CN115226392A

CN115226392A - Use of reagents for inducing immunity against SARS-COV-2

Info

Publication number: CN115226392A
Application number: CN202280000638.8A
Authority: CN
Inventors: O·V·祖布科娃; T·A·奥扎罗夫斯凯亚; I·V·多尔日科娃; O·波波娃; D·V·谢布利亚科夫; D·M·格鲁索娃; A·S·扎鲁拉耶娃; A·I·图赫瓦图林; N·M·图赫瓦图丽娜; D·N·谢尔比宁; I·B·埃斯马甘贝托夫; E·A·托卡尔斯卡亚; A·G·博季科夫; A·S·埃罗克索瓦; F·M·伊扎伊瓦; N·A·尼基滕科; N·L·卢比纳特; A·S·赛米欣; B·S·纳罗季茨基; D·Y·洛古诺夫
Original assignee: Federal State Budget Agency Of Ministry Of Health Of Russian Federation "national Epidemiology And Microbiology Research Center Named After Honorary Academician NF Gamaliya\
Current assignee: Federal State Budget Agency Of Ministry Of Health Of Russian Federation "national Epidemiology And Microbiology Research Center Named After Honorary Academician NF Gamaliya\
Priority date: 2021-02-21
Filing date: 2022-02-18
Publication date: 2022-10-21
Also published as: IL291803B1; BR112022005920A2; KR20230175091A; JP2023507543A; MX2022004060A; CA3156448A1; EP4294439A1; IL291803A; ZA202203564B

Abstract

The present group of inventions relates to biotechnology, immunology and virology. The use of an agent comprising an expression vector based on human adenovirus serotype 26 or human adenovirus serotype 5, wherein the E1 and E3 sites are deleted and have an integrated expression cassette selected from the group consisting of SEQ ID NO:1, SEQ ID NO:2, SEQ ID NO:3, or comprising an expression vector based on simian adenovirus serotype 25, wherein the E1 and E3 sites are deleted and have an integrated expression cassette selected from the group consisting of SEQ ID NO:4, SEQ ID NO:2, SEQ ID NO:3, or comprising only component 2, for inducing specific immunity against the severe acute respiratory syndrome virus SARS-CoV-2 in a human aged over 60 years and/or suffering from chronic disease is disclosed. The reagent may also contain any two of the above components. The present invention provides an effective induction of specific immunity against SARS-CoV-2, a severe acute respiratory syndrome virus, in humans aged over 60 years and/or suffering from chronic disease.

Description

Use of reagents for inducing immunity against SARS-COV-2

Technical Field

The present invention relates to biotechnology, immunology and virology. The use of an agent, i.e. vaccination, for the prevention of a disease caused by the severe acute respiratory syndrome virus SARS-CoV-2 is disclosed, including revaccination of subjects aged over 60 years and/or suffering from chronic disease.

Background

The continuing large-scale prevalence of coronavirus infection COVID-19 has affected millions of people worldwide. Over 1 hundred million cases of COVID-19 disease are currently recorded, and over 200 million people die from the disease.

Studies have revealed that the causative agent of the disease is the RNA virus SARS-CoV-2 belonging to the Beta-CoV B line of the family Coronaviridae.

It shows that the virus is infected by direct contact, and also by air transmission. The mean latency was 5.1 days, and then The first symptom of The disease developed (Lauer SA, grantz KH, bi Q, et al, "latency of coronavirus disease 2019 (COVID-19) in publicly reported confirmed cases:assessmentand application (The incubation period of coronavirus disease 2019 (COVID-19) from public reported cases: evaluation and application)," annual book of internal sciences (Ann Intern Med), "2020.10.7326/M20-0504). Typical symptoms of COVID-19 include fever, dry cough, dyspnea, and fatigue. Sore throat, painful joints, runny nose and headache rarely occur.

COVID-19 may have a mild or severe course. The most dangerous complications include pneumonia, acute respiratory distress syndrome, acute respiratory failure, acute heart failure, acute renal failure, septic shock, cardiomyopathy, and the like. Severe forms of disease develop more often in the elderly and in people with chronic disease. The centers for disease control and prevention report that the risk of mortality associated with COVID-19 is 30 times, 90 times, 220 times and 630 times greater in age 50 to 64 years, 65 to 74 years, 75 to 84 years and over 85 years than in young people (age 18 to 29 years), respectively (https://www.cdc.gov/coronavirus/2019-ncov/need- extra-precautions/older-adults.html)。

SARS-CoV-2 invades the human body by binding of the viral S protein to angiotensin converting enzyme 2 (ACE-2) receptors expressed in the lung, endothelium, heart, kidney and gastrointestinal tract. It has been postulated that this particular mechanism is responsible for the higher risk of infection in the elderly. According to CDC data, 63.1% of adults over 60 years of age suffer from arterial hypertension, 38% of adults over 65 years of age suffer from Chronic Kidney Disease (CKD), and 26.8% of adults over 65 years of age suffer from diabetes. Many of these patients receive ACE-2 inhibitors and angiotensin receptor blockers, which activate the ACE-2 receptor. Thus, it is postulated that elderly people with these complications may be at greater risk of contracting SARS-CoV-2 infection and experience a more severe course of disease (Z.Shahid et al COVID-19and elderly: what We Know (COVID-19and Older Adults).

Thus, vaccination against COVID-19 is particularly desirable for the elderly and/or people with chronic disease.

To date, several vaccines against Covid-19 have been developed. The Modarna pharmaceutical company, working with the national institute of health (USA), has developed an mRNA-1273 vaccine containing mRNA encoding the S protein of SARS-CoV-2, which is protected with lipid membranes. The most recent phase 3 clinical trial for this vaccine has ended. In this study, over 7000 volunteers over age 65 and also over 5000 volunteers under 65 years of age had chronic diseases (diabetes, obesity and heart disease) associated with a high risk of a severe course of COVID-19. According to published data, the Vaccine effectiveness for people over 65 years old is 86.4% (L.Baden et al, "effectiveness and Safety of the mRNA-1273SARS-CoV-2 Vaccine" (Effect and Safety of the mRNA-1273SARS-CoV-2 Vaccine), "New England journal of medicine (N Engl J Med)," 12.12.30 days 2020).

Pfizer pharmaceutical company and BioNTech biotechnology company collaborated to develop BNT162b 2vaccine (tozinameran). The vaccine comprises lipid nanoparticles encapsulating a modified mRNA encoding a mutant S protein of SARS-CoV-2. At the end of clinical development, over 18,000 people aged 16 to 89 years were vaccinated, including 7971 people over 55 years (42.3%). Furthermore, some patients are reported to suffer from chronic diseases (obesity, etc.), which is a risk factor for poor clinical outcome of COVID-19. Vaccine effectiveness was 93.7%, 94.7% and 100% for patients 55, 65 and over 75 years old, respectively (Polack F., et al, safety and Efficacy of the BNT162b2 mRNA Covid-19 Vaccine (Safety and Efficacy of the BNT162b2 mRNA Covid-19 Vaccine), J.N.ENGLAND. J.Med.2020, 12 months).

The vector vaccine ChAdOx1nCoV-19 (AZD 1222) was developed by Oxford University (Oxford University) in cooperation with AstraZeneca pharmaceutical corporation. In this vaccine chimpanzee adenovirus chaadox 1 containing the codon-optimized coding sequence of the full-length S protein of SARS-CoV-2 (gene bank (GenBank) MN 908947) and the leader sequence of tissue plasminogen activator was used as the active ingredient. Subjects aged 56 years and older and contained 12.2% of the population group (1006 [13.3% ] in uk and 412 [10.1% ] in brazil) were included in the clinical study of the present product. The study cohort included 974 subjects aged 56 to 69 years and 444 subjects older than 70 years. However, patients report that, due to limited data, the evaluation of vaccines in the age group of 56 years or older was not feasible (Voysey M. Et al, "ChAdOx 1nCoV-19vaccine (AZD 1222) for Safety and efficacy against SARS-CoV-2: interim analysis of the ChAdOx1nCoV-19vaccine (AZD 1222) against SARS-CoV-2 in four randomized control trials in Brazil, south Africa and UK," (Safety and efficacy of the ChAdOx1nCoV-19vaccine (AZD 1222) against the SARS-CoV-2.

The research team Johnson and Yanssen Pharmaceutical (Janssen Pharmaceutical) collaborated with the Beth Israel female Medical Center (Medical Center) to develop Ad26.COV2.S vaccine. The active component of the vaccine is a recombinant vector based on the genome of human adenovirus serotype 26, deleted at the E1 and E3 sites, containing the gene coding for the S protein of SARS-CoV-2 with a mutation at the furin cleavage site and two proline stabilizing mutations. The results of recent phase 1 to 2b clinical studies have been published. In this study, subjects in the age group of 18 to 55 years and the age group above 65 years were enrolled. The results of the study showed that virus-neutralizing antibodies could be detected at 29 days after the first dose of vaccine in 90% of subjects, regardless of age group. By day 57, virus neutralizing antibodies were detected in all vaccinated volunteers. Administration of a second dose resulted in an increase in antibody titer of 2.6 to 2.9 (Interim Results of Phase 1-2a Trial of Ad26.COV2.S Covid-19 Vaccine by Sadoff J. (Interim Results of a Phase 1-2a Trial of Ad26.COV2.S Covid-19 Vaccine; new England journal of medicine, 13.1.1.2021. Doi:10.1056/NEJMoa2034201. Published in an electronic document before reimbursement. PMID: 33440088.). The author selects this solution as a prototype. The disadvantage of this prototype is that after the first vaccine administration antibodies can be raised against the vector part of the expression vector, which will reduce the effectiveness of the vaccination at subsequent doses of administration.

The background of the invention thus shows the need to develop a safe agent that can induce an immune response against the SARS-CoV-2 virus in elderly and/or patients suffering from chronic disease.

Disclosure of Invention

The technical problem of the claimed group of inventions is to provide the development of agents that are effective in inducing an immune response against SARS-CoV-2 virus in subjects aged 60 years and older and patients with chronic disease.

The technical result is the creation of safe and effective reagents that provide for the development of the humoral and cellular immune response to SARS-CoV-2 in subjects aged 60 years and older and patients with chronic disease.

Over the years, the immune system has aged, and is characterized by an impaired quality and quantitative character of the immune response, which may affect the safety and efficacy properties of the developed vaccine.

The quantitative changes were characterized by a reduction in the initial T cell population and a change in the ratio of CD4+: CD8+ cells, mainly because the number of CD8+ T cells was significantly reduced. Aging also results in a decrease in the repertoire of T cell receptors and worse overall survival of T cells. The mass changes include the production of predominantly short-lived effector T cells compared to memory cell precursors, leading to impaired immune responses. The B cell population is less sensitive to age-related changes, however the production of functional antibodies in the elderly is reduced due to lower expression of the selected protein. In addition to age, various chronic diseases may affect the development of immune responses, as many of them are often associated with disorders of immune system function.

Therefore, the development of reagents that effectively induce an immune response against SARS-CoV-2, including both a humoral and cellular response to SARS-CoV-2, for elderly and/or people with chronic disease is a challenging scientific task.

The technical result is achieved by disclosing the use of an agent containing component 1, this component 1 being an agent in the form of an expression vector based on the genome of a recombinant strain of human adenovirus serotype 26, in which the E1 and E3 sites are deleted from the genome and the site ORF6-Ad26 is replaced by ORF6-Ad5, with an integrated expression cassette selected from SEQ ID NO 1, SEQ ID NO 2, SEQ ID NO 3, and/or an agent containing component 2, this component 2 being an expression vector based on the genome of a recombinant strain of human adenovirus serotype 5, in which the E1 and E3 sites are deleted from the genome, with an integrated expression cassette selected from SEQ ID NO 1, SEQ ID NO 2, SEQ ID NO 3, for inducing a specific immunity against severe acute respiratory syndrome SARS-CoV-2 in a subject aged above 60 years and/or suffering from chronic disease.

In addition, the use of this agent is disclosed, said agent containing component 1, which component 1 is an agent in the form of an expression vector based on the genome of a recombinant strain of human adenovirus serotype 26, wherein the E1 and E3 sites are deleted from the genome and the site ORF6-Ad26 is replaced by ORF6-Ad5, having an integrated expression cassette selected from SEQ ID NO:1, SEQ ID NO:2, SEQ ID NO:3, and further containing component 2, which component 2 is an agent in the form of an expression vector based on the genome of a recombinant strain of simian adenovirus serotype 25, wherein the E1 and E3 sites are deleted from the genome, having an integrated expression cassette selected from SEQ ID NO:4, SEQ ID NO.

Also disclosed is the use of another agent comprising component 1, which component 1 is an agent in the form of an expression vector based on the genome of a recombinant strain of simian adenovirus serotype 25, wherein the E1 and E3 sites are deleted from the genome, having an integrated expression cassette selected from the group consisting of SEQ ID NO 4, SEQ ID NO 2, SEQ ID NO 3, and further comprising component 2, which component 2 is an agent in the form of an expression vector based on the genome of a recombinant strain of human adenovirus serotype 5, wherein the E1 and E3 sites are deleted from the genome, having an integrated expression cassette selected from the group consisting of SEQ ID NO 1, SEQ ID NO 2, SEQ ID NO 3, for inducing specific immunity against severe acute respiratory syndrome SARS-CoV-2 in a subject aged 60 years old or older and/or having chronic disease.

Furthermore, the agents are used by intranasal and/or intramuscular administration.

In addition, the agent is used by administering the components sequentially at intervals exceeding one week.

In addition, the reagents are used in liquid or lyophilized form.

Moreover, when used, the reagent in liquid form contains a buffer solution consisting of the following% by weight:

in addition, when used, the reconstituted lyophilized reagent contains a buffer consisting of the following% by weight:

furthermore, when the reagent is used, component 1 and component 2 are in separate containers.

Drawings

FIG. 1 shows the results of an assessment of the immunological effectiveness of volunteers using the reagent in liquid form developed according to variant 1 by assessing the percentage of proliferating CD4+ and CD8+ lymphocytes re-stimulated with the S antigen of SARS-CoV-2.

Y-axis-amount of proliferating cells,%.

X-axis-days.

-% of CD4+ t cells indicating proliferation in each volunteer on day 0.

● -the% of CD4+ t cells that were proliferating in each volunteer on day 28.

-% of CD8+ t cells indicating proliferation in each volunteer on day 0.

● -% of CD8+ t cells that were indicated to proliferate in each volunteer on day 28.

The median of each data set is represented by a black line and the deviation corresponds to a 95% confidence interval. Symbols indicate statistically significant differences between the values obtained at day 0 and day 28 (p <0.001, mann-Whitney test).

Figure 2 depicts fold increase of IFN γ concentration in peripheral blood mononuclear cell culture media after restimulation with coronavirus S antigen, collected from volunteers over 60 years old immunized with reagent variant 1 in sequence before immunization (day 0) and on day 28 of the study.

Y-axis-interferon gamma concentration (fold)

X-axis-days.

-indicating the values measured in each volunteer on day 0.

■ -indicating the values measured in each volunteer on day 28.

FIG. 3 depicts the results of evaluating the antibody-mediated immune response to SARS-CoV2 antigen in volunteers immunized with the developed reagent in liquid form according to variant 1.

Y-axis-IgG titer of RBD of S glycoprotein against SARS-CoV-2.

X axis days

-indicating the values obtained for each volunteer.

The geometric mean of antibody titers for each data set is represented by a black line. Statistically significant differences between the values obtained on days 21, 28 and 42 according to the above Wilcoxon T test are shown as brackets with p-values.

Embodiments of the invention

The first stage of development of an agent for inducing specific immunity against severe acute respiratory syndrome SARS-CoV-2 is the selection of vaccine antigens. As part of this process, a literature search was conducted which demonstrated that coronavirus S protein is the most promising antigen for generating vaccine candidates. This type I transmembrane glycoprotein is responsible for binding, fusion and entry of the virion into the cell. As demonstrated, it acts as an inducer of neutralizing antibodies (Liang M et al, "human recombinant antibodies to S and M proteins derived from SARS patients effectively neutralize the infectivity of SARS-coronavirus (SARS pathogens-derived human recombinant antibodies to S and M proteins infection)," biomedical environmental sciences (Biomed Environ Sci), month 2005 12; 18 (6): 363-74).

To achieve the most efficient induction of the immune response to the S protein of SARS-CoV-2, the authors developed various variants of the expression cassette.

The expression cassette SEQ ID NO 1 contains the CMV promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal. The CMV promoter is the promoter of the early cytomegalovirus gene, which provides constitutive expression in a variety of cell types. However, the expression intensity of the target gene under the control of the CMV promoter varies depending on the cell type. In addition, the expression level of the transgene controlled by the CMV promoter was shown to decrease with longer cell culture times due to the suppression of gene expression associated with DNA methylation [ Wang w., jia yl., li yc., king cq., guo x., shang xf., zhao cp., wang ty., effect of different promoters, promoter mutations and enhancers on recombinant protein expression in CHO cells (Impact of differential promoters, promoter mutation, and an enhancer on recombinant protein expression in CHO cells)// [ Scientific Reports (Scientific Reports) -2017, volume 8-p.10416 ].

The expression cassette SEQ ID NO 2 contains the CAG promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal. The CAG promoter is a synthetic promoter that turns on the CMV promoter, the chicken β -actin promoter, and the early enhancers of the chimeric introns (chicken β -actin and rabbit β -globin). Experiments have shown that the transcriptional activity of the CAG promoter is higher compared to the CMV promoter. [ Yang C.Q., li X.Y., li Q., fu S.L., li H., guo Z.K., lin J.T., ZHao S.T. ] three different promoters (Evaluation of gene expression in developing chicken embryo by using in vivo electroporation) that drive the expression of genes in developing chicken embryos. /"genetics and molecular research (Genet. Mol. Res.) -2014-13 th volume-P.1270-1277 ].

The expression cassette SEQ ID NO 3 contains the EF1 promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal. The EF1 promoter is the promoter of the human eukaryotic translation elongation factor 1 beta (EF-1 alpha). Promoters are constitutively active in a wide range of cell types [ PMID:28557288 ] The EF-1. Alpha. Promoter maintains high-level transgene expression from episomal vectors in transfected CHO-K1 cells (The EF-1. Alpha. Promoter high-level transgene expression from episomal vectors in transfected CHO-K1 cells). The gene EF-1 α encodes elongation factor 1 α, which is one of the most common proteins in eukaryotic cells and is expressed in almost all cell types of mammals. Such EF-1. Alpha. Promoters are generally active in cells where the viral promoter is unable to express the gene under control and in cells where the viral promoter is gradually eliminated.

The expression cassette SEQ ID NO 4 contains the CMV promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

Adenovirus-based vector systems were selected for efficient delivery of the gene encoding the S protein of SARS-CoV-2 coronavirus into the human body. Adenoviral vectors offer a number of advantages: they are unable to replicate in human cells, enter dividing and non-dividing cells, are able to induce cell-mediated and antibody-mediated immune responses, and provide high levels of target antigen expression.

The authors developed variants of reagents containing two components, as well as variants of reagents containing one component based on a different adenovirus serotype. In this case, the immune response to the adenoviral vector portion, which may develop after administration of the first component or the one-component reagent of the reagent, is not boosted in the future, and does not affect the generation of an antigen-specific immune response against the vaccine antigen if a two-component reagent is administered or if repeated administration of a one-component reagent is required, since in the latter case an agent based on another adenovirus may be administered.

In addition, the reagents developed expand the pool of reagents used to induce an immune response against SARS-CoV-2 coronavirus, and this would provide a solution to the difficulties posed by the presence of a pre-existing immune response to some adenovirus serotypes in some parts of the population.

Thus, these efforts have led to the development of the following reagent variants.

1. An agent for inducing specific immunity against diseases caused by severe acute respiratory syndrome virus SARS-CoV-2, comprising component 1, which component 1 is an agent in the form of an expression vector based on the genome of a recombinant strain of human adenovirus serotype 26, wherein the E1 and E3 sites are deleted from the genome and the sites ORF6-Ad26 are replaced by ORF6-Ad5, having an integrated expression cassette selected from the group consisting of SEQ ID NO 1, SEQ ID NO 2, SEQ ID NO 3, and/or comprising component 2, which component 2 is an agent in the form of an expression vector based on the genome of a recombinant strain of human adenovirus serotype 5, wherein the E1 and E3 sites are deleted from the genome, having an integrated expression cassette selected from the group consisting of SEQ ID NO 1, SEQ ID NO 2, SEQ ID NO 3.

2. An agent for inducing specific immunity against diseases caused by severe acute respiratory syndrome virus SARS-CoV-2, comprising component 1 which is an agent in the form of an expression vector based on the genome of a recombinant strain of human adenovirus serotype 26, wherein the E1 and E3 sites are deleted from the genome and the sites ORF6-Ad26 are replaced by ORF6-Ad5, having an integrated expression cassette selected from SEQ ID NO:1, SEQ ID NO:2, SEQ ID NO:3, and further comprising component 2 which is an agent in the form of an expression vector based on the genome of a recombinant strain of simian adenovirus serotype 25, wherein the E1 and E3 sites are deleted from the genome, having an integrated expression cassette selected from SEQ ID NO:4, SEQ ID NO:2, SEQ ID NO:3, or comprising component 2 only.

3. An agent for inducing specific immunity against diseases caused by Severe acute respiratory syndrome Virus SARS-CoV-2, which comprises component 1 which is an agent in the form of an expression vector based on the genome of a recombinant strain of simian adenovirus serotype 25 wherein the E1 and E3 sites are deleted from the genome, having an integrating expression cassette selected from the group consisting of SEQ ID NO:4, SEQ ID NO:2, SEQ ID NO:3, and further comprises component 2 which is an agent in the form of an expression vector based on the genome of a recombinant strain of human adenovirus serotype 5 wherein the E1 and E3 sites are deleted from the genome, having an integrating expression cassette selected from the group consisting of SEQ ID NO:1, SEQ ID NO:2, SEQ ID NO:3.

In addition, the components of the reagent are supplied in separate containers.

Furthermore, the authors of the present invention developed reagents in liquid and lyophilized form.

In addition, the authors of the present invention selected a buffer solution variant that allowed the developed agent to be frozen at temperatures below-18 ℃ and stored as a lyophilizate at temperatures between +2 ℃ and +8 ℃.

In addition, methods of using the agents to induce specific immunity to Severe acute respiratory syndrome SARS-CoV-2 in a subject aged over 60 years and/or having chronic disease by administering an effective amount of the agent into the organism.

In addition, a reagent including a reagent containing only one component may be used once.

The two-component reagents may be used sequentially at intervals of at least one week.

The agent may be administered intranasally and/or intramuscularly.

Any of the disclosed agents may be used for re-vaccination without regard to the agent used for vaccination.

The following examples support embodiments of the present invention.

Example 1

An expression vector containing the genome of the recombinant strain of human adenovirus serotype 26 was obtained.

In phase 1, the authors developed the design of plasmid construct pAd26-Ends, which carries two sites of homology (two homology arms) with the genome of human adenovirus serotype 26 and the ampicillin resistance gene. One homology arm is the start of the human adenovirus serotype 26 genome (repeated from the left inverted end to the E1 site) and the viral genome sequence including the pIX protein. The second homology arm contains the nucleotide sequence from ORF3 at the E4 site to the end of the genome. The pAd26-Ends construct was synthesized from ZAO "Eurogene" (Moscow).

DNA of human adenovirus serotype 26 isolated from virions was mixed with the pAd26-Ends construct. Homologous recombination between pAd26-Ends and viral DNA yields plasmid pAd26-dlE1, which carries the genome of human adenovirus serotype 26 with the E1 site deleted.

In the resulting plasmid, pAd26-dlE1, the sequence containing open reading frame 6 (ORF 6-Ad 26) was then replaced with a similar sequence from human adenovirus serotype 5 using conventional cloning methods to enable efficient replication of human adenovirus serotype 26 in cell culture HEK 293. This gave plasmid pAd26-dlE1-ORF6-Ad5.

The E3 site of the adenovirus genome (approximately 3321b.p. Between the pIII gene and the U-exon) was then deleted from the constructed plasmid pAd26-dlE1-ORF6-Ad5 using conventional genetic engineering methods to increase vector packaging capacity. This resulted in recombinant vector pAd26-only-null based on the genome of a recombinant strain of human adenovirus serotype 26 containing the open reading frame ORF6 of human adenovirus serotype 5 and the genome deleted E1 and E3 sites. SEQ ID NO 5 was used as the parent sequence for human adenovirus serotype 26.

In addition, the authors developed several designs of expression cassettes:

expression cassette SEQ ID NO 1 contains the CMV promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal;

expression cassette SEQ ID NO 2 contains the CAG promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal;

expression cassette SEQ ID NO 3 contains the EF1 promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

Based on the plasmid constructs pAd26-Ends, the constructs pArms-26-CMV-S-CoV2, pArms-26-CAG-S-CoV2, pArms-26-EF1-S-CoV2 contain the expression cassettes SEQ ID NO:1, SEQ ID NO:2 or SEQ ID NO:3, respectively, and homology arms carrying the genome of the human adenovirus serotype 26 are also obtained using genetic engineering methods. The constructs pArms-26-CMV-S-CoV2, pArms-26-CAG-S-CoV2, pArms-26-EF1-S-CoV2 were then linearized at unique hydrolysis sites between the homology arms, and each plasmid was mixed with the recombinant vector pAd26-only-null. Homologous recombination yields plasmids pAd26-only-CMV-S-CoV2, pAd26-only-CAG-S-CoV2, pAd26-only-EF1-S-CoV2, which carry the genome of a recombinant strain of human adenovirus serotype 26 containing the open reading frame ORF6 of human adenovirus serotype 5 and the genome deleted of the E1 and E3 sites, and the expression cassettes SEQ ID NO:1, SEQ ID NO:2 or SEQ ID NO:3, respectively.

In stage 4, plasmids pAd26-only-CMV-S-CoV2, pAd26-only-CAG-S-CoV2, pAd26-only-EF1-S-CoV2 were hydrolyzed with specific restriction endonucleases to remove the vector portion. The obtained DNA product was used to transfect cell culture NEE 293.

Thus, an expression vector was obtained which contained the genome of a recombinant strain of human adenovirus serotype 26, in which the E1 and E3 sites were deleted from the genome and the site ORF6-Ad26 was replaced by ORF6-Ad5, with an integrated expression cassette selected from SEQ ID NO 1, SEQ ID NO 2, SEQ ID NO 3.

Example 2

Immunobiological agents were obtained in the form of expression vectors based on the genome of a recombinant strain of human adenovirus serotype 26, in which the E1 and E3 sites were deleted from the genome and the site ORF6-Ad26 was replaced by ORF6-Ad5, with an integrated expression cassette selected from SEQ ID NO 1, SEQ ID NO 2, SEQ ID NO 3.

In this working phase, the expression vector obtained in example 1 was purified using anion exchange and exclusion chromatography. The resulting suspension contains adenovirus particles in the buffer of the reagent in liquid form or in the buffer of the reagent in lyophilized form.

Thus, the following immunobiological agents were obtained based on the genome of a recombinant strain of human adenovirus serotype 26, in which the E1 and E3 sites were deleted from the genome and the site ORF6-Ad26 was replaced with ORF6-Ad5:

1. immunobiological agents based on the genome of a recombinant strain of human adenovirus serotype 26, in the buffer of a liquid form of the agent, in which the E1 and E3 sites are deleted from the genome and the site ORF6-Ad26 is replaced by ORF6-Ad5, have an expression cassette SEQ ID NO:1 (Ad 26-CMV-S-CoV 2) containing a CMV promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

2. Immunobiological reagents based on the genome of a recombinant strain of human adenovirus serotype 26 in the buffer of lyophilized form of the reagent, in which the E1 and E3 sites were deleted from the genome and the site ORF6-Ad26 was replaced by ORF6-Ad5, with the expression cassette SEQ ID NO:1 (Ad 26-CMV-S-CoV 2) containing the CMV promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

3. Immunobiological agents based on the genome of a recombinant strain of human adenovirus serotype 26 in the buffer of a liquid form of the agent, in which the E1 and E3 sites were deleted from the genome and the site ORF6-Ad26 was replaced with ORF6-Ad5, having an expression cassette SEQ ID NO:2 (Ad 26-CAG-S-CoV 2) containing the CAG promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

4. Immunobiological agents based on the genome of a recombinant strain of human adenovirus serotype 26 in the buffer of lyophilized form of the agent, in which the E1 and E3 sites were deleted from the genome and the site ORF6-Ad26 was replaced with ORF6-Ad5, having an expression cassette SEQ ID NO:2 (Ad 26-CAG-S-CoV 2) containing the CAG promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

5. Immunobiological agents based on the genome of a recombinant strain of human adenovirus serotype 26 in the buffer of a liquid form of the agent, in which the E1 and E3 sites were deleted from the genome and the site ORF6-Ad26 was replaced with ORF6-Ad5, having an expression cassette SEQ ID NO 3 (Ad 26-EF1-S-CoV 2) containing the EF1 promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

6. Immunobiological reagents based on the genome of a recombinant strain of human adenovirus serotype 26 in the buffer of lyophilized form of the reagent, in which the E1 and E3 sites were deleted from the genome and the site ORF6-Ad26 was replaced by ORF6-Ad5, with the expression cassette SEQ ID NO:3 (Ad 26-EF1-S-CoV 2) containing the EF1 promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

Each of the immunobiological agents provided was component 1 of

variants

1 and 2 of the developed agent.

Example 3

An expression vector containing the genome of a recombinant strain of simian adenovirus serotype 25 is obtained.

In stage 1, the design of a plasmid construct, pSim25-Ends, carrying two sites of homology (two homology arms) to the genome of simian adenovirus serotype 25 was developed. One homology arm is the sequence from the origin of the genome of simian adenovirus serotype 25 (repeated from the left inverted end to the E1 site) and from the end of the E1 site to the plva 2 protein. The second homology arm contains the terminal nucleotide sequence of the adenovirus genome including the right inverted terminal repeat. The pSim25-Ends construct was synthesized by ZAO "Eurogene" (Moscow).

The DNA of simian adenovirus serotype 25 isolated from virions was mixed with pSim 25-Ends. Homologous recombination between pSim25-Ends and viral DNA yields plasmid pSim25-dlE1, which carries the genome of simian adenovirus serotype 25 with a deletion of the E1 site.

The E3 site (3921b.p. From gene 12.5K to gene 14.7K) of the adenovirus genome was then removed from the constructed plasmid pSim25-dlE1 using conventional genetic engineering methods to increase the vector packaging capacity. This resulted in the plasmid construct pSim25-null, which encodes the full-length genome of simian adenovirus serotype 25 deleted of the E1 and E3 sites of the genome. SEQ ID NO 6 was used as the parent sequence for simian adenovirus serotype 25.

In addition, the authors developed several designs of expression cassettes:

expression cassette SEQ ID NO 4 contains the CMV promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal;

the expression cassette SEQ ID NO 3 contains the EF1 promoter, the gene coding for the S protein of SARS-CoV-2 and a polyadenylation signal.

The constructs pArms-Sim25-CMV-S-CoV2, pArms-Sim25-CAG-S-CoV2, pArms-Sim25-EF1-S-CoV2, respectively, contained the expression cassettes SEQ ID NO 4, SEQ ID NO 2 or SEQ ID NO 3, based on the plasmid construct pSim25-Ends, and the homology arms carrying the genome of simian adenovirus serotype 25 were also obtained using genetic engineering methods. The constructs pArms-Sim25-CMV-S-CoV2, pArms-Sim25-CAG-S-CoV2, pArms-Sim25-EF1-S-CoV2 were then linearized at unique hydrolysis sites between the homology arms, and each plasmid was mixed with the recombinant vector pSim 25-null. Homologous recombination results in recombinant plasmid vectors pSim25-CMV-S-CoV2, pSim25-CAG-S-CoV2, pSim25-EF1-S-CoV2, containing the full-length genome of simian adenovirus serotype 25 with deletions of the E1 and E3 sites, and expression cassettes SEQ ID NO 4, SEQ ID NO 2 or SEQ ID NO 3, respectively.

In stage 3, the plasmids pSim25-CMV-S-CoV2, pSim25-CAG-S-CoV2, pSim25-EF1-S-CoV2 were hydrolyzed with specific restriction endonucleases to remove the vector portion. The obtained DNA product was used to transfect cell culture NEE 293. The obtained material is used for the accumulation of the preparation amount of the recombinant adenovirus.

This work resulted in the acquisition of human adenovirus serotype 25 containing the gene encoding the S protein of SARS-CoV-2: simAd25-CMV-S-CoV2 (containing expression cassette SEQ ID NO: 4), simAd25-CAG-S-CoV2 (containing expression cassette SEQ ID NO: 2), simAd25-EF1-S-CoV2 (containing expression cassette SEQ ID NO: 3).

Thus, an expression vector is obtained which comprises the genome of a recombinant strain of simian adenovirus serotype 25 in which the E1 and E3 sites have been deleted from the genome and which has an integrated expression cassette selected from the group consisting of SEQ ID NO 4, SEQ ID NO 2, SEQ ID NO 3.

Example 4

Immunobiological agents are obtained in the form of expression vectors based on the genome of a recombinant strain of simian adenovirus serotype 25 in which the E1 and E3 sites are deleted from the genome and which have an integrated expression cassette selected from the group consisting of SEQ ID NO 1, SEQ ID NO 2, SEQ ID NO 3.

In this working phase, the expression vector obtained in example 3 was purified using anion exchange and exclusion chromatography. The resulting suspension contains adenovirus particles in the buffer of the reagent in liquid form or in the buffer of the reagent in lyophilized form.

Thus, the following immunobiological agents were obtained based on the genome of a recombinant strain of simian adenovirus serotype 25 from which the E1 and E3 sites were deleted from the genome:

1. immunobiological agents based on the genome of a recombinant strain of simian adenovirus serotype 25 in the buffer of the agent in liquid form, in which the E1 and E3 sites have been deleted from the genome, have an expression cassette SEQ ID NO:1 (simAd 25-CMV-S-CoV 2) containing the CMV promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

2. Immunobiological reagents based on the genome of a recombinant strain of simian adenovirus serotype 25 in which the E1 and E3 sites have been deleted from the genome, in the buffer of lyophilized form of the reagents, with an expression cassette SEQ ID NO:1 (simAd 25-CMV-S-CoV 2) containing the CMV promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

3. Immunobiological agents based on the genome of a recombinant strain of simian adenovirus serotype 25 in the buffer of the agent in liquid form, in which the E1 and E3 sites have been deleted from the genome, have an expression cassette SEQ ID NO:2 (simAd 25-CAG-S-CoV 2) containing the CAG promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

4. Immunobiological reagents based on the genome of a recombinant strain of simian adenovirus serotype 25 in which the E1 and E3 sites are deleted from the genome in the buffer of the reagent in lyophilized form have an expression cassette SEQ ID NO:2 (simAd 25-CAG-S-CoV 2) containing the CAG promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

5. Immunobiological agents based on the genome of a recombinant strain of simian adenovirus serotype 25 in the buffer of the agent in liquid form, in which the E1 and E3 sites have been deleted from the genome, have an expression cassette SEQ ID NO:3 (simAd 25-EF1-S-CoV 2) containing the EF1 promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

6. Immunobiological reagents based on the genome of a recombinant strain of simian adenovirus serotype 25 in the buffer of lyophilized form of the reagents, in which the E1 and E3 sites have been deleted from the genome, with an expression cassette SEQ ID NO:3 (simAd 25-EF1-S-CoV 2) containing the EF1 promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

Each of the immunobiological agents provided was component 2 in variant 1 of the developed agent and component 1 in variant 3 of the developed agent.

Example 5

An expression vector containing the genome of the recombinant strain of human adenovirus serotype 5 was obtained.

In stage 1, the design of plasmid constructs, pAd5-Ends, carrying two sites of homology (two homology arms) with the genome of human adenovirus serotype 5 was developed. One homology arm is the start of human adenovirus serotype 5 (repeated from the left inverted end to the E1 site) and includes the sequence of the pIX protein of the viral genome. The second homology arm contains the nucleotide sequence from after ORF3 of the E4 site to the end of the genome. The pAd5-Ends construct was synthesized by ZAO "Eurogene" (Moscow).

DNA of human adenovirus serotype 5 isolated from virions was mixed with the pAd5-Ends construct. Homologous recombination between pAd5-Ends and viral DNA yields plasmid pAd5-dlE1, which carries the genome of human adenovirus serotype 5 with the E1 site deleted.

The E3 site of the adenovirus genome (approximately 2685b. P. From the end of gene 12.5K to the start of the U-exon sequence) was then deleted from the constructed plasmid pAd5-dlE1 using conventional genetic engineering methods to increase vector packaging capacity. This resulted in the recombinant plasmid vector pAd 5-to-null based on the genome of human adenovirus serotype 5 in which E1 and E3 were deleted from the genome. SEQ ID NO 7 was used as the maternal sequence for human adenovirus serotype 5.

