IGGAAGAU 8288
857 UUCCCAAC C AAAGAAUG 3233 CAUUCUUU CUGAUGAG GCCGUUAGGC CGAA IUUGGGAA 8289
858 UCCCAACC A AAGAAUGA 3234 UCAUUCUU CUGAUGAG GCCGUUAGGC CGAA IGUUGGGA 8290
874 AAGAAGAC A UUGAAAUU 3235 AAUUUCAA CUGAUGAG GCCGUUAGGC CGAA IUCUUCUU 8291
887 AAUUAUUC C AAUCCAAG 3236 CUUGGAUU CUGAUGAG GCCGUUAGGC CGAA IAAUAAUU 8292
888 AUUAUUCC A AUCCAAGA 3237 UCUUGGAU CUGAUGAG GCCGUUAGGC CGAA IGAAUAAU 8293
892 UUCCAAUC C AAGAAGAG 3238 CUCUUCUU CUGAUGAG GCCGUUAGGC CGAA IAUUGGAA 8294
893 UCCAAUCC A AGAAGAGG 3239 CCUCUUCU CUGAUGAG GCCGUUAGGC CGAA IGAUUGGA 8295
915 GAAGAAAC A GAGACGAA 3240 UUCGUCUC CUGAUGAG GCCGUUAGGC CGAA IUUUCUUC 8296
925 AGACGAAC U UUCCAGAA 3241 UUCUGGAA CUGAUGAG GCCGUUAGGC CGAA lUUCGUCU 8297
929 GAACUUUC C AGAACCUC 3242 GAGGUUCU CUGAUGAG GCCGUUAGGC CGAA IAAAGUUC 8298
930 AACUUUCC A GAACCUCC 3243 GGAGGUUC CUGAUGAG GCCGUUAGGC CGAA IGAAAGUU 8299
935 UCCAGAAC C UCCCCAAG 3244 CUUGGGGA CUGAUGAG GCCGUUAGGC CGAA IUUCUGGA 8300
936 CCAGAACC U CCCCAAGA 3245 UCUUGGGG CUGAUGAG GCCGUUAGGC CGAA IGUUCUGG 8301
938 AGAACCUC c CCAAGAUC 3246 GAUCUUGG CUGAUGAG GCCGUUAGGC CGAA IAGGUUCU 8302
939 GAACCUCC c CAAGAUCA 3247 UGAUCUUG CUGAUGAG GCCGUUAGGC CGAA IGAGGUUC 8303
940 AACCUCCC c AAGAUCAG 3248 CUGAUCUU CUGAUGAG GCCGUUAGGC CGAA IGGAGGUU 8304
941 ACCUCCCC A AGAUCAGG 3249 CCUGAUCU CUGAUGAG GCCGUUAGGC CGAA IGGGAGGU 8305
947 CCAAGAUC A GGAAUCCU 3250 AGGAUUCC CUGAUGAG GCCGUUAGGC CGAA IAUCUUGG 8306
954 CAGGAAUC C UCACCAAU 3251 AUUGGUGA CUGAUGAG GCCGUUAGGC CGAA IAUUCCUG 8307
955 AGGAAUCC U CACCAAUA 3252 UAUUGGUG CUGAUGAG GCCGUUAGGC CGAA IGAUUCCU 8308
957 GAAUCCUC A CCAAUAGA 3253 UCUAUUGG CUGAUGAG GCCGUUAGGC CGAA IAGGAUUC 8309
959 AUCCUCAC C AAUAGAAA 3254 UUUCUAUU CUGAUGAG GCCGUUAGGC CGAA IUGAGGAU 8310
960 UCCUCACC A AUAGAAAA 3255 UUUUCUAU CUGAUGAG GCCGUUAGGC CGAA IGUGAGGA 8311
973 AAAAUGAC A GCUCUCCU 3256 AGGAGAGC CUGAUGAG GCCGUUAGGC CGAA IUCAUUUU 8312
976 AUGACAGC U CUCCUUAA 3257 UUAAGGAG CUGAUGAG GCCGUUAGGC CGAA ICUGUCAU 8313
978 GACAGCUC U CCUUAAGU 3258 ACUUAAGG CUGAUGAG GCCGUUAGGC CGAA IAGCUGUC 8314
980 CAGCUCUC C UUAAGUGA 3259 UCACUUAA CUGAUGAG GCCGUUAGGC CGAA IAGAGCUG 8315
981 AGCUCUCC U UAAGUGAU 3260 AUCACUUA CUGAUGAG GCCGUUAGGC CGAA IGAGAGCU 8316
993 GUGAUUUC U UCUGUUUU 3261 AAAACAGA CUGAUGAG GCCGUUAGGC CGAA IAAAUCAC 8317
996 AUUUCUUC U GUUUUCUG 3262 CAGAAAAC CUGAUGAG GCCGUUAGGC CGAA IAAGAAAU 8318
1003 CUGUUUUC U GUUUCCUU 3263 AAGGAAAC CUGAUGAG GCCGUUAGGC CGAA IAAAACAG 8319
1009 UCUGUUUC c UUUUUUAA 3264 UUAAAAAA CUGAUGAG GCCGUUAGGC CGAA IAAACAGA 8320
1010 CUGUUUCC u UUUUUAAA 3265 UUUAAAAA CUGAUGAG GCCGUUAGGC CGAA IGAAACAG 8321
1020 UUUUAAAC A UUAGUGUU 3266 AACACUAA CUGAUGAG GCCGUUAGGC CGAA lUUUAAAA 8322
1030 UAGUGUUC A UAGCUUCC 3267 GGAAGCUA CUGAUGAG GCCGUUAGGC CGAA IAACACUA 8323
1035 UUCAUAGC U UCCAAGAG 3268 CUCUUGGA CUGAUGAG GCCGUUAGGC CGAA ICUAUGAA 8324
1038 AUAGCUUC c AAGAGACA 3269 UGUCUCUU CUGAUGAG GCCGUUAGGC CGAA IAAGCUAU 8325
1039 UAGCUUCC A AGAGACAU 3270 AUGUCUCU CUGAUGAG GCCGUUAGGC CGAA IGAAGCUA 8326
1046 CAAGAGAC A UGCUGACU 3271 AGUCAGCA CUGAUGAG GCCGUUAGGC CGAA IUCUCUUG 8327
1050 AGACAUGC U GACUUUCA 3272 UGAAAGUC CUGAUGAG GCCGUUAGGC CGAA ICAUGUCU 8328
1054 AUGCUGAC U UUCAUUUC 3273 GAAAUGAA CUGAUGAG GCCGUUAGGC CGAA IUCAGCAU 8329
1058 UGACUUUC A UUUCUUGA 3274 UCAAGAAA CUGAUGAG GCCGUUAGGC CGAA lAAAGUCA 8330
1063 UUCAUUUC U UGAGGUAC 3275 GUACCUCA CUGAUGAG GCCGUUAGGC CGAA IAAAUGAA 8331
1072 UGAGGUAC U CUGCACAU 3276 AUGUGCAG CUGAUGAG GCCGUUAGGC CGAA IUACCUCA 8332
1074 AGGUACUC U GCACAUAC 3277 GUAUGUGC CUGAUGAG GCCGUUAGGC CGAA IAGUACCU 8333
1077 UACUCUGC A CAUACGCA 3278 UGCGUAUG CUGAUGAG GCCGUUAGGC CGAA ICAGAGUA 8334
1079 CUCUGCAC A UACGCACC 3279 GGUGCGUA CUGAUGAG GCCGUUAGGC CGAA IUGCAGAG 8335
1085 ACAUACGC A CCACAUCU 3280 AGAUGUGG CUGAUGAG GCCGUUAGGC CGAA ICGUAUGU 8336
1087 AUACGCAC C ACAUCUCU 3281 AGAGAUGU CUGAUGAG GCCGUUAGGC CGAA IUGCGUAU 8337
1088 UACGCACC A CAUCUCUA 3282 UAGAGAUG CUGAUGAG GCCGUUAGGC CGAA IGUGCGUA 8338
1090 CGCACCAC A UCUCUAUC 3283 GAUAGAGA CUGAUGAG GCCGUUAGGC CGAA IUGGUGCG 8339
1093 ACCACAUC U CUAUCUGG 3284 CCAGAUAG CUGAUGAG GCCGUUAGGC CGAA IAUGUGGU 8340
1095 CACAUCUC U AUCUGGCC 3285 GGCCAGAU CUGAUGAG GCCGUUAGGC CGAA IAGAUGUG 8341
1099 UCUCUAUC U GGCCUUUG 3286 CAAAGGCC CUGAUGAG GCCGUUAGGC CGAA IAUAGAGA 8342
1103 UAUCUGGC C UUUGCAUG 3287 CAUGCAAA CUGAUGAG GCCGUUAGGC CGAA ICCAGAUA 8343
1104 AUCUGGCC U UUGCAUGG 3288 CCAUGCAA CUGAUGAG GCCGUUAGGC CGAA IGCCAGAU 8344
1109 GCCUUUGC A UGGAGUGA 3289 UCACUCCA CUGAUGAG GCCGUUAGGC CGAA ICAAAGGC 8345
1119 GGAGUGAC C AUAGCUCC 3290 GGAGCUAU CUGAUGAG GCCGUUAGGC CGAA IUCACUCC 8346
1120 GAGUGACC A UAGCUCCU 3291 AGGAGCUA CUGAUGAG GCCGUUAGGC CGAA IGUCACUC 8347
1125 ACCAUAGC U CCUUCUCU 3292 AGAGAAGG CUGAUGAG GCCGUUAGGC CGAA ICUAUGGU 8348
1127 CAUAGCUC C UUCUCUCU 3293 AGAGAGAA CUGAUGAG GCCGUUAGGC CGAA IAGCUAUG 8349
1128 AUAGCUCC U UCUCUCUU 3294 AAGAGAGA CUGAUGAG GCCGUUAGGC CGAA IGAGCUAU 8350
1131 GCUCCUUC U CUCUUACA 3295 UGUAAGAG CUGAUGAG GCCGUUAGGC CGAA IAAGGAGC 8351
1133 UCCUUCUC U CUUACAUU 3296 AAUGUAAG CUGAUGAG GCCGUUAGGC CGAA IAGAAGGA 8352
1135 CUUCUCUC U UACAUUGA 3297 UCAAUGUA CUGAUGAG GCCGUUAGGC CGAA IAGAGAAG 8353
1139 UCUCUUAC A UUGAAUGU 3298 ACAUUCAA CUGAUGAG GCCGUUAGGC CGAA lUAAGAGA 8354
1160 AAUGUAGC C AUUGUAGC 3299 GCUACAAU CUGAUGAG GCCGUUAGGC CGAA ICUACAUU 8355
1161 AUGUAGCC A UUGUAGCA 3300 UGCUACAA CUGAUGAG GCCGUUAGGC CGAA IGCUACAU 8356
1169 AUUGUAGC A GCUUGUGU 3301 ACACAAGC CUGAUGAG GCCGUUAGGC CGAA ICUACAAU 8357
1172 GUAGCAGC U UGUGUUGU 3302 ACAACACA CUGAUGAG GCCGUUAGGC CGAA ICUGCUAC 8358
1182 GUGUUGUC A CGCUUCUU 3303 AAGAAGCG CUGAUGAG GCCGUUAGGC CGAA IACAACAC 8359
1186 UGUCACGC U UCUUCUUU 3304 AAAGAAGA CUGAUGAG GCCGUUAGGC CGAA ICGUGACA 8360
1189 CACGCUUC U UCUUUUGA 3305 UCAAAAGA CUGAUGAG GCCGUUAGGC CGAA IAAGCGUG 8361
1192 GCUUCUUC U UUUGAGCA 3306 UGCUCAAA CUGAUGAG GCCGUUAGGC CGAA IAAGAAGC 8362
1200 UUUUGAGC A ACUUUCUU 3307 AAGAAAGU CUGAUGAG GCCGUUAGGC CGAA ICUCAAAA 8363
1203 UGAGCAAC U UUCUUACA 3308 UGUAAGAA CUGAUGAG GCCGUUAGGC CGAA IUUGCUCA 8364
1207 CAACUUUC U UACACUGA 3309 UCAGUGUA CUGAUGAG GCCGUUAGGC CGAA IAAAGUUG 8365
1211 UUUCUUAC A CUGAAGAA 3310 UUCUUCAG CUGAUGAG GCCGUUAGGC CGAA lUAAGAAA 8366
1213 UCUUACAC U GAAGAAAG 3311 CUUUCUUC CUGAUGAG GCCGUUAGGC CGAA IUGUAAGA 8367
1224 AGAAAGGC A GAAUGAGU 3312 ACUCAUUC CUGAUGAG GCCGUUAGGC CGAA ICCUUUCU 8368
1235 AUGAGUGC U UCAGAAUG 3313 CAUUGUGA CUGAUGAG GCCGUUAGGC CGAA ICACUCAU 8369
1238 AGUGCUUC A GAAUGUGA 3314 UCACAUUC CUGAUGAG GCCGUUAGGC CGAA lAAGCACU 8370
1251 GUGAUUUC C UACUAACC 3315 GGUUAGUA CUGAUGAG GCCGUUAGGC CGAA IAAAUCAC 8371
1252 UGAUUUCC U ACUAACCU 3316 AGGUUAGU CUGAUGAG GCCGUUAGGC CGAA IGAAAUCA 8372
1255 UUUCCUAC u AACCUGUU 3317 AACAGGUU CUGAUGAG GCCGUUAGGC CGAA lUAGGAAA 8373
1259 CUACUAAC c UGUUCCUU 3318 AAGGAACA CUGAUGAG GCCGUUAGGC CGAA IUUAGUAG 8374
1260 UACUAACC u GUUCCUUG 3319 CAAGGAAC CUGAUGAG GCCGUUAGGC CGAA IGUUAGUA 8375
1265 ACCUGUUC c UUGGAUAG 3320 CUAUCCAA CUGAUGAG GCCGUUAGGC CGAA IAACAGGU 8376
1266 CCUGUUCC u UGGAUAGG 3321 CCUAUCCA CUGAUGAG GCCGUUAGGC CGAA IGAACAGG 8377
1276 GGAUAGGC u UUUUAGUA 3322 UACUAAAA CUGAUGAG GCCGUUAGGC CGAA ICCUAUCC 8378
1302 UUUUUGUC A UUUUCUCC 3323 GGAGAAAA CUGAUGAG GCCGUUAGGC CGAA IACAAAAA 8379
1308 UCAUUUUC U CCAUCAGC 3324 GCUGAUGG CUGAUGAG GCCGUUAGGC CGAA IAAAAUGA 8380
1310 AUUUUCUC c AUCAGCAA 3325 UUGCUGAU CUGAUGAG GCCGUUAGGC CGAA IAGAAAAU 8381
1311 UUUUCUCC A UCAGCAAC 3326 GUUGCUGA CUGAUGAG GCCGUUAGGC CGAA IGAGAAAA 8382
1314 UCUCCAUC A GCAACCAG 3327 CUGGUUGC CUGAUGAG GCCGUUAGGC CGAA IAUGGAGA 8383
1317 CCAUCAGC A ACCAGGGA 3328 UCCCUGGU CUGAUGAG GCCGUUAGGC CGAA ICUGAUGG 8384
1320 UCAGCAAC C AGGGAGAC 3329 GUCUCCCU CUGAUGAG GCCGUUAGGC CGAA IUUGCUGA 8385
1321 CAGCAACC A GGGAGACU 3330 AGUCUCCC CUGAUGAG GCCGUUAGGC CGAA IGUUGCUG 8386
1329 AGGGAGAC U GCACCUGA 3331 UCAGGUGC CUGAUGAG GCCGUUAGGC CGAA IUCUCCCU 8387
1332 GAGACUGC A CCUGAUGG 3332 CCAUCAGG CUGAUGAG GCCGUUAGGC CGAA ICAGUCUC 8388
1334 GACUGCAC C UGAUGGAA 3333 UUCCAUCA CUGAUGAG GCCGUUAGGC CGAA IUGCAGUC 8389
1335 ACUGCACC U GAUGGAAA 3334 UUUCCAUC CUGAUGAG GCCGUUAGGC CGAA IGUGCAGU 8390
1355 UAUAUGAC U GCUUCAUG 3335 CAUGAAGC CUGAUGAG GCCGUUAGGC CGAA IUCAUAUA 8391
1358 AUGAGUGC U UCAUGACA 3336 UGUCAUGA CUGAUGAG GCCGUUAGGC CGAA ICAGUCAU 8392
1361 ACUGCUUC A UGACAUUC 3337 GAAUGUCA CUGAUGAG GCCGUUAGGC CGAA IAAGCAGU 8393
1366 UUCAUGAC A UUCCUAAA 3338 UUUAGGAA CUGAUGAG GCCGUUAGGC CGAA IUCAUGAA 8394
1370 UGACAUUC C UAAACUAU 3339 AUAGUUUA CUGAUGAG GCCGUUAGGC CGAA IAAUGUCA 8395
1371 GACAUUCC U AAACUAUC 3340 GAUAGUUU CUGAUGAG GCCGUUAGGC CGAA IGAAUGUC 8396
