Recombinant adenovirus vector expressing Zika antigen with improved productivity
阅读说明:本技术 以提高的生产率表达寨卡抗原的重组腺病毒载体 (Recombinant adenovirus vector expressing Zika antigen with improved productivity ) 是由 T·G·乌伊尔 于 2019-07-19 设计创作,主要内容包括:本文提供了包含编码寨卡病毒M和Env抗原的核苷酸序列的腺病毒载体,其中编码该寨卡病毒M和Env抗原的该核苷酸序列与包含至少一个四环素操纵子(TetO)基序的巨细胞病毒(CMV)启动子可操作地连接。本文还提供了包含这些腺病毒载体的药物组合物,产生这些腺病毒载体的方法,在有需要的受试者中预防寨卡病毒或寨卡病毒进展的方法,以及包含这些腺病毒载体和宿主细胞的试剂盒。(Provided herein are adenoviral vectors comprising nucleotide sequences encoding zika virus M and Env antigens, wherein the nucleotide sequences encoding the zika virus M and Env antigens are operably linked to a Cytomegalovirus (CMV) promoter comprising at least one tetracycline operator (TetO) motif. Also provided herein are pharmaceutical compositions comprising these adenoviral vectors, methods of producing these adenoviral vectors, methods of preventing progression of zika virus or zika virus in a subject in need thereof, and kits comprising these adenoviral vectors and host cells.)
1. An adenovirus vector comprising a nucleotide sequence encoding Zika virus M and Env antigens, wherein the nucleotide sequence encoding the Zika virus M and Env antigens is operably linked to a Cytomegalovirus (CMV) promoter comprising at least one tetracycline operator (TetO) motif.
2. The adenoviral vector of claim 1, wherein the Zika virus M and Env antigens comprise the amino acid sequences of SEQ ID NO 1.
3. The adenoviral vector of claim 1 or 2, wherein the CMV promoter comprising at least one TetO motif comprises a nucleotide sequence selected from the group consisting of SEQ ID NOs 3-5.
4. The adenoviral vector of any one of claims 1 to3, wherein the adenoviral vector is selected from the group consisting of ChAd3, SAdV, rhAd51, rhAd52, rhAd53, hAd4, hAd5, hAd26 and hAd35.
5. The adenoviral vector of claim 4, wherein the adenoviral vector is hAd 26.
6. The adenoviral vector of any one of claims 1 to 5, wherein the adenoviral vector comprises a nucleotide sequence selected from the group consisting of SEQ ID NO 9-11 and SEQ ID NO 15.
7. A host cell comprising the adenoviral vector of any one of claims 1 to 6.
8. The host cell of claim 7, wherein the host cell further comprises a nucleotide sequence encoding a tetracycline repressor (TetR) protein.
9. The host cell of claim 8, wherein the nucleotide sequence encoding the TetR protein is integrated in the genome of the host cell.
10. The host cell of any one of claims 7-9, wherein the host cell is a PER.A host cell.
11. A pharmaceutical composition comprising the adenoviral vector of any one of claims 1 to 6, and a pharmaceutically acceptable carrier.
12. A method of producing an adenovirus particle comprising zika virus M and Env antigens, wherein the method comprises:
a. contacting a host cell with an adenovirus vector comprising nucleotide sequences encoding Zika virus M and Env antigens, wherein the nucleotide sequences encoding the Zika virus M and Env antigens are operably linked to a Cytomegalovirus (CMV) promoter comprising at least one tetracycline operator (TetO) motif; and
b. growing the host cell under conditions that produce the adenovirus particles comprising the Zika M and Env antigens.
13. The method of claim 12, wherein the Zika virus M and Env antigens comprise the amino acid sequences of SEQ ID NO 1.
14. The method of claim 12 or 13, wherein the CMV promoter comprising at least one TetO motif comprises a nucleotide sequence selected from the group consisting of SEQ ID NOs 3-5.
15. The method of any one of claims 12 to 14, wherein the adenoviral vector is selected from the group consisting of ChAd3, SAdV, rhAd51, rhAd52, rhAd53, hAd4, hAd5, hAd26, and hAd35.
16. The method of claim 15, wherein the adenoviral vector is hAd 26.
17. The method of any one of claims 12 to 16, wherein the adenoviral vector comprises a nucleotide sequence selected from the group consisting of SEQ ID NOs 9-11 and 15.
18. The method of claim 12, wherein the host cell further comprises a nucleotide sequence encoding a tetracycline repressor (TetR) protein.
19. The method of claim 18, wherein the nucleotide sequence encoding the TetR protein is integrated in the genome of the host cell.
20. The method of any one of claims 17 to 19, wherein the host cell is a PER.A host cell.
21. A pharmaceutical composition comprising adenovirus particles produced by the method of any one of claims 12-20, and a pharmaceutically acceptable carrier.
22. A method for preventing zika virus infection or progression of zika virus infection in a human subject in need thereof, the method comprising administering to the subject the pharmaceutical composition of claim 21.
23. The method of claim 22, wherein the pharmaceutical composition is administered intramuscularly, intravenously, intradermally, transdermally, intraarterially, intraperitoneally, intralesionally, intracranially, intraarticularly, intraprostaticaly, intrapleurally, intratracheally, intranasally, intravitreally, intravaginally, intrarectally, externally, intratumorally, peritoneally, subcutaneously, subconjunctival, intravesicularlly, transmucosally, intrapericardially, intraumbilically, intraocularly, orally, externally, topically, by inhalation, by injection, by infusion, by continuous infusion, by local perfusion, by catheter, by lavage, or by gavage.
24. A kit, comprising:
a. an adenovirus vector comprising a nucleotide sequence encoding Zika virus M and Env antigens, wherein the nucleotide sequence encoding the Zika virus M and Env antigens is operably linked to a Cytomegalovirus (CMV) promoter comprising at least one tetracycline operator (TetO) motif; and
b. a host cell comprising a nucleotide sequence encoding a tetracycline repressor (TetR) protein.
25. The kit of claim 24, wherein the Zika virus M and Env antigens comprise the amino acid sequences of SEQ ID NO 1.
26. The kit of claim 24 or 25, wherein the CMV promoter comprising at least one TetO motif comprises a nucleotide sequence selected from the group consisting of SEQ ID NOs 3-5.
27. The kit of any one of claims 24 to 26, wherein the adenoviral vector is selected from the group consisting of ChAd3, SAdV, rhAd51, rhAd52, rhAd53, hAd4, hAd5, hAd26, and hAd35.
28. The kit of claim 27, wherein the adenoviral vector is hAd 26.
29. The kit of any one of claims 24 to 28, wherein the adenoviral vector comprises a nucleotide sequence selected from the group consisting of SEQ ID NOs 9-11 and 15.
30. The kit of any one of claims 24 to 29, wherein the nucleotide sequence encoding the TetR protein is integrated in the genome of the host cell.
31. The kit of any one of claims 24 to 30, wherein the host cell is a PER.A host cell.
Technical Field
The present invention relates to biotechnology. More particularly, it relates to the field and use of adenoviral vectors comprising nucleotide sequences encoding Zika virus (ZIKV) M and Env antigens operably linked to a nucleotide sequence comprising a Cytomegalovirus (CMV) promoter comprising at least one tetracycline operator. Also provided are methods of administering a pharmaceutical composition comprising an adenoviral vector or adenoviral particle comprising ZIKV M and Env antigens to prevent or reduce progression of ZIKV infection and/or symptoms caused by ZIKV infection.
Background
Zika virus (ZIKV) is a flavivirus and is responsible for the unprecedented current situation in Brazil and America. ZIKV has been causally linked to microcephaly, intrauterine growth restriction, and other birth defects in human and murine models. ZIKV is believed to cause neuropathology in the developing fetus by crossing the placenta and targeting cortical neural progenitor cells, leading to impaired neurogenesis and causing microcephaly and other congenital malformations.
World health organization announced in 2016, 2 months, 1, that a large number of microcephaly and neurological disorders and their association with ZIKV infection are global public health emergencies. ZIKV has also been associated with neurological conditions such as Guillain-barre syndrome (Guillain-barre syndrome). Although the rapid development of safe and effective ZIKV vaccines is an important point of global health, very little is currently known about ZIKV immunology and immunoprotection mechanisms.
Therefore, there is an unmet need in the field of ZIKV vaccines.
The foregoing discussion is given solely for the purpose of better understanding the nature of the problems faced in the art and should not be construed in any way as an admission that such references constitute "prior art" to the present application.
Disclosure of Invention
Provided herein are adenoviral vectors comprising nucleotide sequences encoding zika virus M and Env antigens, wherein the nucleotide sequences encoding the zika virus M and Env antigens are operably linked to a Cytomegalovirus (CMV) promoter comprising at least one tetracycline operator (TetO) motif. In certain embodiments, the Zika virus M and Env antigens comprise the amino acid sequences of SEQ ID NO 1. In certain embodiments, the CMV promoter comprising at least one TetO motif comprises a nucleotide sequence selected from the group consisting of SEQ ID NOS 3-5.
In certain embodiments, the adenoviral vector is selected from the group consisting of ChAd3, SAdV, rhAd51, rhAd52, rhAd53, hAd4, hAd5, hAd26, and hAd35. In certain embodiments, the adenoviral vector comprises a nucleotide sequence selected from the group consisting of SEQ ID NOS: 9-11 and SEQ ID NO: 15.
Host cells that produce the adenoviral vectors of the invention are also provided. In certain embodiments, the host cell further comprises a nucleotide sequence encoding a tetracycline repressor (TetR) protein. The nucleotide sequence encoding the TetR protein may, for example, be integrated in the genome of the host cell. The nucleotide sequence encoding the TetR protein may be integrated in chromosome 1. In certain embodiments, the host cell isA host cell.
Also provided are pharmaceutical compositions comprising the adenoviral vectors of the invention and a pharmaceutically acceptable carrier.
Also provided are methods of producing adenovirus particles comprising Zika virus M and Env antigens. These methods comprise (a) contacting a host cell of the invention with an adenoviral vector of the invention; and (b) growing the host cell under conditions to produce the adenovirus particle of the invention.
Also provided are pharmaceutical compositions comprising the adenovirus particles of the invention and a pharmaceutically acceptable carrier.
Also provided are methods for preventing Zika virus infection or the progression of Zika virus infection in a human subject in need thereof, comprising administering to the subject a pharmaceutical composition of the invention. The pharmaceutical compositions of the invention may be administered, for example, intramuscularly, intravenously, intradermally, transdermally, intraarterially, intraperitoneally, intralesionally, intracranially, intraarticularly, intraprostaticaly, intrapleurally, intratracheally, intranasally, intravitreally, intravaginally, intrarectally, externally, intratumorally, peritoneally, subcutaneously, subconjunctival, intravesicularlly, transmucosally, intrapericardially, intraumbilically, intraocularly, orally, externally, topically, by inhalation, by injection, by infusion, by continuous infusion, by local perfusion, by catheter, by lavage, or by gavage.