In addition, the authors developed several designs of expression cassettes:

The constructs pArms-Ad5-CMV-S-CoV2, pArms-Ad5-CAG-S-CoV2, pArms-Ad5-EF1-S-CoV2 then contain the expression cassettes SEQ ID NO 1, SEQ ID NO 2 or SEQ ID NO 3, respectively, based on the plasmid constructs pAd5-Ends, and homology arms carrying the genome of human adenovirus serotype 5 are also obtained using genetic engineering methods.

The constructs pArms-Ad5-CMV-S-CoV2, pArms-Ad5-CAG-S-CoV2, pArms-Ad5-EF1-S-CoV2 were then linearized at unique hydrolysis sites between the homology arms, and each plasmid was mixed with the recombinant vector pAd 5-to-null. Homologous recombination yields plasmids pAd5-too-CMV-S-CoV2, pAd5-too-GAC-S-CoV2, pAd5-too-EF1-S-CoV2, which carry the genome of the recombinant strain of human adenovirus serotype 5 with the E1 and the E3 sites deleted from the genome and the expression cassettes SEQ ID NO 1, SEQ ID NO 2 or SEQ ID NO 3, respectively.

In stage 4, the plasmids pAd5-too-CMV-S-CoV2, pAd5-too-GAC-S-CoV2, pAd5-too-EF1-S-CoV2 are hydrolysed with specific restriction endonucleases to remove the vector part. The obtained DNA product was used to transfect cell culture NEE 293. The obtained material is used for the accumulation of the preparation amount of the recombinant adenovirus.

This work resulted in the acquisition of human adenovirus serotype 5 containing the gene encoding the S protein of SARS-CoV-2: ad5-CMV-S-CoV2 (containing the expression cassette SEQ ID NO: 1), ad5-CAG-S-CoV2 (containing the expression cassette SEQ ID NO: 2), ad5-EF1-S-CoV2 (containing the expression cassette SEQ ID NO: 3).

Thus, an expression vector is obtained which contains the genome of a recombinant strain of human adenovirus serotype 5, in which the E1 and E3 sites are deleted from the genome, with an integrated expression cassette selected from the group consisting of SEQ ID NO 1, SEQ ID NO 2, SEQ ID NO 3.

Example 6

Obtaining immunobiological agents in the form of expression vectors based on the genome of recombinant strains containing human adenovirus serotype 5, in which the E1 and E3 sites are deleted from the genome, with an integrated expression cassette selected from the group consisting of SEQ ID NO 1, SEQ ID NO 2, SEQ ID NO 3.

In this working phase, the expression vector obtained in example 5 was purified using anion exchange and exclusion chromatography. The resulting suspension contains adenovirus particles in the buffer of the reagent in liquid form or in the buffer of the reagent in lyophilized form.

Thus, the following immunobiological agents based on the genome of a recombinant strain of human adenovirus serotype 5 in which the E1 and E3 sites are deleted from the genome:

1. immunobiological agents based on the genome of a recombinant strain of human adenovirus serotype 5, in which the E1 and E3 sites are deleted from the genome, in the buffer of the agent in liquid form, have an expression cassette SEQ ID NO 1 (Ad 5-CMV-S-CoV 2) containing the CMV promoter, the gene coding for the S protein of SARS-CoV-2 and a polyadenylation signal.

2. Immunobiological reagents based on the genome of a recombinant strain of human adenovirus serotype 5 in the buffer of lyophilized form of the reagent, in which the E1 and E3 sites have been deleted from the genome, with an expression cassette SEQ ID NO:1 (Ad 5-CMV-S-CoV 2) containing the CMV promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

3. Immunobiological agents based on the genome of a recombinant strain of human adenovirus serotype 5 in the buffer of the agent in liquid form, in which the E1 and E3 sites are deleted from the genome, have an expression cassette SEQ ID NO:2 (Ad 5-CAG-S-CoV 2) containing the CAG promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

4. Immunobiological reagents based on the genome of a recombinant strain of human adenovirus serotype 5 in the buffer of lyophilized form of the reagents, in which the E1 and E3 sites are deleted from the genome, with the expression cassette SEQ ID NO:2 (Ad 5-CAG-S-CoV 2) containing the CAG promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

5. Immunobiological agents based on the genome of a recombinant strain of human adenovirus serotype 5 in the buffer of the agent in liquid form, in which the E1 and E3 sites are deleted from the genome, have an expression cassette SEQ ID NO 3 (Ad 5-EF1-S-CoV 2) containing the EF1 promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

6. Immunobiological reagents based on the genome of a recombinant strain of human adenovirus serotype 5 in the buffer of lyophilized form of the reagents, in which the E1 and E3 sites are deleted from the genome, with the expression cassette SEQ ID NO:3 (Ad 5-EF1-S-CoV 2) containing the EF1 promoter, the gene encoding the S protein of SARS-CoV-2 and a polyadenylation signal.

Each of the immunobiological agents provided was component 1 of

variants

1 and 2 of the developed agent.

Each of the immunobiological agents provided was component 1 of

variants

2 and 3 of the developed agent.

Example 7

And (4) preparing a buffer solution.

The developed reagent according to the claimed invention comprises two components supplied in separate vials. Each component is an immunobiological agent based on a recombinant adenovirus having an expression cassette in a buffered solution.

The authors of the present invention have identified the composition of the buffer solution capable of maintaining the stability of the recombinant adenovirus particles. The solution consisted of:

1. tris (hydroxymethyl) aminomethane (Tris), which is required to maintain the pH of the solution.

2. Sodium chloride, added to achieve the appropriate ionic strength and osmotic pressure.

3. Sucrose, which acts as a cryoprotectant.

4. Magnesium chloride hexahydrate, which is required as a source of divalent cations.

EDTA, which is used as a free radical oxidation inhibitor.

6. Polysorbate-80 for use as a surfactant.

7. Ethanol 95%, which acts as a free radical oxidation inhibitor.

8. Water, which acts as a solvent.

The authors of the present invention have developed two variants of a buffer solution for an agent in liquid form and for a pharmaceutical product in lyophilized form.

Several variants of the experimental set were obtained for determining the concentration of the compound in the composition of the buffer solution for the reagent in liquid form (table 1). One of the components of the reagent was added to each of the prepared buffer solutions:

1. immunobiological agent based on recombinant human adenovirus serotype 26, with a gene containing the CMV promoter, the S protein coding for SARS-CoV-2 and a polyadenylation signal, 1 x 10 ¹¹ An expression cassette for individual viral particles.

2. Immunobiological agent based on recombinant human adenovirus serotype 5, with a gene containing the CMV promoter, the S protein coding for SARS-CoV-2 and a polyadenylation signal, 1 x 10 ¹¹ An expression cassette for individual viral particles.

3. Immunobiological agent based on a recombinant simian adenovirus serotype 25 having a gene containing the CMV promoter, the S protein coding for SARS-CoV-2 and a polyadenylation signal 1 x 10 ¹¹ An expression cassette for individual viral particles.

Thus, the stability of each of the adenovirus serotypes in the reagent compositions was tested. Storing the prepared medicinal product at-18 deg.C

-70 ℃ for 3 months, followed by thawing and evaluation of the change in the titer of recombinant adenovirus.

Table 1-composition of experimental buffer solutions for reagents in liquid form.

TABLE 1

The results of the experiments show that there is no change in the titre of recombinant adenovirus after 3 months of storage in the buffer for the agent in liquid form at temperatures of-18 ℃ and-70 ℃.

Thus, the developed buffer solution for the reagent in liquid form provides stability of all components of the developed reagent within the following active ingredient ranges (wt%):

tris: from 0.1831 wt% to 0.3432 wt%;

sodium chloride: from 0.3313 to 0.6212 wt%;

sucrose: from 3,7821 wt% to 7,0915 wt%;

magnesium chloride hexahydrate: from 0.0154 wt% to 0.0289 wt%;

EDTA: from 0.0029 to 0.0054 wt%;

polysorbate-80: from 0.0378 wt% to 0.0709 wt%;

95% of ethanol: from 0.0004 wt% to 0.0007 wt%;

solvent: and the rest is carried out.

Several variants of the experimental set were obtained for determining the concentration of the compound in the composition of the buffer solution for the lyophilized form of the reagent (table 2). One of the components of the reagent was added to each of the prepared buffer solutions:

2. Based on recombinant human adenovirus serotype 5Immunobiological agent comprising a gene containing CMV promoter, S protein encoding SARS-CoV-2 and polyadenylation signal 1 x 10 ¹¹ An expression cassette for individual viral particles.

Thus, the stability of each of the adenovirus serotypes in the reagent compositions was tested. The prepared medicinal products were stored at +2 ℃ and +8 ℃ for 3 months, and the change in the titer of recombinant adenovirus was evaluated.

Table 2-composition of the experimental buffer solutions.

TABLE 2

The results of the experiments show that there is no change in the titer of the recombinant adenovirus after 3 months of storage in the buffer for the lyophilized form of the reagent at temperatures of +2 ℃ and +8 ℃.

Thus, the buffer solutions developed for the lyophilized form of the reagents provide stability of all components of the developed reagents within the following active ingredient ranges (wt%):

tris (Tris): from 0.0180 wt% to 0.0338 wt%;

sodium chloride: from 0.1044 to 0.1957 wt%;

sucrose: from 5,4688 wt% to 10.2539 wt%;

magnesium chloride hexahydrate from 0.0015 to 0.0028 weight percent;

EDTA: from 0.0003 wt% to 0.0005 wt%;

polysorbate-80: from 0.0037 to 0.0070 wt%;

solvent: and (4) the rest.

Example 8

The study of immune effectiveness is based on the assessment of the humoral immune response in elderly animals vaccinated with the developed agent.

Antibody titers are one of the main characteristics of immune effectiveness. In the examples, the data are presented as antibody titers against SARS-CoV-2 glycoprotein in experimental animals on day 21 after administration of the agent compared to baseline.

In this experiment, 20-month-old female mice C57/Bl6 were used. All animals were divided into 43 groups of 3 animals each and received an intramuscular injection of 10 ¹¹ Individual virus particles/100. Mu.l dose of reagent component 1, followed by injection of 10 ¹¹ Individual virus particles per 100. Mu.l dose of component 2, or injection of 10 alone ¹¹ Individual virus particles per 100. Mu.l dose of component 1, or injection of 10 alone ¹¹ Individual virus particles per 100 μ l dose of component 2. Thus, the following groups of animals were studied:

1) Ad26-CMV-S-CoV2 (component 1), ad5-CMV-S-CoV2 (component 2);

2) Ad26-CMV-S-CoV2 (component 1), ad5-CAG-S-CoV2 (component 2);

3) Ad26-CMV-S-CoV2 (component 1), ad5-EF1-S-CoV2 (component 2);

4) Ad26-CAG-S-CoV2 (component 1), ad5-CMV-S-CoV2 (component 2);

5) Ad26-CAG-S-CoV2 (component 1), ad5-CAG-S-CoV2 (component 2);

6) Ad26-CAG-S-CoV2 (component 1), ad5-EF1-S-CoV2 (component 2);

7) Ad26-EF1-S-CoV2 (component 1), ad5-CMV-S-CoV2 (component 2);

8) Ad26-EF1-S-CoV2 (component 1), ad5-CAG-S-CoV2 (component 2);

9) Ad26-EF1-S-CoV2 (component 1), ad5-EF1-S-CoV2 (component 2);

10 Ad26-null (component 1), ad5-null (component 2);

11 Ad26-CMV-S-CoV2 (component 1), simAd25-CMV-S-CoV2 (component 2);

12 Ad26-CMV-S-CoV2 (component 1), simAd25-CAG-S-CoV2 (component 2);

13 Ad26-CMV-S-CoV2 (component 1), simAd25-EF1-S-CoV2 (component 2);

14 Ad26-CAG-S-CoV2 (fraction 1), simAd25-CMV-S-CoV2 (fraction 2);

15 Ad26-CAG-S-CoV2 (component 1), simAd25-CAG-S-CoV2 (component 2);

16 Ad26-CAG-S-CoV2 (fraction 1), simAd25-EF1-S-CoV2 (fraction 2);

17 Ad26-EF1-S-CoV2 (component 1), simAd25-CMV-S-CoV2 (component 2);

18 Ad26-EF1-S-CoV2 (component 1), simAd25-CAG-S-CoV2 (component 2);

19 Ad26-EF1-S-CoV2 (component 1), simAd25-EF1-S-CoV2 (component 2);

20 Ad26-null (fraction 1), simAd25-null (fraction 2);

21 Smad 25-CMV-S-CoV2 (component 1), ad5-CMV-S-CoV2 (component 2);

22 simAd25-CMV-S-CoV2 (component 1), ad5-CAG-S-CoV2 (component 2);

23 A simAd25-CMV-S-CoV2 (component 1), ad5-EF1-S-CoV2 (component 2);

24 Sim25-CAG-S-CoV2 (component 1), ad5-CMV-S-CoV2 (component 2);

25 simAd25-CAG-S-CoV2 (component 1), ad5-CAG-S-CoV2 (component 2);

26 Sim25-CAG-S-CoV2 (component 1), ad5-EF1-S-CoV2 (component 2);

27 Smad 25-EF1-S-CoV2 (component 1), ad5-CMV-S-CoV2 (component 2);

28 Smad 25-EF1-S-CoV2 (component 1), ad5-CAG-S-CoV2 (component 2);

29 Smad 25-EF1-S-CoV2 (component 1), ad5-EF1-S-CoV2 (component 2);

30 A simAd25-null (fraction 1), ad5-null (fraction 2);

31)Ad26-CMV-S-CoV2；

32)Ad26-CAG-S-CoV2；

33)Ad26-EF1-S-CoV2；

34)Ad26-null；

35)Ad5-CMV-S-CoV2；

36)Ad5-CAG-S-CoV2；

37)Ad5-EF1-S-CoV2；

38)Ad26-null；

39)simAd25-CMV-S-CoV2；

40)simAd25-CAG-S-CoV2；

41)simAd25-EF1-S-CoV2；

42)simAd25-null；

43 Phosphate buffered saline.

Blood from the tail vein was collected 3 weeks after immunization, followed by serum isolation. Antibody titers were determined by Enzyme Immunoassay (EIA) according to the following protocol:

1) The antigen was adsorbed in the wells of a 96-well microtiter plate for 16 hours at a temperature of +4 ℃.

2) To exclude non-specific binding, plates were "locked" with 5% milk dissolved in TPBS in an amount of 100 μ Ι _ per well. The plate was incubated on a shaker for 1 hour at +37 ℃.

3) A series of 2-fold dilutions of the immunized mouse serum were prepared. A total of 12 dilutions were made for each sample.

4) 50 μ L of each diluted serum sample was added to the well.

5) The plates were then incubated at +37 ℃ for 1 hour.

6) After incubation, wells were washed with triplicate phosphate buffer.

7) A second horseradish peroxidase-conjugated anti-mouse-IgG antibody was then added.

8) The plates were then incubated at +37 ℃ for 1 hour.

9) After incubation, wells were washed with triplicate phosphate buffer.

10 Then Tetramethylbenzidine (TMB) solution, which is a horseradish substrate and becomes a colored compound during the reaction, is added. Sulfuric acid was added over 15 minutes to stop the reaction. The Optical Density (OD) of the solution was then measured in each well using a spectrophotometer at a wavelength of 450 nm.

Antibody titers were determined as the highest dilutions, showing that the optical density of the solutions was significantly greater than that of the negative control group. The results (geometric mean) are shown in table 3.

Table 3-titers of anti-S protein antibodies in mouse sera (geometric mean antibody titers).

TABLE 3

The presented data indicate that all variants of this agent induce a humoral immune response against SARS-CoV-2 glycoprotein in elderly animals.

Example 9

Validation study of intranasal immunization of reagent Components based on evaluation of humoral immune response

The purpose of this study was to evaluate the effectiveness of the developed agents after intranasal administration.

In this experiment, female mice C57/Bl6 were 18 to 20g in weight, 5 animals per group. The following groups of animals were studied:

1) Single intranasal dose of recombinant human adenovirus serotype 26 (Ad 26-to-CMV-S-CoV 2) genome-based agent in liquid form, 5 x 10 ¹⁰ Individual viral particles per dose.

2) Single intranasal dose of recombinant human adenovirus serotype 5 (Ad 5-to-CMV-S-CoV 2) genome-based agent in liquid form, 5 x 10 ¹⁰ Individual viral particles per dose.

3) Single intranasal dose of an agent based on the genome of recombinant simian adenovirus serotype 25 (simAd 25-too-CMV-S-CoV 2) in liquid form, 5 x 10 ¹⁰ Individual viral particles per dose.

4) Single intranasal dose of recombinant human adenovirus serotype 26 (Ad 26-to-CMV-S-CoV 2) genome-based agent in liquid form, 5 x 10 ¹¹ Individual viral particles per dose.

5) Single intranasal dose of recombinant human adenovirus serotype 5 (Ad 5-to-CMV-S-CoV 2) genome-based agent in liquid form, 5 x 10 ¹¹ Individual viral particles per dose.

6) Single intranasal dose of an agent based on the genome of recombinant simian adenovirus serotype 25 (simAd 25-to-CMV-S-CoV 2) in liquid form, 5 x 10 ¹¹ Individual viral particles per dose.

7) Single intranasal dose of buffer solution (negative control).

1) The antigen was adsorbed in the wells of a 96-well microtiter plate at a temperature of +4 ℃ for 16 hours.

2) To exclude non-specific binding, plates were "locked" with 5% milk dissolved in TPBS in an amount of 100 μ Ι _ per well. Plates were incubated on a shaker for 1 hour at +37 ℃.

3) A series of 2-fold dilutions of the sera from immunized mice were prepared. A total of 12 dilutions were made for each sample.

4) 50 μ L of each diluted serum sample was added to the plate well.

5) The plates were then incubated at +37 ℃ for 1 hour.

6) After incubation, wells were washed with triplicate phosphate buffer.

7) Horseradish peroxidase conjugated secondary anti-mouse-IgG antibody was then added.

8) The plates were then incubated at +37 ℃ for 1 hour.

9) After incubation, the wells were washed with triplicate phosphate buffer.

Antibody titers were determined as the highest dilution, showing that the optical density of the solution was significantly greater than that of the negative control group. The results (geometric mean) are shown in table 4.

Table 4-titers of anti-S protein antibodies in mouse sera (geometric mean antibody titers).

TABLE 4

Animal group	Antibody titer
		Ad26-too-CMV-S-CoV2，5*10 ¹⁰ v.p./dose	4915.2
Ad5-too-CMV-S-CoV2，5*10 ¹⁰ v.p./dose	16384.0
		simAd25-too-CMV-S-CoV2，5*10 ¹⁰ v.p./dose	13107.2
Ad26-too-CMV-S-CoV2，5*10 ¹¹ v.p./dose	14745.6
		Ad5-too-CMV-S-CoV2，5*10 ¹¹ v.p./dose	22937.6
simAd25-too-CMV-S-CoV2，5*10 ¹¹ v.p./dose	16384.0
		Buffer solution	0

The presented data demonstrate that intranasal immunization of animals with the developed pharmaceutical product results in an increase in antibody titer against the S protein of SARS-CoV-2. Thus, the results of this experiment support the use of the developed agents for inducing specific immunity to SARS-CoV-2 virus by the intranasal route.

Example 10

Study of the safety of the developed agents in volunteers aged over 60 years with chronic disease.

110 volunteers over 60 years of age were included in the study. The immunization protocol proposed involved the intramuscular administration of component 1 and component 2 of reagent variant 1 (Ad 26-CMV-S-CoV2, ad5-CMV-S-CoV 2) in that order. 1 volunteer discontinued before vaccination due to withdrawal of consent, and 109 volunteers began study treatment. The other volunteer received component 1 of the reagent but discontinued before component 2 was administered. Thus, 108 volunteers received both components of the reagent. Samples based on the full analysis set (n = 109) included 56 (51.4%) men and 53 (48.6%) women, 107 (98.2%) caucasian volunteers and 2 (1.8%) asian volunteers with an average age of 68.2 (5.96) years, ranging from 60 to 85 years. Body weight index (mean (SD)) 28.4 (4.11) kg/m ² 。

As expected for this age group, significant morbidity was reported in 106 (97.2%) cases of history. The most common concomitant diseases are arterial hypertension, obesity and dyslipidemia.

During the study, a total of 35 Adverse Events (AEs) were reported in 17 (15.60%) volunteers. 16 (14.68%) volunteers experienced 34 non-severe AEs. 1 AE in 1 (0.92%) volunteer (atrial fibrillation) was judged severe because the causal relationship with study agents was evaluated as suspicious, with moderate severity SAE requiring treatment and resultantly convalescent, in compliance with the criteria "requiring hospitalization or extending the time of existing hospitalization".

Based on the relationship to the study product, the distribution of all reported AEs was as follows: 12 AEs were considered to be related to the product (clear relationship), 89 AEs were considered likely to be related, 4 AEs were considered likely to be related, 7 AEs were judged suspect, and 3 AEs were judged "unknown".

With respect to severity, all minor AEs were mild (34 AEs). Only 1 AE (SAE above) was evaluated as moderate severity.

AE experienced by the volunteer is shown in table 5 by the MedDRA system-organ classification.

Table 5 all adverse events reported in the study (SOC MedDRA).

TABLE 5

The data is shown as X (%) Y, where X (%) is the number of volunteers reporting at least one event (percentage column) and Y is the number of events.

Based on the study results, it can be concluded that AEs observed during the study in volunteers aged over 60 years are typical for most vaccines. No serious AE was recorded.

Example 11

The immunological effectiveness of the developed reagents was studied based on the assessment of the level of cell-mediated immunity in volunteers aged over 60 years.

The aim of this study was to assess the level of cell-mediated immunity to the SARS-CoV-2 virus, which was based on the in vitro determination of the percentage of proliferating T cells and the secretion of interferon gamma by monocytes measured in volunteers aged over 60 years with chronic disease after immunization with various variants of the developed reagents.

110 volunteers aged over 60 years were included in the study. The proposed immunization protocol involves the sequential intramuscular administration of component 1 and component 2 of the agent variant 1 (Ad 26-CMV-S-CoV2, ad5-CMV-S-CoV 2). 1 volunteer discontinued before vaccination due to withdrawal of consent, and 109 volunteers began study treatment. The other volunteer received component 1 of the reagent but discontinued before component 2 was administered. Thus, 108 volunteers received both components of the reagent. Base ofSamples in the total analysis set (n = 109) included 56 (51.4%) men and 53 (48.6%) women, 107 (98.2%) caucasian volunteers and 2 (1.8%) asian volunteers with an average age of 68.2 (5.96) years, ranging from 60 to 85 years. Body weight index (mean (SD)) 28.4 (4.11) kg/m ² 。

Blood samples from volunteers were collected before and on day 28 after immunization and centrifuged with ficcol density gradient (1,077g/mL; panEco) to isolate monocytes. The isolated cells were then stained with CFSE fluorescent dye (Invivogen, usa) and added to wells of a 96-well microtiter plate (2 x 10) ⁵ Individual cells/well). Lymphocytes were then restimulated in vitro by adding coronavirus S protein to the medium (until the final protein concentration was 1. Mu.g/mL). Intact cells without added antigen served as negative controls. 72 hours after the addition of antigen, the percentage of proliferating cells was determined and the medium was collected for determination of interferon gamma levels.

Cells were stained with antibodies against T cell marker molecules CD3, CD4, CD8 (anti-CD 3 Pe-Cy7 (clone SK7 of BD Biosciences), anti-CD 4 APC (clone SK3 of BD Biosciences), anti-CD 8PerCP-cy5.5 (clone SK1 of BD Biosciences)) to evaluate the percentage of proliferating cells. Flow cytofluorometer BD FACS AriaIII (BD biosciences, usa) was used to identify proliferating (carrying lower amounts of CFSE dye) CD4+ and CD8+ T cells in the cell mixture. The results obtained from the analysis of intact cells were subtracted from the results obtained from the analysis of cells restimulated with coronavirus antigen S to determine the resulting percentage of proliferating cells in each sample. The final result is shown in fig. 1.

Based on the results of this study, it can be concluded that two immunizations with the developed agent in volunteers aged over 60 years resulted in the generation of antigen-specific CD4+ and CD8+ t cells on day 28 after administration of the first component of the vaccine. The median percentages of proliferating CD4+ and CD8+ t cells in volunteers of the age group above 60 years were 0.7 (CI: 0.5 to 2.2) and 0.8 (CI: 0.3 to 2.2), respectively. The difference between CD4+ and CD8+ t cell values measured before immunization (day 0) and 28 days after administration of the first vaccine component was statistically significant, p <0.001.

In the second phase of the study, human blood mononuclear cell culture medium collected from volunteers aged over 60 years was tested for interferon gamma (IFN γ) concentration. Monocytes were isolated by centrifugation on ficcol density gradient (1,077g/mL; panEco) from blood samples collected before and 28 days after immunization with the developed reagents. Cells were re-stimulated with the S protein of SARS-CoV-2, and interferon gamma (IFN γ) concentrations were measured 96 hours after re-stimulation using the interferon γ EIA-BEST kit (VECTOR BEST, russia) according to the manufacturer' S instructions.

The increase in IFN γ concentration is determined by the equation KHz = C/C int, wherein H is the increase in IFN γ concentration (fold), the IFN γ concentration in C st-stimulated cell culture medium (pg/mL), the IFN γ concentration in C int-unstimulated (intact) cell culture medium (pg/mL).

The results of this study are shown in figure 2.

As is evident from the presented results, immunization of volunteers aged 60 years or older with the developed reagents resulted in the generation of antigen-specific interferon-secreting cells within 29 days after administration of the first component. On study day 28, the median increase in interferon γ was 4.041 (CI: 2.106 to 6.802. The difference between the increase in interferon γ before immunization (day 0) and 28 days after administration of the first vaccine component was statistically significant in volunteers aged over 60 years, with p <0.001. Study results demonstrate that cell-mediated adaptive immune elements were generated in volunteers after immunization with the developed agents.

Thus, based on the above data, it can be concluded that strong antigen-specific cell-mediated immune elements against SARS-CoV-2 are induced in volunteers aged 60 years old and older immunized with the developed reagents, and that this conclusion is supported by the high statistical significance of the measured parameters before and after immunization.

Example 12

Based on the assessment of the level of humoral immunity in volunteers aged over 60 years, the immunological effectiveness of the developed reagents was studied.

The aim of this study was to assess the level of humoral immunity to the SARS-CoV-2 virus, based on the measurement of the antibody titre of RBD against the S protein of SSARS-CoV-2 in volunteers aged 60 years and older with chronic disease, after immunization with the reagents developed.

110 volunteers over 60 years of age were included in the study. The proposed immunization protocol involved the sequential intramuscular administration of component 1 and component 2 of reagent variant 1 (Ad 26-CMV-S-CoV2, ad5-CMV-S-CoV 2) with 21 days between the components. 1 volunteer discontinued before vaccination due to withdrawal of consent, and 109 volunteers began study treatment. The other volunteer received component 1 of the reagent but discontinued before component 2 was administered. Thus, 108 volunteers received both components of the reagent variant 1.

As expected for this age group, significant morbidity was reported in 106 cases of medical history. The most common concomitant diseases are arterial hypertension, obesity and dyslipidemia.

Titers of antigen-specific IgG were evaluated on day 21 and day 28 in 108 volunteers over 60 years old and on day 42 in 63 volunteers.

The titer of the antibodies was measured using an enzyme immunoassay test system (RZN 2020/10393 2020-05-18) developed by the Russian Ministry of health, FGBU N.F. Gamaleya national epidemiology and microbiology research center, which allows the measurement of IgG against RBD of S protein of SARS-CoV-2.

Microtiter plates with pre-adsorbed RBD (100 ng/well) were washed with 5 wash buffers. Two replicates of 100. Mu.L positive control and two replicates of 100. Mu.L negative control were then added to the wells. A series of two-fold dilutions of the test sample (each sample was repeated twice) was added to the other wells. The plate was covered with an adhesive film, incubated at +37 ℃ for 1 hour and shaken continuously at 300 rpm. The wells were then washed with 5 parts of wash buffer. Add 100 μ Ι _ of conjugated monoclonal antibody working solution to each well; the plate was covered with an adhesive film and incubated at a temperature of +37 ℃ for 1 hour with constant shaking at 300 rpm. The wells were then washed with 5 parts of wash buffer. To each well 100 μ L of the chromogen-substrate solution was added and the plate was incubated in the dark at a temperature of +20 ℃ for 15 minutes. The reaction was then stopped by adding a stop reagent (50. Mu.L of 1M sulfuric acid solution) to each well. The optical density was measured at 450nm by using a spectrophotometer, and the result was recorded within 10 minutes after the termination of the reaction.

IgG titers were determined as the highest serum dilution of immunized subjects, which correlated with OD450, more than 2-fold greater than the value obtained for control sera (i.e., sera of preimmunized subjects).

Analysis results of antibody titers against SARS-CoV-2 antigen in sera of volunteers over 60 years old after administration of various variants of the developed reagents and are shown in fig. 3.

As is evident from the presented data, the antibody titers induced by continuous immunization of volunteers with the developed reagents increased with the time elapsed from the start of immunization. Class G antibodies against RBD of the S protein of SARS-Cov2 were detected in 53.2% of volunteers on day 21 (before component 2 administration) and in 98.1% of volunteers on day 28 (7 days after component 2 administration) (titers > 1. At day 28 (geometric mean titer 1719.9), a significant increase in antigen-specific IgG titers was observed compared to day 21 (geometric mean titer 33.8). On day 42, 63 of 108 volunteers were studied when reporting the draft. In the volunteers studied, the antibody titer (geometric mean titer 2926.2) was significantly increased compared to the titer value at day 28 (geometric mean titer 1773.5) measured in the same volunteers. Notably, on day 42, antigen-specific class G antibodies were detected in 100% of volunteers in available blood samples.

In summary, the results of antibody titer assessment in the sera of volunteers indicate that:

1. on day 21 after immunization, a single immunization with component 1 of the reagent can induce 53.2% of volunteers in the age group above 60 years to produce antigen-specific IgG antibodies.

2. Immunisation of volunteers of the age group above 60 years with both components of the reagent may result in the production of antigen-specific IgG antibodies in 98.1% of volunteers of the age group above 60 years at day 28 after immunisation.

3. In volunteers of the age group above 60 years immunized with the developed agent, the antibody titer continued to increase on day 42 after the start of immunization. The data collected indicate that antigen-specific IgG antibodies also continued to grow after day 42 from the start of immunization.

Example 13

The developed agents were used to assess the effectiveness and safety of immunization of subjects with chronic diseases.

The clinical development program included a study of the developed agent, variant 1 (Ad 26-CMV-S-CoV2, ad5-CMV-S-CoV 2) in 35963 volunteers, in which 19866 subjects were immunized with both components of the agent (intramuscular dose 1 \ 1093 ¹¹ v.p. entry into deltoid muscle at 21 day intervals).

Volunteers 18 to 92 years of age were included in the study. The mean ages of group 1 (study agent, SA) and group II (placebo) were 45.3 ± 12.0 years and 45.3 ± 11.9 years, respectively.

Concomitant disease analysis showed that 3687 volunteers (24.7%) in the study reagent group and 1235 volunteers (25.3%) in the placebo group had complications (table 6).

TABLE 6. Complications in the study volunteers.

TABLE 6

Physical examination at screening showed 823 abnormalities, including 42 clinically significant abnormalities. Most of the abnormalities involved the cardiovascular system (487 of 823 abnormalities, or 59.2%) (Table 7).

TABLE 7 abnormalities observed in physical examination at screening

Table 7.

Data are currently available for interim immunogenicity analyses, which show that vaccines induce an immune response in volunteers. At study day 42, the geometric mean titer of the antibodies was 8996, and the seroconversion level was 98.25%. Seroconversion levels were significantly lower in the placebo group: 14.91% (p < 0.001).

In this clinical study, the safety of the developed agents was also assessed. Until now, 16795 adverse events were recorded in 7998 volunteers. Of these 70 events were described as severe adverse events due to hospitalization of the subjects requiring the study. Of these events, no causal relationship was found between events and study agents as adjudged by the independent data monitoring committee.

In summary, adverse events observed in clinical studies are typical for most vaccine products. With respect to the incidence of adverse events, which is not characteristic of vaccine products, there were no statistically significant differences between the experimental and control groups. Influenza-like disease and injection site reactions are the most common side effects. During the study, it was confirmed that there was no severe allergic reaction caused by the developed agent during the study.

Industrial use

All presented examples support the effectiveness and industrial use of this agent, which provides an effective induction of the immune response to SARS-CoV-2 in humans over the age of 60.