1376 UCCUAAAC U AUCUUUUU 3341 AAAAAGAU CUGAUGAG GCCGUUAGGC CGAA IUUUAGGA 8397
1380 AAACUAUC U UUUUUUUA 3342 UAAAAAAA CUGAUGAG GCCGUUAGGC CGAA IAUAGUUU 8398
1392 UUUUAUUC c ACAUCUAC 3343 GUAGAUGU CUGAUGAG GCCGUUAGGC CGAA IAAUAAAA 8399
1393 UUUAUUCC A CAUCUACG 3344 CGUAGAUG CUGAUGAG GCCGUUAGGC CGAA IGAAUAAA 8400
1395 UAUUCCAC A UCUACGUU 3345 AACGUAGA CUGAUGAG GCCGUUAGGC CGAA IUGGAAUA 8401
1398 UCCACAUC U ACGUUUUU 3346 AAAAACGU CUGAUGAG GCCGUUAGGC CGAA lAUGUGGA 8402
1416 GUGGAGUC C CUUUUGCA 3347 UGCAAAAG CUGAUGAG GCCGUUAGGC CGAA IACUCCAC 8403
1417 UGGAGUCC C UUUUGCAU 3348 AUGCAAAA CUGAUGAG GCCGUUAGGC CGAA IGACUCCA 8404
1418 GGAGUCCC u UUUGCAUC 3349 GAUGCAAA CUGAUGAG GCCGUUAGGC CGAA IGGACUCC 8405
1424 CCUUUUGC A UCAUUGUU 3350 AACAAUGA CUGAUGAG GCCGUUAGGC CGAA ICAAAAGG 8406
1427 UUUGCAUC A UUGUUUUA 3351 UAAAACAA CUGAUGAG GCCGUUAGGC CGAA IAUGCAAA 8407
1458 AAAAUAAC A ACUAGGGA 3352 UCCCUAGU CUGAUGAG GCCGUUAGGC CGAA IUUAUUUU 8408
1461 AUAACAAC U AGGGACAA 3353 UUGUCCCU CUGAUGAG GCCGUUAGGC CGAA IUUGUUAU 8409
1468 CUAGGGAC A AUACAGAA 3354 UUCUGUAU CUGAUGAG GCCGUUAGGC CGAA IUCCCUAG 8410
1473 GACAAUAC A GAACCCAU 3355 AUGGGUUC CUGAUGAG GCCGUUAGGC CGAA IUAUUGUC 8411
1478 UACAGAAC C CAUUCCAU 3356 AUGGAAUG CUGAUGAG GCCGUUAGGC CGAA IUUCUGUA 8412
1479 ACAGAACC C AUUCCAUU 3357 AAUGGAAU CUGAUGAG GCCGUUAGGC CGAA IGUUCUGU 8413
1480 CAGAACCC A UUCCAUUU 3358 AAAUGGAA CUGAUGAG GCCGUUAGGC CGAA IGGUUCUG 8414
1484 ACCCAUUC C AUUUAUCU 3359 AGAUAAAU CUGAUGAG GCCGUUAGGC CGAA IAAUGGGU 8415
1485 CCCAUUCC A UUUAUCUU 3360 AAGAUAAA CUGAUGAG GCCGUUAGGC CGAA IGAAUGGG 8416
1492 CAUUUAUC U UUCUACAG 3361 CUGUAGAA CUGAUGAG GCCGUUAGGC CGAA IAUAAAUG 8417
1496 UAUCUUUC U ACAGGGCU 3362 AGCCCUGU CUGAUGAG GCCGUUAGGC CGAA lAAAGAUA 8418
1499 CUUUCUAC A GGGCUGAC 3363 GUCAGCCC CUGAUGAG GCCGUUAGGC CGAA IUAGAAAG 8419
1504 UACAGGGC U GACAUUGU 3364 ACAAUGUC CUGAUGAG GCCGUUAGGC CGAA ICCCUGUA 8420
1508 GGGCUGAC A UUGUGGCA 3365 UGCCACAA CUGAUGAG GCCGUUAGGC CGAA IUCAGCCC 8421
1516 AUUGUGGC A CAUUCUUA 3366 UAAGAAUG CUGAUGAG GCCGUUAGGC CGAA ICCACAAU 8422
1518 UGUGGCAC A UUCUUAGA 3367 UCUAAGAA CUGAUGAG GCCGUUAGGC CGAA lUGCCACA 8423
1522 GCACAUUC U UAGAGUUA 3368 UAACUCUA CUGAUGAG GCCGUUAGGC CGAA IAAUGUGC 8424
1532 AGAGUUAC C ACACCCCA 3369 UGGGGUGU CUGAUGAG GCCGUUAGGC CGAA IUAACUCU 8425
1533 GAGUUACC A CACCCCAU 3370 AUGGGGUG CUGAUGAG GCCGUUAGGC CGAA IGUAACUC 8426
1535 GUUACCAC A CCCCAUGA 3371 UCAUGGGG CUGAUGAG GCCGUUAGGC CGAA IUGGUAAC 8427
1537 UACCACAC C CCAUGAGG 3372 CCUCAUGG CUGAUGAG GCCGUUAGGC CGAA IUGUGGUA 8428
1538 ACCACACC C CAUGAGGG 3373 CCCUCAUG CUGAUGAG GCCGUUAGGC CGAA IGUGUGGU 8429
1539 CCACACCC C AUGAGGGA 3374 UCCCUCAU CUGAUGAG GCCGUUAGGC CGAA IGGUGUGG 8430
1540 CACACCCC A UGAGGGAA 3375 UUCCCUCA CUGAUGAG GCCGUUAGGC CGAA IGGGUGUG 8431
1551 AGGGAAGC U CUAAAUAG 3376 CUAUUUAG CUGAUGAG GCCGUUAGGC CGAA ICUUCCCU 8432
1553 GGAAGCUC U AAAUAGCC 3377 GGCUAUUU CUGAUGAG GCCGUUAGGC CGAA IAGCUUCC 8433
1561 UAAAUAGC C AACACCCA 3378 UGGGUGUU CUGAUGAG GCCGUUAGGC CGAA ICUAUUUA 8434
1562 AAAUAGCC A ACACCCAU 3379 AUGGGUGU CUGAUGAG GCCGUUAGGC CGAA IGCUAUUU 8435
1565 UAGCCAAC A CCCAUCUG 3380 CAGAUGGG CUGAUGAG GCCGUUAGGC CGAA IUUGGCUA 8436
1567 GCCAACAC C CAUCUGUU 3381 AACAGAUG CUGAUGAG GCCGUUAGGC CGAA IUGUUGGC 8437
1568 CCAACACC C AUCUGUUU 3382 AAACAGAU CUGAUGAG GCCGUUAGGC CGAA IGUGUUGG 8438
1569 CAACACCC A UCUGUUUU 3383 AAAACAGA CUGAUGAG GCCGUUAGGC CGAA IGGUGUUG 8439
1572 CACCCAUC U GUUUUUUG 3384 CAAAAAAC CUGAUGAG GCCGUUAGGC CGAA IAUGGGUG 8440
1588 GUAAAAAC A GCAUAGCU 3385 AGCUAUGC CUGAUGAG GCCGUUAGGC CGAA IUUUUUAC 8441
Input Sequence = HSCD20A. Cut Site = CH/ .
Stem Length = 8 . Core Sequence = CUGAUGAG GCCGUUAGGC CGAA
HSCD20A (Human mRNA for CD20 receptor (S7) ; 1597 bp)
Underlined region may be any X sequence or linker, as previously described herein. I = Inosine
Table XI: Human CD20 G-Cleaver and Substrate Sequence
Pos Substrate Seq ID G-Cleaver Seq ID
9 AACAAACU G CACCCACU 3386 AGUGGGUG UGAUG GCAUGCACUAUGC GCG AGUUUGUU 8442
18 CACCCACU G AACUCCGC 3387 GCGGAGUU UGAUG GCAUGCACUAUGC GCG AGUGGGUG 8443
25 UGAACUCC G CAGCUAGC 3388 GCUAGCUG UGAUG GCAUGCACUAUGC GCG GGAGUUCA 8444
50 CAGCCCUU G AGAUUUGA 3389 UCAAAUCU UGAUG GCAUGCACUAUGC GCG AAGGGCUG 8445
57 UGAGAUUU G AGGCCUUG 3390 CAAGGCCU UGAUG GCAUGCACUAUGC GCG AAAUCUCA 8446
82 GGAGUUUU G AGAGCAAA 3391 UUUGCUCU UGAUG GCAUGCACUAUGC GCG AAAACUCC 8447
93 AGCAAAAU G ACAACACC 3392 GGUGUUGU UGAUG GCAUGCACUAUGC GCG AUUUUGCU 8448
141 GAGCCAAU G AAAGGCCC 3393 GGGCCUUU UGAUG GCAUGCACUAUGC GCG AUUGGCUC 8449
154 GCCCUAUU G CUAUGCAA 3394 UUGCAUAG UGAUG GCAUGCACUAUGC GCG AAUAGGGC 8450
159 AUUGCUAU G CAAUCUGG 3395 CCAGAUUG UGAUG GCAUGCACUAUGC GCG AUAGCAAU 8451
213 GGCCCCAC G CAAAGCUU 3396 AAGCUUUG UGAUG GCAUGCACUAUGC GCG GUGGGGCC 8452
228 UUCUUCAU G AGGGAAUC 3397 GAUUCCCU UGAUG GCAUGCACUAUGC GCG AUGAAGAA 8453
264 CAGAUUAU G AAUGGGCU 3398 AGCCCAUU UGAUG GCAUGCACUAUGC GCG AUAAUCUG 8454
283 UCCACAUU G CCCUGGGG 3399 CCCCAGGG UGAUG GCAUGCACUAUGC GCG AAUGUGGA 8455
300 GGUCUUCU G AUGAUCCC 3400 GGGAUCAU UGAUG GCAUGCACUAUGC GCG AGAAGACC 8456
303 CUUCUGAU G AUCCCAGC 3401 GCUGGGAU UGAUG GCAUGCACUAUGC GCG AUCAGAAG 8457
322 GGAUCUAU G CACCCAUC 3402 GAUGGGUG UGAUG GCAUGCACUAUGC GCG AUAGAUCC 8458
336 AUCUGUGU G ACUGUGUG 3403 CACACAGU UGAUG GCAUGCACUAUGC GCG ACACAGAU 8459
441 GGAAAAAU G AUAAUGAA 3404 UUCAUUAU UGAUG GCAUGCACUAUGC GCG AUUUUUCC 8460
447 AUGAUAAU G AAUUCAUU 3405 AAUGAAUU UGAUG GCAUGCACUAUGC GCG AUUAUCAU 8461
456 AAUUCAUU G AGCCUCUU 3406 AAGAGGCU UGAUG GCAUGCACUAUGC GCG AAUGAAUU 8462
466 GCCUCUUU G CUGCCAUU 3407 AAUGGCAG UGAUG GCAUGCACUAUGC GCG AAAGAGGC 8463
469 UCUUUGCU G CCAUUUCU 3408 AGAAAUGG UGAUG GCAUGCACUAUGC GCG AGCAAAGA 8464
483 UCUGGAAU G AUUCUUUC 3409 GAAAGAAU UGAUG GCAUGCACUAUGC GCG AUUCCAGA 8465
546 GAGAGUCU G AAUUUUAU 3410 AUAAAAUU UGAUG GCAUGCACUAUGC GCG AGACUCUC 8466
592 ACAACUGU G AACCAGCU 3411 AGCUGGUU UGAUG GCAUGCACUAUGC GCG ACAGUUGU 8467
610 AUCCCUCU G AGAAAAAC 3412 GUUUUUCU UGAUG GCAUGCACUAUGC GCG AGAGGGAU 8468
678 UUGUCAGU G AUGGUGAU 3413 AUCAGCAU UGAUG GCAUGCACUAUGC GCG ACUGACAA 8469
681 UCAGUGAU G CUGAUCUU 3414 AAGAUCAG UGAUG GCAUGCACUAUGC GCG AUCACUGA 8470
684 GUGAUGCU G AUCUUUGC 3415 GCAAAGAU UGAUG GCAUGCACUAUGC GCG AGCAUCAC 8471
691 UGAUCUUU G CCUUCUUC 3416 GAAGAAGG UGAUG GCAUGCACUAUGC GCG AAAGAUCA 8472
727 GCAUCGUU G AGAAUGAA 3417 UUCAUUCU UGAUG GCAUGCACUAUGC GCG AACGAUGC 8473
733 UUGAGAAU G AAUGGAAA 3418 UUUCCAUU UGAUG GCAUGCACUAUGC GCG AUUCUCAA 8474
749 AAGAACGU G CUCCAGAC 3419 GUCUGGAG UGAUG GCAUGCACUAUGC GCG ACGUUCUU 8475
811 AGACUAUU G AAAUAAAA 3420 UUUUAUUU UGAUG GCAUGCACUAUGC GCG AAUAGUCU 8476
841 GGCUAACU G AAACAUCU 3421 AGAUGUUU UGAUG GCAUGCACUAUGC GCG AGUUAGCC 8477
865 CAAAGAAU G AAGAAGAC 3422 GUCUUCUU UGAUG GCAUGCACUAUGC GCG AUUCUUUG 8478
877 AAGACAUU G AAAUUAUU 3423 AAUAAUUU UGAUG GCAUGCACUAUGC GCG AAUGUCUU 8479
921 ACAGAGAC G AACUUUCC 3424 GGAAAGUU UGAUG GCAUGCACUAUGC GCG GUCUCUGU 8480
970 UAGAAAAU G ACAGCUCU 3425 AGAGCUGU UGAUG GCAUGCACUAUGC GCG AUUUUCUA 8481
987 CCUUAAGU G AUUUCUUC 3426 GAAGAAAU UGAUG GCAUGCACUAUGC GCG ACUUAAGG 8482
1048 AGAGACAU G CUGACUUU 3427 AAAGUCAG UGAUG GCAUGCACUAUGC GCG AUGUCUCU 8483
1051 GACAUGCU G ACUUUCAU 3428 AUGAAAGU UGAUG GCAUGCACUAUGC GCG AGCAUGUC 8484
1065 CAUUUCUU G AGGUACUC 3429 GAGUACCU UGAUG GCAUGCACUAUGC GCG AAGAAAUG 8485
1075 GGUACUCU G CACAUACG 3430 CGUAUGUG UGAUG GCAUGCACUAUGC GCG AGAGUACC 8486
1083 GCACAUAC G CACCACAU 3431 AUGUGGUG UGAUG GCAUGCACUAUGC GCG GUAUGUGC 8487
1107 UGGCCUUU G CAUGGAGU 3432 ACUCCAUG UGAUG GCAUGCACUAUGC GCG AAAGGCCA 8488
1116 CAUGGAGU G ACCAUAGC 3433 GCUAUGGU UGAUG GCAUGCACUAUGC GCG ACUCCAUG 8489
1142 CUUACAUU G AAUGUAGA 3434 UCUACAUU UGAUG GCAUGCACUAUGC GCG AAUGUAAG 8490
1184 GUUGUCAC G CUUCUUCU 3435 AGAAGAAG UGAUG GCAUGCACUAUGC GCG GUGACAAC 8491
1196 CUUCUUUU G AGCAACUU 3436 AAGUUGCU UGAUG GCAUGCACUAUGC GCG AAAAGAAG 8492
1214 CUUACACU G AAGAAAGG 3437 CCUUUCUU UGAUG GCAUGCACUAUGC GCG AGUGUAAG 8493
1229 GGCAGAAU G AGUGCUUC 3438 GAAGCACU UGAUG GCAUGCACUAUGC GCG AUUCUGCC 8494
1233 GAAUGAGU G CUUCAGAA 3439 UUCUGAAG UGAUG GCAUGCACUAUGC GCG ACUCAUUC 8495
1245 CAGAAUGU G AUUUCCUA 3440 UAGGAAAU UGAUG GCAUGCACUAUGC GCG ACAUUCUG 8496
1330 GGGAGACU G CACCUGAU 3441 AUCAGGUG UGAUG GCAUGCACUAUGC GCG AGUCUCCC 8497
1336 CUGCACCU G AUGGAAAA 3442 UUUUCCAU UGAUG GCAUGCACUAUGC GCG AGGUGCAG 8498
1352 AGAUAUAU G ACUGCUUC 3443 GAAGCAGU UGAUG GCAUGCACUAUGC GCG AUAUAUCU 8499
1356 AUAUGACU G CUUCAUGA 3444 UCAUGAAG UGAUG GCAUGCACUAUGC GCG AGUCAUAU 8500
1363 UGCUUCAU G ACAUUCCU 3445 AGGAAUGU UGAUG GCAUGCACUAUGC GCG AUGAAGCA 8501
Input Sequence = HSCD20A. Cut Site = YG/M or UG/U.