Kits are also provided, which comprise (a) an adenoviral vector of the invention; and (b) a host cell of the invention.
Drawings
The foregoing summary, as well as the following detailed description of preferred embodiments of the present application, will be better understood when read in conjunction with the appended drawings. It should be understood, however, that the present application is not limited to the precise embodiments shown in the drawings.
FIG. 1 shows a nucleotide sequence comparison of positions-40 to +40 of the human cytomegalovirus promoter (CMV) with the corresponding positions of the CMV promoters with 1 xtO described herein (2A1, 2A2, 2B1, 3A and 3B). For each of these promoters with 1 tetO, only nucleotides other than CMV are shown; nucleotides that match those of CMV are shown as dots. Each promoter with 1x tetO, the open arrows indicate the position and orientation of the single tetO sequence (TCCCTATCAGTGATAGAGA) (SEQ ID NO: 20). Inr, the starting element; TSS, transcription start site (i.e. position + 1); the 54bp long sequence insert with "2 tetO" present in SacI, CMVtetO v 1.
FIG. 2 shows a diagram illustratingCells andexpression of the CMV promoters 2a1, 2a2, 2B1, 3A and 3B with 1 xto and the promoter CMVtetO v1(CMVtetO) with 2 xto relative to CMV in the cell.
FIG. 3 shows Ad26.ZIKV.002 in suspensionCellsAnd suspendCellsRelative productivity in (2).Cells andcells were transduced in shake flasks with indicated CsCl purified Ad26 vector study batches. Samples were taken at 0, 1,2, 3 and 4 days post infection and vector particle concentrations were measured by VP-qPCR. The dashed line indicates the input material level. In both cell lines, ad26.zik.002 was based on good producers, medium producers and low producers.
FIG. 4 shows Ad26.ZIKV.002 in suspension in a small scale production modelCell neutralization in two different suspensionsProductivity in clones.
FIGS. 5A-5B show Ad26.ZIKV.001 and Ad26.ZIKV.002 in suspension at 70 vp/cell and 10L scale (A) and 300 vp/cell and 10L or 50L scale (B)Cells and suspensionsProductivity in cells.
FIG. 6 shows a cross-sectional view of a tube 1011Serum from vp ad26.zikv.002 or buffer-formulated (sham) immunized NHPs (n-4 or 5 per group) gave a humoral response 4 weeks after immunization. Left panel: the Env-specific binding IgG antibody response was determined using a commercially available ELISA kit (Alpha Diagnostics, San Antonio, TX)And is expressed as log of the reciprocal of the first dilution10And is 5 times higher than the original serum background value. The average response of each group is represented by the horizontal line. The dashed line shows the lower limit of detection, defined as being below the initial dilution of the sample (0.92 log)10) One dilution of (a). Right panel: ZIKV-PR neutralization titers were measured by a reduced focus neutralization test (Southern Research; Birmingham, AL) and reported as a 50% reduction in input virus numbers (IC)50) Log of the reciprocal dilution of serum of (1)10. The average response of each group is represented by the horizontal line. The dashed line shows the lower limit of detection, defined as being below the initial dilution of the sample (0.70 log)10) One dilution of (a).
Fig. 7 shows the protective efficacy of ad26.zikv.002 on ZIKV-BR challenges in NHP. By 1011Animals were immunized (4 or 5 n per group) with vp ad26.zikv.002 (right panel) or formulated buffer (sham, left panel). Four weeks after immunization, 10 s by subcutaneous route3pfu ZIKV-BR challenges animals. Plasma and cerebrospinal fluid (CSF) were obtained at several time points before challenge and after challenge. Viral load in plasma (upper panel) or CSF (lower panel) was determined by RT-PCR and expressed as log10ZIKV copy number/mL. Limit of detection of the assay<100 copies/mL.
Detailed Description
The present disclosure is based, at least in part, on the identification of an adenovirus vector comprising a nucleotide sequence encoding Zika virus M and Env antigens operably linked to a nucleotide sequence of a Cytomegalovirus (CMV) promoter comprising at least one tetracycline operator (TetO) motif, thereby allowing for cost-effective large-scale manufacture of adenovirus particles comprising Zika virus M and Env antigens. Without being limited by theory, it is believed that expression of the M and Env antigens of zika virus results in low levels of adenovirus particle production. The addition of a TetO motif to the CMV promoter allows for higher levels of adenovirus particle production.
Various publications, articles and patents are cited or described in the background and throughout the specification; each of these references is incorporated by reference herein in its entirety. The discussion of documents, acts, materials, devices, articles and the like which has been included in the present specification is for the purpose of providing a context for the present invention. This discussion is not an admission that any or all of these matters form part of the prior art with respect to any invention disclosed or claimed.
Unless defined otherwise, all scientific and technical terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Otherwise, certain terms used herein have the meanings set forth in the specification.
It must be noted that, as used herein and in the appended claims, the singular forms "a," "an," and "the" include plural referents unless the context clearly dictates otherwise.
Unless otherwise indicated, any numerical value, such as a concentration or concentration range described herein, is to be understood as being modified in all instances by the term "about". Accordingly, numerical values typically include the enumerated values ± 10%. For example, a concentration of 1mg/mL includes 0.9mg/mL to 1.1 mg/mL. Likewise, a concentration range of 1% to 10% (w/v) includes 0.9% (w/v) to 11% (w/v). As used herein, the use of a range of values explicitly includes all possible subranges, all individual values within the range, including integers and fractions within the range of values, unless the context clearly dictates otherwise.
The term "at least" preceding a series of elements is to be understood as referring to each element in the series, unless otherwise indicated. Those skilled in the art will recognize, or be able to ascertain using no more than routine experimentation, many equivalents to the specific embodiments of the invention described herein. Such equivalents are also intended to be encompassed by the present invention.
As used herein, the terms "comprises," "comprising," "includes," "including," "has," "having," "contains," "containing," or any other variation thereof, are to be construed as meaning including the stated integer or group of integers but not excluding any other integer or group of integers, and are intended to be non-exclusive or open-ended. For example, a composition, mixture, process, method, article, or apparatus that comprises a list of elements is not necessarily limited to only those elements but may include other elements not expressly listed or inherent to such composition, mixture, process, method, article, or apparatus. Further, unless expressly stated to the contrary, "or" means an inclusive or and not an exclusive or. For example, any one of the following satisfies condition a or B: a is true (or present) and B is false (or not present), a is false (or not present) and B is true (or present), and both a and B are true (or present).
As used herein, the connecting term "and/or" between a plurality of referenced elements is to be understood to encompass both separate and combined options. For example, when two elements are combined and/or connected, a first option refers to the application of the first element without the second element. The second option refers to the application of the second element without the first element. The third option refers to the application of the first element and the second element together. Any of these options should be understood to fall within this meaning and thus satisfy the requirements of the term "and/or" as used herein. Simultaneous application of more than one of these options should also be understood to fall within this meaning and thus fulfill the requirements of the term "and/or".
As used herein, the term "consisting of … …" or variants as used throughout the specification and claims is intended to include any recited integer or group of integers, and no additional integer or group of integers may be added to a given method, structure, or composition.
As used herein, the term "consisting essentially of … …" or variants as used throughout the specification and claims is intended to include any recited integer or group of integers, and optionally any recited integer or group of integers which does not materially alter the basic or novel characteristics of the specified method, structure or composition. See m.p.e.p. § 2111.03.
As used herein, "subject" or "patient" means any animal, preferably a mammal, most preferably a human, to which a pharmaceutical composition and/or vaccine comprising the adenoviral vector/adenoviral particle of the invention is to be or has been administered. The term "mammal" as used herein encompasses any mammal. Examples of mammals include, but are not limited to, cows, horses, sheep, pigs, cats, dogs, mice, rats, rabbits, guinea pigs, monkeys, humans, and the like, more preferably humans.
As used herein, "a method of providing safe administration" means an administration method that, when administered to a subject, effectively generates an immune response against zika virus without causing unacceptable adverse events.
As used herein, the phrases "unacceptable adverse event" and "unacceptable adverse reaction" shall mean all harmful or undesirable results associated with or caused by administration of a pharmaceutical composition or therapeutic agent to such a degree that the pharmaceutical composition or therapeutic agent is deemed unacceptable by regulatory agencies for suggested use. Examples of unacceptable adverse events or reactions when used in the context of administration of adenovirus particles comprising nucleic acid molecules encoding zika virus antigens may include, but are not limited to, swelling, injection side pain, headache, malaise, muscle soreness, nausea, and fever.
In certain embodiments, "safe treatment" and "safe administration" when used in connection with the administration of an adenoviral vector comprising a nucleic acid molecule encoding a zika virus antigen means reducing adverse events including, but not limited to, swelling, injection side pain, headache, malaise, muscle soreness, nausea, and fever.
The words "right", "left", "lower" and "upper" designate directions in the drawings to which reference is made.
It should be understood that when referring to specifications or characteristics of components of the preferred invention, the terms "about", "generally", "substantially", and the like are used herein to indicate that the specification/characteristics being described do not have strict limits or parameters and do not exclude functionally identical or similar minor variations therefrom, as will be understood by those of ordinary skill in the art. At a minimum, such reference to include numerical parameters would include variations that do not alter the least significant digit, using mathematical and industrial principles accepted in the art (e.g., rounding errors, measurement errors or other systematic errors, manufacturing tolerances, etc.).
The term "identical" or percent "identity," in the context of two or more nucleic acid or polypeptide sequences (e.g., adenoviral vectors, Zika virus M and Env polypeptides, as well as nucleotide sequences encoding M and Env polypeptides, cytomegalovirus promoter nucleotide sequences, and tetracycline operator (TetO) sequences), refers to two or more sequences or subsequences that are the same or have a specified percentage of amino acid residues or nucleotides that are the same, or that are the same, when compared and aligned for maximum correspondence, as measured using one of the following sequence comparison algorithms or by visual inspection.
For sequence comparison, typically one sequence serves as a reference sequence to which test sequences are compared. When using a sequence comparison algorithm, the test sequence and the reference sequence are input into a computer, subsequence coordinates are designated, if necessary, and sequence algorithm program parameters are designated. The sequence comparison algorithm then calculates the percent sequence identity of the test sequence relative to the reference sequence based on the specified program parameters.