Sequence listing

<110> Russian Federal Ministry OF HEALTH Federation nation NATIONAL budget INSTITUTION "reputation INSTITUTION N.F. Gamaleya NATIONAL EPIDEMIOLOGY AND MICROBIOLOGY RESEARCH center" (FEDERAL STATE BUDGETY INSTITION "NATIONAL RESARCH CENTRE FOR EPIDIOLOGY AND MICROBIOLOGY NAMED AFTER THE HONORAY ACAY DEMICAN N.F. GAMALEIYA" OF THE MINISTY OF HEALTH OF THE THEE RUSSIAN FEDERATION)

Use of an agent for inducing specific immunity to SARS-COV-2 in <120> over 60 years old and/or in patients with chronic disease

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gtatttacgg taaactgccc acttggcagt acatcaagtg tatcatatgc caagtacgcc 240

ccctattgac gtcaatgacg gtaaatggcc cgcctggcat tatgcccagt acatgacctt 300

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gcggttttgg cagtacatca atgggcgtgg atagcggttt gactcacggg gatttccaag 420

tctccacccc attgacgtca atgggagttt gttttggcac caaaatcaac gggactttcc 480

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ggtctatata agcagagctg gtttagtgaa ccgtcagatc cgctagagat ctggtaccgt 600

cgacgcggcc gctcgagcct aagcttggta ccatgtttgt gttccttgtg ttattgccac 660

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tggacagcaa gacccagagc ctgctgatcg tgaacaacgc caccaacgtg gtcatcaaag 1020

tgtgcgagtt ccagttctgc aacgacccct tcctgggcgt ctactatcac aagaacaaca 1080

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tgagcttccc tcagtctgcc cctcacggcg tggtgtttct gcacgtgaca tacgtgcccg 3840

ctcaagagaa gaatttcacc accgctccag ccatctgcca cgacggcaaa gcccactttc 3900

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acgagcccca gatcatcacc accgacaaca ccttcgtgtc tggcaactgc gacgtcgtga 4020

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ggggcggggg gggggggcgc gcgccaggcg gggcggggcg gggcgagggg cggggcgggg 540

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ctgcgcgctg ccttcgcccc gtgccccgct ccgccgccgc ctcgcgccgc ccgccccggc 720

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gtaattagcg cttggtttaa tgacggcttg tttcttttct gtggctgcgt gaaagccttg 840

aggggctccg ggagggccct ttgtgcgggg ggagcggctc ggggggtgcg tgcgtgtgtg 900

tgtgcgtggg gagcgccgcg tgcggctccg cgctgcccgg cggctgtgag cgctgcgggc 960

gcggcgcggg gctttgtgcg ctccgcagtg tgcgcgaggg gagcgcggcc gggggcggtg 1020

ccccgcggtg cgggggggct gcgaggggaa caaaggctgc gtgcggggtg tgtgcgtggg 1080

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ctcgccgtgc cgggcggggg gtggcggcag gtgggggtgc cgggcggggc ggggccgcct 1260

cgggccgggg agggctcggg ggaggggcgc ggcggccccc ggagcgccgg cggctgtcga 1320

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ctagaaagct tggtaccatg tttgtgttcc ttgtgttatt gccactagtc tctagtcagt 1680

gtgtgaacct gaccacaaga acccagctgc ctccagccta caccaacagc tttaccagag 1740

gcgtgtacta ccccgacaag gtgttcagat ccagcgtgct gcactctacc caggacctgt 1800

tcctgccttt cttcagcaac gtgacctggt tccacgccat ccacgtgtcc ggcaccaatg 1860

gcaccaagag attcgacaac cccgtgctgc ccttcaacga cggggtgtac tttgccagca 1920

ccgagaagtc caacatcatc agaggctgga tcttcggcac cacactggac agcaagaccc 1980

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tctgcaacga ccccttcctg ggcgtctact atcacaagaa caacaagagc tggatggaaa 2100

gcgagttccg ggtgtacagc agcgccaaca actgcacctt cgagtacgtg tcccagcctt 2160

tcctgatgga cctggaaggc aagcagggca acttcaagaa cctgcgcgag ttcgtgttca 2220

agaacatcga cggctacttc aagatctaca gcaagcacac ccctatcaac ctcgtgcggg 2280

atctgcctca gggcttctct gctctggaac ccctggtgga tctgcccatc ggcatcaaca 2340

tcacccggtt tcagacactg ctggccctgc acagaagcta cctgacacct ggcgatagca 2400

gcagcggatg gacagctggt gccgccgctt actatgtggg ctacctgcag cctagaacct 2460

tcctgctgaa gtacaacgag aacggcacca tcaccgacgc cgtggattgt gctctggatc 2520

ctctgagcga gacaaagtgc accctgaagt ccttcaccgt ggaaaagggc atctaccaga 2580

ccagcaactt ccgggtgcag cccaccgaat ccatcgtgcg gttccccaat atcaccaatc 2640

tgtgcccctt cggcgaggtg ttcaatgcca ccagattcgc ctctgtgtac gcctggaacc 2700

ggaagcggat cagcaattgc gtggccgact actccgtgct gtacaactcc gccagcttca 2760

gcaccttcaa gtgctacggc gtgtccccta ccaagctgaa cgacctgtgc ttcacaaacg 2820

tgtacgccga cagcttcgtg atccggggag atgaagtgcg gcagattgcc cctggacaga 2880

caggcaagat cgccgactac aactacaagc tgcccgacga cttcaccggc tgtgtgattg 2940

cctggaacag caacaacctg gactccaaag tcggcggcaa ctacaattac ctgtaccggc 3000

tgttccggaa gtccaatctg aagcccttcg agcgggacat ctccaccgag atctatcagg 3060

ccggcagcac cccttgtaac ggcgtggaag gcttcaactg ctacttccca ctgcagtcct 3120

acggctttca gcccacaaat ggcgtgggct atcagcccta cagagtggtg gtgctgagct 3180

tcgaactgct gcatgcccct gccacagtgt gcggccctaa gaaaagcacc aatctcgtga 3240

agaacaaatg cgtgaacttc aacttcaacg gcctgaccgg caccggcgtg ctgacagaga 3300

gcaacaagaa gttcctgcca ttccagcagt ttggccggga tattgccgat accacagacg 3360

ccgtacgaga tccccagaca ctggaaatcc tggacatcac cccttgcagc ttcggcggag 3420

tgtctgtgat cacccctggc accaacacca gcaatcaggt ggcagtgctg taccaggacg 3480

tgaactgtac cgaagtgccc gtggccattc acgccgatca gctgacacct acatggcggg 3540

tgtactccac cggcagcaat gtgtttcaga ccagagccgg ctgtctgatc ggagccgagc 3600

acgtgaacaa tagctacgag tgcgacatcc ccatcggcgc tggcatctgt gccagctacc 3660

agacacagac aaacagcccc agacgggcca gatctgtggc cagccagagc atcattgcct 3720

acacaatgtc tctgggcgcc gagaacagcg tggcctactc caacaactct atcgctatcc 3780

ccaccaactt caccatcagc gtgaccacag agatcctgcc tgtgtccatg accaagacca 3840

gcgtggactg caccatgtac atctgcggcg attccaccga gtgctccaac ctgctgctgc 3900

agtacggcag cttctgcacc cagctgaata gagccctgac agggatcgcc gtggaacagg 3960

acaagaacac ccaagaggtg ttcgcccaag tgaagcagat ctacaagacc cctcctatca 4020

aggacttcgg cggcttcaat ttcagccaga ttctgcccga tcctagcaag cccagcaagc 4080

ggagcttcat cgaggacctg ctgttcaaca aagtgacact ggccgacgcc ggcttcatca 4140

agcagtatgg cgattgtctg ggcgacattg ccgccaggga tctgatttgc gcccagaagt 4200

ttaacggact gacagtgctg ccaccactgc tgaccgatga gatgatcgcc cagtacacat 4260

ctgccctgct ggccggcaca atcacaagcg gctggacatt tggagctggc gccgctctgc 4320

agatcccctt tgctatgcag atggcctacc ggttcaacgg catcggagtg acccagaatg 4380

tgctgtacga gaaccagaag ctgatcgcca accagttcaa cagcgccatc ggcaagatcc 4440

aggacagcct gagcagcaca gcaagcgccc tgggaaagct gcaggacgtg gtcaaccaga 4500

atgcccaggc actgaacacc ctggtcaagc agctgtcctc caacttcggc gccatcagct 4560

ctgtgctgaa cgacatcctg agcagactgg acaaggtgga agccgaggtg cagatcgaca 4620

gactgatcac cggaaggctg cagtccctgc agacctacgt tacccagcag ctgatcagag 4680

ccgccgagat tagagcctct gccaatctgg ccgccaccaa gatgtctgag tgtgtgctgg 4740

gccagagcaa gagagtggac ttttgcggca agggctacca cctgatgagc ttccctcagt 4800

ctgcccctca cggcgtggtg tttctgcacg tgacatacgt gcccgctcaa gagaagaatt 4860

tcaccaccgc tccagccatc tgccacgacg gcaaagccca ctttcctaga gaaggcgtgt 4920

tcgtgtccaa cggcacccat tggttcgtga cccagcggaa cttctacgag ccccagatca 4980

tcaccaccga caacaccttc gtgtctggca actgcgacgt cgtgatcggc attgtgaaca 5040

ataccgtgta cgaccctctg cagcccgagc tggacagctt caaagaggaa ctggataagt 5100

actttaagaa ccacacaagc cccgacgtgg acctgggcga catcagcgga atcaatgcca 5160

gcgtcgtgaa catccagaaa gagatcgacc ggctgaacga ggtggccaag aatctgaacg 5220

agagcctgat cgacctgcaa gaactgggga agtacgagca gtacatcaag tggccctggt 5280

acatctggct gggctttatc gccggactga ttgccatcgt gatggtcaca atcatgctgt 5340

gttgcatgac cagctgctgt agctgcctga agggctgttg tagctgtggc agctgctgca 5400

agttcgacga ggacgattct gagcccgtgc tcaaaggagt caaattacat tacacataat 5460

tcactcctca ggtgcaggct gcctatcaga aggtggtggc tggtgtggcc aatgccctgg 5520

ctcacaaata ccactgagat ctttttccct ctgccaaaaa ttatggggac atcatgaagc 5580

cccttgagca tctgacttct ggctaataaa ggaaatttat tttcattgca atagtgtgtt 5640

ggaatttttt gtgtctctca ctcggaagga catatgggag ggcaaatcat ttaaaacatc 5700

agaatgagta tttggtttag agtttggcaa catatgccca tatgctggct gccatgaaca 5760

aaggttggct ataaagaggt catcagtata tgaaacagcc ccctgctgtc cattccttat 5820

tccatagaaa agccttgact tgaggttaga tttttttata ttttgttttg tgttattttt 5880

tctttaacat ccctaaaatt ttccttacat gttttactag ccagattttt cctcctctcc 5940

tgactactcc cagtcatagc tgtccctctt ctcttatgga gatc 5984

<210> 3

<211> 5314

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 3

ggtgaggctc cggtgcccgt cagtgggcag agcgcacatc gcccacagtc cccgagaagt 60

tggggggagg ggtcggcaat tgaaccggtg cctagagaag gtggcgcggg gtaaactggg 120

aaagtgatgt cgtgtactgg ctccgccttt ttcccgaggg tgggggagaa ccgtatataa 180

gtgcagtagt cgccgtgaac gttctttttc gcaacgggtt tgccgccaga acacaggtaa 240

gtgccgtgtg tggttcccgc gggcctggcc tctttacggg ttatggccct tgcgtgcctt 300

gaattacttc cacctggctg cagtacgtga ttcttgatcc cgagcttcgg gttggaagtg 360

ggtgggagag ttcgaggcct tgcgcttaag gagccccttc gcctcgtgct tgagttgagg 420

cctggcctgg gcgctggggc cgccgcgtgc gaatctggtg gcaccttcgc gcctgtctcg 480

ctgctttcga taagtctcta gccatttaaa atttttgatg acctgctgcg acgctttttt 540

tctggcaaga tagtcttgta aatgcgggcc aagatctgca cactggtatt tcggtttttg 600

gggccgcggg cggcgacggg gcccgtgcgt cccagcgcac atgttcggcg aggcggggcc 660

tgcgagcgcg gccaccgaga atcggacggg ggtagtctca agctggccgg cctgctctgg 720

tgcctggcct cgcgccgccg tgtatcgccc cgccctgggc ggcaaggctg gcccggtcgg 780

caccagttgc gtgagcggaa agatggccgc ttcccggccc tgctgcaggg agctcaaaat 840

ggaggacgcg gcgctcggga gagcgggcgg gtgagtcacc cacacaaagg aaaagggcct 900

ttccgtcctc agccgtcgct tcatgtgact ccacggagta ccgggcgccg tccaggcacc 960

tcgattagtt ctcgagcttt tggagtacgt cgtctttagg ttggggggag gggttttatg 1020

cgatggagtt tccccacact gagtgggtgg agactgaagt taggccagct tggcacttga 1080

tgtaattctc cttggaattt gccctttttg agtttggatc ttggttcatt ctcaagcctc 1140

agacagtggt tcaaagtttt tttcttccat ttcaggtgtc gtgaggaatt agcttggtac 1200

taatacgact cacaagcttg gtaccatgtt tgtgttcctt gtgttattgc cactagtctc 1260

tagtcagtgt gtgaacctga ccacaagaac ccagctgcct ccagcctaca ccaacagctt 1320

taccagaggc gtgtactacc ccgacaaggt gttcagatcc agcgtgctgc actctaccca 1380

ggacctgttc ctgcctttct tcagcaacgt gacctggttc cacgccatcc acgtgtccgg 1440

caccaatggc accaagagat tcgacaaccc cgtgctgccc ttcaacgacg gggtgtactt 1500

tgccagcacc gagaagtcca acatcatcag aggctggatc ttcggcacca cactggacag 1560

caagacccag agcctgctga tcgtgaacaa cgccaccaac gtggtcatca aagtgtgcga 1620

gttccagttc tgcaacgacc ccttcctggg cgtctactat cacaagaaca acaagagctg 1680

gatggaaagc gagttccggg tgtacagcag cgccaacaac tgcaccttcg agtacgtgtc 1740

ccagcctttc ctgatggacc tggaaggcaa gcagggcaac ttcaagaacc tgcgcgagtt 1800

cgtgttcaag aacatcgacg gctacttcaa gatctacagc aagcacaccc ctatcaacct 1860

cgtgcgggat ctgcctcagg gcttctctgc tctggaaccc ctggtggatc tgcccatcgg 1920

catcaacatc acccggtttc agacactgct ggccctgcac agaagctacc tgacacctgg 1980

cgatagcagc agcggatgga cagctggtgc cgccgcttac tatgtgggct acctgcagcc 2040

tagaaccttc ctgctgaagt acaacgagaa cggcaccatc accgacgccg tggattgtgc 2100

tctggatcct ctgagcgaga caaagtgcac cctgaagtcc ttcaccgtgg aaaagggcat 2160

ctaccagacc agcaacttcc gggtgcagcc caccgaatcc atcgtgcggt tccccaatat 2220

caccaatctg tgccccttcg gcgaggtgtt caatgccacc agattcgcct ctgtgtacgc 2280

ctggaaccgg aagcggatca gcaattgcgt ggccgactac tccgtgctgt acaactccgc 2340

cagcttcagc accttcaagt gctacggcgt gtcccctacc aagctgaacg acctgtgctt 2400

cacaaacgtg tacgccgaca gcttcgtgat ccggggagat gaagtgcggc agattgcccc 2460

tggacagaca ggcaagatcg ccgactacaa ctacaagctg cccgacgact tcaccggctg 2520

tgtgattgcc tggaacagca acaacctgga ctccaaagtc ggcggcaact acaattacct 2580

gtaccggctg ttccggaagt ccaatctgaa gcccttcgag cgggacatct ccaccgagat 2640

ctatcaggcc ggcagcaccc cttgtaacgg cgtggaaggc ttcaactgct acttcccact 2700

gcagtcctac ggctttcagc ccacaaatgg cgtgggctat cagccctaca gagtggtggt 2760

gctgagcttc gaactgctgc atgcccctgc cacagtgtgc ggccctaaga aaagcaccaa 2820

tctcgtgaag aacaaatgcg tgaacttcaa cttcaacggc ctgaccggca ccggcgtgct 2880

gacagagagc aacaagaagt tcctgccatt ccagcagttt ggccgggata ttgccgatac 2940

cacagacgcc gtacgagatc cccagacact ggaaatcctg gacatcaccc cttgcagctt 3000

cggcggagtg tctgtgatca cccctggcac caacaccagc aatcaggtgg cagtgctgta 3060

ccaggacgtg aactgtaccg aagtgcccgt ggccattcac gccgatcagc tgacacctac 3120

atggcgggtg tactccaccg gcagcaatgt gtttcagacc agagccggct gtctgatcgg 3180

agccgagcac gtgaacaata gctacgagtg cgacatcccc atcggcgctg gcatctgtgc 3240

cagctaccag acacagacaa acagccccag acgggccaga tctgtggcca gccagagcat 3300

cattgcctac acaatgtctc tgggcgccga gaacagcgtg gcctactcca acaactctat 3360

cgctatcccc accaacttca ccatcagcgt gaccacagag atcctgcctg tgtccatgac 3420

caagaccagc gtggactgca ccatgtacat ctgcggcgat tccaccgagt gctccaacct 3480

gctgctgcag tacggcagct tctgcaccca gctgaataga gccctgacag ggatcgccgt 3540

ggaacaggac aagaacaccc aagaggtgtt cgcccaagtg aagcagatct acaagacccc 3600

tcctatcaag gacttcggcg gcttcaattt cagccagatt ctgcccgatc ctagcaagcc 3660

cagcaagcgg agcttcatcg aggacctgct gttcaacaaa gtgacactgg ccgacgccgg 3720

cttcatcaag cagtatggcg attgtctggg cgacattgcc gccagggatc tgatttgcgc 3780

ccagaagttt aacggactga cagtgctgcc accactgctg accgatgaga tgatcgccca 3840

gtacacatct gccctgctgg ccggcacaat cacaagcggc tggacatttg gagctggcgc 3900

cgctctgcag atcccctttg ctatgcagat ggcctaccgg ttcaacggca tcggagtgac 3960

ccagaatgtg ctgtacgaga accagaagct gatcgccaac cagttcaaca gcgccatcgg 4020

caagatccag gacagcctga gcagcacagc aagcgccctg ggaaagctgc aggacgtggt 4080

caaccagaat gcccaggcac tgaacaccct ggtcaagcag ctgtcctcca acttcggcgc 4140

catcagctct gtgctgaacg acatcctgag cagactggac aaggtggaag ccgaggtgca 4200

gatcgacaga ctgatcaccg gaaggctgca gtccctgcag acctacgtta cccagcagct 4260

gatcagagcc gccgagatta gagcctctgc caatctggcc gccaccaaga tgtctgagtg 4320

tgtgctgggc cagagcaaga gagtggactt ttgcggcaag ggctaccacc tgatgagctt 4380

ccctcagtct gcccctcacg gcgtggtgtt tctgcacgtg acatacgtgc ccgctcaaga 4440

gaagaatttc accaccgctc cagccatctg ccacgacggc aaagcccact ttcctagaga 4500

aggcgtgttc gtgtccaacg gcacccattg gttcgtgacc cagcggaact tctacgagcc 4560

ccagatcatc accaccgaca acaccttcgt gtctggcaac tgcgacgtcg tgatcggcat 4620

tgtgaacaat accgtgtacg accctctgca gcccgagctg gacagcttca aagaggaact 4680

ggataagtac tttaagaacc acacaagccc cgacgtggac ctgggcgaca tcagcggaat 4740

caatgccagc gtcgtgaaca tccagaaaga gatcgaccgg ctgaacgagg tggccaagaa 4800

tctgaacgag agcctgatcg acctgcaaga actggggaag tacgagcagt acatcaagtg 4860

gccctggtac atctggctgg gctttatcgc cggactgatt gccatcgtga tggtcacaat 4920

catgctgtgt tgcatgacca gctgctgtag ctgcctgaag ggctgttgta gctgtggcag 4980

ctgctgcaag ttcgacgagg acgattctga gcccgtgctc aaaggagtca aattacatta 5040

cacataagat ctagagtcgg ggcggccggc cgctcgctga tcagcctcga ctgtgccttc 5100

tagttgccag ccatctgttg tttgcccctc ccccgtgcct tccttgaccc tggaaggtgc 5160

cactcccact gtcctttcct aataaaatga ggaaattgca tcgcattgtc tgagtaggtg 5220

tcattctatt ctggggggtg gggtggggca ggacagcaag ggggaggatt gggaagacaa 5280

tagcaggcat gctggggatc cgagtgtcga taag 5314

<210> 4

<211> 4678

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 4

atagtaatca attacggggt cattagttca tagcccatat atggagttcc gcgttacata 60

acttacggta aatggcccgc ctggctgacc gcccaacgac ccccgcccat tgacgtcaat 120

aatgacgtat gttcccatag taacgccaat agggactttc cattgacgtc aatgggtgga 180

gtatttacgg taaactgccc acttggcagt acatcaagtg tatcatatgc caagtacgcc 240

ccctattgac gtcaatgacg gtaaatggcc cgcctggcat tatgcccagt acatgacctt 300

atgggacttt cctacttggc agtacatcta cgtattagtc atcgctatta ccatggtgat 360

gcggttttgg cagtacatca atgggcgtgg atagcggttt gactcacggg gatttccaag 420

tctccacccc attgacgtca atgggagttt gttttggcac caaaatcaac gggactttcc 480

aaaatgtcgt aacaactccg ccccattgac gcaaatgggc ggtaggcgtg tacggtggga 540

ggtctatata agcagagctg gtttagtgaa ccgtcagatc cgctagagat ctggtaccat 600

gtttgtgttc cttgtgttat tgccactagt ctctagtcag tgtgtgaacc tgaccacaag 660

aacccagctg cctccagcct acaccaacag ctttaccaga ggcgtgtact accccgacaa 720

ggtgttcaga tccagcgtgc tgcactctac ccaggacctg ttcctgcctt tcttcagcaa 780

cgtgacctgg ttccacgcca tccacgtgtc cggcaccaat ggcaccaaga gattcgacaa 840

ccccgtgctg cccttcaacg acggggtgta ctttgccagc accgagaagt ccaacatcat 900

cagaggctgg atcttcggca ccacactgga cagcaagacc cagagcctgc tgatcgtgaa 960

caacgccacc aacgtggtca tcaaagtgtg cgagttccag ttctgcaacg accccttcct 1020

gggcgtctac tatcacaaga acaacaagag ctggatggaa agcgagttcc gggtgtacag 1080

cagcgccaac aactgcacct tcgagtacgt gtcccagcct ttcctgatgg acctggaagg 1140

caagcagggc aacttcaaga acctgcgcga gttcgtgttc aagaacatcg acggctactt 1200

caagatctac agcaagcaca cccctatcaa cctcgtgcgg gatctgcctc agggcttctc 1260

tgctctggaa cccctggtgg atctgcccat cggcatcaac atcacccggt ttcagacact 1320

gctggccctg cacagaagct acctgacacc tggcgatagc agcagcggat ggacagctgg 1380

tgccgccgct tactatgtgg gctacctgca gcctagaacc ttcctgctga agtacaacga 1440

gaacggcacc atcaccgacg ccgtggattg tgctctggat cctctgagcg agacaaagtg 1500

caccctgaag tccttcaccg tggaaaaggg catctaccag accagcaact tccgggtgca 1560

gcccaccgaa tccatcgtgc ggttccccaa tatcaccaat ctgtgcccct tcggcgaggt 1620

gttcaatgcc accagattcg cctctgtgta cgcctggaac cggaagcgga tcagcaattg 1680

cgtggccgac tactccgtgc tgtacaactc cgccagcttc agcaccttca agtgctacgg 1740

cgtgtcccct accaagctga acgacctgtg cttcacaaac gtgtacgccg acagcttcgt 1800

gatccgggga gatgaagtgc ggcagattgc ccctggacag acaggcaaga tcgccgacta 1860

caactacaag ctgcccgacg acttcaccgg ctgtgtgatt gcctggaaca gcaacaacct 1920

ggactccaaa gtcggcggca actacaatta cctgtaccgg ctgttccgga agtccaatct 1980

gaagcccttc gagcgggaca tctccaccga gatctatcag gccggcagca ccccttgtaa 2040

cggcgtggaa ggcttcaact gctacttccc actgcagtcc tacggctttc agcccacaaa 2100

tggcgtgggc tatcagccct acagagtggt ggtgctgagc ttcgaactgc tgcatgcccc 2160

tgccacagtg tgcggcccta agaaaagcac caatctcgtg aagaacaaat gcgtgaactt 2220

caacttcaac ggcctgaccg gcaccggcgt gctgacagag agcaacaaga agttcctgcc 2280

attccagcag tttggccggg atattgccga taccacagac gccgtacgag atccccagac 2340

actggaaatc ctggacatca ccccttgcag cttcggcgga gtgtctgtga tcacccctgg 2400

caccaacacc agcaatcagg tggcagtgct gtaccaggac gtgaactgta ccgaagtgcc 2460

cgtggccatt cacgccgatc agctgacacc tacatggcgg gtgtactcca ccggcagcaa 2520

tgtgtttcag accagagccg gctgtctgat cggagccgag cacgtgaaca atagctacga 2580

gtgcgacatc cccatcggcg ctggcatctg tgccagctac cagacacaga caaacagccc 2640

cagacgggcc agatctgtgg ccagccagag catcattgcc tacacaatgt ctctgggcgc 2700

cgagaacagc gtggcctact ccaacaactc tatcgctatc cccaccaact tcaccatcag 2760

cgtgaccaca gagatcctgc ctgtgtccat gaccaagacc agcgtggact gcaccatgta 2820

catctgcggc gattccaccg agtgctccaa cctgctgctg cagtacggca gcttctgcac 2880

ccagctgaat agagccctga cagggatcgc cgtggaacag gacaagaaca cccaagaggt 2940

gttcgcccaa gtgaagcaga tctacaagac ccctcctatc aaggacttcg gcggcttcaa 3000

tttcagccag attctgcccg atcctagcaa gcccagcaag cggagcttca tcgaggacct 3060

gctgttcaac aaagtgacac tggccgacgc cggcttcatc aagcagtatg gcgattgtct 3120

gggcgacatt gccgccaggg atctgatttg cgcccagaag tttaacggac tgacagtgct 3180

gccaccactg ctgaccgatg agatgatcgc ccagtacaca tctgccctgc tggccggcac 3240

aatcacaagc ggctggacat ttggagctgg cgccgctctg cagatcccct ttgctatgca 3300

gatggcctac cggttcaacg gcatcggagt gacccagaat gtgctgtacg agaaccagaa 3360

gctgatcgcc aaccagttca acagcgccat cggcaagatc caggacagcc tgagcagcac 3420

agcaagcgcc ctgggaaagc tgcaggacgt ggtcaaccag aatgcccagg cactgaacac 3480

cctggtcaag cagctgtcct ccaacttcgg cgccatcagc tctgtgctga acgacatcct 3540

gagcagactg gacaaggtgg aagccgaggt gcagatcgac agactgatca ccggaaggct 3600

gcagtccctg cagacctacg ttacccagca gctgatcaga gccgccgaga ttagagcctc 3660

tgccaatctg gccgccacca agatgtctga gtgtgtgctg ggccagagca agagagtgga 3720

cttttgcggc aagggctacc acctgatgag cttccctcag tctgcccctc acggcgtggt 3780

gtttctgcac gtgacatacg tgcccgctca agagaagaat ttcaccaccg ctccagccat 3840

ctgccacgac ggcaaagccc actttcctag agaaggcgtg ttcgtgtcca acggcaccca 3900

ttggttcgtg acccagcgga acttctacga gccccagatc atcaccaccg acaacacctt 3960

cgtgtctggc aactgcgacg tcgtgatcgg cattgtgaac aataccgtgt acgaccctct 4020

gcagcccgag ctggacagct tcaaagagga actggataag tactttaaga accacacaag 4080

ccccgacgtg gacctgggcg acatcagcgg aatcaatgcc agcgtcgtga acatccagaa 4140

agagatcgac cggctgaacg aggtggccaa gaatctgaac gagagcctga tcgacctgca 4200

agaactgggg aagtacgagc agtacatcaa gtggccctgg tacatctggc tgggctttat 4260

cgccggactg attgccatcg tgatggtcac aatcatgctg tgttgcatga ccagctgctg 4320

tagctgcctg aagggctgtt gtagctgtgg cagctgctgc aagttcgacg aggacgattc 4380

tgagcccgtg ctcaaaggag tcaaattaca ttacacataa gatatcgcgg ccgctcgagt 4440

ctagataact gatcataatc agccatacca catttgtaga ggttttactt gctttaaaaa 4500

acctcccaca cctccccctg aacctgaaac ataaaatgaa tgcaattgtt gttgttaact 4560

tgtttattgc agcttataat ggttacaaat aaagcaatag catcacaaat ttcacaaata 4620

aagcattttt ttcactgcat tctagttgtg gtttgtccaa actcatcaat gtatctta 4678

<210> 5

<211> 33765

<212> DNA

<213> Recombinant human adenovirus serotype 26 (Recombinant human adenovirus serotype 26)