Stem Length = 8. Core Sequence = UGAUG GCAUGCACUAUGC GCG
HSCD20A (Human mRNA for CD20 receptor (S7) ; 1597 bp)
Table XII: Human CD20 Zinzyme and Substrate Sequence
Pos Substrate Seq ID Zinzyme Seq ID
9 AACAAACU G CACCCACU 3386 AGUGGGUG GCCGAAAGGCGAGUCAAGGUCU AGUUUGUU 8506
25 UGAACUCC G CAGCUAGC 3388 GCUAGCUG GCCGAAAGGCGAGUCAAGGUCU GGAGUUCA 8507
28 ACUCCGCA G CUAGCAUC 3450 GAUGCUAG GCCGAAAGGCGAGUCAAGGUCU UGCGGAGU 8508
32 CGCAGCUA G CAUCCAAA 3451 UUUGGAUG GCCGAAAGGCGAGUCAAGGUCU UAGCUGCG 8509
44 CCAAAUCA G CCCUUGAG 3452 CUCAAGGG GCCGAAAGGCGAGUCAAGGUCU UGAUUUGG 8510
60 GAUUUGAG G CCUUGGAG 3453 CUCCAAGG GCCGAAAGGCGAGUCAAGGUCU CUCAAAUC 8511
77 ACUCAGGA G UUUUGAGA 3454 UCUCAAAA GCCGAAAGGCGAGUCAAGGUCU UCCUGAGU 8512
86 UUUUGAGA G CAAAAUGA 3455 UCAUUUUG GCCGAAAGGCGAGUCAAGGUCU UCUCAAAA 8513
112 GAAAUUCA G UAAAUGGG 3456 CCCAUUUA GCCGAAAGGCGAGUCAAGGUCU UGAAUUUC 8514
130 CUUUCCUG G CAGAGCCA 3457 UGGCUCUG GCCGAAAGGCGAGUCAAGGUCU CAGGAAAG 8515
135 CUGGCAGA G CCAAUGAA 3458 UUCAUUGG GCCGAAAGGCGAGUCAAGGUCU UCUGCCAG 8516
146 AAUGAAAG G CCCUAUUG 3459 CAAUAGGG GCCGAAAGGCGAGUCAAGGUCU CUUUCAUU 8517
154 GCCCUAUU G CUAUGCAA 3394 UUGCAUAG GCCGAAAGGCGAGUCAAGGUCU AAUAGGGC 8518
159 AUUGCUAU G CAAUCUGG 3395 CCAGAUUG GCCGAAAGGCGAGUCAAGGUCU AUAGCAAU 8519
167 GCAAUCUG G UCCAAAAC 3460 GUUUUGGA GCCGAAAGGCGAGUCAAGGUCU CAGAUUGC 8520
192 AGGAGGAU G UCUUCACU 3461 AGUGAAGA GCCGAAAGGCGAGUCAAGGUCU AUCCUCCU 8521
202 CUUCACUG G UGGGCCCC 3462 GGGGCCCA GCCGAAAGGCGAGUCAAGGUCU CAGUGAAG 8522
206 ACUGGUGG G CCCCACGC 3463 GCGUGGGG GCCGAAAGGCGAGUCAAGGUCU CCACCAGU 8523
213 GGCCCCAC G CAAAGCUU 3396 AAGCUUUG GCCGAAAGGCGAGUCAAGGUCU GUGGGGCC 8524
218 CACGCAAA G CUUCUUCA 3464 UGAAGAAG GCCGAAAGGCGAGUCAAGGUCU UUUGCGUG 8525
250 CUUUGGGG G CUGUCCAG 3465 CUGGACAG GCCGAAAGGCGAGUCAAGGUCU CCCCAAAG 8526
253 UGGGGGCU G UCCAGAUU 3466 AAUCUGGA GCCGAAAGGCGAGUCAAGGUCU AGCCCCCA 8527
270 AUGAAUGG G CUCUUCCA 3467 UGGAAGAG GCCGAAAGGCGAGUCAAGGUCU CCAUUCAU 8528
283 UCCACAUU G CCCUGGGG 3399 CCCCAGGG GCCGAAAGGCGAGUCAAGGUCU AAUGUGGA 8529
293 CCUGGGGG G UCUUCUGA 3468 UCAGAAGA GCCGAAAGGCGAGUCAAGGUCU CCCCCAGG 8530
310 UGAUCCCA G CAGGGAUC 3469 GAUCCCUG GCCGAAAGGCGAGUCAAGGUCU UGGGAUCA 8531
322 GGAUCUAU G CACCCAUC 3402 GAUGGGUG GCCGAAAGGCGAGUCAAGGUCU AUAGAUCC 8532
332 ACCCAUCU G UGUGACUG 3470 CAGUCACA GCCGAAAGGCGAGUCAAGGUCU AGAUGGGU 8533
334 CCAUCUGU G UGACUGUG 3471 CACAGUCA GCCGAAAGGCGAGUCAAGGUCU ACAGAUGG 8534
340 GUGUGACU G UGUGGUAC 3472 GUACCACA GCCGAAAGGCGAGUCAAGGUCU AGUCACAC 8535
342 GUGACUGU G UGGUACCC 3473 GGGUACCA GCCGAAAGGCGAGUCAAGGUCU ACAGUCAC 8536
345 ACUGUGUG G UACCCUCU 3474 AGAGGGUA GCCGAAAGGCGAGUCAAGGUCU CACACAGU 8537
362 CUGGGGAG G CAUUAUGU 3475 ACAUAAUG GCCGAAAGGCGAGUCAAGGUCU CUCCCCAG 8538
369 GGCAUUAU G UAUAUUAU 3476 AUAAUAUA GCCGAAAGGCGAGUCAAGGUCU AUAAUGCC 8539
394 CACUCCUG G CAGCAACG 3477 CGUUGCUG GCCGAAAGGCGAGUCAAGGUCU CAGGAGUG 8540
397 UCCUGGCA G CAACGGAG 3478 CUCCGUUG GCCGAAAGGCGAGUCAAGGUCU UGCCAGGA 8541
420 UCCAGGAA G UGUUUGGU 3479 ACCAAACA GCCGAAAGGCGAGUCAAGGUCU UUCCUGGA 8542
422 CAGGAAGU G UUUGGUCA 3480 UGACCAAA GCCGAAAGGCGAGUCAAGGUCU ACUUCCUG 8543
427 AGUGUUUG G UCAAAGGA 3481 UCCUUUGA GCCGAAAGGCGAGUCAAGGUCU CAAACACU 8544
458 UUCAUUGA G CCUCUUUG 3482 CAAAGAGG GCCGAAAGGCGAGUCAAGGUCU UCAAUGAA 8545
466 GCCUCUUU G CUGCCAUU 3407 AAUGGCAG GCCGAAAGGCGAGUCAAGGUCU AAAGAGGC 8546
469 UCUUUGCU G CCAUUUCU 3408 AGAAAUGG GCCGAAAGGCGAGUCAAGGUCU AGCAAAGA 8547
542 AAUGGAGA G UCUGAAUU 3483 AAUUCAGA GCCGAAAGGCGAGUCAAGGUCU UCUCCAUU 8548
559 UUAUUAGA G CUCACACA 3484 UGUGUGAG GCCGAAAGGCGAGUCAAGGUCU UCUAAUAA 8549
590 AUACAACU G UGAACCAG 3485 CUGGUUCA GCCGAAAGGCGAGUCAAGGUCU AGUUGUAU 8550
598 GUGAACCA G CUAAUCCC 3486 GGGAUUAG GCCGAAAGGCGAGUCAAGGUCU UGGUUCAC 8551
638 CCAAUACU G UUACAGCA 3487 UGCUGUAA GCCGAAAGGCGAGUCAAGGUCU AGUAUUGG 8552
644 CUGUUACA G CAUACAAU 3488 AUUGUAUG GCCGAAAGGCGAGUCAAGGUCU UGUAACAG 8553
657 CAAUCUCU G UUCUUGGG 3489 CCCAAGAA GCCGAAAGGCGAGUCAAGGUCU AGAGAUUG 8554
665 GUUCUUGG G CAUUUUGU 3490 ACAAAAUG GCCGAAAGGCGAGUCAAGGUCU CCAAGAAC 8555
672 GGCAUUUU G UCAGUGAU 3491 AUCACUGA GCCGAAAGGCGAGUCAAGGUCU AAAAUGCC 8556
676 UUUUGUCA G UGAUGCUG 3492 CAGCAUCA GCCGAAAGGCGAGUCAAGGUCU UGACAAAA 8557
681 UCAGUGAU G CUGAUCUU 3414 AAGAUCAG GCCGAAAGGCGAGUCAAGGUCU AUCACUGA 8558
691 UGAUCUUU G CCUUCUUC 3416 GAAGAAGG GCCGAAAGGCGAGUCAAGGUCU AAAGAUCA 8559
709 AGGAACUU G UAAUAGCU 3493 AGCUAUUA GCCGAAAGGCGAGUCAAGGUCU AAGUUGCU 8560
715 UUGUAAUA G CUGGCAUC 3494 GAUGCCAG GCCGAAAGGCGAGUCAAGGUCU UAUUACAA 8561
719 AAUAGCUG G CAUCGUUG 3495 CAACGAUG GCCGAAAGGCGAGUCAAGGUCU CAGCUAUU 8562
724 CUGGCAUC G UUGAGAAU 3496 AUUCUCAA GCCGAAAGGCGAGUCAAGGUCU GAUGCCAG 8563
747 AAAAGAAC G UGCUCCAG 3497 CUGGAGCA GCCGAAAGGCGAGUCAAGGUCU GUUCUUUU 8564
749 AAGAACGU G CUCCAGAC 3419 GUCUGGAG GCCGAAAGGCGAGUCAAGGUCU ACGUUCUU 8565
772 CUAACAUA G UUCUCCUG 3498 CAGGAGAA GCCGAAAGGCGAGUCAAGGUCU UAUGUUAG 8566
780 GUUCUCCU G UCAGCAGA 3499 UCUGCUGA GCCGAAAGGCGAGUCAAGGUCU AGGAGAAC 8567
784 UCCUGUCA G CAGAAGAA 3500 UUCUUCUG GCCGAAAGGCGAGUCAAGGUCU UGACAGGA 8568
826 AAGAAGAA G UGGUUGGG 3501 CCCAACCA GCCGAAAGGCGAGUCAAGGUCU UUCUUCUU 8569
829 AAGAAGUG G UUGGGCUA 3502 UAGCCCAA GCCGAAAGGCGAGUCAAGGUCU CACUUCUU 8570
834 GUGGUUGG G CUAACUGA 3503 UCAGUUAG GCCGAAAGGCGAGUCAAGGUCU CCAACCAC 8571
974 AAAUGACA G CUCUCCUU 3504 AAGGAGAG GCCGAAAGGCGAGUCAAGGUCU UGUCAUUU 8572
985 CUCCUUAA G UGAUUUCU 3505 AGAAAUCA GCCGAAAGGCGAGUCAAGGUCU UUAAGGAG 8573
997 UUUCUUCU G UUUUCUGU 3506 ACAGAAAA GCCGAAAGGCGAGUCAAGGUCU AGAAGAAA 8574
1004 UGUUUUCU G UUUCCUUU 3507 AAAGGAAA GCCGAAAGGCGAGUCAAGGUCU AGAAAACA 8575
1024 AAACAUUA G UGUUCAUA 3508 UAUGAACA GCCGAAAGGCGAGUCAAGGUCU UAAUGUUU 8576
1026 ACAUUAGU G UUCAUAGC 3509 GCUAUGAA GCCGAAAGGCGAGUCAAGGUCU ACUAAUGU 8577
1033 UGUUCAUA G CUUCCAAG 3510 CUUGGAAG GCCGAAAGGCGAGUCAAGGUCU UAUGAACA 8578
1048 AGAGACAU G CUGACUUU 3427 AAAGUCAG GCCGAAAGGCGAGUCAAGGUCU AUGUCUCU 8579
1068 UUCUUGAG G UACUCUGC 3511 GCAGAGUA GCCGAAAGGCGAGUCAAGGUCU CUCAAGAA 8580
1075 GGUACUCU G CACAUACG 3430 CGUAUGUG GCCGAAAGGCGAGUCAAGGUCU AGAGUACC 8581
1083 GCACAUAC G CACCACAU 3431 AUGUGGUG GCCGAAAGGCGAGUCAAGGUCU GUAUGUGC 8582
1101 UCUAUCUG G CCUUUGCA 3512 UGCAAAGG GCCGAAAGGCGAGUCAAGGUCU CAGAUAGA 8583
1107 UGGCCUUU G CAUGGAGU 3432 ACUCCAUG GCCGAAAGGCGAGUCAAGGUCU AAAGGCCA 8584
1114 UGCAUGGA G UGACCAUA 3513 UAUGGUCA GCCGAAAGGCGAGUCAAGGUCU UCCAUGCA 8585
1123 UGACCAUA G CUCCUUCU 3514 AGAAGGAG GCCGAAAGGCGAGUCAAGGUCU UAUGGUCA 8586
1146 CAUUGAAU G UAGAGAAU 3515 AUUCUCUA GCCGAAAGGCGAGUCAAGGUCU AUUCAAUG 8587
1155 UAGAGAAU G UAGCCAUU 3516 AAUGGCUA GCCGAAAGGCGAGUCAAGGUCU AUUCUCUA 8588
1158 AGAAUGUA G CCAUUGUA 3517 UACAAUGG GCCGAAAGGCGAGUCAAGGUCU UACAUUCU 8589
1164 UAGCCAUU G UAGCAGCU 3518 AGCUGCUA GCCGAAAGGCGAGUCAAGGUCU AAUGGCUA 8590
1167 CCAUUGUA G CAGCUUGU 3519 ACAAGCUG GCCGAAAGGCGAGUCAAGGUCU UACAAUGG 8591
1170 UUGUAGCA G CUUGUGUU 3520 AACACAAG GCCGAAAGGCGAGUCAAGGUCU UGCUACAA 8592
1174 AGCAGCUU G UGUUGUCA 3521 UGACAACA GCCGAAAGGCGAGUCAAGGUCU AAGCUGCU 8593
1176 CAGCUUGU G UUGUCACG 3522 CGUGACAA GCCGAAAGGCGAGUCAAGGUCU ACAAGCUG 8594
1179 CUUGUGUU G UCACGCUU 3523 AAGCGUGA GCCGAAAGGCGAGUCAAGGUCU AACACAAG 8595
1184 GUUGUCAC G CUUCUUCU 3435 AGAAGAAG GCCGAAAGGCGAGUCAAGGUCU GUGACAAC 8596
1198 UCUUUUGA G CAACUUUC 3524 GAAAGUUG GCCGAAAGGCGAGUCAAGGUCU UCAAAAGA 8597
1222 GAAGAAAG G CAGAAUGA 3525 UCAUUCUG GCCGAAAGGCGAGUCAAGGUCU CUUUCUUC 8598
1231 CAGAAUGA G UGGUUCAG 3526 CUGAAGCA GCCGAAAGGCGAGUCAAGGUCU UCAUUCUG 8599
1233 GAAUGAGU G CUUCAGAA 3439 UUCUGAAG GCCGAAAGGCGAGUCAAGGUCU ACUCAUUC 8600
1243 UUGAGAAU G UGAUUUCC 3527 GGAAAUCA GCCGAAAGGCGAGUCAAGGUCU AUUCUGAA 8601
1261 ACUAACCU G UUCCUUGG 3528 CCAAGGAA GCCGAAAGGCGAGUCAAGGUCU AGGUUAGU 8602
1274 UUGGAUAG G CUUUUUAG 3529 CUAAAAAG GCCGAAAGGCGAGUCAAGGUCU CUAUCCAA 8603
1282 GCUUUUUA G UAUAGUAU 3530 AUACUAUA GCCGAAAGGCGAGUCAAGGUCU UAAAAAGC 8604
1287 UUAGUAUA G UAUUUUUU 3531 AAAAAAUA GCCGAAAGGCGAGUCAAGGUCU UAUACUAA 8605
1299 UUUUUUUU G UCAUUUUC 3532 GAAAAUGA GCCGAAAGGCGAGUCAAGGUCU AAAAAAAA 8606
1315 CUCCAUCA G CAACCAGG 3533 CCUGGUUG GCCGAAAGGCGAGUCAAGGUCU UGAUGGAG 8607
1330 GGGAGACU G CACCUGAU 3441 AUCAGGUG GCCGAAAGGCGAGUCAAGGUCU AGUCUCCC 8608
1356 AUAUGACU G CUUCAUGA 3444 UCAUGAAG GCCGAAAGGCGAGUCAAGGUCU AGUCAUAU 8609
1401 ACAUCUAC G UUUUUGGU 3534 ACCAAAAA GCCGAAAGGCGAGUCAAGGUCU GUAGAUGU 8610
1408 CGUUUUUG G UGGAGUCC 3535 GGACUCCA GCCGAAAGGCGAGUCAAGGUCU CAAAAACG 8611
1413 UUGGUGGA G UCCCUUUU 3536 AAAAGGGA GCCGAAAGGCGAGUCAAGGUCU UCCACCAA 8612
1422 UCCCUUUU G CAUCAUUG 3446 CAAUGAUG GCCGAAAGGCGAGUCAAGGUCU AAAAGGGA 8613
1430 GCAUCAUU G UUUUAAGG 3537 CCUUAAAA GCCGAAAGGCGAGUCAAGGUCU AAUGAUGC 8614
1502 UCUACAGG G CUGACAUU 3538 AAUGUCAG GCCGAAAGGCGAGUCAAGGUCU CCUGUAGA 8615
1511 CUGACAUU G UGGCACAU 3539 AUGUGCCA GCCGAAAGGCGAGUCAAGGUCU AAUGUCAG 8616
1514 ACAUUGUG G CACAUUCU 3540 AGAAUGUG GCCGAAAGGCGAGUCAAGGUCU CACAAUGU 8617
1527 UUCUUAGA G UUACCACA 3541 UGUGGUAA GCCGAAAGGCGAGUCAAGGUCU UCUAAGAA 8618
1549 UGAGGGAA G CUCUAAAU 3542 AUUUAGAG GCCGAAAGGCGAGUCAAGGUCU UUCCCUCA 8619
1559 UCUAAAUA G CCAACACC 3543 GGUGUUGG GCCGAAAGGCGAGUCAAGGUCU UAUUUAGA 8620
1573 ACCCAUCU G UUUUUUGU 3544 ACAAAAAA GCCGAAAGGCGAGUCAAGGUCU AGAUGGGU 8621
1580 UGUUUUUU G UAAAAACA 3545 UGUUUUUA GCCGAAAGGCGAGUCAAGGUCU AAAAAACA 8622
1589 UAAAAACA G CAUAGCUU 3546 AAGCUAUG GCCGAAAGGCGAGUCAAGGUCU UGUUUUUA 8623
Input Sequence = HSCD20A. Cut Site = G/Y
Stem Length = 8 . Core Sequence = GCcgaaagGCGaGuCaaGGuCu
HSCD20A (Human mRNA for CD20 receptor (S7) ; 1597 bp)
Table XIII: Human CD20 DNAzyme and Substrate Sequence
Pos Substrate Seq ID DNAzyme Seq ID
151 AAGGCCCU A UUGCUAUG 2720 CATAGCAA GGCTAGCTACAACGA AGGGCCTT 8624
157 CUAUUGCU A UGCAAUCU 2722 AGATTGCA GGCTAGCTACAACGA AGCAATAG 8625
262 UCCAGAUU A UGAAUGGG 2741 CCCATTCA GGCTAGCTACAACGA AATCTGGA 8626
320 AGGGAUCU A UGCACCCA 2751 TGGGTGCA GGCTAGCTACAACGA AGATCCCT 8627
347 UGUGUGGU A CCCUCUCU 2753 AGAGAGGG GGCTAGCTACAACGA ACCACACA 8628
367 GAGGGAUU A UGUAUAUU 2757 AATATACA GGCTAGCTACAACGA AATGCCTC 8629
371 CAUUAUGU A UAUUAUUU 2758 AAATAATA GGCTAGCTACAACGA ACATAATG 8630
373 UUAUGUAU A UUAUUUCC 2759 GGAAATAA GGCTAGCTACAACGA ATACATAA 8631
376 UGUAUAUU A UUUCCGGA 2761 TCCGGAAA GGCTAGCTACAACGA AATATACA 8632
504 AUGGACAU A CUUAAUAU 2787 ATATTAAG GGCTAGCTACAACGA ATGTCCAT 8633
511 UACUUAAU A UUAAAAUU 2790 AATTTTAA GGCTAGCTACAACGA ATTAAGTA 8634
553 UGAAUUUU A UUAGAGCU 2806 AGCTCTAA GGCTAGCTACAACGA AAAATTCA 8635
572 CACACCAU A UAUUAACA 2810 TGTTAATA GGCTAGCTACAACGA ATGGTGTG 8636
574 CACCAUAU A UUAACAUA 2811 TATGTTAA GGCTAGCTACAACGA ATATGGTG 8637
582 AUUAACAU A UACAACUG 2814 CAGTTGTA GGCTAGCTACAACGA ATGTTAAT 8638
584 UAACAUAU A CAACUGUG 2815 CACAGTTG GGCTAGCTACAACGA ATATGTTA 8639
628 CCCCAUCU A CCCAAUAC 2821 GTATTGGG GGCTAGCTACAACGA AGATGGGG 8640