These algorithms can be executed by Computer (GAP, BESTFIT, FASTA and TFASTA in the wisconsin Genetics software package, Genetics Computer Group (Genetics Computer Group), 575, wisconsin science, Madison (Madison, WI), or by visual inspection (see generally, Current Protocols Biology, Inc. published by company, Inc. in general, company, Inc. for Molecular Biology, Inc. for example, by the local homology algorithm of Smith and Waterman, adv.appl.2: 482(1981), by the homology alignment algorithm of Needleman and Wunsch, j.mol.biol. [ journal of Molecular Biology ]48:443(1970), by the similarity search method of Pearson and Lipman, proc.nat' l.acad.sci.usa [ proceedings of the american academy of sciences ]85:2444(1988), or by visual inspection (see generally, company of Current Protocols Biology, Inc. in general, Inc. for Molecular Biology, Inc. in general, Inc. for purposes of general, company, Inc. in general, otsubel (Ausubel), 1995 supplement, was used to perform the optimal alignment of the sequences for comparison.
Examples of algorithms suitable for determining percent sequence identity and sequence similarity are the BLAST and BLAST2.0 algorithms described in Altschul et al (1990) J.mol.biol. [ J.M. 215: 403-. Software for performing BLAST analysis is publicly available through the National Center for Biotechnology Information. The algorithm involves first identifying high scoring sequence pairs (HSPs) by identifying short words of length W in the query sequence, which match or satisfy some positive-valued threshold score T when aligned with a word of the same length in a database sequence. T is referred to as the neighborhood word score threshold (Altschul et al, supra). These initial neighborhood word hits will serve as seeds for initiating searches to find longer HSPs containing them. Then, as long as the cumulative alignment score can be increased, word hits extend in both directions along each sequence.
Cumulative scores are calculated using the parameters M (reward score for a pair of matching residues; always >0) and N (penalty for mismatching residues; always <0) for nucleotide sequences. For amino acid sequences, a scoring matrix is used to calculate the cumulative score. The extension of the word hits in each direction is stopped when there are: the cumulative alignment score decreases by an amount X from its maximum value reached; the cumulative score becomes zero or lower due to accumulation of one or more negative scoring residue alignments; or to the end of either sequence. The BLAST algorithm parameters W, T and X determine the sensitivity and speed of the alignment. The BLASTN program (for nucleotide sequences) uses a word length of 11 (W), an expectation of 10 (E), M-5, N-4, and a comparison of the two strands as defaults. For amino acid sequences, the BLASTP program uses a word size (W) of 3, an expectation (E) of 10, and the BLOSUM62 scoring matrix as defaults (see Henikoff & Henikoff, proc. natl. acad. sci. usa [ journal of the national academy of sciences ]89:10915 (1989)).
In addition to calculating percent sequence identity, the BLAST algorithm also performs a statistical analysis of the similarity between two sequences (see, e.g., Karlin & Altschul, Proc. Nat' l.Acad. Sci. USA [ Proc. Natl. Acad. Sci. ]90:5873-5787 (1993)). One measure of similarity provided by the BLAST algorithm is the smallest sum probability (P (N)), which provides an indication of the probability by which a match between two nucleotide or amino acid sequences would occur by chance. For example, a nucleic acid is considered similar to a reference sequence if the smallest sum probability in a comparison of the test nucleic acid to the reference nucleic acid is less than about 0.1, more preferably less than about 0.01, and most preferably less than about 0.001.
Another indication that two nucleic acid sequences or polypeptides are substantially identical is that the polypeptide encoded by the first nucleic acid is immunologically cross-reactive with the polypeptide encoded by the second nucleic acid, as described below. Thus, for example, two peptides are typically substantially identical if a polypeptide and a second polypeptide differ only by conservative substitutions. Another indication that two nucleic acid sequences are substantially identical is that the two molecules hybridize to each other under stringent conditions.
As used herein, the term "immune response" or "protective immune response" means that the vaccinated subject is able to control infection (e.g., ZIKV infection) by the causative agent (e.g., ZIKV M and Env antigens) to which the vaccination was performed. The pathogenic agent may be, for example, an antigenic gene product or an antigenic protein, or a fragment thereof. Typically, a subject who has developed an "immune response" or a "protective immune response" develops only mild to moderate clinical symptoms or no symptoms at all. Typically, a subject who has developed an "immune response" or a "protective immune response" against zika virus will not develop or will be less prone to disease manifestations, and ultimately the subject will not die from infection with the virus. In addition, a subject who has developed an "immune response" or a "protective immune response" against zika virus will have a reduced chance of brain abnormalities in her infant exposed to the virus in utero.
By "generating an immune response" or "promoting an immune response" or "eliciting an immune response" is meant eliciting a humoral response (e.g., production of antibodies) or cellular response (e.g., activation of T cells, macrophages, neutrophils, and/or natural killer cells) against, for example, one or more infectious agents (e.g., viruses (e.g., ZIKV)) or protein targets in a subject to which a pharmaceutical composition (e.g., an immunogenic composition or vaccine) has been administered.
By "immunogen" or "antigen" is meant any polypeptide that can induce an immune response in a subject following administration. In some embodiments, the immunogen or antigen is encoded by a nucleic acid molecule that can be incorporated, for example, into an adenoviral vector of the invention for subsequent expression of the immunogen or antigen (e.g., a gene product of interest or a fragment (e.g., a polypeptide) thereof). In some embodiments, the antigen is derived from ZIKV (e.g., ZIKV from asian and/or non-asian lineages (e.g., ZIKV strain BeH815744 (accession number KU 365780)). in some embodiments, the antigen is administered in the context of a nucleic acid molecule that expresses a polypeptide derived from ZIKV (e.g., ZIKV M and Env antigens from ZIKV of asian and/or non-asian lineages (e.g., ZIKV strain BeH815744 (accession number KU 365780)).
The term "immunogenic composition" or "pharmaceutical composition" as used herein is defined as a material used to generate an immune response and may confer immunity upon administration of the immunogenic composition to a subject.
By "isolated" is meant separated, recovered or purified from components of its natural environment. For example, a nucleic acid molecule or polypeptide of the invention can be isolated from a component of its natural environment by 1% (2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, or 90%) or more.
Adenoviruses, nucleic acid molecules and polypeptides of the invention
In WO 2017/214596 entitled "Compositions and Methods for prevention and treatment of Zika Virus Infection" directed to ZIKV and treting Zika Virus Infection, ZIKV polypeptides are disclosed that, when administered to a subject (e.g., a mouse or monkey) infected with or potentially exposed to ZIKV Infection, can be used to elicit a protective immune response against ZIKV Infection. ZIKV polypeptides used in preparing pharmaceutical compositions for administration may include M-Env, prM-env.dtm, prM-env.dstem, Env, env.dtm, and/or env.dstem, or a portion thereof. Alternatively, the ZIKV polypeptide may be encoded by a nucleic acid molecule contained within a vector (e.g., an adenoviral vector).
Provided herein are adenoviral vectors comprising nucleotide sequences encoding M and Env antigens of zika virus. The nucleotide sequences encoding the zika virus M and Env antigens may, for example, be operably linked to a Cytomegalovirus (CMV) promoter comprising at least one tetracycline operator (TetO) motif. In certain embodiments, the CMV promoter comprises one, two, three, four, or five TetO motifs. The CMV promoter may, for example, be selected from the group consisting of SEQ ID NOs 3-5 provided in Table 1 below.
Table 1: a TetO-containing CMV promoter useful for controlling the expression of zika virus M and Env antigens in an adenovirus vector.
Promoters
SEQ ID NO:
2A1
3
2A2
4
2B1
5
In certain embodiments, the Zika virus M and Env antigens comprise the amino acid sequences of SEQ ID NO 1. The nucleotide sequences encoding the Zika virus M and Env antigens comprise SEQ ID NO 2.
The nucleotide sequence of the nucleic acid molecule has at least 85% (e.g., at least 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99% or 100%) sequence identity to all or a portion of any of SEQ ID NOs 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14 or 15. Alternatively, the isolated nucleic acid molecule has a nucleotide sequence encoding the ZIKV M and Env antigens that has at least 85% (e.g., at least 86%, 87%, 88%, 89%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99%, or 100%) sequence identity to all or a portion of SEQ ID No. 1.
The nucleic acid molecules of the invention can be further optimized, such as by codon optimization, for expression in a targeted mammalian subject (e.g., human).
The nucleic acid molecule may also be inserted into an expression vector, such as an adenoviral vector, and incorporated into the compositions of the invention. The terms "adenoviral vector" and "adenoviral particle" are used interchangeably to refer to a genetically engineered adenovirus designed to insert a polynucleotide of interest (e.g., a polynucleotide encoding a ZIKV M and Env antigen) into a eukaryotic cell such that the polynucleotide is subsequently expressed. Examples of adenoviruses that can be used as viral vectors of the invention include those having or derived from serotypes Ad2, Ad4, Ad5, Ad11, Ad12, Ad24, Ad26, Ad34, Ad35, Ad40, Ad48, Ad49, Ad50, Ad52 (e.g., RhAd52), and Pan9 (also referred to as AdC 68); these vectors may be derived, for example, from a human, a chimpanzee (e.g., ChAd1, ChAd3, ChAd7, ChAd8, ChAd21, ChAd22, ChAd23, ChAd24, ChAd25, ChAd26, ChAd27.1, ChAd28.1, ChAd26, ChAd31.1, ChAd26, ChAd35.1, ChAd26, ChAd37.2, ChAd26, chaad 40.1, chaad 41.1, chaad 42.1, ChAd26, or SA7 adenovirus) or a rhesus monkey (e.g.g., rh3672, or rh3672).
"nucleic acid molecule" or "polynucleotide" as used interchangeably herein refers to a polymer of nucleotides of any length, and includes DNA and RNA. The nucleotides may be deoxyribonucleotides, ribonucleotides, modified nucleotides or bases, and/or their analogs, or any substrate that can be incorporated into the polymer by DNA or RNA polymerase or by synthetic reaction. Polynucleotides may comprise modified nucleotides, such as methylated nucleotides and analogs thereof. Modifications to the nucleotide structure, if present, may be imparted before or after assembly of the polymer. The sequence of nucleotides may be interrupted by non-nucleotide components. The polynucleotide may be further modified after synthesis, for example by conjugation with a label.
By "heterologous nucleic acid molecule" is meant a nucleotide sequence that can encode a protein derived or obtained from a pathogenic organism (such as a virus) that can be incorporated into a polynucleotide or vector of the invention. The heterologous nucleic acid may also encode a synthetic or artificial protein, such as an immunogenic epitope, that is constructed to induce immunity. Examples of heterologous nucleic acid molecules are nucleic acid molecules encoding one or more immunogenic peptides or polypeptides derived from Zika virus (e.g., ZIKV M and Env antigens). A heterologous nucleic acid molecule is a nucleic acid molecule that is not normally associated with other nucleic acid molecules found in the polynucleotide or vector in which the heterologous nucleic acid molecule is incorporated.
By "nucleic acid vaccine" or "DNA vaccine" is meant a vaccine that includes a heterologous nucleic acid molecule under the control of a promoter for expression in a subject. The heterologous nucleic acid molecule can be incorporated into an expression vector, such as an adenoviral vector.