<400> 5

catcatcaat aatatacccc acaaagtaaa caaaagttaa tatgcaaatg agcttttgaa 60

ttttaacggt tttggggcgg agccaacgct gattggacga gaaacggtga tgcaaatgac 120

gtcacgacgc acggctaacg gtcgccgcgg aggcgtggcc tagcccggaa gcaagtcgcg 180

gggctgatga cgtataaaaa agcggacttt agacccggaa acggccgatt ttcccgcggc 240

cacgcccgga tatgaggtaa ttctgggcgg atgcaagtga aattaggtca ttttggcgcg 300

aaaactgaat gaggaagtga aaagcgaaaa ataccggtcc ctcccagggc ggaatattta 360

ccgagggccg agagactttg accgattacg tgggggtttc gattgcggtg tttttttcgc 420

gaatttccgc gtccgtgtca aagtccggtg tttatgtcac agatcagctg gtttccttta 480

agatacattg atgagtttgg acaaaccaca actagaatgc agtgaaaaaa atgctttatt 540

tgtgaaattt gtgatgctat tgctttattt gtaaccatta taagctgcaa taaacaagtt 600

aacaacaaca attgcattca ttttatgttt caggttcagg gggaggtgtg ggaggttttt 660

taaagcaagt aaaacctcta caaatgtggt atggctgatt atgatcagtt atctagatcc 720

ggtggatcgg atatcttatg tgtaatgtaa tttgactcct ttgagcacgg gctcagaatc 780

gtcctcgtcg aacttgcagc agctgccaca gctacaacag cccttcaggc agctacagca 840

gctggtcatg caacacagca tgattgtgac catcacgatg gcaatcagtc cggcgataaa 900

gcccagccag atgtaccagg gccacttgat gtactgctcg tacttcccca gttcttgcag 960

gtcgatcagg ctctcgttca gattcttggc cacctcgttc agccggtcga tctctttctg 1020

gatgttcacg acgctggcat tgattccgct gatgtcgccc aggtccacgt cggggcttgt 1080

gtggttctta aagtacttat ccagttcctc tttgaagctg tccagctcgg gctgcagagg 1140

gtcgtacacg gtattgttca caatgccgat cacgacgtcg cagttgccag acacgaaggt 1200

gttgtcggtg gtgatgatct ggggctcgta gaagttccgc tgggtcacga accaatgggt 1260

gccgttggac acgaacacgc cttctctagg aaagtgggct ttgccgtcgt ggcagatggc 1320

tggagcggtg gtgaaattct tctcttgagc gggcacgtat gtcacgtgca gaaacaccac 1380

gccgtgaggg gcagactgag ggaagctcat caggtggtag cccttgccgc aaaagtccac 1440

tctcttgctc tggcccagca cacactcaga catcttggtg gcggccagat tggcagaggc 1500

tctaatctcg gcggctctga tcagctgctg ggtaacgtag gtctgcaggg actgcagcct 1560

tccggtgatc agtctgtcga tctgcacctc ggcttccacc ttgtccagtc tgctcaggat 1620

gtcgttcagc acagagctga tggcgccgaa gttggaggac agctgcttga ccagggtgtt 1680

cagtgcctgg gcattctggt tgaccacgtc ctgcagcttt cccagggcgc ttgctgtgct 1740

gctcaggctg tcctggatct tgccgatggc gctgttgaac tggttggcga tcagcttctg 1800

gttctcgtac agcacattct gggtcactcc gatgccgttg aaccggtagg ccatctgcat 1860

agcaaagggg atctgcagag cggcgccagc tccaaatgtc cagccgcttg tgattgtgcc 1920

ggccagcagg gcagatgtgt actgggcgat catctcatcg gtcagcagtg gtggcagcac 1980

tgtcagtccg ttaaacttct gggcgcaaat cagatccctg gcggcaatgt cgcccagaca 2040

atcgccatac tgcttgatga agccggcgtc ggccagtgtc actttgttga acagcaggtc 2100

ctcgatgaag ctccgcttgc tgggcttgct aggatcgggc agaatctggc tgaaattgaa 2160

gccgccgaag tccttgatag gaggggtctt gtagatctgc ttcacttggg cgaacacctc 2220

ttgggtgttc ttgtcctgtt ccacggcgat ccctgtcagg gctctattca gctgggtgca 2280

gaagctgccg tactgcagca gcaggttgga gcactcggtg gaatcgccgc agatgtacat 2340

ggtgcagtcc acgctggtct tggtcatgga cacaggcagg atctctgtgg tcacgctgat 2400

ggtgaagttg gtggggatag cgatagagtt gttggagtag gccacgctgt tctcggcgcc 2460

cagagacatt gtgtaggcaa tgatgctctg gctggccaca gatctggccc gtctggggct 2520

gtttgtctgt gtctggtagc tggcacagat gccagcgccg atggggatgt cgcactcgta 2580

gctattgttc acgtgctcgg ctccgatcag acagccggct ctggtctgaa acacattgct 2640

gccggtggag tacacccgcc atgtaggtgt cagctgatcg gcgtgaatgg ccacgggcac 2700

ttcggtacag ttcacgtcct ggtacagcac tgccacctga ttgctggtgt tggtgccagg 2760

ggtgatcaca gacactccgc cgaagctgca aggggtgatg tccaggattt ccagtgtctg 2820

gggatctcgt acggcgtctg tggtatcggc aatatcccgg ccaaactgct ggaatggcag 2880

gaacttcttg ttgctctctg tcagcacgcc ggtgccggtc aggccgttga agttgaagtt 2940

cacgcatttg ttcttcacga gattggtgct tttcttaggg ccgcacactg tggcaggggc 3000

atgcagcagt tcgaagctca gcaccaccac tctgtagggc tgatagccca cgccatttgt 3060

gggctgaaag ccgtaggact gcagtgggaa gtagcagttg aagccttcca cgccgttaca 3120

aggggtgctg ccggcctgat agatctcggt ggagatgtcc cgctcgaagg gcttcagatt 3180

ggacttccgg aacagccggt acaggtaatt gtagttgccg ccgactttgg agtccaggtt 3240

gttgctgttc caggcaatca cacagccggt gaagtcgtcg ggcagcttgt agttgtagtc 3300

ggcgatcttg cctgtctgtc caggggcaat ctgccgcact tcatctcccc ggatcacgaa 3360

gctgtcggcg tacacgtttg tgaagcacag gtcgttcagc ttggtagggg acacgccgta 3420

gcacttgaag gtgctgaagc tggcggagtt gtacagcacg gagtagtcgg ccacgcaatt 3480

gctgatccgc ttccggttcc aggcgtacac agaggcgaat ctggtggcat tgaacacctc 3540

gccgaagggg cacagattgg tgatattggg gaaccgcacg atggattcgg tgggctgcac 3600

ccggaagttg ctggtctggt agatgccctt ttccacggtg aaggacttca gggtgcactt 3660

tgtctcgctc agaggatcca gagcacaatc cacggcgtcg gtgatggtgc cgttctcgtt 3720

gtacttcagc aggaaggttc taggctgcag gtagcccaca tagtaagcgg cggcaccagc 3780

tgtccatccg ctgctgctat cgccaggtgt caggtagctt ctgtgcaggg ccagcagtgt 3840

ctgaaaccgg gtgatgttga tgccgatggg cagatccacc aggggttcca gagcagagaa 3900

gccctgaggc agatcccgca cgaggttgat aggggtgtgc ttgctgtaga tcttgaagta 3960

gccgtcgatg ttcttgaaca cgaactcgcg caggttcttg aagttgccct gcttgccttc 4020

caggtccatc aggaaaggct gggacacgta ctcgaaggtg cagttgttgg cgctgctgta 4080

cacccggaac tcgctttcca tccagctctt gttgttcttg tgatagtaga cgcccaggaa 4140

ggggtcgttg cagaactgga actcgcacac tttgatgacc acgttggtgg cgttgttcac 4200

gatcagcagg ctctgggtct tgctgtccag tgtggtgccg aagatccagc ctctgatgat 4260

gttggacttc tcggtgctgg caaagtacac cccgtcgttg aagggcagca cggggttgtc 4320

gaatctcttg gtgccattgg tgccggacac gtggatggcg tggaaccagg tcacgttgct 4380

gaagaaaggc aggaacaggt cctgggtaga gtgcagcacg ctggatctga acaccttgtc 4440

ggggtagtac acgcctctgg taaagctgtt ggtgtaggct ggaggcagct gggttcttgt 4500

ggtcaggttc acacactgac tagagactag tggcaataac acaaggaaca caaacatggt 4560

accaagctta ggctcgagcg gccgcgtcga cggtaccaga tctctagcgg atctgacggt 4620

tcactaaacc agctctgctt atatagacct cccaccgtac acgcctaccg cccatttgcg 4680

tcaatggggc ggagttgtta cgacattttg gaaagtcccg ttgattttgg tgccaaaaca 4740

aactcccatt gacgtcaatg gggtggagac ttggaaatcc ccgtgagtca aaccgctatc 4800

cacgcccatt gatgtactgc caaaaccgca tcaccatggt aatagcgatg actaatacgt 4860

agatgtactg ccaagtagga aagtcccata aggtcatgta ctgggcataa tgccaggcgg 4920

gccatttacc gtcattgacg tcaatagggg gcgtacttgg catatgatac acttgatgta 4980

ctgccaagtg ggcagtttac cgtaaatact ccacccattg acgtcaatgg aaagtcccta 5040

ttggcgttac tatgggaaca tacgtcatta ttgacgtcaa tgggcggggg tcgttgggcg 5100

gtcagccagg cgggccattt accgtaagtt atgtaacgcg gaactccata tatgggctat 5160

gaactaatga ccccgtaatt gattactatt aacagtgttt aaacgtatac ctataaaggc 5220

gggtgtctta cgagggtctt tttgcttttc tgcagacatc atgaacggga ctggcggggc 5280

cttcgaaggg gggcttttta gcccttattt gacaacccgc ctgccgggat gggccggagt 5340

tcgtcagaat gtgatgggat cgacggtgga tgggcgccca gtgcttccag caaattcctc 5400

gaccatgacc tacgcgaccg tggggaactc gtcgctcgac agcaccgccg cagccgcggc 5460

agccgcagcc gccatgacag cgacgagact ggcctcgagc tacatgccca gcagcggtag 5520

tagcccctct gtgcccagtt ccatcatcgc cgaggagaaa ctgctggccc tgctggccga 5580

gctggaagcc ctgagccgcc agctggccgc cctgacccag caggtgtccg agctccgcga 5640

acagcagcag cagcaaaata aatgattcaa taaacacaga ttctgattca aacagcaaag 5700

catctttatt atttattttt tcgcgcgcgg taggccctgg tccacctctc ccgatcattg 5760

agagtgcggt ggattttttc caggacccgg tagaggtggg attggatgtt gaggtacatg 5820

ggcatgagcc cgtcccgtgg gtggaggtag caccactgca tggcctcgtg ctctggggtc 5880

gtgttgtaga tgatccagtc atagcagggg cgctgggcgt ggtgctggat gatgtccttg 5940

aggaggagac tgatggccac ggggagcccc ttggtgtagg tgttggcaaa acggttgagc 6000

tgggagggat gcatgcgggg ggagatgatg tgcagtttgg cctggatctt gaggttggcg 6060

atgttgccac ccagatcccg ccgggggttc atgttgtgca ggaccaccag aacggtgtag 6120

cccgtgcact tggggaactt gtcatgcaac ttggaaggga atgcgtggaa gaatttggag 6180

acgcccttgt gcccgcccag gttttccatg cactcatcca tgatgatggc aatgggcccg 6240

tgggctgcgg ctttggcaaa gacgtttctg gggtcagaga catcgtaatt atgctcctgg 6300

gtgagatcat cataagacat tttaatgaat ttggggcgga gggtgccaga ttgggggacg 6360

atggttccct cgggccccgg ggcgaagttc ccctcgcaga tctgcatctc ccaggctttc 6420

atctcggagg gggggatcat gtccacctgc ggggcgatga aaaaaacggt ttccggggcg 6480

ggggtgatga gctgcgagga gagcaggttt ctcaacagct gggacttgcc gcacccggtc 6540

gggccgtaga tgaccccgat gacgggttgc aggtggtagt tcaaggacat gcagctgccg 6600

tcgtcccgga ggaggggggc cacctcgttg agcttgtctc tgacttggag gttttcccgg 6660

acgagctcgc cgaggaggcg gtccccgccc agcgagagaa gctcttgcag ggaagcaaag 6720

tttttcaggg gcttgagccc gtcggccatg ggcatcttgg cgagggtctg cgagaggagc 6780

tccaggcggt cccagagctc ggtgacgtgc tctacggcat ctcgatccag cagacttcct 6840

cgtttcgggg gttgggacga ctgcgactgt agggcacgag acgatgggcg tccagcgcgg 6900

ccagcgtcat gtccttccag ggtctcaggg tccgcgtgag ggtggtctcc gtcacggtga 6960

aggggtgggc cgcgggctgg gcgcttgcaa gggtgcgctt gagactcatc ctgctggtgc 7020

tgaaacgggc acggtcttcg ccctgcgcgt cggcgagata gcagttgacc atgagctcgt 7080

agttgagggc ctcggcggcg tggcccttgg cgcggagctt gcccttggaa gagcgcccgc 7140

aggcgggaca gaggagggat tgcagggcgt agagcttggg cgcgagaaag acggactcgg 7200

gggcgaaggc gtccgctccg cagtgggcgc agacggtctc gcactcgact agccaggtga 7260

gctcgggctg ctcggggtca aaaaccagtt ttcccccgtt ctttttgatg cgcttcttac 7320

ctcgcgtctc catgagtctg tgtccgcgct cggtgacaaa caggctgtct gtgtccccgt 7380

agacggactt gatgggcctg tcctgcaggg gcgtcccgcg gtcctcctcg tagagaaact 7440

cagaccactc tgagacgaag gcgcgcgtcc acgccaagac aaaggaggcc acgtgcgagg 7500

ggtagcggtc gttgtccacc agggggtcca ccttttccac ggtatgcagg cacatgtccc 7560

cctcctccgc atccaagaag gtgattggct tgtaggtgta ggccacgtga cctggggttc 7620

ccgacggggg ggtataaaag ggggcgggtc tgtgctcgtc ctcactctct tccgcgtcgc 7680

tgtccacgag cgccagctgt tggggtaggt attccctctc aagagcgggc atgacctcgg 7740

cactcaggtt gtcagtttct agaaacgagg aggatttgat gtgggcctgc cctgccgcga 7800

tgctttttag gagactttca tccatctggt cagaaaagac tattttttta ttgtcaagct 7860

tggtggcgaa ggagccatag agggcgtttg agagaagctt ggcgatggat ctcatggtct 7920

gatttttgtc acggtcggcg cgctccttgg ccgcgatgtt gagctggaca tattcgcgcg 7980

cgacacactt ccattcgggg aagacggtgg tgcgctcgtc gggcacgatc ctgacgcgcc 8040

agccgcggtt atgcagggtg accaggtcca cgctggtggc cacctcgccg cgcaggggct 8100

cgttggtcca gcagagtctg ccgcccttgc gcgagcagaa cgggggcagc acatcaagca 8160

gatgctcgtc aggggggtcc gcatcgatgg tgaagatgcc cggacagagt tccttgtcaa 8220

aataatcgat ttttgaggat gcatcgtcca aggccatctg ccactcgcgg gcggccagcg 8280

ctcgctcgta ggggttgagg ggcggacccc aaggcatggg atgcgtgagg gcggaggcgt 8340

acatgccgca gatgtcatag acatagatgg gctccgagag gatgccgatg taggtgggat 8400

agcagcgccc cccgcggatg cttgcgcgca cgtagtcata caactcgtgc gagggggcca 8460

agaaggcggg gccgagattg gtgcgctggg gctgctcggc gcggaagacg atctggcgaa 8520

agatggcgtg cgagttggag gagatggtgg gccgttggaa gatgttaaag tgggcgtgag 8580

gcaggcggac cgagtcgcgg atgaagtgcg cgtaggagtc ttgcagcttg gcgacgagct 8640

cggcggtgac gaggacgtcc atggcgcagt agtccagcgt ttcgcggatg atgtcataac 8700

tcgcctctcc tttcttctcc cacagctcgc ggttgagggc gtattcctcg tcatccttcc 8760

agtactcccg gagcgggaat cctcgatcgt ccgcacggta agagcccagc atgtagaaat 8820

ggttcacggc cttgtaggga cagcagccct tctccacggg gagggcgtaa gcttgagcgg 8880

ccttgcggag cgaggtgtgc gtcagggcaa aggtgtccct gaccatgact ttcaagaact 8940

ggtacttgaa gtccgagtcg tcgcagccgc cgtgctccca gagctcgaaa tcggtgcgct 9000

tcttcgagag ggggttaggc agagcgaaag tgacgtcatt gaagagaatc ttgcctgccc 9060

gcggcatgaa attgcgggtg atgcggaaag ggcccgggac ggaggctcgg ttgttgatga 9120

cctgggcggc gaggacgatc tcgtcaaagc cgttgatgtt gtgcccgacg atgtagagtt 9180

ccatgaatcg cgggcggcct ttgatgtgcg gcagcttttt gagctcctcg taggtgaggt 9240

cctcggggca ttgcaggccg tgctgctcga gcgcccactc ctggagatgt gggttggctt 9300

gcatgaagga agcccagagc tcgcgggcca tgagggtctg gagctcgtcg cgaaagaggc 9360

ggaactgctg gcccacggcc atcttttctg gggtgacgca gtagaaggtg agggggtccc 9420

gctcccagcg atcccagcgt aaacgcacgg cgagatcgcg agcgagggcg accagctctg 9480

ggtccccgga gaatttcatg accagcatga aggggacgag ctgcttgccg aaggacccca 9540

tccaggtgta ggtttctaca tcgtaggtga caaagagccg ctccgtgcga ggatgagagc 9600

cgattgggaa gaactggatt tcctgccacc agttggacga gtggctgttg atgtgatgaa 9660

agtagaaatc ccgccggcga accgagcact cgtgctgatg cttgtaaaag cgtccgcagt 9720

actcgcagcg ctgcacgggc tgtacctcat ccacgagata cacagcgcgt cccttgagga 9780

ggaacttcag gagtggcggc cctggctggt ggttttcatg ttcgcctgcg tgggactcac 9840

cctggggctc ctcgaggacg gagaggctga cgagcccgcg cgggagccag gtccagatct 9900

cggcgcggcg ggggcggaga gcgaagacga gggcgcgcag ttgggagctg tccatggtgt 9960

cgcggagatc caggtccggg ggcagggttc tgaggttgac ctcgtagagg cgggtgaggg 10020

cgtgcttgag atgcagatgg tacttgattt ctacgggtga gttggtggtc gtgtccacgc 10080

attgcatgag cccgtagctg cgcggggcca cgaccgtgcc gcggtgcgct tttagaagcg 10140

gtgtcgcgga cgcgctcccg gcggcagcgg cggttccggc cccgcgggca ggggcggcag 10200

aggcacgtcg gcgtggcgct cgggcaggtc ccggtgctgc gccctgagag cgctggcgtg 10260

cgcgacgacg cggcggttga catcctggat ctgccgcctc tgcgtgaaga ccacgggccc 10320

cgtgactttg aacctgaaag acagttcaac agaatcaatc tctgcgtcat tgacggcggc 10380

ctgacgcagg atctcttgca cgtcgcccga gttgtcctgg taggcgatct cggacatgaa 10440

ctgttcgatc tcctcctcct ggagatcgcc gcggcccgcg cgctccacgg tggcggcgag 10500

gtcattggag atgcgaccca tgagctgcga gaaggcgccc aggccgctct cgttccagac 10560

gcggctgtag accacgtccc cgtcggcgtc gcgcgcgcgc atgaccacct gcgcgaggtt 10620

gagctccacg tgccgcgcaa agacggcgta gttgcgcagg cgctggaaga ggtagttgag 10680

ggtggtggcg atgtgctcgg tgacgaagaa gtacatgatc cagcggcgca ggggcatctc 10740

gctgatgtcg ccgatggctt ccagcctttc catggcctcg tagaagtcca cggcgaagtt 10800

gaaaaactgg gcgttgcggg ccgagaccgt gagctcgtct tccaggagcc ggatgagttc 10860

ggcgatggtg gcgcgcacct cgcgctcgaa atccccgggg gcctcctcct cttcctcttc 10920

ttccatgacg acctcttctt ctatttcttc ctctgggggc ggtggtggtg gcgggggccg 10980

acgacgacgg cgacgcaccg ggagacggtc gacgaagcgc tcgatcatct ccccgcggcg 11040

gcgacgcatg gtttcggtga cggcgcgacc ccgttcgcga ggacgcagcg tgaagacgcc 11100

gccggtcatc tcccggtaat ggggcgggtc cccattgggc agcgataggg cgctgacgat 11160

gcatcttatc aattgcggtg taggggacgt gagcgcgtcg agatcgaccg gatcggagaa 11220

tctttcgagg aaagcgtcta gccaatcgca gtcgcaaggt aagctcaaac acgtagcagc 11280

cctgcggacg ctgttagaat tgcggttgct gatgatgtaa ttgaagtagg cgtttttgag 11340

gcggcggatg gtggcgagga ggaccaggtc cttgggtcca gcttgctgga tgcggagccg 11400

ctcggccatg ccccaggcct ggccctgaca ccggctcagg ttcttgtagt agtcatgcat 11460

gagcctctca atgtcatcac tggctgaggc ggagtcttcc atgcgggtga ccccgacgcc 11520

cctgagcggc tgcacgagcg ccaggtcggc gacgacgcgc tcggcgagga tggcctgttg 11580

cacgcgggtg agggtgtcct ggaagtcgtc catgtcgacg aagcggtgat aggccccggt 11640

gttgatggtg taggtgcagt tggccatgag cgaccagttg acggtctgca ggcctggctg 11700

cacgacctcg gagtacctga gccgcgagaa ggcgcgcgag tcgaagacgt agtcgttgca 11760

ggtgcgcacg aggtactggt atccgactag gaagtgcggc ggcggctggc ggtagagcgg 11820

ccagcgctgg gtggccggcg cgcccggggc caggtcctcg agcatgaggc ggtggtagcc 11880

gtagaggtag cgggacatcc aggtgatgcc ggcggcggtg gtggaggcgc gcgggaactc 11940

gcggacgcgg ttccagatgt tgcgcagcgg caggaaatag tccatggtcg gcacggtctg 12000

gccggtgaga cgcgcgcagt cattgacgct ctagaggcaa aaacgaaagc ggttgagcgg 12060

gctcttcctc cgtagcctgg cggaacgcaa acgggttagg ccgcgtgtgt accccggttc 12120

gagtcccctc gaatcaggct ggagccgcga ctaacgtggt attggcactc ccgtctcgac 12180

ccgagcccga tagccgccag gatacggcgg agagcccttt ttgctggccg aggggggtcg 12240

ctagacttga aagcgaccga aaaccctgcc gggtagtggc tcgcgcccgt agtctggaga 12300

agcatcgcca gggttgagtc gcggcagaac ccggttcgag gacggccgcg gcgagcggga 12360

cttggtcacc ccgccgatat aaagacccac agccagccga cttctccagt tacgggagcg 12420

agcccccttt tttctttttg ccagatgcat cccgtcctgc gccaaatgcg tcccaccccc 12480

ccggcgacca ccgcgaccgc ggccgtagca ggcgccggcg ctagccagcc accacagaca 12540

gagatggact tggaagaggg cgaagggctg gcaagactgg gggcgccgtc cccggagcga 12600

catccccgcg tgcagctgca gaaggacgtg cgcccggcgt acgtgcctac gcagaacctg 12660

ttcagggacc gcagcgggga ggagcccgag gagatgcgcg actgccggtt tcgggcgggc 12720

agggagctgc gcgagggcct ggaccgccag cgcgtgctgc gcgacgagga tttcgagccg 12780

aacgagcaga cggggatcag ccccgcacgc gcgcacgtgg cggcagccaa cctggtgacg 12840

gcctacgagc agacggtgaa gcaggagcgc aacttccaaa agagtttcaa caaccacgtg 12900

cgcaccctga tcgcgcgcga ggaggtggcc ctgggcctga tgcacctgtg ggacctggcg 12960

gaggccatcg tgcagaaccc ggacagcaag cctctgacgg cgcagctgtt cctggtggtg 13020

cagcacagca gggacaacga ggcgttcagg gaggcgctgc tgaacatcgc cgagcccgag 13080

ggtcgctggc tgctggagct gattaacatc ttgcagagca tcgtagtgca ggagcgcagc 13140

ctgagcctgg ccgagaaggt ggcggcgatc aactactcgg tgctgagcct gggcaagttt 13200

tacgcgcgca agatttacaa gacgccgtac gtgcccatag acaaggaggt gaagatagac 13260

agcttttaca tgcgcatggc gctcaaggtg ctgacgctga gcgacgacct gggcgtgtac 13320

cgcaacgacc gcatccacaa ggccgtgagc acgagccggc ggcgcgagct aagcgaccgc 13380

gagctgatgc tgagtctgcg ccgggcgctg gtagggggcg ccgccggcgg cgaggagtcc 13440

tacttcgaca tgggtgcgga cctgcattgg cagccgagcc ggcgcgcctt ggaggccgcc 13500

tacggttcag aggacttgga tgaggaagag gaagaggagg aggatgcacc cgctgcgggg 13560

tactgacgcc tccgtgatgt gtttttagat gtcccagcaa gccccggacc ccgccataag 13620

ggcggcgctg caaagccagc cgtccggtct agcatcggac gactgggagg ccgcgatgca 13680

acgcatcatg gccctgacga cccgcaaccc cgagtccttt agacaacagc cgcaggccaa 13740

cagactctcg gccattctgg aggcggtggt cccctctcgg accaacccca cgcacgagaa 13800

ggtgctggcg atcgtgaacg cgctggcgga gaacaaggcc atccgtcccg acgaggccgg 13860

gctggtgtac aacgccctgc tggagcgcgt gggccgctac aacagcacga acgtgcagtc 13920

caacctggat cggctggtga cggacgtgcg cgaggccgtg gcgcagcgcg agcggttcaa 13980

gaacgagggc ctgggctcgc tggtggcgct gaacgccttc ctggcaacgc agccggcgaa 14040

cgtgccgcgc gggcaggacg attacaccaa ctttatcagc gcgctgcggc tgatggtgac 14100

cgaggtgccc cagagcgagg tgtaccagtc tggcccggac tactttttcc agacgagccg 14160

gcagggcttg cagacggtga acctgagcca ggctttcaag aatctgcgcg ggctgtgggg 14220

cgtgcaggcg cccgtgggcg accggtcaac ggtgagcagc ttgctgacgc ccaactcgcg 14280

gctgctgctg ctgctgatcg cgcccttcac cgacagcggc agcgtgaacc gcaactcgta 14340

cctgggccat ctgctgacgc tgtaccgcga ggccataggc caggcgcagg tggacgagca 14400

gaccttccag gagatcacta gcgtgagccg cgcgctgggg cagaacgaca ccgacagtct 14460

gagggccacc ctgaactttt tgctgaccaa tagacagcag aagatcccgg cgcagtacgc 14520

actgtcggcc gaggaggaaa ggattctgag atatgtgcag cagagcgtag ggctgttcct 14580

gatgcaggag ggtgccaccc ccagcgccgc gctggacatg accgcgcgca acatggaacc 14640

tagcatgtac gccgccaacc ggccgttcat caataagctg atggactact tgcaccgcgc 14700

ggcggccatg aacacggact actttaccaa cgccatcctg aacccgcact ggctcccgcc 14760

gccggggttc tacacgggcg agtacgacat gcccgacccc aacgacgggt tcctgtggga 14820

cgacgtggac agcgcggtgt tctcgccgac ctttcaaaag cgccaggagg cgccgccgag 14880

cgagggcgcg gtggggagga gcccctttcc tagcttaggg agtttgcata gcttgccggg 14940

ctcggtgaac agcggcaggg tgagccggcc gcgcttgctg ggcgaggacg agtacctgaa 15000

cgactcgctg ctgcagccgc cgcgggccaa gaacgccatg gccaataacg ggatagagag 15060

tctggtggac aaactgaacc gctggaagac ctacgctcag gaccataggg acgcgcccgc 15120

gccgcggcga cagcgccacg accggcagcg gggcctggtg tgggacgacg aggactcggc 15180

cgacgatagc agcgtgttgg acttgggcgg gagcggtggg gtcaacccgt tcgcgcatct 15240

gcagcccaaa ctggggcgac ggatgttttg aatgaaataa aactcaccaa ggccatagcg 15300

tgcgttctct tccttgttag agatgaggcg cgcggtggtg tcttcctctc ctcctccctc 15360

gtacgagagc gtgatggcgc aggcgaccct ggaggttccg tttgtgcctc cgcggtatat 15420

ggctcctacg gagggcagaa acagcattcg ttactcggag ctggctccgc agtacgacac 15480

cactcgcgtg tacttggtgg acaacaagtc ggcggacatc gcttccctga actaccaaaa 15540

cgaccacagc aacttcctga ccacggtggt gcagaacaac gatttcaccc ccgccgaggc 15600

cagcacgcag acgataaatt ttgacgagcg gtcgcggtgg ggcggtgatc tgaagaccat 15660

tctgcacact aacatgccca atgtgaacga gtacatgttc accagcaagt ttaaggcgcg 15720

ggtgatggtg tctaggaagc atccagaggg ggtagttgaa acagatttga gtcaggataa 15780

gcttgaatat gagtggtttg agtttaccct gcccgaggga aacttttccg agaccatgac 15840

catagacctg atgaacaacg ccatcttgga aaactacttg caagtggggc ggcagaatgg 15900

cgtgctggag agcgatatcg gagtcaagtt tgacagcaga aatttcaagc tgggctggga 15960

cccggtgacc aagctggtga tgccaggggt ctacacctac gaggccttcc acccggacgt 16020

ggtgctgctg ccgggctgcg gggtggactt caccgagagc cgcctgagca acctcctggg 16080

cattcgcaag aagcaacctt tccaagaggg cttcagaatc atgtatgagg atctagaagg 16140

tggcaacatc cccgccctcc ttgatgtgcc caagtacttg gaaagcaaga agaaagttga 16200

agacgaaact aaaaatgcag ctgcggccac agccgataca accactaggg gtgatacatt 16260

tgcaactcca gcgcaagaga cagcagctga taagaaggta gaagtcttgc ccattgaaaa 16320

ggatgagagt ggtagaagtt acaacctgat ccaggggacc cacgacacgc tgtaccgcag 16380

ttggtacctg tcctatacct acggggaccc cgagaagggg gtgcagtcgt ggacgctgct 16440

caccaccccg gacgttacct gcggcgcgga gcaagtctac tggtcactgc cggacctcat 16500

gcaagacccc gtcaccttcc gctccaccca gcaagtcagc aactaccccg tggtcggcgc 16560

cgagctcatg cccttccgcg ccaagagctt ttacaacgac ctcgccgtct actcccagct 16620

catccgcagc tacacctccc tcacccacgt cttcaaccgc ttccccgaca accagatcct 16680

ctgccgcccg cccgcgccca ccatcaccac cgtcagtgaa aacgtgcctg ctctcacaga 16740

tcacgggacg ctaccgctgc gcagcagtat ccgcggagtc cagcgagtga ccgtcactga 16800

cgcccgtcgc cgcacctgtc cctacgtcta caaggccctg ggcatagtcg cgccgcgcgt 16860

gctttccagt cgcaccttct aaaaaaatgt ctattctcat ctcgcccagc aataacaccg 16920

gctggggtct tactagaccc agcaccatgt acggaggagc caagaagcgc tcccagcagc 16980

accccgtccg cgtccgcggc cacttccgcg ctccctgggg cgcttacaag cgcgggcgga 17040

cttccaccgc cgtgcgcacc accgtcgacg acgtcatcga ctcggtggtc gccgacgcgc 17100

gcaactacac tcccgccccc tccaccgtgg acgcggtcat cgacagcgtg gtggccgacg 17160

cgcgcgacta tgccagacgc aagagccggc ggcgacggat cgccaggcgc caccggagca 17220

cgcccgccat gcgcgccgcc cgggctctgc tgcgccgcgc cagacgcacg ggccgccggg 17280

ccatgatgcg agccgcgcgc cgcgctgcca ctgcacccac ccccgcaggc aggactcgca 17340

gacgagcggc cgccgccgcc gctgcggcca tctctagcat gaccagaccc aggcgcggaa 17400

acgtgtactg ggtgcgcgac tccgtcacgg gcgtgcgcgt gcccgtgcgc acccgtcctc 17460

ctcgtccctg atctaatgct tgtgtcctcc cccgcaagcg acgatgtcaa agcgcaaaat 17520

caaggaggag atgctccagg tcgtcgcccc ggagatttac ggaccacccc aggcggacca 17580

gaaaccccgc aaaatcaagc gggttaaaaa aaaggatgag gtggacgagg gggcagtaga 17640

gtttgtgcgc gagttcgctc cgcggcggcg cgtaaattgg aaggggcgca gggtgcagcg 17700

cgtgttgcgg cccggcacgg cggtggtgtt cacgcccggc gagcggtcct cggtcaggag 17760

caagcgtagc tatgacgagg tgtacggcga cgacgacatc ctggaccagg cggcggagcg 17820

ggcgggcgag ttcgcctacg ggaagcggtc gcgcgaagag gagctgatct cgctgccgct 17880

ggacgaaagc aaccccacgc cgagcctgaa gcccgtgacc ctgcagcagg tgctgcccca 17940

ggcggtgctg ctgccgagcc gcggggtcaa gcgcgagggc gagagcatgt acccgaccat 18000

gcagatcatg gtgcccaagc gccggcgcgt ggaggacgtg ctggacaccg tgaaaatgga 18060

tgtggagccc gaggtcaagg tgcgccccat caagcaggtg gcgccgggcc tgggcgtgca 18120

aaccgtggac attcagatcc ccaccgacat ggatgtcgac aaaaaaccct cgaccagcat 18180

cgaggtgcaa accgacccct ggctcccagc ctccaccgct accgtctcca cttctaccgc 18240

cgccacggct accgagcctc ccaggaggcg aagatggggc gccgccagcc ggctgatgcc 18300

caactacgtg ttgcatcctt ccatcatccc gacgccgggc taccgcggca cccggtacta 18360

cgccagccgc cggcgcccag ccagcaaacg ccgccgccgc accgccaccc gccgccgtct 18420

ggcccccgcc cgcgtgcgcc gcgtgaccac gcgccggggc cgctcgctcg ttctgcccac 18480

cgtgcgctac caccccagca tcctttaatt cgtgtgctgt gatactgttg cagagagatg 18540

gctctcactt gccgcctgcg catccccgtc ccgaattacc gaggaagatc ccgccgcagg 18600

agaggcatgg caggcagcgg cctgaaccgc cgccggcggc gggccatgcg caggcgcctg 18660

agtggcggct ttctgcccgc gctcatcccc ataatcgccg cggccattgg cacgatcccg 18720

ggcatagctt ccgttgcgct gcaggcgtcg cagcgccgtt gatgtgcgaa taaagcctct 18780

ttagactctg acacacctgg tcctgtatat ttttagaatg gaagacatca attttgcgtc 18840

cctggctccg cggcacggca cgcggccgtt catgggcacc tggaacgaga tcggcaccag 18900

ccagctgaac gggggcgcct tcaattggag cagtgtctgg agcgggctta aaaatttcgg 18960

ctcgacgctc cggacctatg ggaacaaggc ctggaatagt agcacggggc agttgttaag 19020

ggaaaagctc aaagaccaaa acttccagca gaaggtggtg gacgggctgg cctcgggcat 19080

taacggggtg gtggacatcg cgaaccaggc cgtgcagcgc gagataaaca gccgcctgga 19140

cccgcggccg cccacggtgg tggagatgga agatgcaact cttccgccgc ccaaaggcga 19200

aaagcggccg cggcccgacg cggaggagac gatcctgcag gtggacgagc cgccctcgta 19260

cgaggaggcc gtcaaggccg gcatgcccac cacgcgcatc atcgcgccgc tggccacggg 19320

tgtaatgaaa cccgccaccc ttgacctgcc tccaccaccc gcgcccgctc caccgaaggc 19380

aactccggtt gtgcaggccc ccccggtggc gaccgccgtg cgccgcgtcc ccgcccgccg 19440

ccaggcccag aactggcaga gcacgctgca cagtatcgtg ggcctgggag tgaaaagtct 19500

gaagcgccgc cgatgctatt gagagagagg aaagaggaca ctaaagggag agcttaactt 19560

gtatgtgcct taccgccaga gaacgcgcga agatggccac cccctcgatg atgccgcagt 19620

gggcgtacat gcacatcgcc gggcaggacg cctcggagta cctgagcccg ggtctggtgc 19680

agtttgcccg cgccaccgac acgtacttca gcctgggcaa caagtttagg aaccccacgg 19740

tggccccgac ccacgatgtg accacggacc ggtcccagcg tctgacgctg cgcttcgtgc 19800

ccgtggatcg cgaggacacc acgtactcgt acaaggcgcg cttcactctg gccgtgggcg 19860

acaaccgggt gctagacatg gccagcactt actttgacat ccgcggcgtc ctggaccgcg 19920

gtcccagctt caaaccctac tcgggcacgg cctacaacag cctggctccc aagggtgccc 19980

ccaatcccag tcagtgggaa acaaaagaaa agcaaggaac tactggagga gtgcagcaag 20040

aaaaagatgt cacaaaaaca tttggtgtgg ctgccaccgg cggaattaat ataacaaacc 20100

agggtctgtt actaggaact gacgaaaccg ctgagaatgg caaaaaagac atttatgcag 20160

acaagacttt ccagccagaa cctcaagttg gagaagaaaa ctggcaggaa aatgaagcct 20220

tctatggagg aagggctctt aaaaaggaca ctaaaatgaa accatgctat ggatcttttg 20280

ctagacctac taatgagaaa ggaggtcagg caaagttcaa accagttaat gaaggagaac 20340

aacctaaaga tctggatata gattttgctt actttgacgt ccctggcgga agtcctccag 20400

caggtggtag tggggaagaa tacaaagcag atataatttt gtacactgaa aatgttaatc 20460

ttgaaacacc agacactcat gtggtttaca agccaggaac ttcagataac agttcagaaa 20520

tcaatctggt tcagcagtcc atgccaaaca gacccaacta cattggcttt agggacaact 20580

ttgtaggtct catgtattac aacagcaccg gaaatatggg tgtgctggct ggtcaggctt 20640

ctcagttgaa cgctgtggtc gacttgcaag acagaaacac cgagttatct taccagctat 20700

tgctagattc tctgggtgac agaaccagat actttagcat gtggaactct gcggtggaca 20760

gttacgatcc agatgtcagg atcattgaaa atcacggtgt ggaagatgaa cttccaaact 20820

attgcttccc attgaatggc actggaacca attccactta tcaaggtgta aagattacaa 20880

atggtaatga tggtgctgaa gaaagtgagt gggagaaaga cgatgcaatt tctagacaaa 20940

accaaatctg caagggcaat gtctacgcca tggagatcaa cctgcaggcc aacctgtgga 21000

agagttttct gtactcgaac gtggccctgt acctgcccga ctcctacaag tacacgccgg 21060

ccaacgtcaa gctgcccgcc aacaccaaca cctacgagta catgaacggc cgcgtggtag 21120

ccccatccct ggtggacgcc tacatcaaca tcggcgcccg ctggtcgttg gaccccatgg 21180

acaacgtcaa ccccttcaac caccaccgca atgcgggcct gcgctaccgc tccatgctgc 21240

tgggcaacgg ccgctacgtg cccttccaca tccaagtgcc ccaaaagttc tttgccatca 21300

agaacctgct cctgctcccg ggctcctaca cctacgagtg gaacttccgc aaggacgtca 21360

acatgatcct gcagagttcc ctcggcaacg acctgcgcgt cgacggcgcc tccgtccgct 21420

tcgacagcgt caacctatac gccactttct tccccatggc gcacaacacc gcttcaacct 21480

tggaagccat gctgcgcaac gacaccaacg accagtcctt caacgactac ctctcggccg 21540

ccaacatgct ctaccccatc ccggccaagg ccaccaacgt gcccatctcc atcccatcgc 21600

gcaactgggc cgccttccgc ggctggagtt tcacccggct caagaccaag gaaactcctt 21660

ccctcggctc gggtttcgac ccctactttg tctactcggg ctccatcccc tacctcgacg 21720

ggaccttcta cctcaaccac accttcaaga aggtctccat catgttcgac tcctcggtca 21780

gctggcccgg caacgaccgg ctgctcacgc cgaacgagtt cgagatcaag cgcagcgtcg 21840

acggggaggg ctacaacgtg gcccaatgca acatgaccaa ggactggttc ctcgtccaga 21900

tgctctccca ctacaacatc ggctaccagg gcttccacgt gcccgagggc tacaaggacc 21960

gcatgtactc cttcttccgc aacttccagc ccatgagcag gcaggtggtc gatgagatca 22020

actacaagga ctacaaggcc gtcaccctgc ccttccagca caataactcg ggcttcaccg 22080

gctacctcgc acccaccatg cgccaggggc agccctaccc cgccaacttc ccctacccgc 22140

tcatcggtca gacagccgtg ccctccgtca cccagaaaaa gttcctctgc gacagggtca 22200

tgtggcgcat cccattctcc agcaacttca tgtccatggg cgccctcacc gacctgggtc 22260

agaacatgct ctacgccaac tcggcccacg cgctcgacat gaccttcgag gtggacccca 22320

tggatgagcc caccctcctc tatcttctct tcgaagtttt cgacgtggtc agagtacacc 22380

agccgcaccg cggcgtcatc gaggccgtct acctgcgcac gcccttctcc gccggcaacg 22440

ccaccaccta agcatgagcg gctccagcga acgagagctc gcggccatcg tgcgcgacct 22500

gggctgcggg ccctactttt tgggcaccca cgacaagcgc ttcccgggct ttctcgccgg 22560

cgacaagctg gcctgcgcca tcgtcaacac ggccggccgc gagaccggag gcgtgcactg 22620

gctcgccttc ggctggaacc cgcgctcgcg cacctgctac atgttcgacc cctttgggtt 22680

ctcggaccgc cggctcaagc agatttacag cttcgagtac gaggccatgc tgcgccgcag 22740

cgccctggcc tcctcgcccg accgctgtct cagcctcgag cagtccactc agaccgtgca 22800

ggggcccgac tccgccgcct gcggactctt ctgttgcatg ttcttgcatg ccttcgtgca 22860

ctggcccgac cgacccatgg acggaaaccc caccatgaac ttgctgacgg gggtgcccaa 22920

cggcatgcta caatcgccac aggtgctgcc caccctcagg cgcaaccagg aggaactcta 22980

ccgcttcctc gcgcgccact ccccttactt tcgctcccac cgcgccgcca tcgaacacgc 23040

caccgctttt gacaaaatga aacaactgcg tgtatctcaa taaacagcac ttttatttta 23100

catgcactgg agtatatgca agttatttaa aagtcgaagg ggttctcgcg ctcgtcgttg 23160

tgcgccgcgc tggggagggc cacgttgcgg tactggtact tgggctgcca cttgaactcg 23220

gggatcacca gtttgggcac tggggtctcg gggaaggtct cgctccacat gcgccggctc 23280

atctgcaggg cgcccagcat gtccggggcg gagatcttga aatcgcagtt ggggccggtg 23340

ctctgcgcgc gcgagttgcg gtacacgggg ttgcagcact ggaacaccat cagactgggg 23400

tacttcacac tagccagcac gctcttgtcg ctgatctgat ccttgtccag atcctcggcg 23460

ttgctcaggc cgaacggggt catcttgcac agctggcgtc ccaggaaggg cacgctctga 23520

ggcttgtggt tacactcgca gtgcacgggc atcagcatca tccccgcgcc gcgctgcata 23580

ttcgggtaga gggccttgac aaaggccgcg atctgcttga aagcttgctg ggccttggcc 23640

ccctcgctga aaaacaggcc gcagctcttc ccgctgaact ggttattccc acacccggca 23700

tcctgcacgc agcagcgcgc gtcatggctg gtcagttgca ccacgctccg tccccagcgg 23760

ttctgggtca ccttagcctt gctgggctgc tccttcaacg cgcgctgccc gttctcgctg 23820

gtcacatcca tctccaccac gtggtccttg tggatcatca tcgtcccgtg cagacacttg 23880

agctggcctt ccacctcggt gcagccgtga tcccacaggg cgcaaccggt gcactcccag 23940

ttcttgtgcg caatcccgct gtggctgaag atgtaacctt gcaacatgcg gcccatgatg 24000

gtgctaaatg ctttctgggt ggtgaaggtc agttgcatcc cgcgggcctc ctcgttcatc 24060

caggtctggc acatcttctg gaagatctcg gtctgctcgg gcatgagctt gtaagcatcg 24120

cgcaggccgc tgtcgacgcg gtagcgttcc atcagcacgt tcatggtatc catgcccttc 24180

tcccaggacg agaccagagg cagactcaga gggttgcgta cgttcaggac accgggggtc 24240

gcgggctcga cgatgcgttt tccgtccttg ccttccttca atagaaccgg cggctggctg 24300

aatcccactc ccacgatcac ggcatcttcc tggggcatct cttcgtcggg gtctaccttg 24360

gtcacatgct tggtctttct ggcttgcttc ttttttggag ggctgtccac ggggagcacg 24420

tcctcctcgg aagacccgga gcccacccgc tgatactttc ggcgcttggt gggcagagga 24480

ggtggcggcg aggggctcct ctcctgctcc ggcggatagc gcgccgaccc gtggccccgg 24540

ggcggagtgg cctctcggcc catgaaccgg cgcacgtcct gactgccgcc ggccattgtt 24600

tcctagggga agatggagga gcagccgcgt aagcaggagc aggaggagga cttaaccacc 24660

cacgagcaac ccaaaatcga gcaggacctg ggcttcgaag agccggctcg tctagaaccc 24720

ccacaggatg aacaggagca cgagcaagac gcaggccagg aggagaccga cgctgggctc 24780

gagcatggct acctgggagg agaggaggat gtgctgctga aacacctgca gcgccagtcc 24840

ctcatcctcc gggacgccct ggccgaccgg agcgaaaccc ccctcagcgt cgaggagctg 24900

tgtcgggcct acgagctcaa cctcttctcg ccgcgcgtac cccccaaacg ccagcccaac 24960

ggcacctgcg agcccaaccc gcgtctcaac ttctatcccg tctttgcggt ccccgaagcc 25020

ctcgccacct atcacatctt tttcaagaac caaaagatcc ccgtctcctg ccgcgccaac 25080

cgcaccagcg ccgacgcgct cctcgctctg gggcccggcg cgcgcatacc tgatatcgct 25140

tccctggaag aggtgcccaa gatcttcgaa gggctcggtc gggacgagac gcgcgcggcg 25200

aacgctctga aagaaacagc agaggaagag ggtcacacta gcgccctggt agagttggaa 25260

ggcgacaacg ccaggctggc cgtgctcaag cgcagcgtcg agctcaccca cttcgcctac 25320

cccgccgtca acctcccgcc caaggtcatg cgtcgcatca tggatcagct catcatgccc 25380

cacatcgagg ccctcgatga aagtcaggag cagcgccccg aggacgcccg gcccgtggtc 25440

agcgacgaga tgctcgcgcg ctggctcggg acccacgacc cccaggcttt ggaacagcgg 25500

cgcaagctca tgctggccgt ggtcctggtt accctcgagc tggaatgcat gcgccgcttc 25560

ttcagcgacc ccgagaccct gcgcaaggtc gaggagaccc tgcactacac tttcagacac 25620

ggtttcgtca ggcaggcctg caagatctcc aacgtggagc tgaccaacct ggtctcctgc 25680

ctggggatcc tgcacgagaa ccgcctgggg cagaccgtgc tccactctac cctgaagggc 25740

gaggcgcggc gggactatgt ccgcgactgc gtctttctat ttctttgcca cacatggcaa 25800

gcagccatgg gcgtgtggca acagtgtctc gaggacgata acctgaagga gctggacaag 25860

cttcttgcta gaaatcttaa aaagctgtgg acgggcttcg acgagcgcac cgtcgcctcg 25920

gacctggccg agatcgtgtt ccccgagcgc ctgaggcaga cgctgaaagg cgggctgccc 25980

gacttcatga gccagagcat gttgcaaaac taccgcactt tcattctcga gcgatctggg 26040

atgctgcccg ccacctgcaa cgctttcccc tccgactttg tcccgctgag ctaccgcgag 26100

tgtcccccgc cgctgtggag ccactgctac ctcttgcagc tggccaacta catcgcctac 26160

cactcggacg tgatcgagga cgtgagcggc gaggggctgc tcgagtgcca ctgccgctgc 26220

aacctgtgct ccccgcaccg ctccctggtc tgcaaccccc agctactaag cgagacccag 26280

gtcatcggta cctttgagct gcaaggtccg caggagtcca ccgctccgct gaaactcacg 26340

ccggggttgt ggacttccgc gtacctgcgc aaatttgtac ccgaggacta ccacgcccac 26400

gagataaagt tcttcgagga ccaatcgcgt ccgcagcacg cggatctcac ggcctgcgtc 26460

atcacccagg gcgcaatcct cgcccaattg cacgccatcc aaaaatcccg ccaagagttt 26520

cttctgaaaa agggtagagg ggtctacctg gacccccaga cgggcgaagt gctcaacccg 26580

ggtctccccc agcatgccga ggaagaagca ggagccgcta gtggaggaga tggaagaaga 26640

atgggacagc caggcagagg aggacgaatg ggaggaggag acagaggagg aagaattgga 26700

agaggtggaa gaggagcagg caacagagca gcccgtcgcc gcaccatccg cgccggcagc 26760

cccgccggtc acggatacaa cctccgcagc tccggccaag cctcctcgta gatgggatcg 26820

agtgaagggt gacggtaagc acgagcggca gggctaccga tcatggaggg cccacaaagc 26880

cgcgatcatc gcctgcttgc aagactgcgg ggggaacatc gctttcgccc gccgctacct 26940

gctcttccac cgcggggtaa acatcccccg caacgtgttg cattactacc gtcaccttca 27000

cagctaagaa aaagcaagta aaaggagtcg ccggaggagg aggaggcctg aggatcgcgg 27060

cgaacgagcc cttgaccacc agggagctga ggaaccggat cttccccact ctttatgcca 27120

tttttcagca gagtcgaggt cagcagcaag agctcaaagt aaaaaaccgg tctctgcgct 27180

cgctcacccg cagttgcttg taccacaaaa acgaagatca gctgcagcgc actctcgaag 27240

acgccgaggc tctgttccac aagtactgcg cgctcactct taaagactaa ggcgcgccca 27300

cccggaaaaa aggcgggaat tacctcatcg ccaccatgag caaggagatt cccacccctt 27360

acatgtggag ctatcagccc caaatgggcc tggccgcggg cgcctcccag gactactcca 27420

cccgcatgaa ctggctcagt gccggcccct cgatgatctc acgggtcaac ggggtccgca 27480

gtcatcgaaa ccagatattg ttggagcagg cggcggtcac ctccacgccc agggcaaagc 27540

tcaacccgcg taattggccc tccaccctgg tgtatcagga aatccccggg ccgactaccg 27600

tactacttcc gcgtgacgca ctggccgaag tccgcatgac taactcaggt gtccagctgg 27660

ccggcggcgc ttcccggtgc ccgctccgcc cacaatcggg tataaaaacc ctggtgatcc 27720

gaggcagagg cacacagctc aacgacgagt tggtgagctc ttcgatcggt ctgcgaccgg 27780

acggagtgtt ccaactagcc ggagccggga gatcctcctt cactcccaac caggcctacc 27840

tgaccttgca gagcagctct tcggagcctc gctccggagg catcggaacc ctccagtttg 27900

tggaggagtt tgtgccctcg gtctacttca accccttctc gggatcgcca ggcctctacc 27960

cggacgagtt cataccgaac ttcgacgcag tgagagaagc ggtggacggc tacgactgaa 28020

tgtcccatgg tgactcggct gagctcgctc ggttgaggca tctggaccac tgccgccgcc 28080

tgcgctgctt cgcccgggag agctgcggac tcatctactt tgagtttccc gaggagcacc 28140

ccaacggccc tgcacacgga gtgcggatca ccgtagaggg caccaccgag tctcacctgg 28200

tcaggttctt cacccagcaa cccttcctgg tcgagcggga ccggggcgcc accacctaca 28260

ccgtctactg catctgtcca accccgaagt tgcatgagaa tttttgttgt actctttgtg 28320

gtgagtttaa taaaagctaa actcttgcaa tactctggac cttgtcgtcg tcaactcaac 28380

gagaccgtct acctcaccaa ccagactgag gtaaaactca cctgcagacc acacaagacc 28440

tatatcatct ggttcttcga gaacacctca tttgcagtct ccaacactca ctgcaacgac 28500

ggtgttgaac ttcccaacaa cctttccagt ggactgagtt acgatacaca tagagctaag 28560

ctcgtcctct acaatccttt tgtagaggga acctaccagt gccagagcgg accttgtact 28620

cacaccttcc atttggtgaa cgtcaccagc agcagcaaca gctcagaaac taaccttcct 28680

tctgatacta acaaacctcg tttcggaggt gagctaaggc ttcccccttc tgaggagggg 28740

gttagcccat acgaagtggt cgggtatttg attttagggg tggtcctggg tgggtgcata 28800

gcggtgctag tcgagatgga cggccaggcc tccgagcagc gcatcctgca actgcgcgtc 28860

cgtcagcagc aggagcgtgc cgccaaggag ctcctcgatg ccatcaacat ccaccagtgc 28920

aagaagggca tcttctgcct ggtcaaacag gcaaagatca cctacgagct cgtgtccggc 28980

ggcaagcagc atcgcctcgc ctatgagctg ccccagcaga agcagaagtt cacctgcatg 29040

gtgggcgtca accccatagt catcacccag cagtcgggcg agaccagcgg ctgcatccac 29100

tgctcctgcg aaagccccga gtgcatctac tccctgctca agaccctttg cggactccgc 29160

gacctcctcc ccatgaactg atgttgatta aaagcccaaa aaccaatcag ccccttcccc 29220

ctaatcattc aataaagatc acttacttga aatctgaaag tatgtctctg gtgtagttgt 29280

tcagcagcac ctcggtaccc tcctcccagc tctggtactc cagtccccgg cgggcggcga 29340

acttcctcca caccttgaaa gggatgtcaa attcctggtc cacaattttc attgtcttcc 29400

ctctcagatg gcaaagaggc tccgggtgga agatgacttc aaccccgtct acccctatgg 29460

ctacgcgcgg aatcagaata tccccttcct cactcccccc tttgtctcct ccgatggatt 29520

caaaaacttc ccccctgggg tcctgtcact taaactggct gatccaatca ccatcaacaa 29580

tggggatgtc tcacttaagg tgggaggggg acttgctgta gagcaacaga ctggtaacct 29640

aagcgtaaac cctgatgcac ccttgcaagt tgcaagtgat aagctacagc ttgctctggc 29700

tcctccattc gaggtcagag atggaaagct tgctttaaag gcaggtaatg gattaaaagt 29760

actagataat tccattactg gattgactgg attattgaat acacttgtgg tattaactgg 29820

aaggggaata ggaacggagg aattaaaaaa tgacgatggt gtaacaaaca aaggagtcgg 29880

cttgcgtgta agacttggag atgacggcgg gctgacattt gataaaaagg gtgatttagt 29940

agcctggaat aaaaaagatg acaggcgcac cctgtggaca acccctgaca catctccaaa 30000

ttgcaaaatg agtacagaaa aggattctaa acttacgttg acacttacaa agtgtggaag 30060

tcaggttctg ggaaatgtat ctttacttgc agttacaggt gaatatcatc aaatgactgc 30120

tactacaaag aaggatgtaa aaatatcttt actatttgat gagaatggaa ttctattacc 30180

atcttcgtcc cttagcaaag attattggaa ttacagaagt gatgattcta ttgtatctca 30240

aaaatataat aatgcagttc cattcatgcc aaacctgaca gcttatccaa aaccaagcgc 30300

tcaaaatgca aaaaactatt caagaactaa aatcataagt aatgtctact taggtgctct 30360

tacctaccaa cctgtaatta tcactattgc atttaatcag gaaactgaaa atggatgtgc 30420

ttattctata acatttacct tcacttggca aaaagactat tctgcccaac agtttgatgt 30480

tacatctttt accttctcat atcttaccca agagaacaaa gacaaagact aataaaatgt 30540

tttgaactga atttatgaat ctttatttat ttttacacca gcacgggtag tcagtttccc 30600

accaccagcc catttcacag tgtaaacaat tctctcagca cgggtggcct taaacaggtc 30660

acagaaccct agtattcaac ctgccacctc cctcccaaca cacagagtac acagtccttt 30720

ctccccggct ggccttaaaa agcatcatat catgggtaac agacatattc ttaggtgtta 30780

tattccacac ggtttcctgt cgagccaaac gctcatcagt gatattaata aactccccgg 30840

gcagctcact taagttcatg tcgctgtcca gctgctgagc cacaggctgc tgtccaactt 30900

gcggttgctt aacgggcggc gaaggagaag tccacgccta catgggggta gagtcataat 30960

cgtgcatcag gatagggcgg tggtgctgca gcagcgcgcg aataaactgc tgccgccgcc 31020

gctccgtcct gcaggaatac aacatggcag tggtctcctc agcgatgatt cgcaccgccc 31080

gcagcataag gcgccttgtc ctccgggcac agcagcgcac cctgatctca cttaaatcag 31140

cacagtaact gcagcacagc accacaatat tgttcaaaat cccacagtgc aaggcgctgt 31200

atccaaagct catggcgggg accacagaac ccacgtggcc atcataccac aagcgcaggt 31260

agattaagtg gcgacccctc ataaacacgc tggacataaa cattacctct tttggcatgt 31320

tgtaattcac cacctcccgg taccatataa acctctgatt aaacatggcg ccatccacca 31380

ccatcctaaa ccagctggcc aaaacctgcc cgccggctat acactgcagg gaaccgggac 31440

tggaacaatg acagtggaga gcccaggact cgtaaccatg gatcatcatg ctcgtcatga 31500

tatcaatgtt ggcacaacac aggcacacgt gcatacactt cctcaggatt acaagctcct 31560

cccgcgttag aaccatatcc cagggaacaa cccattcctg aatcagcgta aatcccacac 31620

tgcagggaag acctcgcacg taactcacgt tgtgcattgt caaggtgtta cattcgggca 31680

gcagcggatg atcctccagt atggtagcgc gggtttctgt ctcaaaagga ggtagacgat 31740

ccctactgta cggagtgcgc cgagacaacc gagatcgtgt tggtcgtagt gtcatgccaa 31800

atggaacgcc ggacgtagtc atatttcctg aaggagctcg actgttcctc ggtggacatt 31860

gaaatggatt ctcttgcgta ccttgtcgta cttctgccag cagaaagtgg ctcgggaaca 31920

gcagatacct ttcctcctgc tgtccttccg ctgctgacgc tcagtcatcc aactgaagta 31980

cagccattcc cgcaggttct ccagcagctc ctgtgcatct gatgaaacaa aagtcccgtc 32040

gatgcggatt ccccttaaaa catcagccag gacattgtag gccatcccaa tccagttaat 32100

gcatcctgat ctatcatgaa gaggaggtgg gggaagaact ggaagaacca tttttattcc 32160

aagcggtctc gaaggacgat aaagtgcaag tcacgcaggt gacagcgttc cccgccgctg 32220

tgctggtgga aacagacagc caggtcaaaa cccactctat tttcaaggtg ctcgactgtg 32280

gcttcgagca gtggctctac gcgtacatcc agcataagaa tcacattaaa ggctggacct 32340

ccatcgattt catcaatcat caggttacac tcattcacca tccccaggta attctcattt 32400

ttccagcctt ggattatttc tacaaattgt tggtgtaagt ccactccgca catgtggaaa 32460

agttcccaca gcgccccctc cactttcata atcaggcaga ccttcatatt agaaacagat 32520

cctgctgctc caccacctgc agcgtgttca aaacaacaag attcaatgag gttctgccct 32580

ctgccctcag ctcacgtctc agcgtcagct gcaaaaagtc actcaagtcc tcagccacta 32640

cagctgacaa ttcagagcca gggctaagcg tgggactggc aagcgtgagt gagtaccacc 32700

caaaaactgc atgctggaat aagctctctt tgtgtcaccg gtgatgcctt ccaataggtg 32760

agtgataaag cgaggtagtt tttctttaat catttgagta atagaaaagt cctctaaata 32820

agtcactagg accccaggaa ccacaatgtg gtagctgaca gcgtgtcgct caagcatggt 32880

tagtagagat gagagtctga aaaacagaaa gcatgcacta aaccagagtt gccagtctca 32940

ctgaaggaaa aatcactctc tccagcagca aagtgcccac tgggtggccc tctcggacat 33000

acaaaaatcg atccgtgtgg ttaaagagca gcacagttag ctcctgtctt ctcccagcaa 33060

agatcacatc ggactgggtt agtatgcccc tggaatggta gtcattcaag gccataaatc 33120

tgccttggta gccattagga atcagcacgc tcactctcaa gtgaaccaaa accaccccat 33180

gcggaggaat gtggaaagat tctgggcaaa aaaaggtata tctattgcta gtcccttcct 33240

ggacgggagc aatccctcca gggctatcta tgaaagcata cagagattca gccatagctc 33300

agcccgctta ccagtagaca gagagcacag cagtacaagc gccaacagca gcgactgact 33360

acccactgac ccagctccct atttaaaggc accttacact gacgtaatga ccaaaggtct 33420

aaaaaccccg ccaaaaaaac acacacgccc tgggtgtttt tcgcgaaaac acttccgcgt 33480

tctcacttcc tcgtatcgat ttcgtgactc aacttccggg ttcccacgtt acgtcacttc 33540

tgcccttaca tgtaactcag ccgtagggcg ccatcttgcc cacgtccaaa atggcttcca 33600

tgtccggcca cgcctccgcg gcgaccgtta gccgtgcgtc gtgacgtcat ttgcatcacc 33660

gtttctcgtc caatcagcgt tggctccgcc ccaaaaccgt taaaattcaa aagctcattt 33720

gcatattaac ttttgtttac tttgtggggt atattattga tgatg 33765

<210> 6

<211> 34808

<212> DNA

<213> Recombinant Simian adenovirus serotype 25 (Recombinan adenovirus serotype 25)