635 UACCCAAU A CUGUUACA 2822 TGTAACAG GGCTAGCTACAACGA ATTGGGTA 8641
641 AUACUGUU A CAGCAUAC 2824 GTATGCTG GGCTAGCTACAACGA AACAGTAT 8642
648 UACAGCAU A CAAUCUCU 2825 AGAGATTG GGCTAGCTACAACGA ATGCTGTA 8643
808 AACAGAGU A UUGAAAUA 2855 TATTTCAA GGCTAGCTACAACGA AGTCTGTT 8644
883 UUGAAAUU A UUCCAAUC 2865 GATTGGAA GGCTAGCTACAACGA AATTTCAA 8645
1070 CUUGAGGU A CUCUGCAC 2913 GTGCAGAG GGCTAGCTACAACGA ACCTCAAG 8646
1081 CUGCACAU A CGCACCAC 2915 GTGGTGCG GGCTAGCTACAACGA ATGTGCAG 8647
1096 ACAUCUCU A UCUGGCCU 2918 AGGCCAGA GGCTAGCTACAACGA AGAGATGT 8648
1137 UCUCUCUU A CAUUGAAU 2929 ATTCAATG GGCTAGCTACAACGA AAGAGAGA 8649
1209 ACUUUCUU A CACUGAAG 2949 CTTCAGTG GGCTAGCTACAACGA AAGAAAGT 8650
1253 GAUUUCCU A CUAACCUG 2955 CAGGTTAG GGCTAGCTACAACGA AGGAAATC 8651
1284 UUUUUAGU A UAGUAUUU 2966 AAATACTA GGCTAGCTACAACGA ACTAAAAA 8652
1289 AGUAUAGU A UUUUUUUU 2968 AAAAAAAA GGCTAGCTACAACGA ACTATACT 8653
1348 GAAAAGAU A UAUGACUG 2984 CAGTCATA GGCTAGCTACAACGA ATCTTTTG 8654
1350 AAAGAUAU A UGACUGCU 2985 AGCAGTCA GGCTAGCTACAACGA ATATCTTT 8655
1377 CCUAAACU A UCUUUUUU 2991 AAAAAAGA GGCTAGCTACAACGA AGTTTAGG 8656
1388 UUUUUUUU A UUCCACAU 3000 ATGTGGAA GGCTAGCTACAACGA AAAAAAAA 8657
1399 CCACAUCU A CGUUUUUG 3004 CAAAAACG GGCTAGCTACAACGA AGATGTGG 8658
1471 GGGACAAU A CAGAACCC 3022 GGGTTCTG GGCTAGCTACAACGA ATTGTCCC 8659
1489 UUCCAUUU A UCUUUCUA 3027 TAGAAAGA GGCTAGCTACAACGA AAATGGAA 8660
1497 AUCUUUCU A CAGGGCUG 3032 CAGCCCTG GGCTAGCTACAACGA AGAAAGAT 8661
1530 UUAGAGUU A CCACACCC 3039 GGGTGTGG GGCTAGCTACAACGA AACTCTAA 8662
11 CAAACUGC A CCCACUGA 3050 TCAGTGGG GGCTAGCTACAACGA GCAGTTTG 8663
15 CUGCACCC A CUGAACUC 3053 GAGTTCAG GGCTAGCTACAACGA GGGTGCAG 8664
34 CAGCUAGC A UCCAAAUC 3059 GATTTGGA GGCTAGCTACAACGA GCTAGCTG 8665
99 AUGACAAC A CCCAGAAA 3072 TTTCTGGG GGCTAGCTACAACGA GTTGTCAT 8666
177 CCAAAACC A CUCUUCAG 3092 CTGAAGAG GGCTAGCTACAACGA GGTTTTGG 8667
198 AUGUCUUC A CUGGUGGG 3097 CCCACCAG GGCTAGCTACAACGA GAAGACAT 8668
211 UGGGCCCC A CGCAAAGC 3102 GCTTTGCG GGCTAGCTACAACGA GGGGCCCA 8669
226 GCUUCUUC A UGAGGGAA 3106 TTCCCTCA GGCTAGCTACAACGA GAAGAAGC 8670
278 GCUCUUCC A CAUUGCCC 3115 GGGCAATG GGCTAGCTACAACGA GGAAGAGC 8671
280 UCUUCCAC A UUGCCCUG 3116 CAGGGCAA GGCTAGCTACAACGA GTGGAAGA 8672
324 AUCUAUGC A CCCAUCUG 3127 CAGATGGG GGCTAGCTACAACGA GCATAGAT 8673
328 AUGCACCC A UCUGUGUG 3130 CACACAGA GGCTAGCTACAACGA GGGTGCAT 8674
364 GGGGAGGC A UUAUGUAU 3138 ATACATAA GGCTAGCTACAACGA GCCTCCCC 8675
387 UCCGGAUC A CUCCUGGC 3140 GCCAGGAG GGCTAGCTACAACGA GATCCGGA 8676
453 AUGAAUUC A UUGAGCCU 3150 AGGCTCAA GGCTAGCTACAACGA GAATTCAT 8677
472 UUGCUGCC A UUUCUGGA 3156 TCCAGAAA GGCTAGCTACAACGA GGCAGCAA 8678
496 UUUCAAUC A UGGACAUA 3160 TATGTCCA GGCTAGCTACAACGA GATTGAAA 8679
502 UCAUGGAC A UACUUAAU 3161 ATTAAGTA GGCTAGCTACAACGA GTCCATGA 8680
524 AAUUUCCC A UUUUUUAA 3165 TTAAAAAA GGCTAGCTACAACGA GGGAAATT 8681
563 UAGAGCUC A CACACCAU 3168 ATGGTGTG GGCTAGCTACAACGA GAGCTCTA 8682
565 GAGCUCAC A CACCAUAU 3169 ATATGGTG GGCTAGCTACAACGA GTGAGCTC 8683
567 GCUCACAC A CCAUAUAU 3170 ATATATGG GGCTAGCTACAACGA GTGTGAGC 8684
570 CACACACC A UAUAUUAA 3172 TTAATATA GGCTAGCTACAACGA GGTGTGTG 8685
580 AUAUUAAC A UAUACAAC 3173 GTTGTATA GGCTAGCTACAACGA GTTAATAT 8686
624 AACUCCCC A UCUACCCA 3187 TGGGTAGA GGCTAGCTACAACGA GGGGAGTT 8687
646 GUUACAGC A UACAAUCU 3194 AGATTGTA GGCTAGCTACAACGA GCTGTAAC 8688
667 UCUUGGGC A UUUUGUCA 3199 TGACAAAA GGCTAGCTACAACGA GCCCAAGA 8689
721 UAGCUGGC A UCGUUGAG 3210 CTCAACGA GGCTAGCTACAACGA GCCAGCTA 8690
769 AAUCUAAC A UAGUUCUC 3218 GAGAACTA GGCTAGCTACAACGA GTTAGATT 8691
846 ACUGAAAC A UCUUCCCA 3228 TGGGAAGA GGCTAGCTACAACGA GTTTCAGT 8692
874 AAGAAGAC A UUGAAAUU 3235 AATTTCAA GGCTAGCTACAACGA GTCTTCTT 8693
957 GAAUCCUC A CCAAUAGA 3253 TCTATTGG GGCTAGCTACAACGA GAGGATTC 8694
1020 UUUUAAAC A UUAGUGUU 3266 AACACTAA GGCTAGCTACAACGA GTTTAAAA 8695
1030 UAGUGUUC A UAGCUUCC 3267 GGAAGCTA GGCTAGCTACAACGA GAACACTA 8696
1046 CAAGAGAC A UGCUGACU 3271 AGTCAGCA GGCTAGCTACAACGA GTCTCTTG 8697
1058 UGACUUUC A UUUCUUGA 3274 TCAAGAAA GGCTAGCTACAACGA GAAAGTCA 8698
1077 UACUCUGC A CAUACGCA 3278 TGCGTATG GGCTAGCTACAACGA GCAGAGTA 8699
1079 CUCUGCAC A UACGCACC 3279 GGTGCGTA GGCTAGCTACAACGA GTGCAGAG 8700
1085 ACAUACGC A CCACAUCU 3280 AGATGTGG GGCTAGCTACAACGA GCGTATGT 8701
1088 UACGCACC A CAUCUCUA 3282 TAGAGATG GGCTAGCTACAACGA GGTGCGTA 8702
1090 CGCACCAC A UCUCUAUC 3283 GATAGAGA GGCTAGCTACAACGA GTGGTGCG 8703
1109 GCCUUUGC A UGGAGUGA 3289 TCACTCCA GGCTAGCTACAACGA GCAAAGGC 8704
1120 GAGUGACC A UAGCUCCU 3291 AGGAGCTA GGCTAGCTACAACGA GGTCACTC 8705
1139 UCUCUUAC A UUGAAUGU 3298 ACATTCAA GGCTAGCTACAACGA GTAAGAGA 8706
1161 AUGUAGCC A UUGUAGCA 3300 TGCTACAA GGCTAGCTACAACGA GGCTACAT 8707
1182 GUGUUGUC A CGCUUCUU 3303 AAGAAGCG GGCTAGCTACAACGA GACAACAC 8708
1211 UUUCUUAC A CUGAAGAA 3310 TTCTTCAG GGCTAGCTACAACGA GTAAGAAA 8709
1302 UUUUUGUC A UUUUCUCC 3323 GGAGAAAA GGCTAGCTACAACGA GACAAAAA 8710
1311 UUUUCUCC A UCAGCAAC 3326 GTTGCTGA GGCTAGCTACAACGA GGAGAAAA 8711
1332 GAGACUGC A CCUGAUGG 3332 CCATCAGG GGCTAGCTACAACGA GCAGTCTC 8712
1361 ACUGCUUC A UGACAUUC 3337 GAATGTCA GGCTAGCTACAACGA GAAGCAGT 8713
1366 UUCAUGAC A UUCCUAAA 3338 TTTAGGAA GGCTAGCTACAACGA GTCATGAA 8714
1393 UUUAUUCC A CAUCUACG 3344 CGTAGATG GGCTAGCTACAACGA GGAATAAA 8715
1395 UAUUCCAC A UCUACGUU 3345 AACGTAGA GGCTAGCTACAACGA GTGGAATA 8716
1424 CCUUUUGC A UCAUUGUU 3350 AACAATGA GGCTAGCTACAACGA GCAAAAGG 8717
1427 UUUGCAUC A UUGUUUUA 3351 TAAAACAA GGCTAGCTACAACGA GATGCAAA 8718
1480 CAGAACCC A UUCCAUUU 3358 AAATGGAA GGCTAGCTACAACGA GGGTTCTG 8719
1485 CCCAUUCC A UUUAUCUU 3360 AAGATAAA GGCTAGCTACAACGA GGAATGGG 8720
1508 GGGCUGAC A UUGUGGCA 3365 TGCCACAA GGCTAGCTACAACGA GTCAGCCC 8721
1516 AUUGUGGC A CAUUCUUA 3366 TAAGAATG GGCTAGCTACAACGA GCCACAAT 8722
1518 UGUGGCAC A UUCUUAGA 3367 TCTAAGAA GGCTAGCTACAACGA GTGCCACA 8723
1533 GAGUUACC A CACCCCAU 3370 ATGGGGTG GGCTAGCTACAACGA GGTAACTC 8724
1535 GUUACCAC A CCCCAUGA 3371 TCATGGGG GGCTAGCTACAACGA GTGGTAAC 8725
1540 CACACCCC A UGAGGGAA 3375 TTCCCTCA GGCTAGCTACAACGA GGGGTGTG 8726
1565 UAGCCAAC A CCCAUCUG 3380 CAGATGGG GGCTAGCTACAACGA GTTGGCTA 8727
1569 CAACACCC A UCUGUUUU 3383 AAAACAGA GGCTAGCTACAACGA GGGTGTTG 8728
9 AACAAACU G CACCCACU 3386 AGTGGGTG GGCTAGCTACAACGA AGTTTGTT 8729
25 UGAACUCC G CAGCUAGC 3388 GCTAGCTG GGCTAGCTACAACGA GGAGTTCA 8730
154 GCCCUAUU G CUAUGCAA 3394 TTGCATAG GGCTAGCTACAACGA AATAGGGC 8731
159 AUUGCUAU G CAAUCUGG 3395 CCAGATTG GGCTAGCTACAACGA ATAGCAAT 8732
213 GGCCCCAC G CAAAGCUU 3396 AAGCTTTG GGCTAGCTACAACGA GTGGGGCC 8733
283 UCCACAUU G CCCUGGGG 3399 CCCCAGGG GGCTAGCTACAACGA AATGTGGA 8734
322 GGAUCUAU G CACCCAUC 3402 GATGGGTG GGCTAGCTACAACGA ATAGATCC 8735
466 GCCUCUUU G CUGCCAUU 3407 AATGGCAG GGCTAGCTACAACGA AAAGAGGC 8736
469 UCUUUGCU G CCAUUUCU 3408 AGAAATGG GGCTAGCTACAACGA AGCAAAGA 8737
681 UCAGUGAU G CUGAUCUU 3414 AAGATCAG GGCTAGCTACAACGA ATCACTGA 8738
691 UGAUCUUU G CCUUCUUC 3416 GAAGAAGG GGCTAGCTACAACGA AAAGATCA 8739
749 AAGAACGU G CUCCAGAC 3419 GTCTGGAG GGCTAGCTACAACGA ACGTTCTT 8740
1048 AGAGACAU G CUGACUUU 3427 AAAGTCAG GGCTAGCTACAACGA ATGTCTCT 8741
1075 GGUACUCU G CACAUACG 3430 CGTATGTG GGCTAGCTACAACGA AGAGTACC 8742
1083 GCACAUAC G CACCACAU 3431 ATGTGGTG GGCTAGCTACAACGA GTATGTGC 8743
1107 UGGCCUUU G CAUGGAGU 3432 ACTCCATG GGCTAGCTACAACGA AAAGGCCA 8744
1184 GUUGUCAC G CUUCUUCU 3435 AGAAGAAG GGCTAGCTACAACGA GTGACAAC 8745
1233 GAAUGAGU G CUUCAGAA 3439 TTCTGAAG GGCTAGCTACAACGA ACTCATTC 8746
1330 GGGAGACU G CACCUGAU 3441 ATCAGGTG GGCTAGCTACAACGA AGTCTCCC 8747
1356 AUAUGACU G CUUCAUGA 3444 TCATGAAG GGCTAGCTACAACGA AGTCATAT 8748
1422 UCCCUUUU G CAUCAUUG 3446 CAATGATG GGCTAGCTACAACGA AAAAGGGA 8749
28 ACUCCGCA G CUAGCAUC 3450 GATGCTAG GGCTAGCTACAACGA TGCGGAGT 8750
32 CGCAGCUA G CAUCCAAA 3451 TTTGGATG GGCTAGCTACAACGA TAGCTGCG 8751
44 CCAAAUCA G CCCUUGAG 3452 CTCAAGGG GGCTAGCTACAACGA TGATTTGG 8752
60 GAUUUGAG G CCUUGGAG 3453 CTCCAAGG GGCTAGCTACAACGA CTCAAATC 8753
77 ACUCAGGA G UUUUGAGA 3454 TCTCAAAA GGCTAGCTACAACGA TCCTGAGT 8754
86 UUUUGAGA G CAAAAUGA 3455 TCATTTTG GGCTAGCTACAACGA TCTCAAAA 8755
112 GAAAUUCA G UAAAUGGG 3456 CCCATTTA GGCTAGCTACAACGA TGAATTTC 8756
130 CUUUCCUG G CAGAGCCA 3457 TGGCTCTG GGCTAGCTACAACGA CAGGAAAG 8757
135 CUGGCAGA G CCAAUGAA 3458 TTCATTGG GGCTAGCTACAACGA TCTGCCAG 8758
146 AAUGAAAG G CCCUAUUG 3459 CAATAGGG GGCTAGCTACAACGA CTTTCATT 8759
167 GCAAUCUG G UCCAAAAC 3460 GTTTTGGA GGCTAGCTACAACGA CAGATTGC 8760
192 AGGAGGAU G UCUUCACU 3461 AGTGAAGA GGCTAGCTACAACGA ATCCTCCT 8761
202 CUUCACUG G UGGGCCCC 3462 GGGGCCCA GGCTAGCTACAACGA CAGTGAAG 8762
206 ACUGGUGG G CCCCACGC 3463 GCGTGGGG GGCTAGCTACAACGA CCACCAGT 8763
218 CACGCAAA G CUUCUUCA 3464 TGAAGAAG GGCTAGCTACAACGA TTTGCGTG 8764
250 CUUUGGGG G CUGUCCAG 3465 CTGGACAG GGCTAGCTACAACGA CCCCAAAG 8765
253 UGGGGGCU G UCCAGAUU 3466 AATCTGGA GGCTAGCTACAACGA AGCCCCCA 8766
270 AUGAAUGG G CUCUUCCA 3467 TGGAAGAG GGCTAGCTACAACGA CCATTCAT 8767
293 CCUGGGGG G UCUUCUGA 3468 TCAGAAGA GGCTAGCTACAACGA CCCCCAGG 8768
310 UGAUCCCA G CAGGGAUC 3469 GATCCCTG GGCTAGCTACAACGA TGGGATCA 8769
332 ACCCAUCU G UGUGACUG 3470 CAGTCACA GGCTAGCTACAACGA AGATGGGT 8770
334 CCAUCUGU G UGACUGUG 3471 CACAGTCA GGCTAGCTACAACGA ACAGATGG 8771
340 GUGUGACU G UGUGGUAC 3472 GTACCACA GGCTAGCTACAACGA AGTCACAC 8772
342 GUGACUGU G UGGUACCC 3473 GGGTACCA GGCTAGCTACAACGA ACAGTCAC 8773
345 ACUGUGUG G UACCCUCU 3474 AGAGGGTA GGCTAGCTACAACGA CACACAGT 8774
362 CUGGGGAG G CAUUAUGU 3475 ACATAATG GGCTAGCTACAACGA CTCCCCAG 8775
369 GGCAUUAU G UAUAUUAU 3476 ATAATATA GGCTAGCTACAACGA ATAATGCC 8776
394 CACUCCUG G CAGCAACG 3477 CGTTGCTG GGCTAGCTACAACGA CAGGAGTG 8777
397 UCCUGGCA G CAACGGAG 3478 CTCCGTTG GGCTAGCTACAACGA TGCCAGGA 8778
420 UCCAGGAA G UGUUUGGU 3479 ACCAAACA GGCTAGCTACAACGA TTCCTGGA 8779
422 CAGGAAGU G UUUGGUCA 3480 TGACCAAA GGCTAGCTACAACGA ACTTCCTG 8780
427 AGUGUUUG G UCAAAGGA 3481 TCCTTTGA GGCTAGCTACAACGA CAAACACT 8781
458 UUCAUUGA G CCUCUUUG 3482 CAAAGAGG GGCTAGCTACAACGA TCAATGAA 8782
542 AAUGGAGA G UCUGAAUU 3483 AATTCAGA GGCTAGCTACAACGA TCTCCATT 8783
559 UUAUUAGA G CUCACACA 3484 TGTGTGAG GGCTAGCTACAACGA TCTAATAA 8784
590 AUACAACU G UGAACCAG 3485 CTGGTTCA GGCTAGCTACAACGA AGTTGTAT 8785
598 GUGAACCA G CUAAUCCC 3486 GGGATTAG GGCTAGCTACAACGA TGGTTCAG 8786
638 CCAAUACU G UUACAGCA 3487 TGCTGTAA GGCTAGCTACAACGA AGTATTGG 8787
644 CUGUUACA G CAUACAAU 3488 ATTGTATG GGCTAGCTACAACGA TGTAACAG 8788
657 CAAUCUCU G UUCUUGGG 3489 CCCAAGAA GGCTAGCTACAACGA AGAGATTG 8789
665 GUUCUUGG G CAUUUUGU 3490 ACAAAATG GGCTAGCTACAACGA CCAAGAAC 8790
672 GGCAUUUU G UCAGUGAU 3491 ATCACTGA GGCTAGCTACAACGA AAAATGCC 8791
676 UUUUGUCA G UGAUGCUG 3492 CAGCATCA GGCTAGCTACAACGA TGACAAAA 8792
709 AGGAACUU G UAAUAGCU 3493 AGCTATTA GGCTAGCTACAACGA AAGTTCCT 8793