As used herein, the term "vaccine" is defined as a material used to elicit an immune response and confer immunity for a period of time following administration of the vaccine to a subject.
A "promoter" is a nucleic acid sequence that enables transcription of a gene sequence in messenger RNA to be initiated by the binding of an RNA polymerase on or near the promoter.
As provided herein, in certain embodiments, the promoter is a cytomegalovirus promoter comprising at least one tetracycline operator (TetO) motif. A TetO motif may be referred to as a "regulatory sequence" or "regulatory element," as used herein, refers to a nucleic acid segment, typically but not limited to DNA, that regulates transcription of a nucleic acid to which it is operably linked, and thus acts as a transcriptional regulator. Regulatory sequences typically comprise nucleic acid sequences that are transcription binding domains that are recognized by nucleic acid binding domains of transcription proteins and/or transcription factors, enhancers or repressors, and the like. For example, a repressor sequence may be operably coupled to a promoter, which repressor sequence may be bound by a repressor protein that may reduce or prevent expression of the transgene in a production cell line that expresses the repressor protein. This may improve the genetic stability and/or expression level of the nucleic acid molecule when passaged and/or when it is produced in large quantities in a production cell line. Such systems have been described in the art. The regulatory sequences may include one or more tetracycline operator (TetO) motifs/sequences such that expression is inhibited in the presence of the tetracycline repressor protein (TetR). In the absence of tetracycline, the TetR protein is capable of binding to the TetO site and inhibiting transcription of transgenes (e.g., ZIKV M and Env antigens) operably linked to the TetO motif/sequence. However, in the presence of tetracycline, conformational changes in the TetR protein prevent its binding to the TetO sequence, allowing transcription of the operably linked transgene to occur. In certain embodiments, the nucleic acids encoding the ZIKV M and Env antigens, when present in an adenoviral vector, are operably linked to a Cytomegalovirus (CMV) promoter comprising at least one tetracycline operator (TetO) motif such that expression of the ZIKV M and Env antigens is inhibited in a recombinant adenovirus produced in a producer cell line in which the TetR protein is expressed. Subsequently, expression is not inhibited in recombinant adenoviral vectors introduced into the subject or cells that do not express the TetR protein.
As used herein, the term "repressor" refers to a molecule (e.g., protein) that has the ability to inhibit, interfere with, block, and/or repress the production of a heterologous protein product from a recombinant expression vector (e.g., an adenoviral vector). Repressors can inhibit expression by interfering with binding sites at appropriate locations along the expression vector, such as in the expression cassette (e.g., TetR can bind the TetO motif in the CMV promoter). Repressing vector transgene expression during vector propagation can prevent instability of the transgene and can increase the yield of the vector with the transgene during production.
A nucleic acid is "operably linked" when it is in a structural or functional relationship with another nucleic acid sequence. For example, one DNA segment is operably linked to another DNA segment, provided that they are located on the same contiguous DNA molecule relative to each other and in a structural or functional relationship, such as a promoter or enhancer positioned relative to the coding sequence so as to facilitate transcription of the coding sequence; the ribosome binding site is positioned relative to the coding sequence so as to facilitate translation; or the presequence or secretory leader sequence is positioned relative to the coding sequence to facilitate expression of the preprotein (e.g., a preprotein that is involved in secretion of the encoded polypeptide). In other examples, operably linked nucleic acid sequences are not contiguous, but are positioned in such a way that they are in a functional relationship with each other as nucleic acids or proteins expressed by such nucleic acids. For example, enhancers need not be contiguous. Ligation may be achieved by ligation at convenient restriction sites or by using synthetic oligonucleotide adaptors or linkers.
The adenovirus according to the invention belongs to the family Adenoviridae (Adenoviridae) and is preferably a species belonging to the genus mammalian adenovirus (Mastadenoviridus). It may be a human adenovirus, but may also be an adenovirus that infects other species, including but not limited to a bovine adenovirus (e.g., bovine adenovirus 3, BAdV3), a canine adenovirus (e.g., CAdV2), a porcine adenovirus (e.g., PAdV3 or PAdV5), or a simian adenovirus (which includes simian adenovirus and simian adenovirus, such as chimpanzee adenovirus or gorilla adenovirus). Preferably, the adenovirus is a human adenovirus (HAdV or AdHu; in the context of the present invention, if reference is made to an adenovirus but no species is indicated, that is to say a human adenovirus, for example the short notation "Ad 5" means the same as HAdV5 (human adenovirus serotype 5)) or a simian adenovirus (such as a chimpanzee or gorilla adenovirus (ChAd, AdCh or SAdV)).
Most advanced studies have been performed using human adenoviruses, and human adenoviruses are preferred according to certain aspects of the invention. In certain preferred embodiments, the recombinant adenovirus according to the invention is based on a human adenovirus. In preferred embodiments, the recombinant adenovirus is based on human adenovirus serotype 4, 5, 11, 26, 34, 35, 48, 49, or 50. According to a particularly preferred embodiment of the invention, the adenovirus is a human adenovirus of one of serotypes 26 or 35.
The advantage of these serotypes is a low seroprevalence in the human population and/or a low pre-existing neutralizing antibody titer. The preparation of the rAd26 vector is described, for example, in WO 2007/104792 and in Abbink et al, (2007) Virol [ virology ]81(9):4654-63, both of which are incorporated herein by reference in their entirety. Exemplary genomic sequences of Ad26 are found in GenBank accession number EF 153474 and in SEQ ID NO 1 of WO 2007/104792. For example, in U.S. Pat. No. 7,270,811, in WO 00/70071 and in Vogels et al, (2003), J Virol [ J. Virol ]77(15):8263-71, the preparation of rAd35 vectors is described, which is incorporated herein by reference in its entirety. Exemplary genomic sequences of Ad35 are found in GenBank accession number AC — 000019 and in fig. 6 of WO 00/70071.
Simian adenoviruses also generally have low seroprevalence and/or low pre-existing neutralizing antibody titers in human populations and a great deal of work has been reported with chimpanzee adenovirus vectors (e.g., US 6083716; WO 2005/071093; WO 2010/086189; WO 2010085984; Farina et al, 2001, J Virol [ J. Virol ]75: 11603-13; Cohen et al, 2002, J Gen Virol [ J. Gen. Virol ]83: 151-55; Kobiner et al,2006, Virology [ Virology ]346: 394: 401; Tatsis et al, 2007, Molecular Therapy [ Molecular Therapy ]15: 608-17; see also Bangari and Mittal,2006, Vaccine [ Vaccine ]24: 849-62; and reviews of Lasaro and Ertl,2009, Mol Therapy [ Molecular Therapy ]17: Ther 3-39). Thus, in other preferred embodiments, the recombinant adenovirus according to the invention is based on a simian adenovirus, such as a chimpanzee adenovirus. In certain embodiments, the recombinant adenovirus is based on simian adenovirus type 1, 7, 8, 21, 22, 23, 24, 25, 26, 27.1, 28.1, 29, 30, 31.1, 32, 33, 34, 35.1, 36, 37.2, 39, 40.1, 41.1, 42.1, 43, 44, 45, 46, 48, 49, 50, or SA 7P.
Adenovirus vector rAd26
In a preferred embodiment according to the invention, the adenoviral vector comprises capsid proteins from two rare serotypes: ad26 or Ad35. In a typical example, the vector is rAd26 virus.
One skilled in the art will recognize that elements derived from multiple serotypes may be combined in a single recombinant adenoviral vector. Thus, chimeric adenoviruses can be produced that combine desirable properties from different serotypes. Thus, in some embodiments, the chimeric adenoviruses of the invention can combine the deletion of pre-existing immunity of the Ad26 serotype with the following features: such as temperature stability, assembly, anchoring, yield, redirected or improved infection, stability of DNA in the target cell, and the like.
In certain embodiments, a recombinant adenoviral vector useful in the invention is derived primarily or entirely from Ad26 (i.e., the vector is rAd 26). In certain embodiments, the adenovirus is replication-defective, e.g., in that it comprises a deletion in the E1 region of the genome. For adenoviruses of the invention derived from Ad26, it is typical to exchange the E4-orf6 coding sequence of the adenovirus with the E4-orf6 of an adenovirus of human subgroup C (such as Ad 5). This allows propagation of such adenoviruses in well-known complementary cell lines expressing the E1 gene of Ad5, such as, for example, HEK293 cells orCells, etc. (see, e.g., Havenga et al,2006, J Gen Virol [ journal of general virology ]]2135-43 parts of total weight of the plant; WO 03/104467). In certain embodiments, the adenovirus is a human adenovirus of serotype 35 having a deletion in the E1 region into which a nucleic acid encoding an antigen has been cloned and having the E4orf6 region of Ad 5. In certain embodiments, the adenovirus is a human adenovirus of serotype 26, having a deletion in the E1 region into which a nucleic acid encoding an antigen has been cloned, and having the E4orf6 region of Ad 5. For Ad35 adenoviruses, it is typical to leave the 3 'end of the E1B 55K open reading frame in the adenovirus, e.g., 166bp directly upstream of the pIX open reading frame or a fragment comprising this 166bp, such as a 243bp fragment (marked at the 5' end with a Bsu36I restriction site) directly upstream of the pIX start codon, asIn order to leave the promoter portion of the pIX gene in this region, this increases the stability of the adenovirus (see, e.g., Havenga et al,2006, supra; WO 2004/001032). The preparation of recombinant adenoviral vectors is well known in the art.
The preparation of the rAd26 vector is described, for example, in WO 2007/104792 and in Abbink et al, (2007) Virol [ virology ]81(9): 4654-63. Exemplary genomic sequences of Ad26 are found in GenBank accession number EF 153474 and in SEQ ID NO 1 of WO 2007/104792. For example, in U.S. Pat. No. 7,270,811 and in Vogels et al, (2003), J Virol [ J.Virol ]77(15):8263-71, the preparation of rAd35 vectors is described. An exemplary genomic sequence of Ad35 is found in GenBank accession number AC — 000019.
In one embodiment of the invention, vectors useful in the present invention include those described in WO 2012/082918, the disclosure of which is incorporated herein by reference in its entirety.
Typically, a vector useful in the present invention is produced using a nucleic acid comprising the entire recombinant adenoviral genome (e.g., a plasmid, cosmid, or baculovirus vector). Thus, the invention also provides isolated nucleic acid molecules encoding the adenoviral vectors of the invention. The nucleic acid molecules of the invention may be in the form of RNA or in the form of DNA obtained by cloning or produced synthetically. The DNA may be double-stranded or single-stranded.