<400> 6

catcatcaat aatatacctt attttggatt gaagccaata tgataatgag ggggtggagt 60

ttgtgacgtg gcgcggggcg tgggaacggg gcgggtgacg tagtagtgtg gcggaagtgt 120

gatgttgcaa gtgtggcgga acacatgtaa gcgacggatg tggcaaaagt gacgtttttg 180

gtgtgcgccg gtgtacacag gaagtgacaa ttttcgcgcg gttttaggcg gatgttgtag 240

taaatttggg cgtaaccgag taagatttgg ccattttcgc gggaaaactg aataagagga 300

agtgaaatct gaataatttt gtgttactca tagcgcgtaa tacatggccc gaaaggagcg 360

atgtaatagt aatcaattac ggggtcatta gttcatagcc catatatgga gttccgcgtt 420

acataactta cggtaaatgg cccgcctggc tgaccgccca acgacccccg cccattgacg 480

tcaataatga cgtatgttcc catagtaacg ccaataggga ctttccattg acgtcaatgg 540

gtggagtatt tacggtaaac tgcccacttg gcagtacatc aagtgtatca tatgccaagt 600

acgcccccta ttgacgtcaa tgacggtaaa tggcccgcct ggcattatgc ccagtacatg 660

accttatggg actttcctac ttggcagtac atctacgtat tagtcatcgc tattaccatg 720

gtgatgcggt tttggcagta catcaatggg cgtggatagc ggtttgactc acggggattt 780

ccaagtctcc accccattga cgtcaatggg agtttgtttt ggcaccaaaa tcaacgggac 840

tttccaaaat gtcgtaacaa ctccgcccca ttgacgcaaa tgggcggtag gcgtgtacgg 900

tgggaggtct atataagcag agctggttta gtgaaccgtc agatccgcta gagatctggt 960

accgtcgacg cggccgctcg agcctaagct tggtaccatg tttgtgttcc ttgtgttatt 1020

gccactagtc tctagtcagt gtgtgaacct gaccacaaga acccagctgc ctccagccta 1080

caccaacagc tttaccagag gcgtgtacta ccccgacaag gtgttcagat ccagcgtgct 1140

gcactctacc caggacctgt tcctgccttt cttcagcaac gtgacctggt tccacgccat 1200

ccacgtgtcc ggcaccaatg gcaccaagag attcgacaac cccgtgctgc ccttcaacga 1260

cggggtgtac tttgccagca ccgagaagtc caacatcatc agaggctgga tcttcggcac 1320

cacactggac agcaagaccc agagcctgct gatcgtgaac aacgccacca acgtggtcat 1380

caaagtgtgc gagttccagt tctgcaacga ccccttcctg ggcgtctact atcacaagaa 1440

caacaagagc tggatggaaa gcgagttccg ggtgtacagc agcgccaaca actgcacctt 1500

cgagtacgtg tcccagcctt tcctgatgga cctggaaggc aagcagggca acttcaagaa 1560

cctgcgcgag ttcgtgttca agaacatcga cggctacttc aagatctaca gcaagcacac 1620

ccctatcaac ctcgtgcggg atctgcctca gggcttctct gctctggaac ccctggtgga 1680

tctgcccatc ggcatcaaca tcacccggtt tcagacactg ctggccctgc acagaagcta 1740

cctgacacct ggcgatagca gcagcggatg gacagctggt gccgccgctt actatgtggg 1800

ctacctgcag cctagaacct tcctgctgaa gtacaacgag aacggcacca tcaccgacgc 1860

cgtggattgt gctctggatc ctctgagcga gacaaagtgc accctgaagt ccttcaccgt 1920

ggaaaagggc atctaccaga ccagcaactt ccgggtgcag cccaccgaat ccatcgtgcg 1980

gttccccaat atcaccaatc tgtgcccctt cggcgaggtg ttcaatgcca ccagattcgc 2040

ctctgtgtac gcctggaacc ggaagcggat cagcaattgc gtggccgact actccgtgct 2100

gtacaactcc gccagcttca gcaccttcaa gtgctacggc gtgtccccta ccaagctgaa 2160

cgacctgtgc ttcacaaacg tgtacgccga cagcttcgtg atccggggag atgaagtgcg 2220

gcagattgcc cctggacaga caggcaagat cgccgactac aactacaagc tgcccgacga 2280

cttcaccggc tgtgtgattg cctggaacag caacaacctg gactccaaag tcggcggcaa 2340

ctacaattac ctgtaccggc tgttccggaa gtccaatctg aagcccttcg agcgggacat 2400

ctccaccgag atctatcagg ccggcagcac cccttgtaac ggcgtggaag gcttcaactg 2460

ctacttccca ctgcagtcct acggctttca gcccacaaat ggcgtgggct atcagcccta 2520

cagagtggtg gtgctgagct tcgaactgct gcatgcccct gccacagtgt gcggccctaa 2580

gaaaagcacc aatctcgtga agaacaaatg cgtgaacttc aacttcaacg gcctgaccgg 2640

caccggcgtg ctgacagaga gcaacaagaa gttcctgcca ttccagcagt ttggccggga 2700

tattgccgat accacagacg ccgtacgaga tccccagaca ctggaaatcc tggacatcac 2760

cccttgcagc ttcggcggag tgtctgtgat cacccctggc accaacacca gcaatcaggt 2820

ggcagtgctg taccaggacg tgaactgtac cgaagtgccc gtggccattc acgccgatca 2880

gctgacacct acatggcggg tgtactccac cggcagcaat gtgtttcaga ccagagccgg 2940

ctgtctgatc ggagccgagc acgtgaacaa tagctacgag tgcgacatcc ccatcggcgc 3000

tggcatctgt gccagctacc agacacagac aaacagcccc agacgggcca gatctgtggc 3060

cagccagagc atcattgcct acacaatgtc tctgggcgcc gagaacagcg tggcctactc 3120

caacaactct atcgctatcc ccaccaactt caccatcagc gtgaccacag agatcctgcc 3180

tgtgtccatg accaagacca gcgtggactg caccatgtac atctgcggcg attccaccga 3240

gtgctccaac ctgctgctgc agtacggcag cttctgcacc cagctgaata gagccctgac 3300

agggatcgcc gtggaacagg acaagaacac ccaagaggtg ttcgcccaag tgaagcagat 3360

ctacaagacc cctcctatca aggacttcgg cggcttcaat ttcagccaga ttctgcccga 3420

tcctagcaag cccagcaagc ggagcttcat cgaggacctg ctgttcaaca aagtgacact 3480

ggccgacgcc ggcttcatca agcagtatgg cgattgtctg ggcgacattg ccgccaggga 3540

tctgatttgc gcccagaagt ttaacggact gacagtgctg ccaccactgc tgaccgatga 3600

gatgatcgcc cagtacacat ctgccctgct ggccggcaca atcacaagcg gctggacatt 3660

tggagctggc gccgctctgc agatcccctt tgctatgcag atggcctacc ggttcaacgg 3720

catcggagtg acccagaatg tgctgtacga gaaccagaag ctgatcgcca accagttcaa 3780

cagcgccatc ggcaagatcc aggacagcct gagcagcaca gcaagcgccc tgggaaagct 3840

gcaggacgtg gtcaaccaga atgcccaggc actgaacacc ctggtcaagc agctgtcctc 3900

caacttcggc gccatcagct ctgtgctgaa cgacatcctg agcagactgg acaaggtgga 3960

agccgaggtg cagatcgaca gactgatcac cggaaggctg cagtccctgc agacctacgt 4020

tacccagcag ctgatcagag ccgccgagat tagagcctct gccaatctgg ccgccaccaa 4080

gatgtctgag tgtgtgctgg gccagagcaa gagagtggac ttttgcggca agggctacca 4140

cctgatgagc ttccctcagt ctgcccctca cggcgtggtg tttctgcacg tgacatacgt 4200

gcccgctcaa gagaagaatt tcaccaccgc tccagccatc tgccacgacg gcaaagccca 4260

ctttcctaga gaaggcgtgt tcgtgtccaa cggcacccat tggttcgtga cccagcggaa 4320

cttctacgag ccccagatca tcaccaccga caacaccttc gtgtctggca actgcgacgt 4380

cgtgatcggc attgtgaaca ataccgtgta cgaccctctg cagcccgagc tggacagctt 4440

caaagaggaa ctggataagt actttaagaa ccacacaagc cccgacgtgg acctgggcga 4500

catcagcgga atcaatgcca gcgtcgtgaa catccagaaa gagatcgacc ggctgaacga 4560

ggtggccaag aatctgaacg agagcctgat cgacctgcaa gaactgggga agtacgagca 4620

gtacatcaag tggccctggt acatctggct gggctttatc gccggactga ttgccatcgt 4680

gatggtcaca atcatgctgt gttgcatgac cagctgctgt agctgcctga agggctgttg 4740

tagctgtggc agctgctgca agttcgacga ggacgattct gagcccgtgc tcaaaggagt 4800

caaattacat tacacataag atatccgatc caccggatct agataactga tcataatcag 4860

ccataccaca tttgtagagg ttttacttgc tttaaaaaac ctcccacacc tccccctgaa 4920

cctgaaacat aaaatgaatg caattgttgt tgttaacttg tttattgcag cttataatgg 4980

ttacaaataa agcaatagca tcacaaattt cacaaataaa gcattttttt cactgcattc 5040

tagttgtggt ttgtccaaac tcatcaatgt atcttaacgc ggatctgggc gtggttaagg 5100

gtgggaaaga atatataagg tgggggtctt atgtagtttt gtatctgttt tgcagcagcc 5160

gccgccgcca tgagcaccaa ctcgtttgat ggaagcattg tgagctcata tttgacaacg 5220

cgcatgcccc catgggccgg ggtgcgtcag aatgtgatgg gctccagcat tgatggtcgc 5280

cccgtcctgc ccgcaaactc tactaccttg acctacgaga ccgtgtctgg aacgccgttg 5340

gagactgcag cctccgccgc cgcttcagcc gctgcagcca ccgcccgcgg gattgtgact 5400

gactttgctt tcctgagccc gcttgcaagc agtgcagctt cccgttcatc cgcccgcgat 5460

gacaagttga cggctctttt ggcacaattg gattctttga cccgggaact taatgtcgtt 5520

tctcagcagc tgttggatct gcgccagcag gtttctgccc tgaaggcttc ctcccctccc 5580

aatgcggttt aaaacataaa taaaaaacca gactctgttt ggatttggat caagcaagtg 5640

tcttgctgtc tttatttagg ggttttgcgc gcgcggtagg cccgggacca gcggtctcgg 5700

tcgttgaggg tcctgtgtat tttttccagg acgtggtaaa ggtgactctg gatgttcaga 5760

tacatgggca taagcccgtc tctggggtgg aggtagcacc actgcagagc ttcatgctgc 5820

ggggtggtgt tgtagatgat ccagtcgtag caggagcgct gggcgtggtg cctaaaaatg 5880

tctttcagta gcaagctgat tgccaggggc aggcccttgg tgtaagtgtt tacaaagcgg 5940

ttaagctggg atgggtgcat acgtggggat atgagatgca tcttggactg tatttttagg 6000

ttggctatgt tcccagccat atccctccgg ggattcatgt tgtgcagaac caccagcaca 6060

gtgtatccgg tgcacttggg aaatttgtca tgtagcttag aaggaaatgc gtggaagaac 6120

ttggagacgc ccttgtgacc tccaagattt tccatgcatt cgtccataat gatggcaatg 6180

ggcccacggg cggcggcctg ggcgaagata tttctgggat cactaacgtc atagttgtgt 6240

tccaggatga gatcgtcata ggccattttt acaaagcgcg ggcggagggt gccagactgc 6300

ggtataatgg ttccatccgg cccaggggcg tagttaccct cacagatttg catttcccac 6360

gctttgagtt cagatggggg gatcatgtct acctgcgggg cgatgaagaa aacggtttcc 6420

ggggtagggg agatcagctg ggaagaaagc aggttcctga gcagctgcga cttaccgcag 6480

ccggtgggcc cgtaaatcac acctattacc ggctgcaact ggtagttaag agagctgcag 6540

ctgccgtcat ccctgagcag gggggccact tcgttaagca tgtccctgac tcgcatgttt 6600

tccctgacca aatccgccag aaggcgctcg ccgcccagcg atagcagttc ttgcaaggaa 6660

gcaaagtttt tcaacggttt gagaccgtcc gccgtaggca tgcttttgag cgtttgacca 6720

agcagttcca ggcggtccca cagctcggtc acctgctcta cggcatctcg atccagcata 6780

tctcctcgtt tcgcgggttg gggcggcttt cgctgtacgg cagtagtcgg tgctcgtcca 6840

gacgggccag ggtcatgtct ttccacgggc gcagggtcct cgtcagcgta gtctgggtca 6900

cggtgaaggg gtgcgctccg ggctgcgcgc tggccagggt gcgcttgagg ctggtcctgc 6960

tggtgctgaa gcgctgccgg tcttcgccct gcgcgtcggc caggtagcat ttgaccatgg 7020

tgtcatagtc cagcccctcc gcggcgtggc ccttggcgcg cagcttgccc ttggaggagg 7080

cgccgcacga ggggcagtgc agacttttga gggcgtagag cttgggcgcg agaaataccg 7140

attccgggga gtaggcatcc gcgccgcagg ccccgcagac ggtctcgcat tccacgagcc 7200

aggtgagctc tggccgttcg gggtcaaaaa ccaggtttcc cccatgcttt ttgatgcgtt 7260

tcttacctct ggtttccatg agccggtgtc cacgctcggt gacgaaaagg ctgtccgtgt 7320

ccccgtatac agacttgaga ggcctgtcct cgagcggtgt tccgcggtcc tcctcgtata 7380

gaaactcgga ccactctgag acaaaggctc gcgtccaggc cagcacgaag gaggctaagt 7440

gggaggggta gcggtcgttg tccactaggg ggtccactcg ctccagggtg tgaagacaca 7500

tgtcgccctc ttcggcatca aggaaggtga ttggtttgta ggtgtaggcc acgtgaccgg 7560

gtgttcctga aggggggcta taaaaggggg tgggggcgcg ttcgtcctca ctctcttccg 7620

catcgctgtc tgcgagggcc agctgttggg gtgagtactc cctctgaaaa gcgggcatga 7680

cttctgcgct aagattgtca gtttccaaaa acgaggagga tttgatattc acctggcccg 7740

cggtgatgcc tttgagggtg gccgcatcca tctggtcaga aaagacaatc tttttgttgt 7800

caagcttggt ggcaaacgac ccgtagaggg cgttggacag caacttggcg atggagcgca 7860

gggtttggtt tttgtcgcga tcggcgcgct ccttggccgc gatgtttagc tgcacgtatt 7920

cgcgcgcaac gcaccgccat tcgggaaaga cggtggtgcg ctcgtcgggc accaggtgca 7980

cgcgccaacc gcggttgtgc agggtgacaa ggtcaacgct ggtggctacc tctccgcgta 8040

ggcgctcgtt ggtccagcag aggcggccgc ccttgcgcga gcagaatggc ggtagggggt 8100

ctagctgcgt ctcgtccggg gggtctgcgt ccacggtaaa gaccccgggc agcaggcgcg 8160

cgtcgaagta gtctatcttg catccttgca agtctagcgc ctgctgccat gcgcgggcgg 8220

caagcgcgcg ctcgtatggg ttgagtgggg gaccccatgg catggggtgg gtgagcgcgg 8280

aggcgtacat gccgcaaatg tcgtaaacgt agaggggctc tctgagtatt ccaagatatg 8340

tagggtagca tcttccaccg cggatgctgg cgcgcacgta atcgtatagt tcgtgcgagg 8400

gagcgaggag gtcgggaccg aggttgctac gggcgggctg ctctgctcgg aagactatct 8460

gcctgaagat ggcatgtgag ttggatgata tggttggacg ctggaagacg ttgaagctgg 8520

cgtctgtgag acctaccgcg tcacgcacga aggaggcgta ggagtcgcgc agcttgttga 8580

ccagctcggc ggtgacctgc acgtctaggg cgcagtagtc cagggtttcc ttgatgatgt 8640

catacttatc ctgtcccttt tttttccaca gctcgcggtt gaggacaaac tcttcgcggt 8700

ctttccagta ctcttggatc ggaaacccgt cggcctccga acggtaagag cctagcatgt 8760

agaactggtt gacggcctgg taggcgcagc atcccttttc tacgggtagc gcgtatgcct 8820

gcgcggcctt ccggagcgag gtgtgggtga gcgcaaaggt gtccctgacc atgactttga 8880

ggtactggta tttgaagtca gtgtcgtcgc atccgccctg ctcccagagc aaaaagtccg 8940

tgcgcttttt ggaacgcgga tttggcaggg cgaaggtgac atcgttgaag agtatctttc 9000

ccgcgcgagg cataaagttg cgtgtgatgc ggaagggtcc cggcacctcg gaacggttgt 9060

taattacctg ggcggcgagc acgatctcgt caaagccgtt gatgttgtgg cccacaatgt 9120

aaagttccaa gaagcgcggg atgcccttga tggaaggcaa ttttttaagt tcctcgtagg 9180

tgagctcttc aggggagctg agcccgtgct ctgaaagggc ccagtctgca agatgagggt 9240

tggaagcgac gaatgagctc cacaggtcac gggccattag catttgcagg tggtcgcgaa 9300

aggtcctaaa ctggcgacct atggccattt tttctggggt gatgcagtag aaggtaagcg 9360

ggtcttgttc ccagcggtcc catccaaggt tcgcggctag gtctcgcgcg gcagtcacta 9420

gaggctcatc tccgccgaac ttcatgacca gcatgaaggg cacgagctgc ttcccaaagg 9480

cccccatcca agtataggtc tctacatcgt aggtgacaaa gagacgctcg gtgcgaggat 9540

gcgagccgat cgggaagaac tggatctccc gccaccaatt ggaggagtgg ctattgatgt 9600

ggtgaaagta gaagtccctg cgacgggccg aacactcgtg ctggcttttg taaaaacgtg 9660

cgcagtactg gcagcggtgc acgggctgta catcctgcac gaggttgacc tgacgaccgc 9720

gcacaaggaa gcagagtggg aatttgagcc cctcgcctgg cgggtttggc tggtggtctt 9780

ctacttcggc tgcttgtcct tgaccgtctg gctgctcgag gggagttacg gtggatcgga 9840

ccaccacgcc gcgcgagccc aaagtccaga tgtccgcgcg cggcggtcgg agcttgatga 9900

caacatcgcg cagatgggag ctgtccatgg tctggagctc ccgcggcgtc aggtcaggcg 9960

ggagctcctg caggtttacc tcgcatagac gggtcagggc gcgggctaga tccaggtgat 10020

acctaatttc caggggctgg ttggtggcgg cgtcgatggc ttgcaagagg ccgcatcccc 10080

gcggcgcgac tacggtaccg cgcggcgggc ggtgggccgc gggggtgtcc ttggatgatg 10140

catctaaaag cggtgacgcg ggcgagcccc cggaggtagg gggggctccg gacccgccgg 10200

gagagggggc aggggcacgt cggcgccgcg cgcgggcagg agctggtgct gcgcgcgtag 10260

gttgctggcg aacgcgacga cgcggcggtt gatctcctga atctggcgcc tctgcgtgaa 10320

gacgacgggc ccggtgagct tgaacctgaa agagagttcg acagaatcaa tttcggtgtc 10380

gttgacggcg gcctggcgca aaatctcctg cacgtctcct gagttgtctt gataggcgat 10440

ctcggccatg aactgctcga tctcttcctc ctggagatct ccgcgtccgg ctcgctccac 10500

ggtggcggcg aggtcgttgg aaatgcgggc catgagctgc gagaaggcgt tgaggcctcc 10560

ctcgttccag acgcggctgt agaccacgcc cccttcggca tcgcgggcgc gcatgaccac 10620

ctgcgcgaga ttgagctcca cgtgccgggc gaagacggcg tagtttcgca ggcgctgaaa 10680

gaggtagttg agggtggtgg cggtgtgttc tgccacgaag aagtacataa cccagcgtcg 10740

caacgtggat tcgttgatat cccccaaggc ctcaaggcgc tccatggcct cgtagaagtc 10800

cacggcgaag ttgaaaaact gggagttgcg cgccgacacg gttaactcct cctccagaag 10860

acggatgagc tcggcgacag tgtcgcgcac ctcgcgctca aaggctacag gggcctcttc 10920

ttcttcttca atctcctctt ccataagggc ctccccttct tcttcttctg gcggcggtgg 10980

gggagggggg acacggcggc gacgacggcg caccgggagg cggtcgacaa agcgctcgat 11040

catctccccg cggcgacggc gcatggtctc ggtgacggcg cggccgttct cgcgggggcg 11100

cagttggaag acgccgcccg tcatgtcccg gttatgggtt ggcggggggc tgccatgcgg 11160

cagggatacg gcgctaacga tgcatctcaa caattgttgt gtaggtactc cgccgccgag 11220

ggacctgagc gagtccgcat cgaccggatc ggaaaacctc tcgagaaagg cgtctaacca 11280

gtcacagtcg caaggtaggc tgagcaccgt ggcgggcggc agcgggcggc ggtcggggtt 11340

gtttctggcg gaggtgctgc tgatgatgta attaaagtag gcggtcttga gacggcggat 11400

ggtcgacaga agcaccatgt ccttgggtcc ggcctgctga atgcgcaggc ggtcggccat 11460

gccccaggct tcgttttgac atcggcgcag gtctttgtag tagtcttgca tgagcctttc 11520

taccggcact tcttcttctc cttcctcttg tcctgcatct cttgcatcta tcgctgcggc 11580

ggcggcggag tttggccgta ggtggcgccc tcttcctccc atgcgtgtga ccccgaagcc 11640

cctcatcggc tgaagcaggg ctaggtcggc gacaacgcgc tcggctaata tggcctgctg 11700

cacctgcgtg agggtagact ggaagtcatc catgtccaca aagcggtggt atgcgcccgt 11760

gttgatggtg taagtgcagt tggccataac ggaccagtta acggtctggt gacccggctg 11820

cgagagctcg gtgtacctga gacgcgagta agccctcgag tcaaatacgt agtcgttgca 11880

agtccgcacc aggtactggt atcccaccaa aaagtgcggc ggcggctggc ggtagagggg 11940

ccagcgtagg gtggccgggg ctccgggggc gagatcttcc aacataaggc gatgatatcc 12000

gtagatgtac ctggacatcc aggtgatgcc ggcggcggtg gtggaggcgc gcggaaagtc 12060

gcggacgcgg ttccagatgt tgcgcagcgg caaaaagtgc tccatggtcg ggacgctctg 12120

gccggtcagg cgcgcgcaat cgttgacgct ctagaccgtg caaaaggaga gcctgtaagc 12180

gggcactctt ccgtggtctg gtggataaat tcgcaagggt atcatggcgg acgaccgggg 12240

ttcgagcccc gtatccggcc gtccgccgtg atccatgcgg ttaccgcccg cgtgtcgaac 12300

ccaggtgtgc gacgtcagac aacgggggag tgctcctttt ggcttccttc caggcgcggc 12360

ggctgctgcg ctagcttttt tggccactgg ccgcgcgcag cgtaagcggt taggctggaa 12420

agcgaaagca ttaagtggct cgctccctgt agccggaggg ttattttcca agggttgagt 12480

cgcgggaccc ccggttcgag tctcggaccg gccggactgc ggcgaacggg ggtttgcctc 12540

cccgtcatgc aagaccccgc ttgcaaattc ctccggaaac agggacgagc cccttttttg 12600

cttttcccag atgcatccgg tgctgcggca gatgcgcccc cctcctcagc agcggcaaga 12660

gcaagagcag cggcagacat gcagggcacc ctcccctcct cctaccgcgt caggaggggc 12720

gacatccgcg gttgacgcgg cagcagatgg tgattacgaa cccccgcggc gccgggcccg 12780

gcactacctg gacttggagg agggcgaggg cctggcgcgg ctaggagcgc cctctcctga 12840

gcggcaccca agggtgcagc tgaagcgtga tacgcgtgag gcgtacgtgc cgcggcagaa 12900

cctgtttcgc gaccgcgagg gagaggagcc cgaggagatg cgggatcgaa agttccacgc 12960

agggcgcgag ctgcggcatg gcctgaatcg cgagcggttg ctgcgcgagg aggactttga 13020

gcccgacgcg cgaaccggga ttagtcccgc gcgcgcacac gtggcggccg ccgacctggt 13080

aaccgcatac gagcagacgg tgaaccagga gattaacttt caaaaaagct ttaacaacca 13140

cgtgcgtacg cttgtggcgc gcgaggaggt ggctatagga ctgatgcatc tgtgggactt 13200

tgtaagcgcg ctggagcaaa acccaaatag caagccgctc atggcgcagc tgttccttat 13260

agtgcagcac agcagggaca acgaggcatt cagggatgcg ctgctaaaca tagtagagcc 13320

cgagggccgc tggctgctcg atttgataaa catcctgcag agcatagtgg tgcaggagcg 13380

cagcttgagc ctggctgaca aggtggccgc catcaactat tccatgctta gcctgggcaa 13440

gttttacgcc cgcaagatat accatacccc ttacgttccc atagacaagg aggtaaagat 13500

cgaggggttc tacatgcgca tggcgctgaa ggtgcttacc ttgagcgacg acctgggcgt 13560

ttatcgcaac gagcgcatcc acaaggccgt gagcgtgagc cggcggcgcg agctcagcga 13620

ccgcgagctg atgcacagcc tgcaaagggc cctggctggc acgggcagcg gcgatagaga 13680

ggccgagtcc tactttgacg cgggcgctga cctgcgctgg gccccaagcc gacgcgccct 13740

ggaggcagct ggggccggac ctgggctggc ggtggcaccc gcgcgcgctg gcaacgtcgg 13800

cggcgtggag gaatatgacg aggacgatga gtacgagcca gaggacggcg agtactaagc 13860

ggtgatgttt ctgatcagat gatgcaagac gcaacggacc cggcggtgcg ggcggcgctg 13920

cagagccagc cgtccggcct taactccacg gacgactggc gccaggtcat ggaccgcatc 13980

atgtcgctga ctgcgcgcaa tcctgacgcg ttccggcagc agccgcaggc caaccggctc 14040

tccgcaattc tggaagcggt ggtcccggcg cgcgcaaacc ccacgcacga gaaggtgctg 14100

gcgatcgtaa acgcgctggc cgaaaacagg gccatccggc ccgacgaggc cggcctggtc 14160

tacgacgcgc tgcttcagcg cgtggctcgt tacaacagcg gcaacgtgca gaccaacctg 14220

gaccggctgg tgggggatgt gcgcgaggcc gtggcgcagc gtgagcgcgc gcagcagcag 14280

ggcaacctgg gctccatggt tgcactaaac gccttcctga gtacacagcc cgccaacgtg 14340

ccgcggggac aggaggacta caccaacttt gtgagcgcac tgcggctaat ggtgactgag 14400

acaccgcaaa gtgaggtgta ccagtctggg ccagactatt ttttccagac cagtagacaa 14460

ggcctgcaga ccgtaaacct gagccaggct ttcaaaaact tgcaggggct gtggggggtg 14520

cgggctccca caggcgaccg cgcgaccgtg tctagcttgc tgacgcccaa ctcgcgcctg 14580

ttgctgctgc taatagcgcc cttcacggac agtggcagcg tgtcccggga cacataccta 14640

ggtcacttgc tgacactgta ccgcgaggcc ataggtcagg cgcatgtgga cgagcatact 14700

ttccaggaga ttacaagtgt cagccgcgcg ctggggcagg aggacacggg cagcctggag 14760

gcaaccctaa actacctgct gaccaaccgg cggcagaaga tcccctcgtt gcacagttta 14820

aacagcgagg aggagcgcat tttgcgctac gtgcagcaga gcgtgagcct taacctgatg 14880

cgcgacgggg taacgcccag cgtggcgctg gacatgaccg cgcgcaacat ggaaccgggc 14940

atgtatgcct caaaccggcc gtttatcaac cgcctaatgg actacttgca tcgcgcggcc 15000

gccgtgaacc ccgagtattt caccaatgcc atcttgaacc cgcactggct accgccccct 15060

ggtttctaca ccgggggatt cgaggtgccc gagggtaacg atggattcct ctgggacgac 15120

atagacgaca gcgtgttttc cccgcaaccg cagaccctgc tagagttgca acagcgcgag 15180

caggcagagg cggcgctgcg aaaggaaagc ttccgcaggc caagcagctt gtccgatcta 15240

ggcgctgcgg ccccgcggtc agatgctagt agcccatttc caagcttgat agggtctctt 15300

accagcactc gcaccacccg cccgcgcctg ctgggcgagg aggagtacct aaacaactcg 15360

ctgctgcagc cgcagcgcga aaaaaacctg cctccggcat ttcccaacaa cgggatagag 15420

agcctagtgg acaagatgag tagatggaag acgtacgcgc aggagcacag ggacgtgcca 15480

ggcccgcgcc cgcccacccg tcgtcaaagg cacgaccgtc agcggggtct ggtgtgggag 15540

gacgatgact cggcagacga cagcagcgtc ctggatttgg gagggagtgg caacccgttt 15600

gcgcaccttc gccccaggct ggggagaatg ttttaaaaaa aaaaaaagca tgatgcaaaa 15660

taaaaaactc accaaggcca tggcaccgag cgttggtttt cttgtattcc ccttagtatg 15720

cggcgcgcgg cgatgtatga ggaaggtcct cctccctcct acgagagtgt ggtgagcgcg 15780

gcgccagtgg cggcggcgct gggttctccc ttcgatgctc ccctggaccc gccgtttgtg 15840

cctccgcggt acctgcggcc taccgggggg agaaacagca tccgttactc tgagttggca 15900

cccctattcg acaccacccg tgtgtacctg gtggacaaca agtcaacgga tgtggcatcc 15960

ctgaactacc agaacgacca cagcaacttt ctgaccacgg tcattcaaaa caatgactac 16020

agcccggggg aggcaagcac acagaccatc aatcttgacg accggtcgca ctggggcggc 16080

gacctgaaaa ccatcctgca taccaacatg ccaaatgtga acgagttcat gtttaccaat 16140

aagtttaagg cgcgggtgat ggtgtcgcgc ttgcctacta aggacaatca ggtggagctg 16200

aaatacgagt gggtggagtt cacgctgccc gagggcaact actccgagac catgaccata 16260

gaccttatga acaacgcgat cgtggagcac tacttgaaag tgggcagaca gaacggggtt 16320

ctggaaagcg acatcggggt aaagtttgac acccgcaact tcagactggg gtttgacccc 16380

gtcactggtc ttgtcatgcc tggggtatat acaaacgaag ccttccatcc agacatcatt 16440

ttgctgccag gatgcggggt ggacttcacc cacagccgcc tgagcaactt gttgggcatc 16500

cgcaagcggc aacccttcca ggagggcttt aggatcacct acgatgatct ggagggtggt 16560

aacattcccg cactgttgga tgtggacgcc taccaggcga gcttgaaaga tgacaccgaa 16620

cagggcgggg gtggcgcagg cggcagcaac agcagtggca gcggcgcgga agagaactcc 16680

aacgcggcag ccgcggcaat gcagccggtg gaggacatga acgatcatgc cattcgcggc 16740

gacacctttg ccacacgggc tgaggagaag cgcgctgagg ccgaagcagc ggccgaagct 16800

gccgcccccg ctgcgcaacc cgaggtcgag aagcctcaga agaaaccggt gatcaaaccc 16860

ctgacagagg acagcaagaa acgcagttac aacctaataa gcaatgacag caccttcacc 16920

cagtaccgca gctggtacct tgcatacaac tacggcgacc ctcagaccgg aatccgctca 16980

tggaccctgc tttgcactcc tgacgtaacc tgcggctcgg agcaggtcta ctggtcgttg 17040

ccagacatga tgcaagaccc cgtgaccttc cgctccacgc gccagatcag caactttccg 17100

gtggtgggcg ccgagctgtt gcccgtgcac tccaagagct tctacaacga ccaggccgtc 17160

tactcccaac tcatccgcca gtttacctct ctgacccacg tgttcaatcg ctttcccgag 17220

aaccagattt tggcgcgccc gccagccccc accatcacca ccgtcagtga aaacgttcct 17280

gctctcacag atcacgggac gctaccgctg cgcaacagca tcggaggagt ccagcgagtg 17340

accattactg acgccagacg ccgcacctgc ccctacgttt acaaggccct gggcatagtc 17400

tcgccgcgcg tcctatcgag ccgcactttt tgagcaagca tgtccatcct tatatcgccc 17460

agcaataaca caggctgggg cctgcgcttc ccaagcaaga tgtttggcgg ggccaagaag 17520