715 UUGUAAUA G CUGGCAUC 3494 GATGCCAG GGCTAGCTACAACGA TATTACAA 8794
719 AAUAGCUG G CAUCGUUG 3495 CAACGATG GGCTAGCTACAACGA CAGCTATT 8795
724 CUGGCAUC G UUGAGAAU 3496 ATTCTCAA GGCTAGCTACAACGA GATGCCAG 8796
747 AAAAGAAC G UGCUCCAG 3497 CTGGAGCA GGCTAGCTACAACGA GTTCTTTT 8797
772 CUAACAUA G UUCUCCUG 3498 CAGGAGAA GGCTAGCTACAACGA TATGTTAG 8798
780 GUUCUCCU G UCAGCAGA 3499 TCTGCTGA GGCTAGCTACAACGA AGGAGAAC 8799
784 UCCUGUCA G CAGAAGAA 3500 TTCTTCTG GGCTAGCTACAACGA TGACAGGA 8800
826 AAGAAGAA G UGGUUGGG 3501 CCCAACCA GGCTAGCTACAACGA TTCTTCTT 8801
829 AAGAAGUG G UUGGGCUA 3502 TAGCCCAA GGCTAGCTACAACGA CACTTCTT 8802
834 GUGGUUGG G CUAACUGA 3503 TCAGTTAG GGCTAGCTACAACGA CCAACCAC 8803
974 AAAUGACA G CUCUCCUU 3504 AAGGAGAG GGCTAGCTACAACGA TGTCATTT 8804
985 CUCCUUAA G UGAUUUCU 3505 AGAAATCA GGCTAGCTACAACGA TTAAGGAG 8805
997 UUUCUUCU G UUUUCUGU 3506 ACAGAAAA GGCTAGCTACAACGA AGAAGAAA 8806
1004 UGUUUUCU G UUUCCUUU 3507 AAAGGAAA GGCTAGCTACAACGA AGAAAACA 8807
1024 AAACAUUA G UGUUCAUA 3508 TATGAACA GGCTAGCTACAACGA TAATGTTT 8808
1026 ACAUUAGU G UUCAUAGC 3509 GCTATGAA GGCTAGCTACAACGA ACTAATGT 8809
1033 UGUUCAUA G CUUCCAAG 3510 CTTGGAAG GGCTAGCTACAACGA TATGAACA 8810
1068 UUCUUGAG G UACUCUGC 3511 GCAGAGTA GGCTAGCTACAACGA CTCAAGAA 8811
1101 UCUAUCUG G CCUUUGCA 3512 TGCAAAGG GGCTAGCTACAACGA CAGATAGA 8812
1114 UGCAUGGA G UGACCAUA 3513 TATGGTCA GGCTAGCTACAACGA TCCATGCA 8813
1123 UGACCAUA G CUCCUUCU 3514 AGAAGGAG GGCTAGCTACAACGA TATGGTCA 8814
1146 CAUUGAAU G UAGAGAAU 3515 ATTCTCTA GGCTAGCTACAACGA ATTCAATG 8815
1155 UAGAGAAU G UAGCCAUU 3516 AATGGCTA GGCTAGCTACAACGA ATTCTCTA 8816
1158 AGAAUGUA G CCAUUGUA 3517 TACAATGG GGCTAGCTACAACGA TACATTCT 8817
1164 UAGCCAUU G UAGCAGCU 3518 AGCTGCTA GGCTAGCTACAACGA AATGGCTA 8818
1167 CCAUUGUA G CAGCUUGU 3519 ACAAGCTG GGCTAGCTACAACGA TACAATGG 8819
1170 UUGUAGCA G CUUGUGUU 3520 AACACAAG GGCTAGCTACAACGA TGCTACAA 8820
1174 AGCAGCUU G UGUUGUCA 3521 TGACAACA GGCTAGCTACAACGA AAGCTGCT 8821
1176 CAGCUUGU G UUGUCACG 3522 CGTGACAA GGCTAGCTACAACGA ACAAGCTG 8822
1179 CUUGUGUU G UCACGCUU 3523 AAGCGTGA GGCTAGCTACAACGA AACACAAG 8823
1198 UCUUUUGA G CAACUUUC 3524 GAAAGTTG GGCTAGCTACAACGA TCAAAAGA 8824
1222 GAAGAAAG G CAGAAUGA 3525 TCATTCTG GGCTAGCTACAACGA CTTTCTTC 8825
1231 CAGAAUGA G UGCUUCAG 3526 CTGAAGCA GGCTAGCTACAACGA TCATTCTG 8826
1243 UUCAGAAU G UGAUUUCC 3527 GGAAATCA GGCTAGCTACAACGA ATTCTGAA 8827
1261 ACUAACCU G UUCCUUGG 3528 CCAAGGAA GGCTAGCTACAACGA AGGTTAGT 8828
1274 UUGGAUAG G CUUUUUAG 3529 CTAAAAAG GGCTAGCTACAACGA CTATCCAA 8829
1282 GCUUUUUA G UAUAGUAU 3530 ATACTATA GGCTAGCTACAACGA TAAAAAGC 8830
1287 UUAGUAUA G UAUUUUUU 3531 AAAAAATA GGCTAGCTACAACGA TATACTAA 8831
1299 UUUUUUUU G UCAUUUUC 3532 GAAAATGA GGCTAGCTACAACGA AAAAAAAA 8832
1315 CUCCAUCA G CAACCAGG 3533 CCTGGTTG GGCTAGCTACAACGA TGATGGAG 8833
1401 ACAUCUAC G UUUUUGGU 3534 ACCAAAAA GGCTAGCTACAACGA GTAGATGT 8834
1408 CGUUUUUG G UGGAGUCC 3535 GGACTCCA GGCTAGCTACAACGA CAAAAACG 8835
1413 UUGGUGGA G UCCCUUUU 3536 AAAAGGGA GGCTAGCTACAACGA TCCACCAA 8836
1430 GCAUCAUU G UUUUAAGG 3537 CCTTAAAA GGCTAGCTACAACGA AATGATGC 8837
1502 UCUACAGG G CUGACAUU 3538 AATGTCAG GGCTAGCTACAACGA CCTGTAGA 8838
1511 CUGACAUU G UGGCACAU 3539 ATGTGCCA GGCTAGCTACAACGA AATGTCAG 8839
1514 ACAUUGUG G CACAUUCU 3540 AGAATGTG GGCTAGCTACAACGA CACAATGT 8840
1527 UUCUUAGA G UUACCACA 3541 TGTGGTAA GGCTAGCTACAACGA TCTAAGAA 8841
1549 UGAGGGAA G CUCUAAAU 3542 ATTTAGAG GGCTAGCTACAACGA TTCCCTCA 8842
1559 UCUAAAUA G CCAACACC 3543 GGTGTTGG GGCTAGCTACAACGA TATTTAGA 8843
1573 ACCCAUCU G UUUUUUGU 3544 ACAAAAAA GGCTAGCTACAACGA AGATGGGT 8844
1580 UGUUUUUU G UAAAAACA 3545 TGTTTTTA GGCTAGCTACAACGA AAAAAACA 8845
1589 UAAAAACA G CAUAGCUU 3546 AAGCTATG GGCTAGCTACAACGA TGTTTTTA 8846
20 CCCACUGA A CUCCGCAG 3547 CTGCGGAG GGCTAGCTACAACGA TCAGTGGG 8847
40 GCAUCCAA A UCAGCCCU 3548 AGGGCTGA GGCTAGCTACAACGA TTGGATGC 8848
53 CCCUUGAG A UUUGAGGC 3549 GCCTCAAA GGCTAGCTACAACGA CTCAAGGG 8849
69 CCUUGGAG A CUCAGGAG 3550 CTCCTGAG GGCTAGCTACAACGA CTCCAAGG 8850
91 AGAGCAAA A UGACAACA 3551 TGTTGTCA GGCTAGCTACAACGA TTTGCTCT 8851
94 GCAAAAUG A CAACACCC 3552 GGGTGTTG GGCTAGCTACAACGA CATTTTGC 8852
97 AAAUGACA A CACCCAGA 3553 TCTGGGTG GGCTAGCTACAACGA TGTCATTT 8853
107 ACCCAGAA A UUCAGUAA 3554 TTACTGAA GGCTAGCTACAACGA TTCTGGGT 8854
116 UUCAGUAA A UGGGACUU 3555 AAGTCCCA GGCTAGCTACAACGA TTACTGAA 8855
121 UAAAUGGG A CUUUCCUG 3556 CAGGAAAG GGCTAGCTACAACGA CCCATTTA 8856
139 CAGAGCCA A UGAAAGGC 3557 GCCTTTCA GGCTAGCTACAACGA TGGCTCTG 8857
162 GCUAUGCA A UCUGGUCC 3558 GGACCAGA GGCTAGCTACAACGA TGCATAGC 8858
174 GGUCCAAA A CCACUCUU 3559 AAGAGTGG GGCTAGCTACAACGA TTTGGACC 8859
190 UCAGGAGG A UGUCUUCA 3560 TGAAGACA GGCTAGCTACAACGA CCTCCTGA 8860
234 AUGAGGGA A UCUAAGAC 3561 GTCTTAGA GGCTAGCTACAACGA TCCCTCAT 8861
241 AAUGUAAG A CUUUGGGG 3562 CCCCAAAG GGCTAGCTACAACGA CTTAGATT 8862
259 CUGUCCAG A UUAUGAAU 3563 ATTCATAA GGCTAGCTACAACGA CTGGACAG 8863
266 GAUUAUGA A UGGGCUCU 3564 AGAGCCCA GGCTAGCTACAACGA TCATAATC 8864
301 GUCUUCUG A UGAUCCCA 3565 TGGGATCA GGCTAGCTACAACGA CAGAAGAC 8865
304 UUCUGAUG A UCCCAGCA 3566 TGCTGGGA GGCTAGCTACAACGA CATCAGAA 8866
316 CAGCAGGG A UCUAUGCA 3567 TGCATAGA GGCTAGCTACAACGA CCCTGCTG 8867
337 UCUGUGUG A CUGUGUGG 3568 CCACACAG GGCTAGCTACAACGA CACACAGA 8868
384 AUUUCCGG A UCACUCCU 3569 AGGAGTGA GGCTAGCTACAACGA CCGGAAAT 8869
400 UGGCAGCA A CGGAGAAA 3570 TTTCTCCG GGCTAGCTACAACGA TGCTGCCA 8870
410 GGAGAAAA A CUCCAGGA 3571 TCCTGGAG GGCTAGCTACAACGA TTTTCTCC 8871
439 AAGGAAAA A UGAUAAUG 3572 CATTATCA GGCTAGCTACAACGA TTTTCCTT 8872
442 GAAAAAUG A UAAUGAAU 3573 ATTCATTA GGCTAGCTACAACGA CATTTTTC 8873
445 AAAUGAUA A UGAAUUCA 3574 TGAATTCA GGCTAGCTACAACGA TATCATTT 8874
449 GAUAAUGA A UUCAUUGA 3575 TCAATGAA GGCTAGCTACAACGA TCATTATC 8875
481 UUUCUGGA A UGAUUCUU 3576 AAGAATCA GGCTAGCTACAACGA TCCAGAAA 8876
484 CUGGAAUG A UUCUUUCA 3577 TGAAAGAA GGCTAGCTACAACGA CATTCCAG 8877
493 UUCUUUCA A UCAUGGAC 3578 GTCCATGA GGCTAGCTACAACGA TGAAAGAA 8878
500 AAUCAUGG A CAUACUUA 3579 TAAGTATG GGCTAGCTACAACGA CCATGATT 8879
509 CAUACUUA A UAUUAAAA 3580 TTTTAATA GGCTAGCTACAACGA TAAGTATG 8880
517 AUAUUAAA A UUUCCCAU 3581 ATGGGAAA GGCTAGCTACAACGA TTTAATAT 8881
535 UUUUAAAA A UGGAGAGU 3582 ACTCTCCA GGCTAGCTACAACGA TTTTAAAA 8882
548 GAGUCUGA A UUUUAUUA 3583 TAATAAAA GGCTAGCTACAACGA TCAGACTC 8883
578 AUAUAUUA A CAUAUACA 3584 TGTATATG GGCTAGCTACAACGA TAATATAT 8884
587 CAUAUACA A CUGUGAAC 3585 GTTCACAG GGCTAGCTACAACGA TGTATATG 8885
594 AACUGUGA A CCAGCUAA 3586 TTAGCTGG GGCTAGCTACAACGA TCACAGTT 8886
602 ACCAGCUA A UCCCUCUG 3587 CAGAGGGA GGCTAGCTACAACGA TAGCTGGT 8887
617 UGAGAAAA A CUCCCCAU 3588 ATGGGGAG GGCTAGCTACAACGA TTTTCTCA 8888
633 UCUACCCA A UACUGUUA 3589 TAACAGTA GGCTAGCTACAACGA TGGGTAGA 8889
651 AGCAUACA A UCUCUGUU 3590 AAGAGAGA GGCTAGCTACAACGA TGTATGCT 8890
679 UGUCAGUG A UGCUGAUC 3591 GATCAGCA GGCTAGCTACAACGA CACTGACA 8891
685 UGAUGCUG A UCUUUGCC 3592 GGCAAAGA GGCTAGCTACAACGA CAGCATCA 8892
705 UUCCAGGA A CUUGUAAU 3593 ATTACAAG GGCTAGCTACAACGA TCCTGGAA 8893
712 AACUUGUA A UAGCUGGC 3594 GCCAGCTA GGCTAGCTACAACGA TACAAGTT 8894
731 CGUUGAGA A UGAAUGGA 3595 TCCATTCA GGCTAGCTACAACGA TCTCAACG 8895
735 GAGAAUGA A UGGAAAAG 3596 CTTTTCCA GGCTAGCTACAACGA TCATTCTG 8896
745 GGAAAAGA A CGUGCUCC 3597 GGAGCACG GGCTAGCTACAACGA TCTTTTCC 8897
756 UGCUCCAG A CCCAAAUC 3598 GATTTGGG GGCTAGCTACAACGA CTGGAGCA 8898
762 AGACCCAA A UCUAACAU 3599 ATGTTAGA GGCTAGCTACAACGA TTGGGTCT 8899
767 CAAAUCUA A CAUAGUUC 3600 GAACTATG GGCTAGCTACAACGA TAGATTTG 8900
801 AAAAAAGA A CAGACUAU 3601 ATAGTCTG GGCTAGCTACAACGA TCTTTTTT 8901
805 AAGAACAG A CUAUUGAA 3602 TTCAATAG GGCTAGCTACAACGA CTGTTCTT 8902
814 CUAUUGAA A UAAAAGAA 3603 TTCTTTTA GGCTAGCTACAACGA TTCAATAG 8903
838 UUGGGCUA A CUGAAACA 3604 TGTTTCAG GGCTAGCTACAACGA TAGCCCAA 8904
844 UAACUGAA A CAUCUUCC 3605 GGAAGATG GGCTAGCTACAACGA TTCAGTTA 8905
855 UCUUCCCA A CCAAAGAA 3606 TTCTTTGG GGCTAGCTACAACGA TGGGAAGA 8906
863 AGCAAAGA A UGAAGAAG 3607 CTTCTTCA GGCTAGCTACAACGA TCTTTGGT 8907
872 UGAAGAAG A CAUUGAAA 3608 TTTCAATG GGCTAGCTACAACGA CTTCTTCA 8908
880 ACAUUGAA A UUAUUCCA 3609 TGGAATAA GGCTAGCTACAACGA TTCAATGT 8909
889 UUAUUCCA A UCCAAGAA 3610 TTCTTGGA GGCTAGCTACAACGA TGGAATAA 8910
913 AAGAAGAA A CAGAGACG 3611 CGTCTCTG GGCTAGCTACAACGA TTCTTCTT 8911
919 AAACAGAG A CGAACUUU 3612 AAAGTTCG GGCTAGCTACAACGA CTCTGTTT 8912
923 AGAGACGA A CUUUCCAG 3613 CTGGAAAG GGCTAGCTACAACGA TCGTCTCT 8913
933 UUUCCAGA A CCUCCCCA 3614 TGGGGAGG GGCTAGCTACAACGA TCTGGAAA 8914
944 UCCCCAAG A UCAGGAAU 3615 ATTCCTGA GGCTAGCTACAACGA CTTGGGGA 8915
951 GAUCAGGA A UCCUCACC 3616 GGTGAGGA GGCTAGCTACAACGA TCCTGATC 8916
961 CCUCACCA A UAGAAAAU 3617 ATTTTCTA GGCTAGCTACAACGA TGGTGAGG 8917
968 AAUAGAAA A UGACAGCU 3618 AGCTGTCA GGCTAGCTACAACGA TTTCTATT 8918
971 AGAAAAUG A CAGCUCUC 3619 GAGAGCTG GGCTAGCTACAACGA CATTTTCT 8919
988 CUUAAGUG A UUUCUUCU 3620 AGAAGAAA GGCTAGCTACAACGA CACTTAAG 8920
1018 UUUUUUAA A CAUUAGUG 3621 CACTAATG GGCTAGCTACAACGA TTAAAAAA 8921
1044 UCCAAGAG A CAUGCUGA 3622 TCAGCATG GGCTAGCTACAACGA CTCTTGGA 8922
1052 ACAUGCUG A CUUUCAUU 3623 AATGAAAG GGCTAGCTACAACGA CAGCATGT 8923
1117 AUGGAGUG A CCAUAGCU 3624 AGCTATGG GGCTAGCTACAACGA CACTCCAT 8924
1144 UACAUUGA A UGUAGAGA 3625 TCTCTACA GGCTAGCTACAACGA TCAATGTA 8925
1153 UGUAGAGA A UGUAGCCA 3626 TGGCTACA GGCTAGCTACAACGA TCTCTACA 8926
1201 UUUGAGCA A CUUUCUUA 3627 TAAGAAAG GGCTAGCTACAACGA TGCTCAAA 8927
1227 AAGGCAGA A UGAGUGCU 3628 AGCACTCA GGCTAGCTACAACGA TCTGCCTT 8928
1241 GCUUCAGA A UGUGAUUU 3629 AAATCACA GGCTAGCTACAACGA TCTGAAGC 8929
1246 AGAAUGUG A UUUCCUAC 3630 GTAGGAAA GGCTAGCTACAACGA CACATTCT 8930
1257 UCCUACUA A CCUGUUCC 3631 GGAACAGG GGCTAGCTACAACGA TAGTAGGA 8931
1270 UUCCUUGG A UAGGCUUU 3632 AAAGCCTA GGCTAGCTACAACGA CCAAGGAA 8932
1318 CAUCAGCA A CCAGGGAG 3633 CTCCCTGG GGCTAGCTACAACGA TGCTGATG 8933
1327 CCAGGGAG A CUGCACCU 3634 AGGTGCAG GGCTAGCTACAACGA CTCCCTGG 8934
1337 UGCACCUG A UGGAAAAG 3635 CTTTTCCA GGCTAGCTACAACGA CAGGTGCA 8935
1346 UGGAAAAG A UAUAUGAC 3636 GTCATATA GGCTAGCTACAACGA CTTTTCCA 8936
1353 GAUAUAUG A CUGCUUCA 3637 TGAAGCAG GGCTAGCTACAACGA CATATATC 8937
1364 GCUUCAUG A CAUUCCUA 3638 TAGGAATG GGCTAGCTACAACGA CATGAAGC 8938
1374 AUUCCUAA A CUAUCUUU 3639 AAAGATAG GGCTAGCTACAACGA TTAGGAAT 8939
1439 UUUUAAGG A UGAUAAAA 3640 TTTTATCA GGCTAGCTACAACGA CCTTAAAA 8940
1442 UAAGGAUG A UAAAAAAA 3641 TTTTTTTA GGCTAGCTACAACGA CATCCTTA 8941
1453 AAAAAAAA A UAACAACU 3642 AGTTGTTA GGCTAGCTACAACGA 8942
1456 AAAAAAUA A CAACUAGG 3643 CCTAGTTG GGCTAGCTACAACGA TATTTTTT 8943
1459 AAAUAACA A CUAGGGAC 3644 GTCCCTAG GGCTAGCTACAACGA TGTTATTT 8944
1466 AACUAGGG A CAAUACAG 3645 CTGTATTG GGCTAGCTACAACGA CCCTAGTT 8945
1469 UAGGGACA A UACAGAAC 3646 GTTCTGTA GGCTAGCTACAACGA TGTCCCTA 8946
1476 AAUACAGA A CCCAUUCC 3647 GGAATGGG GGCTAGCTACAACGA TCTGTATT 8947