Such adenoviral vectors useful in the invention are typically replication-defective. In these embodiments, the virus is rendered replication-deficient by deleting or inactivating regions critical to viral replication, such as the E1 region. These regions may be substantially deleted or inactivated by, for example, insertion of a gene of interest (usually linked to a promoter). In some embodiments, the vectors of the invention may contain deletions in other regions, such as the E2, E3, or E4 regions, or insertions of heterologous genes linked to a promoter. For E2-and/or E4-mutated adenoviruses, recombinant adenoviruses are generally produced using E2-and/or E4 complementing cell lines. Mutations in the E3 region of this adenovirus need not be complemented by the cell line, since E3 is not required for replication.
Packaging cell lines are typically used to produce sufficient quantities of the adenoviral vectors of the invention. Packaging cells are cells that contain those genes that are deleted or inactivated in a replication-defective vector, thus allowing the virus to replicate in the cell. Suitable cell lines include, for example,911. 293 and E1 a 549.
In certain embodiments, the packaging cell line or host cell line further comprises a nucleotide sequence encoding a tetracycline repressor (TetR) protein. The nucleotide sequence encoding the TetR protein may, for example, be integrated in the genome of a packaging cell line or a host cell line. For example, the nucleotide sequence encoding the TetR protein may be integrated in chromosome 1. The packaging cell line/host cell line may be, for examplePackaging cell line/host cell line.
In certain embodiments, provided herein are methods of producing adenovirus particles comprising zika virus M and Env antigens. These methods comprise (a) contacting a host cell of the invention with an adenoviral vector of the invention, and (b) growing the host cell under conditions that produce adenoviral particles comprising zika M and Env antigens.
In certain embodiments, the adenoviral vector comprises a transgene. "transgene" refers to a heterologous nucleic acid, a nucleic acid that does not naturally occur in a vector, and according to the present invention, the transgene may encode an antigenic gene product or an antigenic protein (e.g., ZIKV M and Env antigens) that elicits an immune response in a subject. The transgene may be introduced into the vector, for example, by standard molecular biology techniques. For example, the transgene may be cloned into the deleted E1 or E3 region, or the region between the E4 region and the rtir of the adenoviral vector. Typically, the transgene is operably linked to an expression control sequence. In a preferred embodiment, the transgene is inserted into the transgene insertion site.
Pharmaceutical composition
In another general aspect, the invention relates to pharmaceutical compositions comprising an adenoviral vector (or adenoviral particle) of the invention (i.e., an adenoviral vector or adenoviral particle comprising nucleic acid molecules encoding zika virus M and Env antigens) and a pharmaceutically acceptable carrier. The adenoviral vectors (or particles) of the invention and compositions comprising them may also be used in the manufacture of medicaments for the therapeutic applications mentioned herein.
By "pharmaceutical composition" is meant any composition containing a therapeutic or biologically active agent, such as an immunogenic composition or vaccine of the invention (e.g., an adenovirus particle comprising a ZIKV nucleic acid molecule and/or a polypeptide/antigen of the invention), which preferably includes a nucleotide sequence encoding an antigenic gene product of interest, or a fragment thereof, that is suitable for administration to a subject and for treating or preventing a disease (e.g., ZIKV infection) or alleviating or ameliorating one or more symptoms of the disease (e.g., ZIKV viral titer, viral transmission, infection, and/or cell fusion). For the purposes of the present invention, pharmaceutical compositions include vaccines and pharmaceutical compositions suitable for delivering therapeutic or bioactive agents include, for example, tablets, soft capsules, pills, powders, granules, suspensions, emulsions, solutions, gels, hydrogels, oral gels, pastes, eye drops, ointments, creams, plasters, drenches, delivery devices, suppositories, enemas, injections, implants, sprays or aerosols. Any of these formulations can be prepared by methods well known and accepted in the art. See, for example, Remington, The Science and Practice of Pharmacy [ ramington: science and practice of pharmacy (21 st edition), editors of a.r. gennaro, lippincett Williams and Wilkins publishing company (Lippincott Williams & Wilkins), 2005 and Encyclopedia of Pharmaceutical Technology [ Encyclopedia of Pharmaceutical Technology ], editors of j.swarrbrick, informatics publishers (Informa Healthcare),2006, each of which is hereby incorporated by reference.
As used herein, the term "carrier" refers to any excipient, diluent, filler, salt, buffer, stabilizer, solubilizer, oil, lipid-containing vesicle, microsphere, liposome encapsulate, or other material well known in the art for use in pharmaceutical formulations. It will be appreciated that the characteristics of the carrier, excipient or diluent will depend on the route of administration for a particular application. As used herein, the term "pharmaceutically acceptable carrier" refers to a non-toxic material that does not interfere with the effectiveness of the composition according to the invention or the biological activity of the composition according to the invention. According to particular embodiments, any pharmaceutically acceptable carrier suitable for use in a pharmaceutical composition can be used in the present invention in view of the present disclosure.
Pharmaceutically acceptable acid/anion salts useful in the present invention include, and are not limited to, acetate, benzenesulfonate, benzoate, bicarbonate, bitartrate, bromide, calcium ethylenediaminetetraacetate, camphorsulfonate, carbonate, chloride, citrate, dihydrochloride, ethylenediaminetetraacetate, edisylate, etonate, ethanesulfonate, fumarate, glucoheptonate (glycoeptate), gluconate, glutamate, glycarylate (glycopyrrolalazide), hexylresorcinate (hexylresorcinonate), hydrabamine, hydrobromide, hydrochloride, hydroxynaphthoate, iodide, isethionate, lactate, lactobionate, malate, maleate, mandelate, methanesulfonate, methylbromide, methylnitrate, methylsulfate, mucate, naphthalenesulfonate, nitrate, pamoate, Pantothenate, phosphate/diphosphate, polygalacturonate, salicylate, stearate, subacetate, succinate, sulfate, tannate, tartrate, tea chlorate, tosylate, and triiodode (triethiodode). Organic or inorganic acids also include (and are not limited to) hydroiodic acid, perchloric acid, sulfuric acid, phosphoric acid, propionic acid, glycolic acid, methanesulfonic acid, hydroxyethanesulfonic acid, oxalic acid, 2 naphthalenesulfonic acid, p-toluenesulfonic acid, cyclamic acid, saccharinic acid, or trifluoroacetic acid.
Pharmaceutically acceptable basic/cationic salts include, but are not limited to, aluminum, 2-amino-2-hydroxymethyl-propane-1, 3-diol (also known as TRIS (hydroxymethyl) aminomethane, trimethylol methane or "TRIS"), ammonia, benzathine, tert-butylamine, calcium, chloroprocaine, choline, cyclohexylamine, diethanolamine, ethylenediamine, lithium, L-lysine, magnesium, meglumine, N-methyl-D-glucamine, piperidine, potassium, procaine, quinine, sodium, triethanolamine or zinc salts.
In some embodiments of the invention, there is provided a pharmaceutical composition comprising the adenovirus particles of the invention in an amount of about 1x 10 per dose10About 2X 1010About 3X 1010About 4X 1010About 5X 1010About 6X 1010About 7X 1010About 8X 1010About 9X 1010About 1X 1011About 2X 1011About 3X 1011About 4X 1011Or about 5X 1011And (c) viral particles. In certain embodiments of the invention, the pharmaceutical composition comprises about 1 × 10 per dose10To about 5X 10 adenovirus particles11An adenovirus particle. In certain embodiments of the invention, the pharmaceutical composition comprises about 1 × 10 per dose10To about 1X 10 adenovirus particles12An adenovirus particle. In certain embodiments of the invention, the pharmaceutical composition comprises about 5 x 10 per dose10To about 1X 10 adenovirus particles11An adenovirus particle. In certain embodiments of the invention, the pharmaceutical composition comprises about 5 x 10 per dose10An adenovirus particle. In certain embodiments of the invention, the pharmaceutical composition comprises about 1 × 10 per dose11An adenovirus particle.
The pharmaceutical composition may have a pH of about 3.0 to about 10, for example about 3 to about 7, or about 5 to about 9. The formulation may further comprise at least one ingredient selected from the group consisting of: a buffer system, a preservative, a tonicity agent, a chelating agent, a stabilizer, and a surfactant.
In certain embodiments, a single dose of the pharmaceutical composition is administered to the subject. In certain embodiments, a double dose of the pharmaceutical composition is administered to the subject. When administering a dual dose, the first and second doses of the pharmaceutical composition may be administered to the subject about four weeks, about eight weeks, about twelve weeks, about three months, about six months, about nine months, about one year, about two years, about three years, about four years, about five years, or about ten years apart.
Formulations of pharmaceutically active ingredients with pharmaceutically acceptable carriers are known in the art, for example, remington: science and practice of pharmacy (e.g., 21 st edition (2005) and any later). Non-limiting examples of other ingredients include: buffers, diluents, solvents, tonicity adjusting agents, preservatives, stabilizers and chelating agents. One or more pharmaceutically acceptable carriers may be used to formulate the pharmaceutical compositions of the present invention.
In one embodiment of the invention, the pharmaceutical composition is a liquid formulation. Preferred examples of liquid formulations are aqueous formulations, i.e. formulations comprising water. Liquid formulations may comprise solutions, suspensions, emulsions, microemulsions, gels, and the like. Aqueous formulations typically comprise at least 50% w/w water, or at least 60%, 70%, 75%, 80%, 85%, 90% or at least 95% w/w water.
In one embodiment, the pharmaceutical composition may be formulated as an injectable, e.g., injectable solution that may be injected via a syringe or infusion pump. For example, injections may be delivered subcutaneously, intramuscularly, intraperitoneally, or intravenously.
In another embodiment, the pharmaceutical composition is a solid formulation, e.g., a freeze-dried or spray-dried composition, which may be used as such or to which a physician or patient adds solvents and/or diluents prior to use. Solid dosage forms may include tablets, such as compressed tablets and/or coated tablets, and capsules, such as hard gelatin or soft gelatin capsules. The pharmaceutical compositions may also be in the form of, for example, sachets, dragees, powders, granules, lozenges or powders for reconstitution.
The dosage forms may be immediate release, in which case they may comprise a water soluble or dispersible carrier, or delayed release, sustained release or modified release, in which case they may comprise a water insoluble polymer which modulates the dissolution rate of the dosage form in the gastrointestinal tract.
In other embodiments, the pharmaceutical composition may be delivered intranasally, buccally or sublingually.
The pH in the aqueous formulation may be between pH 3 and pH 10. In one embodiment of the invention, the pH of the formulation is from about 7.0 to about 9.5. In another embodiment of the invention, the formulation has a pH of about 3.0 to about 7.0.
In another embodiment of the present invention, the pharmaceutical composition comprises a buffering agent. Non-limiting examples of buffering agents include: arginine, aspartic acid, diglycine (bicine), citrate, disodium hydrogen phosphate, fumaric acid, glycine, glycylglycine, histidine, lysine, maleic acid, malic acid, sodium acetate, sodium carbonate, sodium dihydrogen phosphate, sodium phosphate, succinic acid, tartaric acid, trimethylglycine (tricine), and tris (hydroxymethyl) -aminomethane and mixtures thereof. The buffer may be present alone or in aggregate form at a concentration of about 0.01mg/mL to about 50mg/mL, for example about 0.1mg/mL to about 20 mg/mL. Pharmaceutical compositions comprising each of these particular buffers constitute alternative embodiments of the present invention.