cgctccgacc aacacccagt gcgcgtgcgc gggcactacc gcgcgccctg gggcgcgcac 17580

aaacgcggcc gcactgggcg caccaccgtc gatgacgcca tcgacgcggt ggtggaggag 17640

gcgcgcaact acacgcccac gccgccacca gtgtccacag tggacgcggc cattcagacc 17700

gtggtgcgcg gagcccggcg ctatgctaaa atgaagagac ggcggaggcg cgtagcacgt 17760

cgccaccgcc gccgacccgg cactgccgcc caacgcgcgg cggcggccct gcttaaccgc 17820

gcacgtcgca ccggccgacg ggcggccatg cgggccgctc gaaggctggc cgcgggtatt 17880

gtcactgtgc cccccaggtc caggcgacga gcggccgccg cagcagccgc ggccattagt 17940

gctatgactc agggtcgcag gggcaacgtg tattgggtgc gcgactcggt tagcggcctg 18000

cgcgtgcccg tgcgcacccg ccccccgcgc aactagattg caagaaaaaa ctacttagac 18060

tcgtactgtt gtatgtatcc agcggcggcg gcgcgcaacg aagctatgtc caagcgcaaa 18120

atcaaagaag agatgctcca ggtcatcgcg ccggagatct atggcccccc gaagaaggaa 18180

gagcaggatt acaagccccg aaagctaaag cgggtcaaaa agaaaaagaa agatgatgat 18240

gatgaacttg acgacgaggt ggaactgctg cacgctaccg cgcccaggcg acgggtacag 18300

tggaaaggtc gacgcgtaaa acgtgttttg cgacccggca ccaccgtagt ctttacgccc 18360

ggtgagcgct ccacccgcac ctacaagcgc gtgtatgatg aggtgtacgg cgacgaggac 18420

ctgcttgagc aggccaacga gcgcctcggg gagtttgcct acggaaagcg gcataaggac 18480

atgctggcgt tgccgctgga cgagggcaac ccaacaccta gcctaaagcc cgtaacactg 18540

cagcaggtgc tgcccgcgct tgcaccgtcc gaagaaaagc gcggcctaaa gcgcgagtct 18600

ggtgacttgg cacccaccgt gcagctgatg gtacccaagc gccagcgact ggaagatgtc 18660

ttggaaaaaa tgaccgtgga acctgggctg gagcccgagg tccgcgtgcg gccaatcaag 18720

caggtggcgc cgggactggg cgtgcagacc gtggacgttc agatacccac taccagtagc 18780

accagtattg ccaccgccac agagggcatg gagacacaaa cgtccccggt tgcctcagcg 18840

gtggcggatg ccgcggtgca ggcggtcgct gcggccgcgt ccaagacctc tacggaggtg 18900

caaacggacc cgtggatgtt tcgcgtttca gccccccggc gcccgcgccg ttcgaggaag 18960

tacggcgccg ccagcgcgct actgcccgaa tatgccctac atccttccat tgcgcctacc 19020

cccggctatc gtggctacac ctaccgcccc agaagacgag caactacccg acgccgaacc 19080

accactggaa cccgccgccg ccgtcgccgt cgccagcccg tgctggcccc gatttccgtg 19140

cgcagggtgg ctcgcgaagg aggcaggacc ctggtgctgc caacagcgcg ctaccacccc 19200

agcatcgttt aaaagccggt ctttgtggtt cttgcagata tggccctcac ctgccgcctc 19260

cgtttcccgg tgccgggatt ccgaggaaga atgcaccgta ggaggggcat ggccggccac 19320

ggcctgacgg gcggcatgcg tcgtgcgcac caccggcggc ggcgcgcgtc gcaccgtcgc 19380

atgcgcggcg gtatcctgcc cctccttatt ccactgatcg ccgcggcgat tggcgccgtg 19440

cccggaattg catccgtggc cttgcaggcg cagagacact gattaaaaac aagttgcatg 19500

tggaaaaatc aaaataaaaa gtctggactc tcacgctcgc ttggtcctgt aactattttg 19560

tagaatggaa gacatcaact ttgcgtctct ggccccgcga cacggctcgc gcccgttcat 19620

gggaaactgg caagatatcg gcaccagcaa tatgagcggt ggcgccttca gctggggctc 19680

gctgtggagc ggcattaaaa atttcggttc caccgttaag aactatggca gcaaggcctg 19740

gaacagcagc acaggccaga tgctgaggga taagttgaaa gagcaaaatt tccaacaaaa 19800

ggtggtagat ggcctggcct ctggcattag cggggtggtg gacctggcca accaggcagt 19860

gcaaaataag attaacagta agcttgatcc ccgccctccc gtagaggagc ctccaccggc 19920

cgtggagaca gtgtctccag aggggcgtgg cgaaaagcgt ccgcgccccg acagggaaga 19980

aactctggtg acgcaaatag acgagcctcc ctcgtacgag gaggcactaa agcaaggcct 20040

gcccaccacc cgtcccatcg cgcccatggc taccggagtg ctgggccagc acacacccgt 20100

aacgctggac ctgcctcccc ccgccgacac ccagcagaaa cctgtgctgc caggcccgac 20160

cgccgttgtt gtaacccgtc ctagccgcgc gtccctgcgc cgcgccgcca gcggtccgcg 20220

atcgttgcgg cccgtagcca gtggcaactg gcaaagcaca ctgaacagca tcgtgggtct 20280

gggggtgcaa tccctgaagc gccgacgatg cttctgatag ctaacgtgtc gtatgtgtgt 20340

catgtatgcg tccatgtcgc cgccagagga gctgctgagc cgccgcgcgc ccgctttcca 20400

agatggctac cccttcgatg atgccgcagt ggtcttacat gcacatctcg ggccaggacg 20460

cctcggagta cctgagcccc gggctggtgc agtttgcccg cgccaccgag acgtacttca 20520

gcctgaataa caagtttaga aaccccacgg tggcgcctac gcacgacgtg accacagacc 20580

ggtcccagcg tttgacgctg cggttcatcc ctgtggaccg tgaggatact gcgtactcgt 20640

acaaggcgcg gttcacccta gctgtgggtg ataaccgtgt gctggacatg gcttccacgt 20700

actttgacat ccgcggcgtg ctggacaggg gccctacttt taagccctac tctggcactg 20760

cctacaacgc cctggctccc aagggtgccc caaatccttg cgaatgggat gaagctgcta 20820

ctgctcttga aataaaccta gaagaagagg acgatgacaa cgaagacgaa gtagacgagc 20880

aagctgagca gcaaaaaact cacgtatttg ggcaggcgcc ttattctggt ataaatatta 20940

caaaggaggg tattcaaata ggtgtcgaag gtcaaacacc taaatatgcc gataaaacat 21000

ttcaacctga acctcaaata ggagaatctc agtggtacga aacagaaatt aatcatgcag 21060

ctgggagagt cctaaaaaag actaccccaa tgaaaccatg ttacggttca tatgcaaaac 21120

ccacaaatga aaatggaggg caaggcattc ttgtaaagca acaaaatgga aagctagaaa 21180

gtcaagtgga aatgcaattt ttctcaacta ctgaggcagc cgcaggcaat ggtgataact 21240

tgactcctaa agtggtattg tacagtgaag atgtagatat agaaacccca gacactcata 21300

tttcttacat gcccactatt aaggaaggta actcacgaga actaatgggc caacaatcta 21360

tgcccaacag gcctaattac attgctttta gggacaattt tattggtcta atgtattaca 21420

acagcacggg taatatgggt gttctggcgg gccaagcatc gcagttgaat gctgttgtag 21480

atttgcaaga cagaaacaca gagctttcat accagctttt gcttgattcc attggtgata 21540

gaaccaggta cttttctatg tggaatcagg ctgttgacag ctatgatcca gatgttagaa 21600

ttattgaaaa tcatggaact gaagatgaac ttccaaatta ctgctttcca ctgggaggtg 21660

tgattaatac agagactctt accaaggtaa aacctaaaac aggtcaggaa aatggatggg 21720

aaaaagatgc tacagaattt tcagataaaa atgaaataag agttggaaat aattttgcca 21780

tggaaatcaa tctaaatgcc aacctgtgga gaaatttcct gtactccaac atagcgctgt 21840

atttgcccga caagctaaag tacagtcctt ccaacgtaaa aatttctgat aacccaaaca 21900

cctacgacta catgaacaag cgagtggtgg ctcccgggct agtggactgc tacattaacc 21960

ttggagcacg ctggtccctt gactatatgg acaacgtcaa cccatttaac caccaccgca 22020

atgctggcct gcgctaccgc tcaatgttgc tgggcaatgg tcgctatgtg cccttccaca 22080

tccaggtgcc tcagaagttc tttgccatta aaaacctcct tctcctgccg ggctcataca 22140

cctacgagtg gaacttcagg aaggatgtta acatggttct gcagagctcc ctaggaaatg 22200

acctaagggt tgacggagcc agcattaagt ttgatagcat ttgcctttac gccaccttct 22260

tccccatggc ccacaacacc gcctccacgc ttgaggccat gcttagaaac gacaccaacg 22320

accagtcctt taacgactat ctctccgccg ccaacatgct ctaccctata cccgccaacg 22380

ctaccaacgt gcccatatcc atcccctccc gcaactgggc ggctttccgc ggctgggcct 22440

tcacgcgcct taagactaag gaaaccccat cactgggctc gggctacgac ccttattaca 22500

cctactctgg ctctataccc tacctagatg gaacctttta cctcaaccac acctttaaga 22560

aggtggccat tacctttgac tcttctgtca gctggcctgg caatgaccgc ctgcttaccc 22620

ccaacgagtt tgaaattaag cgctcagttg acggggaggg ttacaacgtt gcccagtgta 22680

acatgaccaa agactggttc ctggtacaaa tgctagctaa ctataacatt ggctaccagg 22740

gcttctatat cccagagagc tacaaggacc gcatgtactc cttctttaga aacttccagc 22800

ccatgagccg tcaggtggtg gatgatacta aatacaagga ctaccaacag gtgggcatcc 22860

tacaccaaca caacaactct ggatttgttg gctaccttgc ccccaccatg cgcgaaggac 22920

aggcctaccc tgctaacttc ccctatccgc ttataggcaa gaccgcagtt gacagcatta 22980

cccagaaaaa gtttctttgc gatcgcaccc tttggcgcat cccattctcc agtaacttta 23040

tgtccatggg cgcactcaca gacctgggcc aaaaccttct ctacgccaac tccgcccacg 23100

cgctagacat gacttttgag gtggatccca tggacgagcc cacccttctt tatgttttgt 23160

ttgaagtctt tgacgtggtc cgtgtgcacc agccgcaccg cggcgtcatc gaaaccgtgt 23220

acctgcgcac gcccttctcg gccggcaacg ccacaacata aagaagcaag caacatcaac 23280

aacagctgcc gccatgggct ccagtgagca ggaactgaaa gccattgtca aagatcttgg 23340

ttgtgggcca tattttttgg gcacctatga caagcgcttt ccaggctttg tttctccaca 23400

caagctcgcc tgcgccatag tcaatacggc cggtcgcgag actgggggcg tacactggat 23460

ggcctttgcc tggaacccgc actcaaaaac atgctacctc tttgagccct ttggcttttc 23520

tgaccagcga ctcaagcagg tttaccagtt tgagtacgag tcactcctgc gccgtagcgc 23580

cattgcttct tcccccgacc gctgtataac gctggaaaag tccacccaaa gcgtacaggg 23640

gcccaactcg gccgcctgtg gactattctg ctgcatgttt ctccacgcct ttgccaactg 23700

gccccaaact cccatggatc acaaccccac catgaacctt attaccgggg tacccaactc 23760

catgctcaac agtccccagg tacagcccac cctgcgtcgc aaccaggaac agctctacag 23820

cttcctggag cgccactcgc cctacttccg cagccacagt gcgcagatta ggagcgccac 23880

ttctttttgt cacttgaaaa acatgtaaaa ataatgtact agagacactt tcaataaagg 23940

caaatgcttt tatttgtaca ctctcgggtg attatttacc cccacccttg ccgtctgcgc 24000

cgtttaaaaa tcaaaggggt tctgccgcgc atcgctatgc gccactggca gggacacgtt 24060

gcgatactgg tgtttagtgc tccacttaaa ctcaggcaca accatccgcg gcagctcggt 24120

gaagttttca ctccacaggc tgcgcaccat caccaacgcg tttagcaggt cgggcgccga 24180

tatcttgaag tcgcagttgg ggcctccgcc ctgcgcgcgc gagttgcgat acacagggtt 24240

gcagcactgg aacactatca gcgccgggtg gtgcacgctg gccagcacgc tcttgtcgga 24300

gatcagatcc gcgtccaggt cctccgcgtt gctcagggcg aacggagtca actttggtag 24360

ctgccttccc aaaaagggcg cgtgcccagg ctttgagttg cactcgcacc gtagtggcat 24420

caaaaggtga ccgtgcccgg tctgggcgtt aggatacagc gcctgcataa aagccttgat 24480

ctgcttaaaa gccacctgag cctttgcgcc ttcagagaag aacatgccgc aagacttgcc 24540

ggaaaactga ttggccggac aggccgcgtc gtgcacgcag caccttgcgt cggtgttgga 24600

gatctgcacc acatttcggc cccaccggtt cttcacgatc ttggccttgc tagactgctc 24660

cttcagcgcg cgctgcccgt tttcgctcgt cacatccatt tcaatcacgt gctccttatt 24720

tatcataatg cttccgtgta gacacttaag ctcgccttcg atctcagcgc agcggtgcag 24780

ccacaacgcg cagcccgtgg gctcgtgatg cttgtaggtc acctctgcaa acgactgcag 24840

gtacgcctgc aggaatcgcc ccatcatcgt cacaaaggtc ttgttgctgg tgaaggtcag 24900

ctgcaacccg cggtgctcct cgttcagcca ggtcttgcat acggccgcca gagcttccac 24960

ttggtcaggc agtagtttga agttcgcctt tagatcgtta tccacgtggt acttgtccat 25020

cagcgcgcgc gcagcctcca tgcccttctc ccacgcagac acgatcggca cactcagcgg 25080

gttcatcacc gtaatttcac tttccgcttc gctgggctct tcctcttcct cttgcgtccg 25140

cataccacgc gccactgggt cgtcttcatt cagccgccgc actgtgcgct tacctccttt 25200

gccatgcttg attagcaccg gtgggttgct gaaacccacc atttgtagcg ccacatcttc 25260

tctttcttcc tcgctgtcca cgattacctc tggtgatggc gggcgctcgg gcttgggaga 25320

agggcgcttc tttttcttct tgggcgcaat ggccaaatcc gccgccgagg tcgatggccg 25380

cgggctgggt gtgcgcggca ccagcgcgtc ttgtgatgag tcttcctcgt cctcggactc 25440

gatacgccgc ctcatccgct tttttggggg cgcccgggga ggcggcggcg acggggacgg 25500

ggacgacacg tcctccatgg ttgggggacg tcgcgccgca ccgcgtccgc gctcgggggt 25560

ggtttcgcgc tgctcctctt cccgactggc catttccttc tcctataggc agaaaaagat 25620

catggagtca gtcgagaaga aggacagcct aaccgccccc tctgagttcg ccaccaccgc 25680

ctccaccgat gccgccaacg cgcctaccac cttccccgtc gaggcacccc cgcttgagga 25740

ggaggaagtg attatcgagc aggacccagg ttttgtaagc gaagacgacg aggaccgctc 25800

agtaccaaca gaggataaaa agcaagacca ggacaacgca gaggcaaacg aggaacaagt 25860

cgggcggggg gacgaaaggc atggcgacta cctagatgtg ggagacgacg tgctgttgaa 25920

gcatctgcag cgccagtgcg ccattatctg cgacgcgttg caagagcgca gcgatgtgcc 25980

cctcgccata gcggatgtca gccttgccta cgaacgccac ctattctcac cgcgcgtacc 26040

ccccaaacgc caagaaaacg gcacatgcga gcccaacccg cgcctcaact tctaccccgt 26100

atttgccgtg ccagaggtgc ttgccaccta tcacatcttt ttccaaaact gcaagatacc 26160

cctatcctgc cgtgccaacc gcagccgagc ggacaagcag ctggccttgc ggcagggcgc 26220

tgtcatacct gatatcgcct cgctcaacga agtgccaaaa atctttgagg gtcttggacg 26280

cgacgagaag cgcgcggcaa acgctctgca acaggaaaac agcgaaaatg aaagtcactc 26340

tggagtgttg gtggaactcg agggtgacaa cgcgcgccta gccgtactaa aacgcagcat 26400

cgaggtcacc cactttgcct acccggcact taacctaccc cccaaggtca tgagcacagt 26460

catgagtgag ctgatcgtgc gccgtgcgca gcccctggag agggatgcaa atttgcaaga 26520

acaaacagag gagggcctac ccgcagttgg cgacgagcag ctagcgcgct ggcttcaaac 26580

gcgcgagcct gccgacttgg aggagcgacg caaactaatg atggccgcag tgctcgttac 26640

cgtggagctt gagtgcatgc agcggttctt tgctgacccg gagatgcagc gcaagctaga 26700

ggaaacattg cactacacct ttcgacaggg ctacgtacgc caggcctgca agatctccaa 26760

cgtggagctc tgcaacctgg tctcctacct tggaattttg cacgaaaacc gccttgggca 26820

aaacgtgctt cattccacgc tcaagggcga ggcgcgccgc gactacgtcc gcgactgcgt 26880

ttacttattt ctatgctaca cctggcagac ggccatgggc gtttggcagc agtgcttgga 26940

ggagtgcaac ctcaaggagc tgcagaaact gctaaagcaa aacttgaagg acctatggac 27000

ggccttcaac gagcgctccg tggccgcgca cctggcggac atcattttcc ccgaacgcct 27060

gcttaaaacc ctgcaacagg gtctgccaga cttcaccagt caaagcatgt tgcagaactt 27120

taggaacttt atcctagagc gctcaggaat cttgcccgcc acctgctgtg cacttcctag 27180

cgactttgtg cccattaagt accgcgaatg ccctccgccg ctttggggcc actgctacct 27240

tctgcagcta gccaactacc ttgcctacca ctctgacata atggaagacg tgagcggtga 27300

cggtctactg gagtgtcact gtcgctgcaa cctatgcacc ccgcaccgct ccctggtttg 27360

caattcgcag ctgcttaacg aaagtcaaat tatcggtacc tttgagctgc agggtccctc 27420

gcctgacgaa aagtccgcgg ctccggggtt gaaactcact ccggggctgt ggacgtcggc 27480

ttaccttcgc aaatttgtac ctgaggacta ccacgcccac gagattaggt tctacgaaga 27540

ccaatcccgc ccgcctaatg cggagcttac cgcctgcgtc attacccagg gccacattct 27600

tggccaattg caagccatca acaaagcccg ccaagagttt ctgctacgaa agggacgggg 27660

ggtttacttg gacccccagt ccggcgagga gctcaaccca atccccccgc cgccgcagcc 27720

ctatcagcag cagccgcggg cccttgcttc ccaggatggc acccaaaaag aagctgcagc 27780

tgccgccgcc acccacggac gaggaggaat actgggacag tcaggcagag gaggttttgg 27840

acgaggagga ggaggacatg atggaagact gggagagcct agacgaggaa gcttccgagg 27900

tcgaagaggt gtcagacgaa acaccgtcac cctcggtcgc attcccctcg ccggcgcccc 27960

agaaatcggc aaccggttcc agcatggcta caacctccgc tcctcaggcg ccgccggcac 28020

tgcccgttcg ccgacccaac cgtagatggg acaccactgg aaccagggcc ggtaagtcca 28080

agcagccgcc gccgttagcc caagagcaac aacagcgcca aggctaccgc tcatggcgcg 28140

ggcacaagaa cgccatagtt gcttgcttgc aagactgtgg gggcaacatc tccttcgccc 28200

gccgctttct tctctaccat cacggcgtgg ccttcccccg taacatcctg cattactacc 28260

gtcatctcta cagcccatac tgcaccggcg gcagcggcag caacagcagc ggccacacag 28320

aagcaaaggc gaccggatag caagactctg acaaagccca agaaatccac agcggcggca 28380

gcagcaggag gaggagcgct gcgtctggcg cccaacgaac ccgtatcgac ccgcgagctt 28440

agaaacagga tttttcccac tctgtatgct atatttcaac agagcagggg ccaagaacaa 28500

gagctgaaaa taaaaaacag gtctctgcga tccctcaccc gcagctgcct gtatcacaaa 28560

agcgaagatc agcttcggcg cacgctggaa gacgcggagg ctctcttcag taaatactgc 28620

gcgctgactc ttaaggacta gtttcgcgcc ctttctcaaa tttaagcgcg aaaactacgt 28680

catctccagc ggccacaccc ggcgccagca cctgttgtca gcgccattat gagcaaggaa 28740

attcccacgc cctacatgtg gagttaccag ccacaaatgg gacttgcggc tggagctgcc 28800

caagactact caacccgaat aaactacatg agcgcgggac cccacatgat atcccgggtc 28860

aacggaatac gcgcccaccg aaaccgaatt ctcctggaac aggcggctat taccaccaca 28920

cctcgtaata accttaatcc ccgtagttgg cccgctgccc tggtgtacca ggaaagtccc 28980

gctcccacca ctgtggtact tcccagagac gcccaggccg aagttcagat gactaactca 29040

ggggcgcagc ttgcgggcgg ctttcgtcac agggtgcggt cgcccgggca gggtataact 29100

cacctgacaa tcagagggcg aggtattcag ctcaacgacg agtcggtgag ctcctcgctt 29160

ggtctccgtc cggacgggac atttcagatc ggcggcgccg gccgctcttc attcacgcct 29220

cgtcaggcaa tcctaactct gcagacctcg tcctctgagc cgcgctctgg aggcattgga 29280

actctgcaat ttattgagga gtttgtgcca tcggtctact ttaacccctt ctcgggacct 29340

cccggccact atccggatca atttattcct aactttgacg cggtaaagga ctcggcggac 29400

ggctacgact gaatgttaag tggagaggca gagcaactgc gcctgaaaca cctggtccac 29460

tgtcgccgcc acaagtgctt tgcccgcgac tccggtgagt tttgctactt tgaattgccc 29520

gaggatcata tcgagggccc ggcgcacggc gtccggctta ccgcccaggg agagcttgcc 29580

cgtagcctga ttcgggagtt tacccagcgc cccctgctag ttgagcggga caggggaccc 29640

tgtgttctca ctgtgatttg caactgtcct aaccctggat tacatcaaga tcttattccc 29700

tttaactaat aaaaaaaaat aataaagcat cacttactta aaatcagtta gcaaatttct 29760

gtccagttta ttcagcagca cctccttgcc ctcctcccag ctctggtatt gcagcttcct 29820

cctggctgca aactttctcc acaatctaaa tggaatgtca gtttcctcct gttcctgtcc 29880

atccgcaccc actatcttca tgttgttgca gatgaagcgc gcaagaccgt ctgaagatac 29940

cttcaacccc gtgtatccat atgacacgga aaccggtcct ccaactgtgc cttttcttac 30000

tcctcccttt gtatccccca atgggtttca agagagtccc cctggggtac tctctttgcg 30060

cctatccgaa cctctagtta cctccaatgg catgcttgcg ctcaaaatgg gcaacggcct 30120

ctctctggac gaggccggca accttacctc ccaaaatgta accactgtga gcccacctct 30180

caaaaaaacc aagtcaaaca taaacctgga aatatctgca cccctcacag ttacctcaga 30240

agccctaact gtggctgccg ccgcacctct aatggtcgcg ggcaacacac tcaccatgca 30300

atcacaggcc ccgctaaccg tgcacgactc caaacttagc attgccaccc aaggacccct 30360

cacagtgtca gaaggaaagc tagccctgca aacatcaggc cccctcacca ccaccgatag 30420

cagtaccctt actatcactg cctcaccccc tctaactact gccactggta gcttgggcat 30480

tgacttgaaa gagcccattt atacacaaaa tggaaaacta ggactaaagt acggggctcc 30540

tttgcatgta acagacgacc taaacacttt gaccgtagca actggtccag gtgtgactat 30600

taataatact tccttgcaaa ctaaagttac tggagccttg ggttttgatt cacaaggcaa 30660

tatgcaactt aatgtagcag gaggactaag gattgattct caaaacagac gccttatact 30720

tgatgttagt tatccgtttg atgctcaaaa ccaactaaat ctaagactag gacagggccc 30780

tctttttata aactcagccc acaacttgga tattaactac aacaaaggcc tttacttgtt 30840

tacagcttca aacaattcca aaaagcttga ggttaaccta agcactgcca aggggttgat 30900

gtttgacgct acagccatag ccattaatgc aggagatggg cttgaatttg gttcacctaa 30960

tgcaccaaac acaaatcccc tcaaaacaaa aattggccat ggcctagaat ttgattcaaa 31020

caaggctatg gttcctaaac taggaactgg ccttagtttt gacagcacag gtgccattac 31080

agtaggaaac aaaaataatg ataagctaac tttgtggacc acaccagctc catctcctaa 31140

ctgtagacta aatgcagaga aagatgctaa actcactttg gtcttaacaa aatgtggcag 31200

tcaaatactt gctacagttt cagttttggc tgttaaaggc agtttggctc caatatctgg 31260

aacagttcaa agtgctcatc ttattataag atttgacgaa aatggagtgc tactaaacaa 31320

ttccttcctg gacccagaat attggaactt tagaaatgga gatcttactg aaggcacagc 31380

ctatacaaac gctgttggat ttatgcctaa cctatcagct tatccaaaat ctcacggtaa 31440

aactgccaaa agtaacattg tcagtcaagt ttacttaaac ggagacaaaa ctaaacctgt 31500

aacactaacc attacactaa acggtacaca ggaaacagga gacacaactc caagtgcata 31560

ctctatgtca ttttcatggg actggtctgg ccacaactac attaatgaaa tatttgccac 31620

atcctcttac actttttcat acattgccca agaataaaga atcgtttgtg ttatgtttca 31680

acgtgtttat ttttcaattg cagaaaattt caagtcattt ttcattcagt agtatagccc 31740

caccaccaca tagcttatac agatcaccgt accttaatca aactcacaga accctagtat 31800

tcaacctgcc acctccctcc caacacacag agtacacagt cctttctccc cggctggcct 31860

taaaaagcat catatcatgg gtaacagaca tattcttagg tgttatattc cacacggttt 31920

cctgtcgagc caaacgctca tcagtgatat taataaactc cccgggcagc tcacttaagt 31980

tcatgtcgct gtccagctgc tgagccacag gctgctgtcc aacttgcggt tgcttaacgg 32040

gcggcgaagg agaagtccac gcctacatgg gggtagagtc ataatcgtgc atcaggatag 32100

ggcggtggtg ctgcagcagc gcgcgaataa actgctgccg ccgccgctcc gtcctgcagg 32160

aatacaacat ggcagtggtc tcctcagcga tgattcgcac cgcccgcagc ataaggcgcc 32220

ttgtcctccg ggcacagcag cgcaccctga tctcacttaa atcagcacag taactgcagc 32280

acagcaccac aatattgttc aaaatcccac agtgcaaggc gctgtatcca aagctcatgg 32340

cggggaccac agaacccacg tggccatcat accacaagcg caggtagatt aagtggcgac 32400

ccctcataaa cacgctggac ataaacatta cctcttttgg catgttgtaa ttcaccacct 32460

cccggtacca tataaacctc tgattaaaca tggcgccatc caccaccatc ctaaaccagc 32520

tggccaaaac ctgcccgccg gctatacact gcagggaacc gggactggaa caatgacagt 32580

ggagagccca ggactcgtaa ccatggatca tcatgctcgt catgatatca atgttggcac 32640

aacacaggca cacgtgcata cacttcctca ggattacaag ctcctcccgc gttagaacca 32700

tatcccaggg aacaacccat tcctgaatca gcgtaaatcc cacactgcag ggaagacctc 32760

gcacgtaact cacgttgtgc attgtcaaag tgttacattc gggcagcagc ggatgatcct 32820

ccagtatggt agcgcgggtt tctgtctcaa aaggaggtag acgatcccta ctgtacggag 32880

tgcgccgaga caaccgagat cgtgttggtc gtagtgtcat gccaaatgga acgccggacg 32940

tagtcatatt tcctgaagca aaaccaggtg cgggcgtgac aaacagatct gcgtctccgg 33000

tctcgccgct tagatcgctc tgtgtagtag ttgtagtata tccactctct caaagcatcc 33060

aggcgccccc tggcttcggg ttctatgtaa actccttcat gcgccgctgc cctgataaca 33120

tccaccaccg cagaataagc cacacccagc caacctacac attcgttctg cgagtcacac 33180

acgggaggag cgggaagagc tggaagaacc atgttttttt ttttattcca aaagattatc 33240

caaaacctca aaatgaagat ctattaagtg aacgcgctcc cctccggtgg cgtggtcaaa 33300

ctctacagcc aaagaacaga taatggcatt tgtaagatgt tgcacaatgg cttccaaaag 33360

gcaaacggcc ctcacgtcca agtggacgta aaggctaaac ccttcagggt gaatctcctc 33420

tataaacatt ccagcacctt caaccatgcc caaataattc tcatctcgcc accttctcaa 33480

tatatctcta agcaaatccc gaatattaag tccggccatt gtaaaaatct gctccagagc 33540

gccctccacc ttcagcctca agcagcgaat catgattgca aaaattcagg ttcctcacag 33600

acctgtataa gattcaaaag cggaacatta acaaaaatac cgcgatcccg taggtccctt 33660

cgcagggcca gctgaacata atcgtgcagg tctgcacgga ccagcgcggc cacttccccg 33720

ccaggaacca tgacaaaaga acccacactg attatgacac gcatactcgg agctatgcta 33780

accagcgtag ccccgatgta agcttgttgc atgggcggcg atataaaatg caaggtgctg 33840

ctcaaaaaat caggcaaagc ctcgcgcaaa aaagaaagca catcgtagtc atgctcatgc 33900

agataaaggc aggtaagctc cggaaccacc acagaaaaag acaccatttt tctctcaaac 33960

atgtctgcgg gtttctgcat aaacacaaaa taaaataaca aaaaaacatt taaacattag 34020

aagcctgtct tacaacagga aaaacaaccc ttataagcat aagacggact acggccatgc 34080

cggcgtgacc gtaaaaaaac tggtcaccgt gattaaaaag caccaccgac agctcctcgg 34140

tcatgtccgg agtcataatg taagactcgg taaacacatc aggttgattc acatcggtca 34200

gtgctaaaaa gcgaccgaaa tagcccgggg gaatacatac ccgcaggcgt agagacaaca 34260

ttacagcccc cataggaggt ataacaaaat taataggaga gaaaaacaca taaacacctg 34320

aaaaaccctc ctgcctaggc aaaatagcac cctcccgctc cagaacaaca tacagcgctt 34380

ccacagcggc agccataaca gtcagcctta ccagtaaaaa agaaaaccta ttaaaaaaac 34440

accactcgac acggcaccag ctcaatcagt cacagtgtaa aaaagggcca agtgcagagc 34500

gagtatatat aggactaaaa aatgacgtaa cggttaaagt ccacaaaaaa cacccagaaa 34560

accgcacgcg aacctacgcc cagaaacgaa agccaaaaaa cccacaactt cctcaaatcg 34620

tcacttccgt tttcccacgt tacgtcactt cccattttaa gaaaactaca attcccaaca 34680

catacaagtt actccgccct aaaacctacg tcacccgccc cgttcccacg ccccgcgcca 34740

cgtcacaaac tccaccccct cattatcata ttggcttcaa tccaaaataa ggtatattat 34800

tgatgatg 34808

<210> 7

<211> 34742

<212> DNA

<213> Recombinant human adenovirus serotype 5 (Recombinant human adenovirus serotype 5)