1506 CAGGGCUG A CAUUGUGG 3648 CCACAATG GGCTAGCTACAACGA CAGCCCTG 8948
1556 AGCUCUAA A UAGCCAAC 3649 GTTGGCTA GGCTAGCTACAACGA TTAGAGCT 8949
1563 AAUAGCCA A CACCCAUC 3650 GATGGGTG GGCTAGCTACAACGA TGGCTATT 8950
1586 UUGUAAAA A CAGCAUAG 3651 CTATGCTG GGCTAGCTACAACGA TTTTACAA 8951
Input Sequence = HSCD20A. Cut Site = R/Y
Stem Length = 8 . Core Sequence = GGCTAGCTACAACGA
HSCD20A (Human mRNA for CD20 receptor (S7) ; 1597 bp)
Table XTV: Human CD20 Amberzyme and Substrate Sequence
Pos Substrate Seq ID Amberzyme Seq ID
9 AACAAACU G CACCCACU 3386 AGUGGGUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUUUGUU 8952
18 CACCCACU G AACUCCGC 3387 GCGGAGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUGGGUG 8953
25 UGAACUCC G CAGCUAGC 3388 GCUAGCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGAGUUCA 8954
50 CAGCCCUU G AGAUUUGA 338\ UCAAAUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGGGCUG 8955
57 UGAGAUUU G AGGCCUUG 3390 CAAGGCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAUCUCA 8956
82 GGAGUUUU G AGAGCAAA 3391 UUUGCUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAACUCC 8957
93 AGCAAAAU G ACAACACC 3392 GGUGUUGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUUUGCU 8958
141 GAGCCAAU G AAAGGCCC 3393 GGGCCUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUGGCUC 8959
154 GCCCUAUU G CUAUGCAA 3394 UUGCAUAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUAGGGC 8960
159 AUUGCUAU G CAAUCUGG 3395 CCAGAUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAGCAAU 8961
213 GGCCCCAC G CAAAGCUU 3396 AAGCUUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUGGGGCC 8962
228 UUCUUCAU G AGGGAAUC 3397 GAUUCCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGAAGAA 8963
264 CAGAUUAU G AAUGGGCU 3398 AGCCCAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAAUCUG 8964
283 UCCACAUU G CCCUGGGG 3399 CCCCAGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUGUGGA 8965
300 GGUCUUCU G AUGAUCCC 3400 GGGAUCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAAGACC 8966
303 CUUCUGAU G AUCCCAGC 3401 GCUGGGAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCAGAAG 8967
322 GGAUCUAU G CACCCAUC 3402 GAUGGGUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAGAUCC 8968
336 AUCUGUGU G ACUGUGUG 3403 CACACAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACACAGAU 8969
441 GGAAAAAU G AUAAUGAA 3404 UUCAUUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUUUUCC 8970
447 AUGAUAAU G AAUUCAUU 3405 AAUGAAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUAUCAU 8971
456 AAUUCAUU G AGCCUCUU 3406 AAGAGGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUGAAUU 8972
466 GCCUCUUU G CUGCCAUU 3407 AAUGGCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAGAGGC 8973
469 UCUUUGCU G CCAUUUCU 3408 AGAAAUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCAAAGA 8974
483 UCUGGAAU G AUUCUUUC 3409 GAAAGAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUCCAGA 8975
546 GAGAGUCU G AAUUUUAU 3410 AUAAAAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGACUCUC 8976
592 ACAACUGU G AACCAGCU 3411 AGCUGGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAGUUGU 8977
610 AUCCCUCU G AGAAAAAC 3412 GUUUUUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAGGGAU 8978
678 UUGUCAGU G AUGCUGAU 3413 AUCAGCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUGACAA 8979
681 UCAGUGAU G CUGAUCUU 3414 AAGAUCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCACUGA 8980
684 GUGAUGCU G AUCUUUGC 3415 GCAAAGAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCAUCAC 8981
691 UGAUCUUU G CCUUCUUC 3416 GAAGAAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAGAUCA 8982
727 GCAUCGUU G AGAAUGAA 3417 UUCAUUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACGAUGC 8983
733 UUGAGAAU G AAUGGAAA 3418 UUUCCAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUCUCAA 8984
749 AAGAACGU G CUCCAGAC 3419 GUCUGGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACGUUCUU 8985
811 AGACUAUU G AAAUAAAA 3420 UUUUAUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUAGUCU 8986
841 GGCUAACU G AAACAUCU 3421 AGAUGUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUUAGCC 8987
865 CAAAGAAU G AAGAAGAC 3422 GUCUUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUCUUUG 8988
877 AAGACAUU G AAAUUAUU 3423 AAUAAUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUGUCUU 8989
921 ACAGAGAC G AACUUUCC 3424 GGAAAGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUCUCUGU 8990
970 UAGAAAAU G ACAGCUCU 3425 AGAGCUGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUUUCUA 8991
987 CCUUAAGU G AUUUCUUC 3426 GAAGAAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUUAAGG 8992
1048 AGAGACAU G CUGACUUU 3427 AAAGUCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGUCUCU 8993
1051 GACAUGCU G ACUUUCAU 3428 AUGAAAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCAUGUC 8994
1065 CAUUUCUU G AGGUACUC 3429 GAGUACCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGAAAUG 8995
1075 GGUACUCU G CACAUACG 3430 CGUAUGUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAGUACC 8996
1083 GCACAUAC G CACCACAU 3431 AUGUGGUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUAUGUGC 8997
1107 UGGCCUUU G CAUGGAGU 3432 ACUCCAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAGGCCA 8998
1116 CAUGGAGU G ACCAUAGC 3433 GCUAUGGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUCCAUG 8999
1142 CUUACAUU G AAUGUAGA 3434 UCUACAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUGUAAG 9000
1184 GUUGUCAC G CUUCUUCU 3435 AGAAGAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUGACAAC 9001
1196 CUUCUUUU G AGCAACUU 3436 AAGUUGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAAGAAG 9002
1214 CUUACACU G AAGAAAGG 3437 CCUUUGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUGUAAG 9003
1229 GGCAGAAU G AGUGCUUC 3438 GAAGCACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUCUGCC 9004
1233 GAAUGAGU G CUUCAGAA 3439 UUCUGAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUCAUUC 9005
1245 CAGAAUGU G AUUUCCUA 3440 UAGGAAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAUUCUG 9006
1330 GGGAGACU G CACCUGAU 3441 AUCAGGUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUCUCCC 9007
1336 CUGCACCU G AUGGAAAA 3442 UUUUCCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGUGCAG 9008
1352 AGAUAUAU G ACUGCUUC 3443 GAAGCAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAUAUCU 9009
1356 AUAUGACU G CUUCAUGA 3444 UCAUGAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUCAUAU 9010
1363 UGCUUCAU G ACAUUCCU 3445 AGGAAUGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGAAGCA 9011
1422 UCCCUUUU G CAUCAUUG 3446 CAAUGAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAAGGGA 9012
1441 UUAAGGAU G AUAAAAAA 3447 UUUUUUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCCUUAA 9013
1505 ACAGGGCU G ACAUUGUG 3448 CACAAUGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCCCUGU 9014
1542 CACCCCAU G AGGGAAGC 3449 GCUUCCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGGGGUG 9015
28 ACUCCGCA G CUAGCAUC 3450 GAUGCUAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCGGAGU 9016
32 CGCAGCUA G CAUCCAAA 3451 UUUGGAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAGCUGCG 9017
44 CCAAAUCA G CCCUUGAG 3452 CUCAAGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAUUUGG 9018
60 GAUUUGAG G CCUUGGAG 3453 CUCCAAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCAAAUC 9019
77 ACUCAGGA G UUUUGAGA 3454 UCUCAAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCUGAGU 9020
86 UUUUGAGA G CAAAAUGA 3455 UCAUUUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUCAAAA 9021
112 GAAAUUCA G UAAAUGGG 3456 CCCAUUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAAUUUC 9022
130 CUUUCCUG G CAGAGCCA 3457 UGGCUCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGGAAAG 9023
135 CUGGCAGA G CCAAUGAA 3458 UUCAUUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUGCCAG 9024
146 AAUGAAAG G CCCUAUUG 3459 CAAUAGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUUCAUU 9025
167 GCAAUCUG G UCCAAAAC 3460 GUUUUGGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGAUUGC 9026
192 AGGAGGAU G UCUUGACU 3461 AGUGAAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGCUCCU 9027
202 CUUCACUG G UGGGCCCC 3462 GGGGCCCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGUGAAG 9028
206 ACUGGUGG G CCCCACGC 3463 GCGUGGGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCACCAGU 9029
218 CACGCAAA G CUUCUUCA 3464 UGAAGAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUGCGUG 9030
250 CUUUGGGG G CUGUCCAG 3465 CUGGACAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCCCAAAG 9031
253 UGGGGGCU G UCCAGAUU 3466 AAUCUGGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCCCCCA 9032
270 AUGAAUGG G CUCUUCCA 3467 UGGAAGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCAUUCAU 9033
293 CCUGGGGG G UCUUCUGA 3468 UCAGAAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCCCCAGG 9034
310 UGAUCCCA G CAGGGAUC 3469 GAUCCCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGGAUCA 9035
332 ACCCAUCU G UGUGACUG 3470 CAGUCACA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAUGGGU 9036
334 CCAUCUGU G UGACUGUG 3471 CACAGUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAGAUGG 9037
340 GUGUGACU G UGUGGUAC 3472 GUACCACA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUCACAC 9038
342 GUGACUGU G UGGUACCC 3473 GGGUACCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAGUCAC 9039
345 ACUGUGUG G UACCCUCU 3474 AGAGGGUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CACACAGU 9040
362 CUGGGGAG G CAUUAUGU 3475 ACAUAAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCCCCAG 9041
369 GGCAUUAU G UAUAUUAU 3476 AUAAUAUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUAAUGCC 9042
394 CACUCCUG G CAGCAACG 3477 CGUUGCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGGAGUG 9043
397 UCCUGGCA G CAACGGAG 3478 CUCCGUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCCAGGA 9044
420 UCCAGGAA G UGUUUGGU 3479 ACCAAACA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCUGGA 9045
422 CAGGAAGU G UUUGGUCA 3480 UGACCAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUUCCUG 9046
427 AGUGUUUG G UCAAAGGA 3481 UCCUUUGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAAACACU 9047
458 UUCAUUGA G CCUCUUUG 3482 CAAAGAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAAUGAA 9048
542 AAUGGAGA G UCUGAAUU 3483 AAUUCAGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUCCAUU 9049
559 UUAUUAGA G CUCACACA 3484 UGUGUGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUAAUAA 9050