In another embodiment of the present invention, the pharmaceutical composition comprises a preservative. Non-limiting examples of preservatives include: benzethonium chloride, benzoic acid, benzyl alcohol, bromophenol, butyl 4-hydroxybenzoate, chlorobutanol, chlorocresol, chlorhexidine, chlorphenesin, o-cresol, m-cresol, p-cresol, ethyl 4-hydroxybenzoate, imidurea, methyl 4-hydroxybenzoate, phenol, 2-phenoxyethanol, 2-phenylethanol, propyl 4-hydroxybenzoate, sodium dehydroacetate, thimerosal, and mixtures thereof. Preservatives may be present alone or in the form of aggregates at a concentration of from about 0.01mg/mL to about 50mg/mL, for example from about 0.1mg/mL to about 20 mg/mL. Pharmaceutical compositions comprising each of these particular preservatives constitute alternative embodiments of the present invention.
In another embodiment of the invention, the pharmaceutical composition comprises an isotonic agent. Non-limiting examples of embodiments include salts (such as sodium chloride), amino acids (such as glycine, histidine, arginine, lysine, isoleucine, aspartic acid, tryptophan, and threonine), alditols (such as glycerol, 1, 2-propanediol (propylene glycol), 1, 3-propanediol, and 1, 3-butanediol), polyethylene glycols (e.g., PEG400), and mixtures thereof. Another example of an isotonic agent includes sugars. Non-limiting examples of sugars can be mono-, di-, or polysaccharides, or water-soluble glucans, including, for example, fructose, glucose, mannose, sorbose, xylose, maltose, lactose, sucrose, trehalose, dextran, pullulan, dextrin, cyclodextrin, alpha and beta-HPCD, soluble starch, hydroxyethyl starch, and sodium carboxymethyl cellulose. Another example of an isotonicity agent is a sugar alcohol, where the term "sugar alcohol" is defined as a C (4-8) hydrocarbon having at least one-OH group. Non-limiting examples of sugar alcohols include mannitol, sorbitol, inositol, galactitol, dulcitol, xylitol, and arabitol. The isotonic agent may be present alone or in the form of aggregates at a concentration of about 0.01mg/mL to about 50mg/mL, for example about 0.1mg/mL to about 20 mg/mL. Pharmaceutical compositions comprising each of these specific isotonic agents constitute alternative embodiments of the invention.
In another embodiment of the present invention, the pharmaceutical composition comprises a chelating agent. Non-limiting examples of chelating agents include salts of citric acid, aspartic acid, ethylenediaminetetraacetic acid (EDTA), and mixtures thereof. The chelating agent may be present alone or in the form of an aggregate at a concentration of about 0.01mg/mL to about 50mg/mL, for example about 0.1mg/mL to about 20 mg/mL. Pharmaceutical compositions comprising each of these specific chelating agents constitute alternative embodiments of the invention.
In another embodiment of the present invention, the pharmaceutical composition comprises a stabilizer. Non-limiting examples of stabilizers include one or more aggregation inhibitors, one or more oxidation inhibitors, one or more surfactants, and/or one or more protease inhibitors.
In another embodiment of the invention, the pharmaceutical composition comprises a stabilizer, wherein the stabilizer is carboxy-/hydroxycellulose and derivatives thereof (such as HPC, HPC-SL, HPC-L and HPMC), cyclodextrin, 2-methylthioethanol, polyethylene glycol (such as PEG 3350), polyvinyl alcohol (PVA), polyvinylpyrrolidone, salts (such as sodium chloride), sulfur-containing substances (such as monothioglycerol) or thioglycolic acid. The stabilizing agent may be present alone or in the form of aggregates at a concentration of about 0.01mg/mL to about 50mg/mL, for example about 0.1mg/mL to about 20 mg/mL. Pharmaceutical compositions comprising each of these specific stabilizers constitute an alternative embodiment of the present invention.
In other embodiments of the invention, the pharmaceutical composition comprises one or more surfactants, preferably one surfactant, at least one surfactant or two different surfactants. The term "surfactant" refers to any molecule or ion that is composed of a water-soluble (hydrophilic) moiety and a fat-soluble (lipophilic) moiety. The surfactant may, for example, be selected from the group consisting of anionic surfactants, cationic surfactants, nonionic surfactants and/or zwitterionic surfactants. The surfactant may be present alone or in the form of aggregates at a concentration of about 0.1mg/mL to about 20 mg/mL. Pharmaceutical compositions comprising each of these specific surfactants constitute an alternative embodiment of the present invention.
In another embodiment of the invention, the pharmaceutical composition comprises one or more protease inhibitors, such as EDTA (ethylenediaminetetraacetic acid) and/or benzamidine hydrochloride (HCl). The protease inhibitor may be present alone or in the form of an aggregate at a concentration of about 0.1mg/mL to about 20 mg/mL. Pharmaceutical compositions comprising each of these specific protease inhibitors constitute alternative embodiments of the invention.
The pharmaceutical compositions of the invention may comprise an amount of an amino acid base sufficient to reduce aggregate formation of the polypeptide during storage of the composition. The term "amino acid base" refers to one or more amino acids (such as methionine, histidine, imidazole, arginine, lysine, isoleucine, aspartic acid, tryptophan, threonine) or analogs thereof. Any amino acid may be present in its free base form or in its salt form. Any stereoisomer of the amino acid base (i.e., L, D or a mixture thereof) can be present. The amino acid base may be present alone or in combination with other amino acid bases at a concentration of about 0.01mg/mL to about 50mg/mL, for example about 0.1mg/mL to about 20 mg/mL. Pharmaceutical compositions comprising each of these specific amino acid bases constitute alternative embodiments of the invention.
It will also be apparent to those skilled in the art that the therapeutically effective dose of the adenovirus particles or pharmaceutical compositions thereof comprising nucleic acid molecules encoding the M and Env antigens of zika virus of the invention will vary depending on the desired effect. Thus, the optimal dose to be administered can be readily determined by one of skill in the art and will vary with the particular adenovirus particle used, the mode of administration, the strength of the formulation, and the progression of the disease condition (e.g., Zika virus infection). In addition, factors associated with the particular subject being treated, including subject age, weight, diet and time of administration, will result in the need to adjust the dosage to achieve the appropriate therapeutic level.
Pharmaceutically acceptable salts of the adenoviral particles of the invention include conventional non-toxic salts or quaternary ammonium salts formed from inorganic or organic acids or bases. Examples of such acid addition salts include acetate, adipate, benzoate, benzenesulfonate, citrate, camphorate, dodecylsulfate, hydrochloride, hydrobromide, lactate, maleate, methanesulfonate, nitrate, oxalate, pivalate, propionate, succinate, sulfate and tartrate. Base salts include ammonium salts, alkali metal salts (such as sodium and potassium salts), alkaline earth metal salts (such as calcium and magnesium salts), salts with organic bases (such as dicyclohexylamino salts), and salts with amino acids (such as arginine). In addition, the basic nitrogen-containing groups may be quaternized with, for example, alkyl halides.
The pharmaceutical compositions of the present invention may be administered by any means that achieves their intended purpose. As used herein, "administering" refers to a method of administering a dose of a pharmaceutical composition (e.g., an immunogenic composition (e.g., a vaccine (e.g., ZIKV) vaccine)) to a subject. The compositions utilized in the methods described herein can be administered, for example, intramuscularly, intravenously, intradermally, transdermally, intraarterially, intraperitoneally, intralesionally, intracranially, intraarticularly, intraprostaticaly, intrapleurally, intratracheally, intranasally, intravitreally, intravaginally, intrarectally, topically, intratumorally, peritoneally, subcutaneously, subconjunctival, intravesicularlly, transmucosally, intrapericardially, intraumbilically, intraocularly, orally, topically, by inhalation, by injection, by infusion, by continuous infusion, by local perfusion, by direct bathing of target cells, by catheter, by lavage, by gavage, as a cream, or in the form of a lipid composition. The preferred method of administration may vary depending on various factors, such as the components of the composition being administered and the severity of the condition being treated.
Application method
The present invention provides methods for generating an immune response against Zika virus in a human subject in need thereof. The methods comprise administering to the subject a pharmaceutical composition comprising: an adenoviral vector comprising nucleic acid sequences encoding Zika virus M and Env antigens and a pharmaceutically acceptable carrier. These methods are for preventing, treating, delaying the onset of, or ameliorating any one or more symptoms of Zika virus infection or said Zika virus infection, comprising administering to a subject in need thereof an effective amount of a pharmaceutical composition of the present invention.
According to particular embodiments, an immunogenic amount or an effective or protective amount refers to an amount of immunogen sufficient to achieve one, two, three, four or more of the following effects: (i) reducing or ameliorating the severity of Zika virus infection to be treated or symptoms associated therewith; (ii) reducing the duration of Zika virus infection to be treated or symptoms associated therewith; (iii) preventing the progression of Zika virus infection to be treated or symptoms associated therewith; (iv) causing regression of Zika virus infection to be treated or symptoms associated therewith; (v) preventing the development or onset of Zika virus infection to be treated or symptoms associated therewith; (vi) preventing the recurrence of Zika virus infection to be treated or symptoms associated therewith; (vii) reducing hospitalization of subjects having Zika virus infection to be treated or symptoms associated therewith; (viii) reducing the length of hospitalization of a subject having Zika virus infection to be treated or symptoms associated therewith; (ix) increasing survival of a subject having Zika virus infection to be treated or symptoms associated therewith; (xi) Inhibiting or reducing Zika virus infection to be treated or symptoms associated therewith in a subject; and/or (xii) enhancing or improving one or more prophylactic or therapeutic effects of another therapy; (xiii) Preventing Zika virus transmission via sexual and maternal-fetal pathways; (xiv) Preventing and/or reducing the severity of fetal brain abnormalities associated with Zika virus.
Examples of disease symptoms caused by viral infections (such as ZIKV) that may be prevented using the compositions of the present invention include, for example, fever, arthralgia, rash, conjunctivitis, myalgia, headache, retroorbital pain, edema, lymphadenopathy, malaise, weakness, sore throat, cough, nausea, vomiting, diarrhea, and bloody semen. These symptoms and their regression during treatment can be measured, for example, by a physician during physical examination or by other tests and methods known in the art.
The immunogenic or effective amount or dose can vary depending on various factors, such as the Zika virus infection to be treated, the mode of administration, the target site, the physiological state of the subject (including age, weight, health), whether the subject is a human or an animal, other medications administered, and whether the treatment is prophylactic or therapeutic. Therapeutic doses are titrated optimally to optimize safety and efficacy.