<400> 7

ccatcttcaa taatatacct caaacttttt tgtgcgcgtt aatatgcaaa tgaggcgttt 60

gaatttgggg aggaagggcg gtgattggtc gagggatgag cgaccgttag gggcggggcg 120

agtgacgttt tgatgacgtg gttgcgagga ggagccagtt tgcaagttct cgtgggaaaa 180

gtgacgtcaa acgaggtgtg gtttgaacac ggaaatactc aattttcccg cgctctctga 240

caggaaatga ggtgtttctg ggcggatgca agtgaaaacg ggccattttc gcgcgaaaac 300

tgaatgagga agtgaaaatc tgagtaattt cgcgtttatg gcagggagga gtatttgccg 360

agggccgagt agactttgac cgattacgtg ggggtttcga ttaccgtgtt tttcacctaa 420

atttccgcgt acggtgtcaa agtccggtgt ttttacgtag gtgtcagctg atcgccaggg 480

tatttaaacc tgcgctctcc agtcaagagg ccactcttga gtgccagcga gaagagttgc 540

gatgcatgcg cgttgtcaaa tatgagctca caatgcttcc atcaaacgag ttggtgctca 600

tggcggcggc ggctgctgca aaacagatac aaaactacat aagaccccca ccttatatat 660

tctttcccac ccttaaccac gcccagatcc gcgttaagat acattgatga gtttggacaa 720

accacaacta gaatgcagtg aaaaaaatgc tttatttgtg aaatttgtga tgctattgct 780

ttatttgtaa ccattataag ctgcaataaa caagttaaca acaacaattg cattcatttt 840

atgtttcagg ttcaggggga ggtgtgggag gttttttaaa gcaagtaaaa cctctacaaa 900

tgtggtatgg ctgattatga tcagttatct agactcgagc ggccgcgata tcttatgtgt 960

aatgtaattt gactcctttg agcacgggct cagaatcgtc ctcgtcgaac ttgcagcagc 1020

tgccacagct acaacagccc ttcaggcagc tacagcagct ggtcatgcaa cacagcatga 1080

ttgtgaccat cacgatggca atcagtccgg cgataaagcc cagccagatg taccagggcc 1140

acttgatgta ctgctcgtac ttccccagtt cttgcaggtc gatcaggctc tcgttcagat 1200

tcttggccac ctcgttcagc cggtcgatct ctttctggat gttcacgacg ctggcattga 1260

ttccgctgat gtcgcccagg tccacgtcgg ggcttgtgtg gttcttaaag tacttatcca 1320

gttcctcttt gaagctgtcc agctcgggct gcagagggtc gtacacggta ttgttcacaa 1380

tgccgatcac gacgtcgcag ttgccagaca cgaaggtgtt gtcggtggtg atgatctggg 1440

gctcgtagaa gttccgctgg gtcacgaacc aatgggtgcc gttggacacg aacacgcctt 1500

ctctaggaaa gtgggctttg ccgtcgtggc agatggctgg agcggtggtg aaattcttct 1560

cttgagcggg cacgtatgtc acgtgcagaa acaccacgcc gtgaggggca gactgaggga 1620

agctcatcag gtggtagccc ttgccgcaaa agtccactct cttgctctgg cccagcacac 1680

actcagacat cttggtggcg gccagattgg cagaggctct aatctcggcg gctctgatca 1740

gctgctgggt aacgtaggtc tgcagggact gcagccttcc ggtgatcagt ctgtcgatct 1800

gcacctcggc ttccaccttg tccagtctgc tcaggatgtc gttcagcaca gagctgatgg 1860

cgccgaagtt ggaggacagc tgcttgacca gggtgttcag tgcctgggca ttctggttga 1920

ccacgtcctg cagctttccc agggcgcttg ctgtgctgct caggctgtcc tggatcttgc 1980

cgatggcgct gttgaactgg ttggcgatca gcttctggtt ctcgtacagc acattctggg 2040

tcactccgat gccgttgaac cggtaggcca tctgcatagc aaaggggatc tgcagagcgg 2100

cgccagctcc aaatgtccag ccgcttgtga ttgtgccggc cagcagggca gatgtgtact 2160

gggcgatcat ctcatcggtc agcagtggtg gcagcactgt cagtccgtta aacttctggg 2220

cgcaaatcag atccctggcg gcaatgtcgc ccagacaatc gccatactgc ttgatgaagc 2280

cggcgtcggc cagtgtcact ttgttgaaca gcaggtcctc gatgaagctc cgcttgctgg 2340

gcttgctagg atcgggcaga atctggctga aattgaagcc gccgaagtcc ttgataggag 2400

gggtcttgta gatctgcttc acttgggcga acacctcttg ggtgttcttg tcctgttcca 2460

cggcgatccc tgtcagggct ctattcagct gggtgcagaa gctgccgtac tgcagcagca 2520

ggttggagca ctcggtggaa tcgccgcaga tgtacatggt gcagtccacg ctggtcttgg 2580

tcatggacac aggcaggatc tctgtggtca cgctgatggt gaagttggtg gggatagcga 2640

tagagttgtt ggagtaggcc acgctgttct cggcgcccag agacattgtg taggcaatga 2700

tgctctggct ggccacagat ctggcccgtc tggggctgtt tgtctgtgtc tggtagctgg 2760

cacagatgcc agcgccgatg gggatgtcgc actcgtagct attgttcacg tgctcggctc 2820

cgatcagaca gccggctctg gtctgaaaca cattgctgcc ggtggagtac acccgccatg 2880

taggtgtcag ctgatcggcg tgaatggcca cgggcacttc ggtacagttc acgtcctggt 2940

acagcactgc cacctgattg ctggtgttgg tgccaggggt gatcacagac actccgccga 3000

agctgcaagg ggtgatgtcc aggatttcca gtgtctgggg atctcgtacg gcgtctgtgg 3060

tatcggcaat atcccggcca aactgctgga atggcaggaa cttcttgttg ctctctgtca 3120

gcacgccggt gccggtcagg ccgttgaagt tgaagttcac gcatttgttc ttcacgagat 3180

tggtgctttt cttagggccg cacactgtgg caggggcatg cagcagttcg aagctcagca 3240

ccaccactct gtagggctga tagcccacgc catttgtggg ctgaaagccg taggactgca 3300

gtgggaagta gcagttgaag ccttccacgc cgttacaagg ggtgctgccg gcctgataga 3360

tctcggtgga gatgtcccgc tcgaagggct tcagattgga cttccggaac agccggtaca 3420

ggtaattgta gttgccgccg actttggagt ccaggttgtt gctgttccag gcaatcacac 3480

agccggtgaa gtcgtcgggc agcttgtagt tgtagtcggc gatcttgcct gtctgtccag 3540

gggcaatctg ccgcacttca tctccccgga tcacgaagct gtcggcgtac acgtttgtga 3600

agcacaggtc gttcagcttg gtaggggaca cgccgtagca cttgaaggtg ctgaagctgg 3660

cggagttgta cagcacggag tagtcggcca cgcaattgct gatccgcttc cggttccagg 3720

cgtacacaga ggcgaatctg gtggcattga acacctcgcc gaaggggcac agattggtga 3780

tattggggaa ccgcacgatg gattcggtgg gctgcacccg gaagttgctg gtctggtaga 3840

tgcccttttc cacggtgaag gacttcaggg tgcactttgt ctcgctcaga ggatccagag 3900

cacaatccac ggcgtcggtg atggtgccgt tctcgttgta cttcagcagg aaggttctag 3960

gctgcaggta gcccacatag taagcggcgg caccagctgt ccatccgctg ctgctatcgc 4020

caggtgtcag gtagcttctg tgcagggcca gcagtgtctg aaaccgggtg atgttgatgc 4080

cgatgggcag atccaccagg ggttccagag cagagaagcc ctgaggcaga tcccgcacga 4140

ggttgatagg ggtgtgcttg ctgtagatct tgaagtagcc gtcgatgttc ttgaacacga 4200

actcgcgcag gttcttgaag ttgccctgct tgccttccag gtccatcagg aaaggctggg 4260

acacgtactc gaaggtgcag ttgttggcgc tgctgtacac ccggaactcg ctttccatcc 4320

agctcttgtt gttcttgtga tagtagacgc ccaggaaggg gtcgttgcag aactggaact 4380

cgcacacttt gatgaccacg ttggtggcgt tgttcacgat cagcaggctc tgggtcttgc 4440

tgtccagtgt ggtgccgaag atccagcctc tgatgatgtt ggacttctcg gtgctggcaa 4500

agtacacccc gtcgttgaag ggcagcacgg ggttgtcgaa tctcttggtg ccattggtgc 4560

cggacacgtg gatggcgtgg aaccaggtca cgttgctgaa gaaaggcagg aacaggtcct 4620

gggtagagtg cagcacgctg gatctgaaca ccttgtcggg gtagtacacg cctctggtaa 4680

agctgttggt gtaggctgga ggcagctggg ttcttgtggt caggttcaca cactgactag 4740

agactagtgg caataacaca aggaacacaa acatggtacc agatctctag cggatctgac 4800

ggttcactaa accagctctg cttatataga cctcccaccg tacacgccta ccgcccattt 4860

gcgtcaatgg ggcggagttg ttacgacatt ttggaaagtc ccgttgattt tggtgccaaa 4920

acaaactccc attgacgtca atggggtgga gacttggaaa tccccgtgag tcaaaccgct 4980

atccacgccc attgatgtac tgccaaaacc gcatcaccat ggtaatagcg atgactaata 5040

cgtagatgta ctgccaagta ggaaagtccc ataaggtcat gtactgggca taatgccagg 5100

cgggccattt accgtcattg acgtcaatag ggggcgtact tggcatatga tacacttgat 5160

gtactgccaa gtgggcagtt taccgtaaat actccaccca ttgacgtcaa tggaaagtcc 5220

ctattggcgt tactatggga acatacgtca ttattgacgt caatgggcgg gggtcgttgg 5280

gcggtcagcc aggcgggcca tttaccgtaa gttatgtaac gcggaactcc atatatgggc 5340

tatgaactaa tgaccccgta attgattact attacagtat tacgcgctat gagtaacaca 5400

aaattattca gatttcactt cctcttattc agttttcccg cgaaaatggc caaatcttac 5460

tcggttacgc ccaaatttac tacaacatcc gcctaaaacc gcgcgaaaat tgtcacttcc 5520

tgtgtacacc ggcgcgctga gtagtgttct ggggcggggg aggacctgca tgagggccag 5580

aataactgaa atctgtgctt ttctgtgtgt tgcagcagca tgagcggaag cggctccttt 5640

gagggagggg tattcagccc ttatctgacg gggcgtctcc cctcctgggc gggagtgcgt 5700

cagaatgtga tgggatccac ggtggacggc cggcccgtgc agcccgcgaa ctcttcaacc 5760

ctgacctatg caaccctgag ctcttcgtcg ttggacgcag ctgccgccgc agctgctgca 5820

tctgccgcca gcgccgtgcg cggaatggcc atgggcgccg gctactacgg cactctggtg 5880

gccaactcga gttccaccaa taatcccgcc agcctgaacg aggagaagct gttgctgctg 5940

atggcccagc tcgaggcctt gacccagcgc ctgggcgagc tgacccagca ggtggctcag 6000

ctgcaggagc agacgcgggc cgcggttgcc acggtgaaat ccaaataaaa aatgaatcaa 6060

taaataaacg gagacggttg ttgattttaa cacagagtct gaatctttat ttgatttttc 6120

gcgcgcggta ggccctggac caccggtctc gatcattgag cacccggtgg atcttttcca 6180

ggacccggta gaggtgggct tggatgttga ggtacatggg catgagcccg tcccgggggt 6240

ggaggtagct ccattgcagg gcctcgtgct cgggggtggt gttgtaaatc acccagtcat 6300

agcaggggcg cagggcatgg tgttgcacaa tatctttgag gaggagactg atggccacgg 6360

gcagcccttt ggtgtaggtg tttacaaatc tgttgagctg ggagggatgc atgcgggggg 6420

agatgaggtg catcttggcc tggatcttga gattggcgat gttaccgccc agatcccgcc 6480

tggggttcat gttgtgcagg accaccagca cggtgtatcc ggtgcacttg gggaatttat 6540

catgcaactt ggaagggaag gcgtgaaaga atttggcgac gcctttgtgc ccgcccaggt 6600

tttccatgca ctcatccatg atgatggcga tgggcccgtg ggcggcggcc tgggcaaaga 6660

cgtttcgggg gtcggacaca tcatagttgt ggtcctgggt gaggtcatca taggccattt 6720

taatgaattt ggggcggagg gtgccggact gggggacaaa ggtaccctcg atcccggggg 6780

cgtagttccc ctcacagatc tgcatctccc aggctttgag ctcggagggg gggatcatgt 6840

ccacctgcgg ggcgataaag aacacggttt ccggggcggg ggagatgagc tgggccgaaa 6900

gcaagttccg gagcagctgg gacttgccgc agccggtggg gccgtagatg accccgatga 6960

ccggctgcag gtggtagttg agggagagac agctgccgtc ctcccggagg aggggggcca 7020

cctcgttcat catctcgcgc acgtgcatgt tctcgcgcac cagttccgcc aggaggcgct 7080

ctccccccag ggataggagc tcctggagcg aggcgaagtt tttcagcggc ttgagtccgt 7140

cggccatggg cattttggag agggtttgtt gcaagagttc caggcggtcc cagagctcgg 7200

tgatgtgctc tacggcatct cgatccagca gacctcctcg tttcgcgggt tgggacggct 7260

gcgggagtag ggcaccagac gatgggcgtc cagcgcagcc agggtccggt ccttccaggg 7320

tcgcagcgtc cgcgtcaggg tggtctccgt cacggtgaag gggtgcgcgc cgggctgggc 7380

gcttgcgagg gtgcgcttca ggctcatccg gctggtcgaa aaccgctccc gatcggcgcc 7440

ctgcgcgtcg gccaggtagc aattgaccat gagttcgtag ttgagcgcct cggccgcgtg 7500

gcctttggcg cggagcttac ctttggaagt ctgcccgcag gcgggacaga ggagggactt 7560

gagggcgtag agcttggggg cgaggaagac ggactcgggg gcgtaggcgt ccgcgccgca 7620

gtgggcgcag acggtctcgc actccacgag ccaggtgagg tcgggctggt cggggtcaaa 7680

aaccagtttc ccgccgttct ttttgatgcg tttcttacct ttggtctcca tgagctcgtg 7740

tccccgctgg gtgacaaaga ggctgtccgt gtccccgtag accgacttta tgggccggtc 7800

ctcgagcggt gtgccgcggt cctcctcgta gaggaacccc gcccactccg agacgaaagc 7860

ccgggtccag gccagcacga aggaggccac gtgggacggg tagcggtcgt tgtccaccag 7920

cgggtccacc ttttccaggg tatgcaaaca catgtccccc tcgtccacat ccaggaaggt 7980

gattggcttg taagtgtagg ccacgtgacc gggggtcccg gccggggggg tataaaaggg 8040

tgcgggtccc tgctcgtcct cactgtcttc cggatcgctg tccaggagcg ccagctgttg 8100

gggtaggtat tccctctcga aggcgggcat gacctcggca ctcaggttgt cagtttctag 8160

aaacgaggag gatttgatat tgacggtgcc ggcggagatg cctttcaaga gcccctcgtc 8220

catctggtca gaaaagacga tctttttgtt gtcgagcttg gtggcgaagg agccgtagag 8280

ggcgttggag aggagcttgg cgatggagcg catggtctgg tttttttcct tgtcggcgcg 8340

ctccttggcg gcgatgttga gctgcacgta ctcgcgcgcc acgcacttcc attcggggaa 8400

gacggtggtc agctcgtcgg gcacgattct gacctgccag ccccgattat gcagggtgat 8460

gaggtccaca ctggtggcca cctcgccgcg caggggctca ttagtccagc agaggcgtcc 8520

gcccttgcgc gagcagaagg ggggcagggg gtccagcatg acctcgtcgg gggggtcggc 8580

atcgatggtg aagatgccgg gcaggaggtc ggggtcaaag tagctgatgg aagtggccag 8640

atcgtccagg gcagcttgcc attcgcgcac ggccagcgcg cgctcgtagg gactgagggg 8700

cgtgccccag ggcatgggat gggtaagcgc ggaggcgtac atgccgcaga tgtcgtagac 8760

gtagaggggc tcctcgagga tgccgatgta ggtggggtag cagcgccccc cgcggatgct 8820

ggcgcgcacg tagtcataca gctcgtgcga gggggcgagg agccccgggc ccaggttggt 8880

gcgactgggc ttttcggcgc ggtagacgat ctggcggaaa atggcatgcg agttggagga 8940

gatggtgggc ctttggaaga tgttgaagtg ggcgtggggc agtccgaccg agtcgcggat 9000

gaagtgggcg taggagtctt gcagcttggc gacgagctcg gcggtgacta ggacgtccag 9060

agcgcagtag tcgagggtct cctggatgat gtcatacttg agctgtccct tttgtttcca 9120

cagctcgcgg ttgagaagga actcttcgcg gtccttccag tactcttcga gggggaaccc 9180

gtcctgatct gcacggtaag agcctagcat gtagaactgg ttgacggcct tgtaggcgca 9240

gcagcccttc tccacgggga gggcgtaggc ctgggcggcc ttgcgcaggg aggtgtgcgt 9300

gagggcgaaa gtgtccctga ccatgacctt gaggaactgg tgcttgaagt cgatatcgtc 9360

gcagcccccc tgctcccaga gctggaagtc cgtgcgcttc ttgtaggcgg ggttgggcaa 9420

agcgaaagta acatcgttga agaggatctt gcccgcgcgg ggcataaagt tgcgagtgat 9480

gcggaaaggt tggggcacct cggcccggtt gttgatgacc tgggcggcga gcacgatctc 9540

gtcgaagccg ttgatgttgt ggcccacgat gtagagttcc acgaatcgcg gacggccctt 9600

gacgtggggc agtttcttga gctcctcgta ggtgagctcg tcggggtcgc tgagcccgtg 9660

ctgctcgagc gcccagtcgg cgagatgggg gttggcgcgg aggaaggaag tccagagatc 9720

cacggccagg gcggtttgca gacggtcccg gtactgacgg aactgctgcc cgacggccat 9780

tttttcgggg gtgacgcagt agaaggtgcg ggggtccccg tgccagcgat cccatttgag 9840

ctggagggcg agatcgaggg cgagctcgac gagccggtcg tccccggaga gtttcatgac 9900

cagcatgaag gggacgagct gcttgccgaa ggaccccatc caggtgtagg tttccacatc 9960

gtaggtgagg aagagccttt cggtgcgagg atgcgagccg atggggaaga actggatctc 10020

ctgccaccaa ttggaggaat ggctgttgat gtgatggaag tagaaatgcc gacggcgcgc 10080

cgaacactcg tgcttgtgtt tatacaagcg gccacagtgc tcgcaacgct gcacgggatg 10140

cacgtgctgc acgagctgta cctgagttcc tttgacgagg aatttcagtg ggaagtggag 10200

tcgtggcgcc tgcatctcgt gctgtactac gtcgtggtgg tcggcctggc cctcttctgc 10260

ctcgatggtg gtcatgctga cgagcccgcg cgggaggcag gtccagacct cggcgcgagc 10320

gggtcggaga gcgaggacga gggcgcgcag gccggagctg tccagggtcc tgagacgctg 10380

cggagtcagg tcagtgggca gcggcggcgc gcggttgact tgcaggagtt tttccagggc 10440

gcgcgggagg tccagatggt acttgatctc caccgcgcca ttggtggcga cgtcgatggc 10500

ttgcagggtc ccgtgcccct ggggtgtgac caccgtcccc cgtttcttct tgggcggctg 10560

gggcgacggg ggcggtgcct cttccatggt tagaagcggc ggcgaggacg cgcgccgggc 10620

ggcaggggcg gctcggggcc cggaggcagg ggcggcaggg gcacgtcggc gccgcgcgcg 10680

ggtaggttct ggtactgcgc ccggagaaga ctggcgtgag cgacgacgcg acggttgacg 10740

tcctggatct gacgcctctg ggtgaaggcc acgggacccg tgagtttgaa cctgaaagag 10800

agttcgacag aatcaatctc ggtatcgttg acggcggcct gccgcaggat ctcttgcacg 10860

tcgcccgagt tgtcctggta ggcgatctcg gtcatgaact gctcgatctc ctcctcttga 10920

aggtctccgc ggccggcgcg ctccacggtg gccgcgaggt cgttggagat gcggcccatg 10980

agctgcgaga aggcgttcat gcccgcctcg ttccagacgc ggctgtagac cacgacgccc 11040

tcgggatcgc cggcgcgcat gaccacctgg gcgaggttga gctccacgtg gcgcgtgaag 11100

accgcgtagt tgcagaggcg ctggtagagg tagttgagcg tggtggcgat gtgctcggtg 11160

acgaagaaat acatgatcca gcggcggagc ggcatctcgc tgacgtcgcc cagcgcctcc 11220

aaacgttcca tggcctcgta aaagtccacg gcgaagttga aaaactggga gttgcgcgcc 11280

gagacggtca actcctcctc cagaagacgg atgagctcgg cgatggtggc gcgcacctcg 11340

cgctcgaagg cccccgggag ttcctccact tcctcttctt cctcctccac taacatctct 11400

tctacttcct cctcaggcgg cagtggtggc gggggagggg gcctgcgtcg ccggcggcgc 11460

acgggcagac ggtcgatgaa gcgctcgatg gtctcgccgc gccggcgtcg catggtctcg 11520

gtgacggcgc gcccgtcctc gcggggccgc agcgtgaaga cgccgccgcg catctccagg 11580

tggccggggg ggtccccgtt gggcagggag agggcgctga cgatgcatct tatcaattgc 11640

cccgtaggga ctccgcgcaa ggacctgagc gtctcgagat ccacgggatc tgaaaaccgc 11700

tgaacgaagg cttcgagcca gtcgcagtcg caaggtaggc tgagcacggt ttcttctggc 11760

gggtcatgtt ggttgggagc ggggcgggcg atgctgctgg tgatgaagtt gaaataggcg 11820

gttctgagac ggcggatggt ggcgaggagc accaggtctt tgggcccggc ttgctggatg 11880

cgcagacggt cggccatgcc ccaggcgtgg tcctgacacc tggccaggtc cttgtagtag 11940

tcctgcatga gccgctccac gggcacctcc tcctcgcccg cgcggccgtg catgcgcgtg 12000

agcccgaagc cgcgctgggg ctggacgagc gccaggtcgg cgacgacgcg ctcggcgagg 12060

atggcttgct ggatctgggt gagggtggtc tggaagtcat caaagtcgac gaagcggtgg 12120

taggctccgg tgttgatggt gtaggagcag ttggccatga cggaccagtt gacggtctgg 12180

tggcccggac gcacgagctc gtggtacttg aggcgcgagt aggcgcgcgt gtcgaagatg 12240

tagtcgttgc aggtgcgcac caggtactgg tagccgatga ggaagtgcgg cggcggctgg 12300

cggtagagcg gccatcgctc ggtggcgggg gcgccgggcg cgaggtcctc gagcatggtg 12360

cggtggtagc cgtagatgta cctggacatc caggtgatgc cggcggcggt ggtggaggcg 12420

cgcgggaact cgcggacgcg gttccagatg ttgcgcagcg gcaggaagta gttcatggtg 12480

ggcacggtct ggcccgtgag gcgcgcgcag tcgtggatgc tctatacggg caaaaacgaa 12540

agcggtcagc ggctcgactc cgtggcctgg aggctaagcg aacgggttgg gctgcgcgtg 12600

taccccggtt cgaatctcga atcaggctgg agccgcagct aacgtggtat tggcactccc 12660

gtctcgaccc aagcctgcac caaccctcca ggatacggag gcgggtcgtt ttgcaacttt 12720

tttttggagg ccggatgaga ctagtaagcg cggaaagcgg ccgaccgcga tggctcgctg 12780

ccgtagtctg gagaagaatc gccagggttg cgttgcggtg tgccccggtt cgaggccggc 12840

cggattccgc ggctaacgag ggcgtggctg ccccgtcgtt tccaagaccc catagccagc 12900

cgacttctcc agttacggag cgagcccctc ttttgttttg tttgtttttg ccagatgcat 12960

cccgtactgc ggcagatgcg cccccaccac cctccaccgc aacaacagcc ccctccacag 13020

ccggcgcttc tgcccccgcc ccagcagcaa cttccagcca cgaccgccgc ggccgccgtg 13080

agcggggctg gacagagtta tgatcaccag ctggccttgg aagagggcga ggggctggcg 13140

cgcctggggg cgtcgtcgcc ggagcggcac ccgcgcgtgc agatgaaaag ggacgctcgc 13200

gaggcctacg tgcccaagca gaacctgttc agagacagga gcggcgagga gcccgaggag 13260

atgcgcgcgg cccggttcca cgcggggcgg gagctgcggc gcggcctgga ccgaaagagg 13320

gtgctgaggg acgaggattt cgaggcggac gagctgacgg ggatcagccc cgcgcgcgcg 13380

cacgtggccg cggccaacct ggtcacggcg tacgagcaga ccgtgaagga ggagagcaac 13440

ttccaaaaat ccttcaacaa ccacgtgcgc accctgatcg cgcgcgagga ggtgaccctg 13500

ggcctgatgc acctgtggga cctgctggag gccatcgtgc agaaccccac cagcaagccg 13560

ctgacggcgc agctgttcct ggtggtgcag catagtcggg acaacgaagc gttcagggag 13620

gcgctgctga atatcaccga gcccgagggc cgctggctcc tggacctggt gaacattctg 13680

cagagcatcg tggtgcagga gcgcgggctg ccgctgtccg agaagctggc ggccatcaac 13740

ttctcggtgc tgagtttggg caagtactac gctaggaaga tctacaagac cccgtacgtg 13800

cccatagaca aggaggtgaa gatcgacggg ttttacatgc gcatgaccct gaaagtgctg 13860

accctgagcg acgatctggg ggtgtaccgc aacgacagga tgcaccgtgc ggtgagcgcc 13920

agcaggcggc gcgagctgag cgaccaggag ctgatgcata gtctgcagcg ggccctgacc 13980

ggggccggga ccgaggggga gagctacttt gacatgggcg cggacctgca ctggcagccc 14040

agccgccggg ccttggaggc ggcggcagga ccctacgtag aagaggtgga cgatgaggtg 14100

gacgaggagg gcgagtacct ggaagactga tggcgcgacc gtatttttgc tagatgcaac 14160

aacaacagcc acctcctgat cccgcgatgc gggcggcgct gcagagccag ccgtccggca 14220

ttaactcctc ggacgattgg acccaggcca tgcaacgcat catggcgctg acgacccgca 14280

accccgaagc ctttagacag cagccccagg ccaaccggct ctcggccatc ctggaggccg 14340

tggtgccctc gcgctccaac cccacgcacg agaaggtcct ggccatcgtg aacgcgctgg 14400

tggagaacaa ggccatccgc ggcgacgagg ccggcctggt gtacaacgcg ctgctggagc 14460

gcgtggcccg ctacaacagc accaacgtgc agaccaacct ggaccgcatg gtgaccgacg 14520

tgcgcgaggc cgtggcccag cgcgagcggt tccaccgcga gtccaacctg ggatccatgg 14580

tggcgctgaa cgccttcctc agcacccagc ccgccaacgt gccccggggc caggaggact 14640

acaccaactt catcagcgcc ctgcgcctga tggtgaccga ggtgccccag agcgaggtgt 14700

accagtccgg gccggactac ttcttccaga ccagtcgcca gggcttgcag accgtgaacc 14760

tgagccaggc tttcaagaac ttgcagggcc tgtggggcgt gcaggccccg gtcggggacc 14820

gcgcgacggt gtcgagcctg ctgacgccga actcgcgcct gctgctgctg ctggtggccc 14880

ccttcacgga cagcggcagc atcaaccgca actcgtacct gggctacctg attaacctgt 14940

accgcgaggc catcggccag gcgcacgtgg acgagcagac ctaccaggag atcacccacg 15000

tgagccgcgc cctgggccag gacgacccgg gcaacctgga agccaccctg aactttttgc 15060

tgaccaaccg gtcgcagaag atcccgcccc agtacgcgct cagcaccgag gaggagcgca 15120

tcctgcgtta cgtgcagcag agcgtgggcc tgttcctgat gcaggagggg gccaccccca 15180

gcgccgcgct cgacatgacc gcgcgcaaca tggagcccag catgtacgcc agcaaccgcc 15240

cgttcatcaa taaactgatg gactacttgc atcgggcggc cgccatgaac tctgactatt 15300

tcaccaacgc catcctgaat ccccactggc tcccgccgcc ggggttctac acgggcgagt 15360

acgacatgcc cgaccccaat gacgggttcc tgtgggacga tgtggacagc agcgtgttct 15420

ccccccgacc gggtgctaac gagcgcccct tgtggaagaa ggaaggcagc gaccgacgcc 15480

cgtcctcggc gctgtccggc cgcgagggtg ctgccgcggc ggtgcccgag gccgccagtc 15540

ctttcccgag cttgcccttc tcgctgaaca gtatccgcag cagcgagctg ggcaggatca 15600

cgcgcccgcg cttgctgggc gaagaggagt acttgaatga ctcgctgttg agacccgagc 15660

gggagaagaa cttccccaat aacgggatag aaagcctggt ggacaagatg agccgctgga 15720

agacgtatgc gcaggagcac agggacgatc cccgggcgtc gcagggggcc acgagccggg 15780

gcagcgccgc ccgtaaacgc cggtggcacg acaggcagcg gggacagatg tgggacgatg 15840

aggactccgc cgacgacagc agcgtgttgg acttgggtgg gagtggtaac ccgttcgctc 15900

acctgcgccc ccgtatcggg cgcatgatgt aagagaaacc gaaaataaat gatactcacc 15960

aaggccatgg cgaccagcgt gcgttcgttt cttctctgtt gttgttgtat ctagtatgat 16020

gaggcgtgcg tacccggagg gtcctcctcc ctcgtacgag agcgtgatgc agcaggcgat 16080

ggcggcggcg gcgatgcagc ccccgctgga ggctccttac gtgcccccgc ggtacctggc 16140

gcctacggag gggcggaaca gcattcgtta ctcggagctg gcacccttgt acgataccac 16200

ccggttgtac ctggtggaca acaagtcggc ggacatcgcc tcgctgaact accagaacga 16260

ccacagcaac ttcctgacca ccgtggtgca gaacaatgac ttcaccccca cggaggccag 16320

cacccagacc atcaactttg acgagcgctc gcggtggggc ggccagctga aaaccatcat 16380

gcacaccaac atgcccaacg tgaacgagtt catgtacagc aacaagttca aggcgcgggt 16440

gatggtctcc cgcaagaccc ccaatggggt gacagtgaca gaggattatg atggtagtca 16500

ggatgagctg aagtatgaat gggtggaatt tgagctgccc gaaggcaact tctcggtgac 16560

catgaccatc gacctgatga acaacgccat catcgacaat tacttggcgg tggggcggca 16620

gaacggggtg ctggagagcg acatcggcgt gaagttcgac actaggaact tcaggctggg 16680

ctgggacccc gtgaccgagc tggtcatgcc cggggtgtac accaacgagg ctttccatcc 16740

cgatattgtc ttgctgcccg gctgcggggt ggacttcacc gagagccgcc tcagcaacct 16800

gctgggcatt cgcaagaggc agcccttcca ggaaggcttc cagatcatgt acgaggatct 16860

ggaggggggc aacatccccg cgctcctgga tgtcgacgcc tatgagaaaa gcaaggagga 16920

tgcagcagct gaagcaactg cagccgtagc taccgcctct accgaggtca ggggcgataa 16980

ttttgcaagc gccgcagcag tggcagcggc cgaggcggct gaaaccgaaa gtaagatagt 17040

cattcagccg gtggagaagg atagcaagaa caggagctac aacgtactac cggacaagat 17100

aaacaccgcc taccgcagct ggtacctagc ctacaactat ggcgaccccg agaagggcgt 17160

gcgctcctgg acgctgctca ccacctcgga cgtcacctgc ggcgtggagc aagtctactg 17220

gtcgctgccc gacatgatgc aagacccggt caccttccgc tccacgcgtc aagttagcaa 17280

ctacccggtg gtgggcgccg agctcctgcc cgtctactcc aagagcttct tcaacgagca 17340

ggccgtctac tcgcagcagc tgcgcgcctt cacctcgctt acgcacgtct tcaaccgctt 17400

ccccgagaac cagatcctcg tccgcccgcc cgcgcccacc attaccaccg tcagtgaaaa 17460

cgttcctgct ctcacagatc acgggaccct gccgctgcgc agcagtatcc ggggagtcca 17520

gcgcgtgacc gttactgacg ccagacgccg cacctgcccc tacgtctaca aggccctggg 17580

catagtcgcg ccgcgcgtcc tctcgagccg caccttctaa atgtccattc tcatctcgcc 17640

cagtaataac accggttggg gcctgcgcgc gcccagcaag atgtacggag gcgctcgcca 17700

acgctccacg caacaccccg tgcgcgtgcg cgggcacttc cgcgctccct ggggcgccct 17760

caagggccgc gtgcggtcgc gcaccaccgt cgacgacgtg atcgaccagg tggtggccga 17820

cgcgcgcaac tacacccccg ccgccgcgcc cgtctccacc gtggacgccg tcatcgacag 17880

cgtggtggcg gacgcgcgcc ggtacgcccg cgccaagagc cggcggcggc gcatcgcccg 17940

gcggcaccgg agcacccccg ccatgcgcgc ggcgcgagcc ttgctgcgca gggccaggcg 18000

cacgggacgc agggccatgc tcagggcggc cagacgcgcg gcttcaggcg ccagcgccgg 18060

caggacccgg agacgcgcgg ccacggcggc ggcagcggcc atcgccagca tgtcccgccc 18120

gcggcgaggg aacgtgtact gggtgcgcga cgccgccacc ggtgtgcgcg tgcccgtgcg 18180

cacccgcccc cctcgcactt gaagatgttc acttcgcgat gttgatgtgt cccagcggcg 18240

aggaggatgt ccaagcgcaa attcaaggaa gagatgctcc aggtcatcgc gcctgagatc 18300

tacggccctg cggtggtgaa ggaggaaaga aagccccgca aaatcaagcg ggtcaaaaag 18360

gacaaaaagg aagaagaaag tgatgtggac ggattggtgg agtttgtgcg cgagttcgcc 18420

ccccggcggc gcgtgcagtg gcgcgggcgg aaggtgcaac cggtgctgag acccggcacc 18480

accgtggtct tcacgcccgg cgagcgctcc ggcaccgctt ccaagcgctc ctacgacgag 18540

gtgtacgggg atgatgatat tctggagcag gcggccgagc gcctgggcga gtttgcttac 18600

ggcaagcgca gccgttccgc accgaaggaa gaggcggtgt ccatcccgct ggaccacggc 18660

aaccccacgc cgagcctcaa gcccgtgacc ttgcagcagg tgctgccgac cgcggcgccg 18720

cgccgggggt tcaagcgcga gggcgaggat ctgtacccca ccatgcagct gatggtgccc 18780

aagcgccaga agctggaaga cgtgctggag accatgaagg tggacccgga cgtgcagccc 18840

gaggtcaagg tgcggcccat caagcaggtg gccccgggcc tgggcgtgca gaccgtggac 18900