590 AUACAACU G UGAACCAG 3485 CUGGUUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUUGUAU 9051
598 GUGAACCA G CUAAUCCC 3486 GGGAUUAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGUUCAC 9052
638 CCAAUACU G UUACAGCA 3487 UGCUGUAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUAUUGG 9053
644 CUGUUACA G CAUACAAU 3488 AUUGUAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUAACAG 9054
657 CAAUCUCU G UUCUUGGG 3489 CCCAAGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAGAUUG 9055
665 GUUCUUGG G CAUUUUGU 3490 ACAAAAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCAAGAAC 9056
672 GGCAUUUU G UCAGUGAU 3491 AUCACUGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAAUGCC 9057
676 UUUUGUCA G UGAUGCUG 3492 CAGCAUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGACAAAA 9058
709 AGGAACUU G UAAUAGCU 3493 AGCUAUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGUUCCU 9059
715 UUGUAAUA G CUGGCAUC 3494 GAUGCCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUUACAA 9060
719 AAUAGCUG G CAUCGUUG 3495 CAACGAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGCUAUU 9061
724 CUGGCAUC G UUGAGAAU 3496 AUUCUCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAUGCCAG 9062
747 AAAAGAAC G UGCUCCAG 3497 CUGGAGCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUUCUUUU 9063
772 CUAACAUA G UUCUCCUG 3498 CAGGAGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUGUUAG 9064
780 GUUCUCCU G UCAGCAGA 3499 UCUGCUGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGAGAAC 9065
784 UCCUGUCA G CAGAAGAA 3500 UUCUUCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGACAGGA 9066
826 AAGAAGAA G UGGUUGGG 3501 CCCAACCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUUCUU 9067
829 AAGAAGUG G UUGGGCUA 3502 UAGCCCAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CACUUCUU 9068
834 GUGGUUGG G CUAACUGA 3503 UCAGUUAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCAACCAC 9069
974 AAAUGACA G CUCUCCUU 3504 AAGGAGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUCAUUU 9070
985 CUCCUUAA G UGAUUUCU 3505 AGAAAUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUAAGGAG 9071
997 UUUCUUCU G UUUUCUGU 3506 ACAGAAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAAGAAA 9072
1004 UGUUUUCU G UUUCCUUU 3507 AAAGGAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAAAACA 9073
1024 AAACAUUA G UGUUCAUA 3508 UAUGAACA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAAUGUUU 9074
1026 ACAUUAGU G UUCAUAGC 3509 GCUAUGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUAAUGU 9075
1033 UGUUCAUA G CUUCCAAG 3510 CUUGGAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUGAACA 9076
1068 UUCUUGAG G UACUCUGC 3511 GCAGAGUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCAAGAA 9077
1101 UCUAUCUG G CCUUUGCA 3512 UGCAAAGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGAUAGA 9078
1114 UGCAUGGA G UGACCAUA 3513 UAUGGUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCAUGCA 9079
1123 UGACCAUA G CUCCUUCU 3514 AGAAGGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUGGUCA 9080
1146 CAUUGAAU G UAGAGAAU 3515 AUUCUCUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUCAAUG 9081
1155 UAGAGAAU G UAGCCAUU 3516 AAUGGCUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUCUCUA 9082
1158 AGAAUGUA G CCAUUGUA 3517 UACAAUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UACAUUCU 9083
1164 UAGCCAUU G UAGCAGCU 3518 AGCUGCUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUGGCUA 9084
1167 CCAUUGUA G CAGCUUGU 3519 ACAAGCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UACAAUGG 9085
1170 UUGUAGCA G CUUGUGUU 3520 AACACAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCUACAA 9086
1174 AGGAGCUU G UGUUGUCA 3521 UGACAACA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGCUGCU 9087
1176 CAGCUUGU G UUGUCACG 3522 CGUGACAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAAGCUG 9088
1179 CUUGUGUU G UCACGCUU 3523 AAGCGUGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACACAAG 9089
1198 UCUUUUGA G CAACUUUC 3524 GAAAGUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAAAAGA 9090
1222 GAAGAAAG G CAGAAUGA 3525 UCAUUCUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUUCUUC 9091
1231 CAGAAUGA G UGGUUCAG 3526 CUGAAGCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAUUCUG 9092
1243 UUCAGAAU G UGAUUUCC 3527 GGAAAUCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUCUGAA 9093
1261 ACUAACCU G UUCCUUGG 3528 CCAAGGAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGUUAGU 9094
1274 UUGGAUAG G CUUUUUAG 3529 CUAAAAAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUAUCCAA 9095
1282 GCUUUUUA G UAUAGUAU 3530 AUACUAUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAAAAAGC 9096
1287 UUAGUAUA G UAUUUUUU 3531 AAAAAAUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUACUAA 9097
1299 UUUUUUUU G UCAUUUUC 3532 GAAAAUGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAAAAAA 9098
1315 CUCCAUCA G CAACCAGG 3533 CCUGGUUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAUGGAG 9099
1401 ACAUCUAC G UUUUUGGU 3534 ACCAAAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUAGAUGU 9100
1408 CGUUUUUG G UGGAGUCC 3535 GGACUCCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAAAAACG 9101
1413 UUGGUGGA G UCCCUUUU 3536 AAAAGGGA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCACCAA 9102
1430 GCAUCAUU G UUUUAAGG 3537 CCUUAAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUGAUGC 9103
1502 UCUACAGG G CUGACAUU 3538 AAUGUCAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUGUAGA 9104
1511 CUGACAUU G UGGCACAU 3539 AUGUGCCA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAUGUCAG 9105
1514 ACAUUGUG G CACAUUCU 3540 AGAAUGUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CACAAUGU 9106
1527 UUCUUAGA G UUACCACA 3541 UGUGGUAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUAAGAA 9107
1549 UGAGGGAA G CUCUAAAU 3542 AUUUAGAG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCCUCA 9108
1559 UCUAAAUA G CCAACACC 3543 GGUGUUGG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUUUAGA 9109
1573 ACCCAUCU G UUUUUUGU 3544 ACAAAAAA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAUGGGU 9110
1580 UGUUUUUU G UAAAAACA 3545 UGUUUUUA GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAAAACA 9111
1589 UAAAAACA G CAUAGCUU 3546 AAGCUAUG GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUUUUUA 9112
52 GCCCUUGA G AUUUGAGG 3652 CCUCAAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAAGGGC 9113
59 AGAUUUGA G GCCUUGGA 3653 UCCAAGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAAAUCU 9114
65 GAGGCCUU G GAGACUCA 3654 UGAGUCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGGCCUC 9115
66 AGGCCUUG G AGACUCAG 3655 CUGAGUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAAGGCCU 9116
68 GCCUUGGA G ACUCAGGA 3656 UCCUGAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCAAGGC 9117
74 GAGACUCA G GAGUUUUG 3657 CAAAACUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAGUCUC 9118
75 AGACUCAG G AGUUUUGA 3658 UCAAAACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGAGUCU 9119
84 AGUUUUGA G AGCAAAAU 3659 AUUUUGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAAAACU 9120
104 AACACCCA G AAAUUCAG 3660 CUGAAUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGGUGUU 9121
118 CAGUAAAU G GGACUUUC 3661 GAAAGUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUUACUG 9122
119 AGUAAAUG G GACUUUCC 3662 GGAAAGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUUUACU 9123
120 GUAAAUGG G ACUUUCCU 3663 AGGAAAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCAUUUAC 9124
129 ACUUUCCU G GCAGAGCC 3664 GGCUCUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGAAAGU 9125
133 UCCUGGCA G AGCCAAUG 3665 CAUUGGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCCAGGA 9126
145 CAAUGAAA G GCCCUAUU 3666 AAUAGGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUCAUUG 9127
166 UGCAAUCU G GUCCAAAA 3667 UUUUGGAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAUUGCA 9128
185 ACUCUUCA G GAGGAUGU 3668 ACAUCCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAAGAGU 9129
186 CUCUUCAG G AGGAUGUC 3669 GACAUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGAAGAG 9130
188 CUUCAGGA G GAUGUCUU 3670 AAGACAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCUGAAG 9131
189 UUCAGGAG G AUGUCUUC 3671 GAAGACAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCCUGAA 9132
201 UCUUCACU G GUGGGCCC 3672 GGGCCCAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGUGAAGA 9133
204 UCACUGGU G GGCCCCAC 3673 GUGGGGCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACCAGUGA 9134
205 CACUGGUG G GCCCCACG 3674 CGUGGGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CACCAGUG 9135
230 CUUCAUGA G GGAAUCUA 3675 UAGAUUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAUGAAG 9136
231 UUCAUGAG G GAAUCUAA 3676 UUAGAUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCAUGAA 9137
232 UCAUGAGG G AAUGUAAG 3677 CUUAGAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUCAUGA 9138
240 GAAUCUAA G ACUUUGGG 3678 CCCAAAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUAGAUUC 9139
246 AAGACUUU G GGGGCUGU 3679 ACAGCCCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAGUCUU 9140
247 AGACUUUG G GGGCUGUC 3680 GACAGCCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAAAGUCU 9141
248 GACUUUGG G GGCUGUCC 3681 GGACAGCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCAAAGUC 9142
249 ACUUUGGG G GCUGUCCA 3682 UGGACAGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCCAAAGU 9143
258 GCUGUCCA G AUUAUGAA 3683 UUCAUAAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGACAGC 9144
268 UUAUGAAU G GGCUCUUC 3684 GAAGAGCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUCAUAA 9145
269 UAUGAAUG G GCUCUUCC 3685 GGAAGAGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUUCAUA 9146
288 AUUGCCCU G GGGGGUCU 3686 AGACCCCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGGCAAU 9147
289 UUGCCCUG G GGGGUCUU 3687 AAGACCCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGGGCAA 9148
290 UGCCCUGG G GGGUCUUC 3688 GAAGACCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCAGGGCA 9149
291 GCCCUGGG G GGUCUUCU 3689 AGAAGACC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCCAGGGC 9150
292 CCCUGGGG G GUCUUCUG 3690 CAGAAGAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCCCAGGG 9151
313 UCCCAGCA G GGAUCUAU 3691 AUAGAUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCUGGGA 9152
314 CCCAGCAG G GAUCUAUG 3692 CAUAGAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGCUGGG 9153
315 CCAGCAGG G AUCUAUGC 3693 GCAUAGAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUGCUGG 9154