As used herein, the terms "treatment (treat)", "treating (treating)" and "treating (treating)" are all intended to refer to ameliorating or reversing at least one measurable physical parameter associated with a zika virus infection that is not necessarily discernible in a subject, but is discernible in a subject. The terms "treat", "treating" and "treatment" may also refer to causing regression of Zika virus infection, preventing progression of Zika virus infection, or at least slowing progression of Zika virus infection. In a particular embodiment, "treating" (treat) "," treating "(and" treatment) "refer to reducing, preventing the development or onset of, or reducing the duration of one or more symptoms associated with Zika virus infection. In a particular embodiment, "treatment" (therapy), "treating" (therapy), and "treatment" (therapy) refer to preventing the recurrence of Zika virus infection. In a particular embodiment, "treatment" (therapy), "treatment" (and "treatment)" refer to an increase in survival of a subject having a zika virus infection. In a particular embodiment, "treating" (treat) "," treating "(treating)" and "treating" (treating) "refer to the elimination of zika virus infection in a subject.
In certain embodiments, administration of an immunogenic or effective amount of a pharmaceutical composition of the invention reduces the ZIKV serum viral load determined from a subject having a ZIKV infection by at least about 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90% or more as compared to the viral load determined from the subject prior to administration of an effective amount of a composition of the invention. In some cases, administration of an effective amount of a composition of the invention reduces the serum viral load to an undetectable level compared to the viral load determined from the subject prior to administration of an effective amount of a composition of the invention. In some cases, administration of an effective amount of a composition of the invention results in a reduced and/or undetectable serum viral load that can last for at least about 1,2, 3, 4, 5, 6, 7 days; 1. 2, 3, 4 weeks; 1. 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, or 12 months; or 1 year or more.
In addition, a subject can be administered a single or multiple administrations (pre-exposure or post-exposure and/or pre-diagnosis or post-diagnosis) of a composition of the invention (e.g., one administration or two or more administrations). For example, a subject particularly susceptible to, for example, a viral infection (e.g., ZIKV infection) may require multiple administrations of a composition of the invention to establish and/or maintain protection from the virus. The level of induced immunity provided by the pharmaceutical compositions described herein can be monitored, for example, by measuring the amount of neutralizing secreted and serum antibodies. The dosage can then be adjusted or repeated as necessary to trigger the desired level of immune response. For example, the immune response elicited by a single administration (priming) of a composition of the present invention may not be sufficiently potent and/or long lasting to provide effective protection. Thus, in some embodiments, repeated administration (boosting) allows for the establishment of a prime boost regimen that can significantly enhance both humoral and cellular responses to the composition antigens.
Alternatively, the efficacy of treatment may be determined by monitoring the level of antigenic or therapeutic gene product or fragment thereof expressed in a subject (e.g., a human) after administration of a pharmaceutical composition of the invention. For example, a subject's blood or lymph may be tested for antigenic or therapeutic gene products or fragments thereof using, for example, standard assays known in the art.
In some cases, the efficacy of treatment can be determined by monitoring changes in serum viral load of samples obtained from a subject before and after administration of an effective amount of a pharmaceutical composition of the invention. A reduction in serum viral load of at least about 5%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90% or more, as compared to the viral load determined from the subject prior to administration of an effective amount of a composition of the invention, may indicate that the subject is benefiting from treatment. The dosage of the composition to be administered may be increased if the viral load is not reduced by at least about 10%, 20%, 30% or more after administration of the composition of the invention. For example, by increasing the number of Viral Particles (VP) of an adenoviral vector-based vaccine.
The immunogenicity of the pharmaceutical composition of the invention may be improved if it is co-administered with an immunostimulant and/or adjuvant. Suitable adjuvants well known to those skilled in the art include, for example, aluminum phosphate, aluminum hydroxide, QS21, Quil A (and derivatives and components thereof), calcium phosphate, calcium hydroxide, zinc hydroxide, glycolipid analogs, octadecyl esters of amino acids, muramyl dipeptide, polyphosphazene, lipoproteins, ISCOM matrix, DC-Chol, DDA, cytokines and other adjuvants and derivatives thereof.
The term "immunostimulant" refers to a substance (e.g., drugs and nutrients) that stimulates the immune system by inducing activation of, or increasing the activity of, any of its components. Immunostimulants include cytokines (e.g., granulocyte macrophage colony stimulating factor) and interferons (e.g., IFN- α and/or IFN- γ).
The term "adjuvant" is defined as a pharmacological or immunological agent that alters the action of other agents (e.g., ZIKV antigens) with little direct effect when administered alone. An adjuvant may be one or more substances that cause stimulation of the immune system. In this context, adjuvants are used to enhance the immune response to the adenoviral particles of the invention.
Reagent kit
Also provided herein are kits comprising (a) an adenoviral vector of the invention and (b) a host cell of the invention. In certain embodiments, the adenoviral vector comprises nucleotide sequences encoding zika virus M and Env antigens, wherein the nucleotide sequences encoding the zika virus M and Env antigens are operably linked to a Cytomegalovirus (CMV) promoter comprising at least one tetracycline operator (TetO) motif. The adenoviral vector can comprise a nucleotide sequence selected from the group consisting of SEQ ID NOS: 9-11 and SEQ ID NO: 15.
In certain embodiments, the host cell comprises a nucleotide sequence encoding a tetracycline repressor (TetR) protein. The nucleotide sequence encoding the TetR protein may, for example, be integrated in the genome of the host cell. The nucleotide sequence encoding the TetR protein may be integrated in chromosome 1. In certain embodiments, the host cell isA host cell.
Examples
The present invention also provides the following non-limiting examples.
Example 1 is an adenovirus vector comprising nucleotide sequences encoding Zika virus M and Env antigens, wherein the nucleotide sequences encoding the Zika virus M and Env antigens are operably linked to a Cytomegalovirus (CMV) promoter comprising at least one tetracycline operator (TetO) motif.
Example 2 is the adenoviral vector of example 1, wherein the Zika virus M and Env antigens comprise the amino acid sequences of SEQ ID NO 1.
Example 3 is an adenovirus vector as described in example 1 or 2, wherein the CMV promoter comprising at least one TetO motif comprises a nucleotide sequence selected from SEQ ID NOs 3-5.
Embodiment 4 is the adenoviral vector of any one of embodiments 1 to3, wherein the adenoviral vector is selected from the group consisting of ChAd3, SAdV, rhAd51, rhAd52, rhAd53, hAd4, hAd5, hAd26, and hAd35.
Example 5 is an adenovirus vector as described in example 4, wherein the adenovirus vector is Ad26.
Embodiment 6 is the adenoviral vector of any one of embodiments 1-5, wherein the adenoviral vector comprises a nucleotide sequence selected from the group consisting of SEQ ID NO 9-11 and SEQ ID NO 15.
Example 7 is a recombinant cell comprising an adenoviral vector as described in any one of examples 1 to 6.
Example 8 is the host cell of example 7, wherein the host cell further comprises a nucleotide sequence encoding a tetracycline repressor (TetR) protein.
Example 9 is the host cell of example 8, wherein the nucleotide sequence encoding the TetR protein is integrated in the genome of the host cell.
Example 10 is the host cell of example 9, wherein the nucleotide sequence encoding the TetR protein is integrated in chromosome 1.
Embodiment 11 is the host cell of any one of embodiments 7 to 10, wherein the host cell isA host cell.
Embodiment 12 is a pharmaceutical composition comprising the adenoviral vector of any one of embodiments 1-6 and a pharmaceutically acceptable carrier.
Example 13 is a method of producing adenovirus particles comprising zika virus M and Env antigens, wherein the method comprises:
a. contacting a host cell with an adenovirus vector comprising nucleotide sequences encoding Zika virus M and Env antigens, wherein the nucleotide sequences encoding the Zika virus M and Env antigens are operably linked to a Cytomegalovirus (CMV) promoter comprising at least one tetracycline operator (TetO) motif; and
b. growing the host cell under conditions that produce the adenovirus particles comprising the Zika M and Env antigens.
Example 14 is the method of example 13, wherein the Zika virus M and Env antigens comprise the amino acid sequences of SEQ ID NO 1.
Example 15 is the method of example 13 or 14, wherein the CMV promoter comprising at least one TetO motif comprises a nucleotide sequence selected from SEQ ID NOs 3-5.
Embodiment 16 is the method of any one of embodiments 13 to 15, wherein the adenoviral vector is selected from the group consisting of ChAd3, SAdV, rhAd51, rhAd52, rhAd53, hAd4, hAd5, hAd26, and hAd35.
Embodiment 17 is the method of embodiment 16, wherein the adenoviral vector is hAd 26.
Embodiment 18 is the adenoviral vector of any one of embodiments 13 to 17, wherein the adenoviral vector comprises a nucleotide sequence selected from the group consisting of SEQ ID NO 9-11 and SEQ ID NO 15.
Example 19 is the method of example 13, wherein the host cell further comprises a nucleotide sequence encoding a tetracycline repressor (TetR) protein.
Embodiment 20 is the method of embodiment 19, wherein the nucleotide sequence encoding the TetR protein is integrated in the genome of the host cell.
Embodiment 21 is the method of embodiment 20, wherein the nucleotide sequence encoding the TetR protein is integrated in chromosome 1.
Embodiment 22 is the method of any one of embodiments 19 to 21, wherein the host cell isA host cell.
Embodiment 23 is a pharmaceutical composition comprising adenovirus particles produced by the method of any one of embodiments 13-22 and a pharmaceutically acceptable carrier.
Embodiment 24 is a method for preventing zika virus infection or progression of zika virus infection in a human subject in need thereof, the method comprising administering to the subject in need thereof the pharmaceutical composition of embodiment 23.
Embodiment 25 is the method of embodiment 24, wherein the pharmaceutical composition is administered intramuscularly, intravenously, intradermally, transdermally, intraarterially, intraperitoneally, intralesionally, intracranially, intraarticularly, intraprostaticaly, intrapleurally, intratracheally, intranasally, intravitreally, intravaginally, intrarectally, externally, intratumorally, peritoneally, subcutaneously, subconjunctival, intravesicularlly, transmucosally, intrapericardially, intraumbilically, intraocularly, orally, externally, topically, by inhalation, by injection, by infusion, by continuous infusion, by local perfusion, by catheter, by lavage, or by tube feeding.
Example 26 is a kit comprising:
a. an adenovirus vector comprising a nucleotide sequence encoding Zika virus M and Env antigens, wherein the nucleotide sequence encoding the Zika virus M and Env antigens is operably linked to a Cytomegalovirus (CMV) promoter comprising at least one tetracycline operator (TetO) motif; and
b. a host cell comprising a nucleotide sequence encoding a tetracycline repressor (TetR) protein.