atcaagattc ccacggagcc catggaaacg cagaccgagc ccatgatcaa gcccagcacc 18960

agcaccatgg aggtgcagac ggatccctgg atgccatcgg ctcctagtcg aagaccccgg 19020

cgcaagtacg gcgcggccag cctgctgatg cccaactacg cgctgcatcc ttccatcatc 19080

cccacgccgg gctaccgcgg cacgcgcttc taccgcggtc ataccagcag ccgccgccgc 19140

aagaccacca ctcgccgccg ccgtcgccgc accgccgctg caaccacccc tgccgccctg 19200

gtgcggagag tgtaccgccg cggccgcgca cctctgaccc tgccgcgcgc gcgctaccac 19260

ccgagcatcg ccatttaaac tttcgccagc tttgcagatc aatggccctc acatgccgcc 19320

ttcgcgttcc cattacgggc taccgaggaa gaaaaccgcg ccgtagaagg ctggcgggga 19380

acgggatgcg tcgccaccac caccggcggc ggcgcgccat cagcaagcgg ttggggggag 19440

gcttcctgcc cgcgctgatc cccatcatcg ccgcggcgat cggggcgatc cccggcattg 19500

cttccgtggc ggtgcaggcc tctcagcgcc actgagacac acttggaaac atcttgtaat 19560

aaacccatgg actctgacgc tcctggtcct gtgatgtgtt ttcgtagaca gatggaagac 19620

atcaattttt cgtccctggc tccgcgacac ggcacgcggc cgttcatggg cacctggagc 19680

gacatcggca ccagccaact gaacgggggc gccttcaatt ggagcagtct ctggagcggg 19740

cttaagaatt tcgggtccac gcttaaaacc tatggcagca aggcgtggaa cagcaccaca 19800

gggcaggcgc tgagggataa gctgaaagag cagaacttcc agcagaaggt ggtcgatggg 19860

ctcgcctcgg gcatcaacgg ggtggtggac ctggccaacc aggccgtgca gcggcagatc 19920

aacagccgcc tggacccggt gccgcccgcc ggctccgtgg agatgccgca ggtggaggag 19980

gagctgcctc ccctggacaa gcggggcgag aagcgacccc gccccgatgc ggaggagacg 20040

ctgctgacgc acacggacga gccgcccccg tacgaggagg cggtgaaact gggtctgccc 20100

accacgcggc ccatcgcgcc cctggccacc ggggtgctga aacccgaaaa gcccgcgacc 20160

ctggacttgc ctcctcccca gccttcccgc ccctctacag tggctaagcc cctgccgccg 20220

gtggccgtgg cccgcgcgcg acccgggggc accgcccgcc ctcatgcgaa ctggcagagc 20280

actctgaaca gcatcgtggg tctgggagtg cagagtgtga agcgccgccg ctgctattaa 20340

acctaccgta gcgcttaact tgcttgtctg tgtgtgtatg tattatgtcg ccgccgccgc 20400

tgtccaccag aaggaggagt gaagaggcgc gtcgccgagt tgcaagatgg ccaccccatc 20460

gatgctgccc cagtgggcgt acatgcacat cgccggacag gacgcttcgg agtacctgag 20520

tccgggtctg gtgcagtttg cccgcgccac agacacctac ttcagtctgg ggaacaagtt 20580

taggaacccc acggtggcgc ccacgcacga tgtgaccacc gaccgcagcc agcggctgac 20640

gctgcgcttc gtgcccgtgg accgcgagga caacacctac tcgtacaaag tgcgctacac 20700

gctggccgtg ggcgacaacc gcgtgctgga catggccagc acctactttg acatccgcgg 20760

cgtgctggat cggggcccta gcttcaaacc ctactccggc accgcctaca acagtctggc 20820

ccccaaggga gcacccaaca cttgtcagtg gacatataaa gccgatggtg aaactgccac 20880

agaaaaaacc tatacatatg gaaatgcacc cgtgcagggc attaacatca caaaagatgg 20940

tattcaactt ggaactgaca ccgatgatca gccaatctac gcagataaaa cctatcagcc 21000

tgaacctcaa gtgggtgatg ctgaatggca tgacatcact ggtactgatg aaaagtatgg 21060

aggcagagct cttaagcctg ataccaaaat gaagccttgt tatggttctt ttgccaagcc 21120

tactaataaa gaaggaggtc aggcaaatgt gaaaacagga acaggcacta ctaaagaata 21180

tgacatagac atggctttct ttgacaacag aagtgcggct gctgctggcc tagctccaga 21240

aattgttttg tatactgaaa atgtggattt ggaaactcca gatacccata ttgtatacaa 21300

agcaggcaca gatgacagca gctcttctat taatttgggt cagcaagcca tgcccaacag 21360

acctaactac attggtttca gagacaactt tatcgggctc atgtactaca acagcactgg 21420

caatatgggg gtgctggccg gtcaggcttc tcagctgaat gctgtggttg acttgcaaga 21480

cagaaacacc gagctgtcct accagctctt gcttgactct ctgggtgaca gaacccggta 21540

tttcagtatg tggaatcagg cggtggacag ctatgatcct gatgtgcgca ttattgaaaa 21600

tcatggtgtg gaggatgaac ttcccaacta ttgtttccct ctggatgctg ttggcagaac 21660

agatacttat cagggaatta aggctaatgg aactgatcaa accacatgga ccaaagatga 21720

cagtgtcaat gatgctaatg agataggcaa gggtaatcca ttcgccatgg aaatcaacat 21780

ccaagccaac ctgtggagga acttcctcta cgccaacgtg gccctgtacc tgcccgactc 21840

ttacaagtac acgccggcca atgttaccct gcccaccaac accaacacct acgattacat 21900

gaacggccgg gtggtggcgc cctcgctggt ggactcctac atcaacatcg gggcgcgctg 21960

gtcgctggat cccatggaca acgtgaaccc cttcaaccac caccgcaatg cggggctgcg 22020

ctaccgctcc atgctcctgg gcaacgggcg ctacgtgccc ttccacatcc aggtgcccca 22080

gaaatttttc gccatcaaga gcctcctgct cctgcccggg tcctacacct acgagtggaa 22140

cttccgcaag gacgtcaaca tgatcctgca gagctccctc ggcaacgacc tgcgcacgga 22200

cggggcctcc atctccttca ccagcatcaa cctctacgcc accttcttcc ccatggcgca 22260

caacacggcc tccacgctcg aggccatgct gcgcaacgac accaacgacc agtccttcaa 22320

cgactacctc tcggcggcca acatgctcta ccccatcccg gccaacgcca ccaacgtgcc 22380

catctccatc ccctcgcgca actgggccgc cttccgcggc tggtccttca cgcgtctcaa 22440

gaccaaggag acgccctcgc tgggctccgg gttcgacccc tacttcgtct actcgggctc 22500

catcccctac ctcgacggca ccttctacct caaccacacc ttcaagaagg tctccatcac 22560

cttcgactcc tccgtcagct ggcccggcaa cgaccggctc ctgacgccca acgagttcga 22620

aatcaagcgc accgtcgacg gcgagggcta caacgtggcc cagtgcaaca tgaccaagga 22680

ctggttcctg gtccagatgc tggcccacta caacatcggc taccagggct tctacgtgcc 22740

cgagggctac aaggaccgca tgtactcctt cttccgcaac ttccagccca tgagccgcca 22800

ggtggtggac gaggtcaact acaaggacta ccaggccgtc accctggcct accagcacaa 22860

caactcgggc ttcgtcggct acctcgcgcc caccatgcgc cagggccagc cctaccccgc 22920

caactacccc tacccgctca tcggcaagag cgccgtcacc agcgtcaccc agaaaaagtt 22980

cctctgcgac agggtcatgt ggcgcatccc cttctccagc aacttcatgt ccatgggcgc 23040

gctcaccgac ctcggccaga acatgctcta tgccaactcc gcccacgcgc tagacatgaa 23100

tttcgaagtc gaccccatgg atgagtccac ccttctctat gttgtcttcg aagtcttcga 23160

cgtcgtccga gtgcaccagc cccaccgcgg cgtcatcgag gccgtctacc tgcgcacccc 23220

cttctcggcc ggtaacgcca ccacctaagc tcttgcttct tgcaagccat ggccgcgggc 23280

tccggcgagc aggagctcag ggccatcatc cgcgacctgg gctgcgggcc ctacttcctg 23340

ggcaccttcg ataagcgctt cccgggattc atggccccgc acaagctggc ctgcgccatc 23400

gtcaacacgg ccggccgcga gaccgggggc gagcactggc tggccttcgc ctggaacccg 23460

cgctcgaaca cctgctacct cttcgacccc ttcgggttct cggacgagcg cctcaagcag 23520

atctaccagt tcgagtacga gggcctgctg cgccgcagcg ccctggccac cgaggaccgc 23580

tgcgtcaccc tggaaaagtc cacccagacc gtgcagggtc cgcgctcggc cgcctgcggg 23640

ctcttctgct gcatgttcct gcacgccttc gtgcactggc ccgaccgccc catggacaag 23700

aaccccacca tgaacttgct gacgggggtg cccaacggca tgctccagtc gccccaggtg 23760

gaacccaccc tgcgccgcaa ccaggaggcg ctctaccgct tcctcaactc ccactccgcc 23820

tactttcgct cccaccgcgc gcgcatcgag aaggccaccg ccttcgaccg catgaatcaa 23880

gacatgtaaa ccgtgtgtgt atgttaaatg tctttaataa acagcacttt catgttacac 23940

atgcatctga gatgatttat ttagaaatcg aaagggttct gccgggtctc ggcatggccc 24000

gcgggcaggg acacgttgcg gaactggtac ttggccagcc acttgaactc ggggatcagc 24060

agtttgggca gcggggtgtc ggggaaggag tcggtccaca gcttccgcgt cagttgcagg 24120

gcgcccagca ggtcgggcgc ggagatcttg aaatcgcagt tgggacccgc gttctgcgcg 24180

cgggagttgc ggtacacggg gttgcagcac tggaacacca tcagggccgg gtgcttcacg 24240

ctcgccagca ccgtcgcgtc ggtgatgctc tccacgtcga ggtcctcggc gttggccatc 24300

ccgaaggggg tcatcttgca ggtctgcctt cccatggtgg gcacgcaccc gggcttgtgg 24360

ttgcaatcgc agtgcagggg gatcagcatc atctgggcct ggtcggcgtt catccccggg 24420

tacatggcct tcatgaaagc ctccaattgc ctgaacgcct gctgggcctt ggctccctcg 24480

gtgaagaaga ccccgcagga cttgctagag aactggttgg tggcgcaccc ggcgtcgtgc 24540

acgcagcagc gcgcgtcgtt gttggccagc tgcaccacgc tgcgccccca gcggttctgg 24600

gtgatcttgg cccggtcggg gttctccttc agcgcgcgct gcccgttctc gctcgccaca 24660

tccatctcga tcatgtgctc cttctggatc atggtggtcc cgtgcaggca ccgcagcttg 24720

ccctcggcct cggtgcaccc gtgcagccac agcgcgcacc cggtgcactc ccagttcttg 24780

tgggcgatct gggaatgcgc gtgcacgaag ccctgcagga agcggcccat catggtggtc 24840

agggtcttgt tgctagtgaa ggtcagcgga atgccgcggt gctcctcgtt gatgtacagg 24900

tggcagatgc ggcggtacac ctcgccctgc tcgggcatca gctggaagtt ggctttcagg 24960

tcggtctcca cgcggtagcg gtccatcagc atagtcatga tttccatacc cttctcccag 25020

gccgagacga tgggcaggct catagggttc ttcaccatca tcttagcgct agcagccgcg 25080

gccagggggt cgctctcgtc cagggtctca aagctccgct tgccgtcctt ctcggtgatc 25140

cgcaccgggg ggtagctgaa gcccacggcc gccagctcct cctcggcctg tctttcgtcc 25200

tcgctgtcct ggctgacgtc ctgcaggacc acatgcttgg tcttgcgggg tttcttcttg 25260

ggcggcagcg gcggcggaga tgttggagat ggcgaggggg agcgcgagtt ctcgctcacc 25320

actactatct cttcctcttc ttggtccgag gccacgcggc ggtaggtatg tctcttcggg 25380

ggcagaggcg gaggcgacgg gctctcgccg ccgcgacttg gcggatggct ggcagagccc 25440

cttccgcgtt cgggggtgcg ctcccggcgg cgctctgact gacttcctcc gcggccggcc 25500

attgtgttct cctagggagg aacaacaagc atggagactc agccatcgcc aacctcgcca 25560

tctgccccca ccgccgacga gaagcagcag cagcagaatg aaagcttaac cgccccgccg 25620

cccagccccg ccacctccga cgcggccgtc ccagacatgc aagagatgga ggaatccatc 25680

gagattgacc tgggctatgt gacgcccgcg gagcacgagg aggagctggc agtgcgcttt 25740

tcacaagaag agatacacca agaacagcca gagcaggaag cagagaatga gcagagtcag 25800

gctgggctcg agcatgacgg cgactacctc cacctgagcg ggggggagga cgcgctcatc 25860

aagcatctgg cccggcaggc caccatcgtc aaggatgcgc tgctcgaccg caccgaggtg 25920

cccctcagcg tggaggagct cagccgcgcc tacgagttga acctcttctc gccgcgcgtg 25980

ccccccaagc gccagcccaa tggcacctgc gagcccaacc cgcgcctcaa cttctacccg 26040

gtcttcgcgg tgcccgaggc cctggccacc taccacatct ttttcaagaa ccaaaagatc 26100

cccgtctcct gccgcgccaa ccgcacccgc gccgacgccc ttttcaacct gggtcccggc 26160

gcccgcctac ctgatatcgc ctccttggaa gaggttccca agatcttcga gggtctgggc 26220

agcgacgaga ctcgggccgc gaacgctctg caaggagaag gaggagagca tgagcaccac 26280

agcgccctgg tcgagttgga aggcgacaac gcgcggctgg cggtgctcaa acgcacggtc 26340

gagctgaccc atttcgccta cccggctctg aacctgcccc ccaaagtcat gagcgcggtc 26400

atggaccagg tgctcatcaa gcgcgcgtcg cccatctccg aggacgaggg catgcaagac 26460

tccgaggagg gcaagcccgt ggtcagcgac gagcagctgg cccggtggct gggtcctaat 26520

gctagtcccc agagtttgga agagcggcgc aaactcatga tggccgtggt cctggtgacc 26580

gtggagctgg agtgcctgcg ccgcttcttc gccgacgcgg agaccctgcg caaggtcgag 26640

gagaacctgc actacctctt caggcacggg ttcgtgcgcc aggcctgcaa gatctccaac 26700

gtggagctga ccaacctggt ctcctacatg ggcatcttgc acgagaaccg cctggggcag 26760

aacgtgctgc acaccaccct gcgcggggag gcccggcgcg actacatccg cgactgcgtc 26820

tacctctacc tctgccacac ctggcagacg ggcatgggcg tgtggcagca gtgtctggag 26880

gagcagaacc tgaaagagct ctgcaagctc ctgcagaaga acctcaaggg tctgtggacc 26940

gggttcgacg agcgcaccac cgcctcggac ctggccgacc tcattttccc cgagcgcctc 27000

aggctgacgc tgcgcaacgg cctgcccgac tttatgagcc aaagcatgtt gcaaaacttt 27060

cgctctttca tcctcgaacg ctccggaatc ctgcccgcca cctgctccgc gctgccctcg 27120

gacttcgtgc cgctgacctt ccgcgagtgc cccccgccgc tgtggagcca ctgctacctg 27180

ctgcgcctgg ccaactacct ggcctaccac tcggacgtga tcgaggacgt cagcggcgag 27240

ggcctgctcg agtgccactg ccgctgcaac ctctgcacgc cgcaccgctc cctggcctgc 27300

aacccccagc tgctgagcga gacccagatc atcggcacct tcgagttgca agggcccagc 27360

gaaggcgagg gttcagccgc caaggggggt ctgaaactca ccccggggct gtggacctcg 27420

gcctacttgc gcaagttcgt gcccgaggac taccatccct tcgagatcag gttctacgag 27480

gaccaatccc atccgcccaa ggccgagctg tcggcctgcg tcatcaccca gggggcgatc 27540

ctggcccaat tgcaagccat ccagaaatcc cgccaagaat tcttgctgaa aaagggccgc 27600

ggggtctacc tcgaccccca gaccggtgag gagctcaacc ccggcttccc ccaggatgcc 27660

ccgaggaaac aagaagctga aagtggagct gccgcccgtg gaggatttgg aggaagactg 27720

ggagaacagc agtcaggcag aggaggagga gatggaggaa gactgggaca gcactcaggc 27780

agaggaggac agcctgcaag acagtctgga ggaagacgag gaggaggcag aggaggaggt 27840

ggaagaagca gccgccgcca gaccgtcgtc ctcggcgggg gagaaagcaa gcagcacgga 27900

taccatctcc gctccgggtc ggggtcccgc tcgaccacac agtagatggg acgagaccgg 27960

acgattcccg aaccccacca cccagaccgg taagaaggag cggcagggat acaagtcctg 28020

gcgggggcac aaaaacgcca tcgtctcctg cttgcaggcc tgcgggggca acatctcctt 28080

cacccggcgc tacctgctct tccaccgcgg ggtgaacttt ccccgcaaca tcttgcatta 28140

ctaccgtcac ctccacagcc cctactactt ccaagaagag gcagcagcag cagaaaaaga 28200

ccagcagaaa accagcagct agaaaatcca cagcggcggc agcaggtgga ctgaggatcg 28260

cggcgaacga gccggcgcaa acccgggagc tgaggaaccg gatctttccc accctctatg 28320

ccatcttcca gcagagtcgg gggcaggagc aggaactgaa agtcaagaac cgttctctgc 28380

gctcgctcac ccgcagttgt ctgtatcaca agagcgaaga ccaacttcag cgcactctcg 28440

aggacgccga ggctctcttc aacaagtact gcgcgctcac tcttaaagag tagcccgcgc 28500

ccgcccagtc gcagaaaaag gcgggaatta cgtcacctgt gcccttcgcc ctagccgcct 28560

ccacccatca tcatgagcaa agagattccc acgccttaca tgtggagcta ccagccccag 28620

atgggcctgg ccgccggtgc cgcccaggac tactccaccc gcatgaattg gctcagcgcc 28680

gggcccgcga tgatctcacg ggtgaatgac atccgcgccc accgaaacca gatactccta 28740

gaacagtcag cgctcaccgc cacgccccgc aatcacctca atccgcgtaa ttggcccgcc 28800

gccctggtgt accaggaaat tccccagccc acgaccgtac tacttccgcg agacgcccag 28860

gccgaagtcc agctgactaa ctcaggtgtc cagctggcgg gcggcgccac cctgtgtcgt 28920

caccgccccg ctcagggtat aaagcggctg gtgatccggg gcagaggcac acagctcaac 28980

gacgaggtgg tgagctcttc gctgggtctg cgacctgacg gagtcttcca actcgccgga 29040

tcggggagat cttccttcac gcctcgtcag gccgtcctga ctttggagag ttcgtcctcg 29100

cagccccgct cgggtggcat cggcactctc cagttcgtgg aggagttcac tccctcggtc 29160

tacttcaacc ccttctccgg ctcccccggc cactacccgg acgagttcat cccgaacttc 29220

gacgccatca gcgagtcggt ggacggctac gattgaatgt cccatgtcga cccccggtcc 29280

cccacccagt cccccgagga ggtccgcaaa tgcaaattcc aagaaccctg gaaattcctc 29340

aaatgctacc gccaaaaatc agacatgcat cccagctgga tcatgatcat tgggatcgtg 29400

aacattctgg cctgcaccct catctccttt gtgatttacc cctgctttga ctttggttgg 29460

aactcgccag aggcgctcta tctcccgcct gaacctgaca caccaccaca gcaacctcag 29520

gcacacgcac taccaccact acagcctagg ccacaataca tgcccatatt agactatgag 29580

gccgagccac agcgacccat gctccccgct attagttact tcaatctaac cggcggagat 29640

gactgaccca ctggccaaca acaacgtcaa cgaccttctc ctggacatgg acggccgcgc 29700

ctcggagcag cgactcgccc aacttcgcat tcgccagcag caggagagag ccgtcaagga 29760

gctgcaggat gcggtggcca tccaccagtg caagagaggc atcttctgcc tggtgaaaca 29820

ggccaagatc tcctacgagg tcactccaaa cgaccatcgc ctctcctacg agctcctgca 29880

gcagcgccag aagttcacct gcctggtcgg agtcaacccc atcgtcatca cccagcagtc 29940

tggcgatacc aaggggtgca tccactgctc ctgcgactcc cccgactgcg tccacactct 30000

gatcaagacc ctctgcggcc tccgcgacct cctccccatg aactaatcac ccccttatcc 30060

agtgaaataa agatcatatt gatgatgatt ttacagaaat aaaaaataat catttgattt 30120

gaaataaaga tacaatcata ttgatgattt gagtttaaca aaaaaataaa gaatcactta 30180

cttgaaatct gataccaggt ctctgtccat gttttctgcc aacaccactt cactcccctc 30240

ttcccagctc tggtactgca ggccccggcg ggctgcaaac ttcctccaca cgctgaaggg 30300

gatgtcaaat tcctcctgtc cctcaatctt cattttatct tctatcagat gtccaaaaag 30360

cgcgtccggg tggatgatga cttcgacccc gtctacccct acgatgcaga caacgcaccg 30420

accgtgccct tcatcaaccc ccccttcgtc tcttcagatg gattccaaga gaagcccctg 30480

ggggtgttgt ccctgcgact ggccgacccc gtcaccacca agaacgggga aatcaccctc 30540

aagctgggag agggggtgga cctcgattcc tcgggaaaac tcatctccaa cacggccacc 30600

aaggccgccg cccctctcag tttttccaac aacaccattt cccttaacat ggatcacccc 30660

ttttacacta aagatggaaa attatcctta caagtttctc caccattaaa tatactgaga 30720

acaagcattc taaacacact agctttaggt tttggatcag gtttaggact ccgtggctct 30780

gccttggcag tacagttagt ctctccactt acatttgata ctgatggaaa cataaagctt 30840

accttagaca gaggtttgca tgttacaaca ggagatgcaa ttgaaagcaa cataagctgg 30900

gctaaaggtt taaaatttga agatggagcc atagcaacca acattggaaa tgggttagag 30960

tttggaagca gtagtacaga aacaggtgtt gatgatgctt acccaatcca agttaaactt 31020

ggatctggcc ttagctttga cagtacagga gccataatgg ctggtaacaa agaagacgat 31080

aaactcactt tgtggacaac acctgatcca tcaccaaact gtcaaatact cgcagaaaat 31140

gatgcaaaac taacactttg cttgactaaa tgtggtagtc aaatactggc cactgtgtca 31200

gtcttagttg taggaagtgg aaacctaaac cccattactg gcaccgtaag cagtgctcag 31260

gtgtttctac gttttgatgc aaacggtgtt cttttaacag aacattctac actaaaaaaa 31320

tactgggggt ataggcaggg agatagcata gatggcactc catataccaa tgctgtagga 31380

ttcatgccca atttaaaagc ttatccaaag tcacaaagtt ctactactaa aaataatata 31440

gtagggcaag tatacatgaa tggagatgtt tcaaaaccta tgcttctcac tataaccctc 31500

aatggtactg atgacagcaa cagtacatat tcaatgtcat tttcatacac ctggactaat 31560

ggaagctatg ttggagcaac atttggggct aactcttata ccttctcata catcgcccaa 31620

gaatgaacac tgtatcccac cctgcatgcc aacccttccc accccactct gtggaacaaa 31680

ctctgaaaca caaaataaaa taaagttcaa gtgttttatt gattcaacag ttttacagga 31740

ttcgagcagt tatttttcct ccaccctccc aggacatgga atacaccacc ctctcccccc 31800

gcacagcctt gaacatctga atgccattgg tgatggacat gcttttggtc tccacgttcc 31860

acacagtttc agagcgagcc agtctcgggt cggtcaggga gatgaaaccc tccgggcact 31920

cccgcatctg cacctcacag ctcaacagct gaggattgtc ctcggtggtc gggatcacgg 31980

ttatctggaa gaagcagaag agcggcggtg ggaatcatag tccgcgaacg ggatcggccg 32040

gtggtgtcgc atcaggcccc gcagcagtcg ctgccgccgc cgctccgtca agctgctgct 32100

cagggggtcc gggtccaggg actccctcag catgatgccc acggccctca gcatcagtcg 32160

tctggtgcgg cgggcgcagc agcgcatgcg gatctcgctc aggtcgctgc agtacgtgca 32220

acacagaacc accaggttgt tcaacagtcc atagttcaac acgctccagc cgaaactcat 32280

cgcgggaagg atgctaccca cgtggccgtc gtaccagatc ctcaggtaaa tcaagtggtg 32340

ccccctccag aacacgctgc ccacgtacat gatctccttg ggcatgtggc ggttcaccac 32400

ctcccggtac cacatcaccc tctggttgaa catgcagccc cggatgatcc tgcggaacca 32460

cagggccagc accgccccgc ccgccatgca gcgaagagac cccgggtccc ggcaatggca 32520

atggaggacc caccgctcgt acccgtggat catctgggag ctgaacaagt ctatgttggc 32580

acagcacagg catatgctca tgcatctctt cagcactctc aactcctcgg gggtcaaaac 32640

catatcccag ggcacgggga actcttgcag gacagcgaac cccgcagaac agggcaatcc 32700

tcgcacagaa cttacattgt gcatggacag ggtatcgcaa tcaggcagca ccgggtgatc 32760

ctccaccaga gaagcgcggg tctcggtctc ctcacagcgt ggtaaggggg ccggccgata 32820

cgggtgatgg cgggacgcgg ctgatcgtgt tcgcgaccgt gtcatgatgc agttgctttc 32880

ggacattttc gtacttgctg tagcagaacc tggtccgggc gctgcacacc gatcgccggc 32940

ggcggtctcg gcgcttggaa cgctcggtgt tgaaattgta aaacagccac tctctcagac 33000

cgtgcagcag atctagggcc tcaggagtga tgaagatccc atcatgcctg atggctctga 33060

tcacatcgac caccgtggaa tgggccagac ccagccagat gatgcaattt tgttgggttt 33120

cggtgacggc gggggaggga agaacaggaa gaaccatgat taacttttaa tccaaacggt 33180

ctcggagtac ttcaaaatga agatcgcgga gatggcacct ctcgcccccg ctgtgttggt 33240

ggaaaataac agccaggtca aaggtgatac ggttctcgag atgttccacg gtggcttcca 33300

gcaaagcctc cacgcgcaca tccagaaaca agacaatagc gaaagcggga gggttctcta 33360

attcctcaat catcatgtta cactcctgca ccatccccag ataattttca tttttccagc 33420

cttgaatgat tcgaactagt tcgtgaggta aatccaagcc agccatgata aagagctcgc 33480

gcagagcgcc ctccaccggc attcttaagc acaccctcat aattccaaga tattctgctc 33540

ctggttcacc tgcagcagat tgacaagcgg aatatcaaaa tctctgccgc gatccctgag 33600

ctcctccctc agcaataact gtaagtactc tttcatatcc tctccgaaat ttttagccat 33660

aggaccacca ggaataagat tagggcaagc cacagtacag ataaaccgaa gtcctcccca 33720

gtgagcattg ccaaatgcaa gactgctata agcatgctgg ctagacccgg tgatatcttc 33780

cagataactg gacagaaaat cgcccaggca atttttaaga aaatcaacaa aagaaaaatc 33840

ctccaggtgg acgtttagag cctcgggaac aacgatgaag taaatgcaag cggtgcgttc 33900

cagcatggtt agttagctga tctgtagaaa aaacaaaaat gaacattaaa ccatgctagc 33960

ctggcgaaca ggtgggtaaa tcgttctctc cagcaccagg caggccacgg ggtctccggc 34020

gcgaccctcg taaaaattgt cgctatgatt gaaaaccatc acagagagac gttcccggtg 34080

gccggcgtga atgattcgac aagatgaata cacccccgga acattggcgt ccgcgagtga 34140

aaaaaagcgc ccgaggaagc aataaggcac tacaatgctc agtaaataaa tctcaagtcc 34200

agcaaagcga tgccatgcgg atgaagcaca aaattctcag gtgcgtacaa aatgtaatta 34260

ctcccctcct gcacaggcag caaagccccc gatccctcca ggtacacata caaagcctca 34320

gcgtccatag cttaccgagc agcagcacac aacaggcgca agagtcagag aaaggctgag 34380

ctctaacctg tccacccgct ctctgctcaa tatatagccc agatctacac tgacgtaaag 34440

gccaaagtct aaaaataccc gccaaataat cacacacgcc cagcacacgc ccagaaaccg 34500

gtgacacact caaaaaaata cgcgcacttc ctcaaacgcc caaaactgcc gtcatttccg 34560

ggttcccacg ctacgtcatc aaaacacgac tttcaaattc cgtcgaccgt taaaaacgtc 34620

acccgccccg cccctaacgg tcgcccgtct ctcagccaat cagcgccccg catccccaaa 34680

ttcaaacacc tcatttgcat attaacgcgc acaaaaagtt tgaggtatat tattgatgat 34740

gg 34742

Claims

1. Use of an agent comprising component 1, said component 1 being an agent in the form of an expression vector based on the genome of a recombinant strain of human adenovirus serotype 26, wherein the E1 and E3 sites are deleted from said genome and the sites ORF6-Ad26 are replaced with ORF6-Ad5, having an amino acid sequence selected from the group consisting of SEQ ID NO: 1. SEQ ID NO: 2. SEQ ID NO:3, and/or contains component 2, said component 2 being an agent in the form of said expression vector based on the genome of a recombinant strain of human adenovirus serotype 5, wherein the E1 and E3 sites are deleted from said genome, having an amino acid sequence selected from the group consisting of SEQ ID NO: 1. SEQ ID NO: 2. SEQ ID NO:3 for inducing specific immunity against the severe acute respiratory syndrome virus SARS-CoV-2 in a subject aged above 60 years and/or suffering from a chronic disease.

2. Use of an agent comprising component 1, said component 1 being an agent in the form of an expression vector based on the genome of a recombinant strain of human adenovirus serotype 26, wherein the E1 and E3 sites are deleted from said genome and the sites ORF6-Ad26 are replaced with ORF6-Ad5, having an amino acid sequence selected from the group consisting of SEQ ID NO: 1. the amino acid sequence of SEQ ID NO: 2. the amino acid sequence of SEQ ID NO:3 and further comprising component 2, said component 2 being an agent in the form of an expression vector based on the genome of a recombinant strain of simian adenovirus serotype 25 from which the E1 and E3 sites have been deleted and which has an amino acid sequence selected from the group consisting of SEQ ID NO: 4. the amino acid sequence of SEQ ID NO: 2. SEQ ID NO:3, or component 2 alone, for inducing specific immunity against the severe acute respiratory syndrome virus SARS-CoV-2 in a subject aged over 60 years and/or having a chronic disease.

3. Use of an agent comprising component 1, said component 1 being an agent in the form of an expression vector based on the genome of a recombinant strain of simian adenovirus serotype 25, wherein the E1 and E3 sites are deleted from said genome having an amino acid sequence selected from the group consisting of SEQ ID NO: 4. the amino acid sequence of SEQ ID NO: 2. SEQ ID NO:3 and further comprising component 2, said component 2 being an agent in the form of an expression vector based on the genome of a recombinant strain of human adenovirus serotype 5, wherein the E1 and E3 sites are deleted from said genome, having an amino acid sequence selected from the group consisting of SEQ ID NO: 1. the amino acid sequence of SEQ ID NO: 2. the amino acid sequence of SEQ ID NO:3 for inducing specific immunity against the severe acute respiratory syndrome virus SARS-CoV-2 in a subject aged 60 years or older and/or having a chronic disease.

4. The use of claim 1, 2, 3, wherein the agent is administered intranasally and/or intramuscularly.

5. The use of claims 1, 2, 3, wherein the components of the agent are administered sequentially at intervals of more than one week.

6. The use of claim 1, 2, 3, wherein the reagent is in liquid or lyophilized form.

7. The use of claim 6, wherein the liquid form contains a buffer consisting of the following% by weight:

8. use according to claim 6, wherein the reconstituted lyophilized reagent contains a buffer consisting of the following% by weight:

9. use according to claims 1, 2, 3, wherein component 1 and component 2 of the reagent are in separate containers.