344 GACUGUGU G GUACCCUC 3694 GAGGGUAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACACAGUC 9155
356 CCCUCUCU G GGGAGGCA 3695 UGCCUCCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAGAGGG 9156
357 CCUCUCUG G GGAGGCAU 3696 AUGCCUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGAGAGG 9157
358 CUCUCUGG G GAGGCAUU 3697 AAUGCCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCAGAGAG 9158
359 UCUCUGGG G AGGCAUUA 3698 UAAUGCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCCAGAGA 9159
361 UCUGGGGA G GCAUUAUG 3699 CAUAAUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCCCAGA 9160
382 UUAUUUCC G GAUCACUC 3700 GAGUGAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GGAAAUAA 9161
383 UAUUUCCG G AUCACUCC 3701 GGAGUGAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGGAAAUA 9162
393 UCACUCCU G GCAGCAAC 3702 GUUGCUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGGAGUGA 9163
402 GCAGCAAC G GAGAAAAA 3703 UUUUUCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GUUGCUGC 9164
403 CAGCAACG G AGAAAAAC 3704 GUUUUUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CGUUGCUG 9165
405 GCAACGGA G AAAAACUC 3705 GAGUUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCGUUGC 9166
416 AAACUCCA G GAAGUGUU 3706 AACACUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGAGUUU 9167
417 AACUCCAG G AAGUGUUU 3707 AAACACUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGGAGUU 9168
426 AAGUGUUU G GUCAAAGG 3708 CCUUUGAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAACACUU 9169
433 UGGUCAAA G GAAAAAUG 3709 CAUUUUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUGACCA 9170
434 GGUCAAAG G AAAAAUGA 3710 UCAUUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUUGACC 9171
478 CCAUUUCU G GAAUGAUU 3711 AAUCAUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAAAUGG 9172
479 CAUUUCUG G AAUGAUUC 3712 GAAUCAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAGAAAUG 9173
498 UCAAUCAU G GACAUACU 3713 AGUAUGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGAUUGA 9174
499 CAAUCAUG G ACAUACUU 3714 AAGUAUGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUGAUUG 9175
537 UUAAAAAU G GAGAGUCU 3715 AGACUCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUUUUAA 9176
538 UAAAAAUG G AGAGUCUG 3716 CAGACUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUUUUUA 9177
540 AAAAUGGA G AGUCUGAA 3717 UUCAGACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCAUUUU 9178
557 UUUUAUUA G AGCUCACA 3718 UGUGAGCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAAUAAAA 9179
612 CCCUCUGA G AAAAACUC 3719 GAGUUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAGAGGG 9180
663 CUGUUCUU G GGCAUUUU 3720 AAAAUGCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGAACAG 9181
664 UGUUCUUG G GCAUUUUG 3721 CAAAAUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAAGAACA 9182
702 UUCUUCCA G GAACUUGU 3722 ACAAGUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGAAGAA 9183
703 UCUUCCAG G AACUUGUA 3723 UACAAGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGGAAGA 9184
718 UAAUAGCU G GCAUCGUU 3724 AACGAUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGCUAUUA 9185
729 AUCGUUGA G AAUGAAUG 3725 CAUUCAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAACGAU 9186
737 GAAUGAAU G GAAAAGAA 3726 UUCUUUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUUCAUUC 9187
738 AAUGAAUG G AAAAGAAC 3727 GUUCUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUUCAUU 9188
743 AUGGAAAA G AACGUGCU 3728 AGCACGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUUCCAU 9189
755 GUGCUCCA G ACCCAAAU 3729 AUUUGGGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGAGCAC 9190
787 UGUCAGCA G AAGAAAAA 3730 UUUUUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCUGACA 9191
790 CAGCAGAA G AAAAAAAA 3731 UUUUUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUGCUG 9192
799 AAAAAAAA G AACAGAGU 3732 AGUCUGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUUUUUU 9193
804 AAAGAACA G ACUAUUGA 3733 UCAAUAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUUCUUU 9194
820 AAAUAAAA G AAGAAGUG 3734 CACUUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUUAUUU 9195
823 UAAAAGAA G AAGUGGUU 3735 AACCACUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUUUUA 9196
828 GAAGAAGU G GUUGGGCU 3736 AGCCCAAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACUUCUUC 9197
832 AAGUGGUU G GGCUAACU 3737 AGUUAGCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AACCACUU 9198
833 AGUGGUUG G GCUAACUG 3738 CAGUUAGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAACCACU 9199
861 CAACCAAA G AAUGAAGA 3739 UCUUCAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUGGUUG 9200
868 AGAAUGAA G AAGACAUU 3740 AAUGUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAUUCU 9201
871 AUGAAGAA G ACAUUGAA 3741 UUCAAUGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUUCAU 9202
895 CAAUCCAA G AAGAGGAA 3742 UUCCUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGGAUUG 9203
898 UCCAAGAA G AGGAAGAA 3743 UUCUUCCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUUGGA 9204
900 CAAGAAGA G GAAGAAGA 3744 ucuucuuc GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUUCUUG 9205
901 AAGAAGAG G AAGAAGAA 3745 uucuucuu GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCUUCUU 9206
904 AAGAGGAA G AAGAAGAA 3746 uucuucuu GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCCUCUU 9207
907 AGGAAGAA G AAGAAACA 3747 UGUUUCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCUUCCU 9208
910 AAGAAGAA G AAACAGAG 3748 CUCUGUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG uucuucuu 9209
916 AAGAAACA G AGACGAAC 3749 GUUCGUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUUUCUU 9210
918 GAAACAGA G ACGAACUU 3750 AAGUUCGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUGUUUC 9211
931 ACUUUCCA G AAGCUCCC 3751 GGGAGGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGAAAGU 9212
943 CUCCCCAA G AUCAGGAA 3752 UUCCUGAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGGGGAG 9213
948 CAAGAUCA G GAAUCCUC 3753 GAGGAUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAUCUUG 9214
949 AAGAUCAG G AAUCCUCA 3754 UGAGGAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGAUCUU 9215
964 CACCAAUA G AAAAUGAC 3755 GUCAUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUUGGUG 9216
1041 GCUUCCAA G AGACAUGC 3756 GCAUGUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUGGAAGC 9217
1043 UUCCAAGA G ACAUGCUG 3757 CAGCAUGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUUGGAA 9218
1067 UUUCUUGA G GUACUCUG 3758 CAGAGUAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAAGAAA 9219
1100 CUCUAUCU G GCCUUUGC 3759 GCAAAGGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AGAUAGAG 9220
1111 CUUUGCAU G GAGUGACC 3760 GGUCACUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUGCAAAG 9221
1112 UUUGCAUG G AGUGACCA 3761 UGGUCACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUGCAAA 9222
1149 UGAAUGUA G AGAAUGUA 3762 UACAUUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UACAUUCA 9223
1151 AAUGUAGA G AAUGUAGC 3763 GCUACAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCUACAUU 9224
1217 ACACUGAA G AAAGGCAG 3764 CUGCCUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUCAGUGU 9225
1221 UGAAGAAA G GCAGAAUG 3765 CAUUCUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUCUUCA 9226
1225 GAAAGGCA G AAUGAGUG 3766 CACUCAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGCCUUUC 9227
1239 GUGCUUCA G AAUGUGAU 3767 AUCACAUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGAAGCAC 9228
1268 UGUUCCUU G GAUAGGCU 3768 AGCCUAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAGGAACA 9229
1269 GUUCCUUG G AUAGGCUU 3769 AAGCCUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG GAAGGAAC 9230
1273 CUUGGAUA G GCUUUUUA 3770 UAAAAAGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAUCCAAG 9231
1322 AGCAACCA G GGAGACUG 3771 CAGUCUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGGUUGCU 9232
1323 GCAACCAG G GAGACUGC 3772 GCAGUCUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGGUUGC 9233
1324 CAACCAGG G AGACUGCA 3773 UGCAGUCU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUGGUUG 9234
1326 ACCAGGGA G ACUGCACC 3774 GGUGGAGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCCCUGGU 9235
1339 CACCUGAU G GAAAAGAU 3775 AUCUUUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AUCAGGUG 9236
1340 ACCUGAUG G AAAAGAUA 3776 UAUCUUUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CAUCAGGU 9237
1345 AUGGAAAA G AUAUAUGA 3777 UCAUAUAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUUUCCAU 9238
1407 ACGUUUUU G GUGGAGUC 3778 GACUCCAC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG AAAAACGU 9239
1410 UUUUUGGU G GAGUCCCU 3779 AGGGACUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACCAAAAA 9240
1411 UUUUGGUG G AGUCCCUU 3780 AAGGGACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CACCAAAA 9241
1437 UGUUUUAA G GAUGAUAA 3781 UUAUCAUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UUAAAAGA 9242
1438 GUUUUAAG G AUGAUAAA 3782 UUUAUCAU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUUAAAAC 9243
1463 AACAACUA G GGACAAUA 3783 UAUUGUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAGUUGUU 9244
1464 ACAACUAG G GACAAUAC 3784 GUAUUGUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUAGUUGU 9245
1465 CAACUAGG G ACAAUACA 3785 UGUAUUGU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUAGUUG 9246
1474 ACAAUACA G AACCCAUU 3786 AAUGGGUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUAUUGU 9247
1500 UUUCUACA G GGCUGACA 3787 UGUCAGCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UGUAGAAA 9248
1501 UUCUACAG G GCUGACAU 3788 AUGUCAGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUGUAGAA 9249
1513 GACAUUGU G GCACAUUC 3789 GAAUGUGC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG ACAAUGUC 9250
1525 CAUUCUUA G AGUUACCA 3790 UGGUAACU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UAAGAAUG 9251
1544 CCCCAUGA G GGAAGCUC 3791 GAGCUUCC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG UCAUGGGG 9252
1545 CCCAUGAG G GAAGCUCU 3792 AGAGCUUC GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CUCAUGGG 9253
1546 CCAUGAGG G AAGCUCUA 3793 UAGAGCUU GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG CCUCAUGG 9254
Input Sequence = HSCD20A. Cut Site = G/ .
Stem Length = 8. Core Sequence = GGAGGAAACUCC CU UCAAGGACAUCGUCCGGG
HSCD20A (Human mRNA for CD20 receptor (S7) ; 1597 bp)
Table XV: Enzymatic nucleic acid effector molecule sequence
UPPER CASE = RIBO lower case = 2'-O-methyl