Example 27 is the kit of example 26, wherein the Zika virus M and Env antigens comprise the amino acid sequences of SEQ ID NO 1.
Example 28 is the kit of example 26 or 27, wherein the CMV promoter comprising at least one TetO motif comprises a nucleotide sequence selected from the group consisting of SEQ ID NOs 3-5.
Embodiment 29 is the kit of any one of embodiments 26 to 28, wherein the adenoviral vector is selected from the group consisting of ChAd3, SAdV, rhAd51, rhAd52, rhAd53, hAd4, hAd5, hAd26, and hAd35.
Embodiment 30 is the kit of embodiment 29, wherein the adenoviral vector is hAd 26.
Embodiment 31 is the kit of any one of embodiments 26 to 30, wherein the adenoviral vector comprises a nucleotide sequence selected from the group consisting of SEQ ID NOS 9-11 and SEQ ID NO 15.
Embodiment 32 is the kit of any one of embodiments 26 to 31, wherein the nucleotide sequence encoding the TetR protein is integrated in the genome of the host cell.
Example 33 is a kit of example 32, wherein the nucleotide sequence encoding the TetR protein is integrated in chromosome 1.
Embodiment 34 is the kit of any one of embodiments 26 to 33, wherein the host cell isHost cell
Examples of the invention
Example 1: novel and potent CMV promoter variant with a single TetO motif that can be strongly repressed by TetR
According to the method previously described by Abbink et al (J Virol. [ J. Virol. ])]Month 5, 2007; 81(9) 4654-63), E1 and E3 deleted Ad 26-based adenovirus vectors were generated comprising nucleotide sequences encoding the M and Env antigens of Zika virus. In this vector (designated herein as ad26.zikv.001), expression of zika virus antigens was driven by a powerful constitutively active Cytomegalovirus (CMV) promoter previously used to drive expression of antigens encoded by other adenoviral vaccine vectors (abbnk et al, J Virol. [ journal of virology)]Month 5, 2007; 81(9):4654-63). Unfortunately, although Ad26.ZIKV.001 can be generated and mass produced for preclinical immunogenicity testing, it was found that this vector produces cells such as E1 complementing in contrast to other adenoviral vaccine vectorsThe above shows an impaired growth, e.g. the resulting virus particle production titres are about 10 times lower than those of Ad 26-based vectors on a good production benchmark.
To address the productivity issues seen with Ad26.ZIKV.001, a new version of this vector was generated in which the expression of Zika virus antigen was controlled by a TetR-repressible CMV promoter. Such vectors will express lower levels of Zika virus antigen in TetR-expressing producer cells, and thus may exhibit increased productivity by avoiding any inhibitory effect that high levels of Zika virus antigen expression may have on the vector. Preferably, the TetR-repressible CMV promoter used in the new zikv virus antigen-encoding vector will carry only minimal modifications compared to the CMV promoter used in ad26.zikv.001, so that the overall properties and potency of the final vector will remain the same as in ad26. zikv.001. Thus, to achieve this, a new set of promoters was designed and constructed to be TetR-repressible, due to the introduction of a single tetO sequence near the transcription start site of the CMV promoter. These promoters were then tested for TetR repressibility and promoter strength and compared to the known TetR repressible promoter, "CMVtetO" (SEQ ID NO:8), also referred to herein as CMVtetO pattern 1(CMVtetO v 1). This promoter was derived from the human CMV promoter but was modified to carry a 54-bp sequence insertion just downstream of its TATA box, which contained two copies of the 19-bp TetO motif (TCCCTATCAGTGATAGAGA) (SEQ ID NO: 20).
A set of CMV promoter variants designed to be TetR-repressible by modification of the CMV promoter core region was tested and several of these were found to be TetR-repressible. FIG. 1 shows the design of the promoter core region for the TetR repressible CMV promoter variants 2A1, 2A2, 2B1, 3A and 3B. These variants differ from the parental CMV promoter by the substitutions shown in figure 1. Each of these variants carries a single TetO sequence, introduced by a set of substitutions, that preserves the natural relative position between conserved CMV promoter elements, such as the TATA box, and the initiation element (Inr). In variants 2a1, 2a2 and 2B1, the single TetO sequence was introduced by substituting nucleotide residues around the natural Transcription Start Site (TSS), whereas in variants 3A and 3B this was achieved by substituting residues downstream of the TSS. The Inr motif with the consensus sequence YYANWYY remains partially (2a1, 2a2, 2B1) or completely (3A, 3B) intact. The length of these CMV promoters with a single TetO remains the same as the length of the non-TetO bearing parental CMV promoters present in ad26. zik.001. The complete sequences of the CMV promoter variants 2A1, 2A2, 2B1, 3A and 3B with TetO are listed in SEQ ID NOS: 3-7, respectively.
If it is to be used to drive Transgene (TG) expression in Ad vaccine vectors, it is considered advantageous that the achieved level of TG expression (potency) is not impaired compared to the standard CMV promoter which has previously been widely used and tested to drive antigen expression in the context of adenoviral vectors, and which is present in Ad26.zik.001 without tetO. Furthermore, it is important that the TetR repressibility of the new TetO-bearing CMV promoter must be high enough to avoid any inhibitory effect of the antigen on the vector in TetR-expressing producer cells.
Thus, to investigate whether the new TetO promoters have utility as promoters driving antigen expression in Ad vaccine vectors, they were tested for promoter efficacy and TetR repressibility using a dual reporter gene assay based on transient transfection. Briefly, promoter sequences were synthesized (by GeneArt) and introduced by standard molecular techniques into pDualLuc previously described in PCT/EP2018/053201 to drive expression of Gauss Luciferase (GL). Beside the gaussian luciferase cassette, this plasmid carries the Red Firefly Luciferase (RFL) expression cassette for normalization of the gaussian luciferase signal. To test for new promoters, one will testCells and the TetR expressing cell line per.c6-hcmv. TetR (previously described in PCT/EP 2018/053201) were transfected with a new reporter construct or with a control construct in which GL was controlled by CMV or CMVtetO v 1. The activities of GLuc and Red Firefly Luciferase (RFL) were then determined as previously described in PCT/EP 2018/053201. For each promoter variant tested, FIG. 2 is shownAndthe expression of GLuc obtained (RFL normalized) in the cells was relative to the expression level obtained by CMV. Data is displayed atOf these, five promoters with a single tetO all showed expression levels close to that of the standard CMV, with promoters 2a1, 2B1 and 3A giving the highest values. These three variants showed slightly higher expression levels than the original CMVtetO promoter (CMVtetO v1), which consistently exhibited slightly lower expression levels than CMV (in fig. 2 and data not shown). In TetR-expressing cells, the expression levels obtained by all five new TetO-containing promoters were reduced, with the reduction levels seen with 2a1, 2a2, and 2B1 being close to those seen with the 2x TetO-bearing promoter CMVtetO version 1, indicating a potent TetR repression. In contrast, variants 3A and 3B exhibited significantly lower levels of TetR repression than the three promoters (fig. 2).
In summary, promoters 2a1, 2a2 and 2B1 with a single TetO motif were identified as potent promoters with high levels of TetR repression. This limited set of nucleotide residue substitutions introduced into the CMV promoter to produce these promoters does not appear to affect promoter efficacy, but they successfully render the CMV promoter strongly repressible by TetR. For these reasons, 2a1, 2a2, and 2B1 are believed to represent useful, powerful alternative TetR repressible promoters that can be used to drive transgenes in adenoviral vectors. These novel promoters, in combination with TetR-expressing producer cells (e.g., per. c6-TetR), should allow for efficient production of adenoviral vectors encoding inhibitory transgenes. In particular, these promoters can be used to address the productivity problem of Ad26.ZIKV.001 by replacing the CMV promoter in the vector with one of these and generating the resulting vector on a cell line expressing TetR.
Example 2: generation of adenoviral vectors
Generation of pAdApt26.CMVTO2A1.prM-Env vector
To generate the adaptor plasmid pAdApt26.CMVTO2A1.prM-Env (SEQ ID NO:16) encoding M and Env proteins under the control of the TetO-containing CMV promoter, the CMV promoter of pAdApt26.ZIK.001(SEQ ID NO:17) was replaced with the TetO-containing CMV promoter (SEQ ID NO:3) of plasmid pMK-RQ. CMVTO2A1-GL _ Ao _ RFL (SEQ ID NO: 18). For this purpose, the relevant CMVTO2A1 fragment of pMK-RQ. CMVTO2A1_ GL _ Ao _ RFL was amplified by PCR and the resulting DNA fragment and pAdApt26.ZIK.001 were digested with restriction enzymes HindIII-HF and AvrII. The subsequent ligation step resulted in the generation of pAdApt26.CMVTO2A1.prM-Env (SEQ ID NO: 16).
Comprising the ME Zika transgene expression cassette with CMV promoter containing 2A1 TetO (SEQ ID NO:9) Production of Ad26.ZIKV.002 vector
Plasmid DNA pAdapt26.CMVTO2A1.prM-Env, in which the E1 gene of adenovirus had been replaced by ZIKV M and Env expression cassettes, was subjected to DNA washing and DNA sequence analysisAd26 vectors were generated (previously described as per.c6-hcmv.tetr in PCT/EP 2018/053201).
To generate the Ad26.ZIKV.002 vector (SEQ ID NO:15), an adaptor plasmid was co-transfected with a cosmid containing the remainder of the Ad26 genome in which the Ad 26E 3 gene had been partially deleted (pWe. Ad26.dE3.5orf6. cosmid (SEQ ID NO: 19)). In the same cosmid, Ad 26E 4 open reading frame 6(E4orf6) and a portion of E4orf6/7 have been exchanged for those of adenovirus serotype 5(Ad5) to allow complementation of cell lines like HEK293, HEK 1 in Ad 5E 1,Or HER96 cells to produce a replication incompetent Ad26 vector. Homologous recombination between the 2 DNA vectors pAdapt26 and cosmids results in the formation of an adenovirus genome that contains all the viral genes required to form a complete viral particle.
Monolayer coated with agarose by plaque purificationIndividual plaques were isolated on the cells. Make the plaque inOn cells and tested for the integrity and identity of the adenovirus genome and for the correct expression of the transgene. Adenovirus from plaque #1 was made inCells were further expanded and subsequently CsCl purified.
Example 3: manufacturability evaluation of Ad26.ZIKV.002 vector
The productivity, defined by the titer expressed in viral particles per mL (vp/mL), is crucial for scaling up the production of vectors in bioreactors to provide sufficient material for the different downstream process steps. Thus, in small scale experiments, suspension was evaluated by comparing the Ad26.ZIKV.002 vector (SEQ ID NO:15) with several internal reference Ad26 vectors encoding different transgenesCellsAnd suspendCellsThe productivity in (1). Previously in PCT/EP2018/053201C6-aohv tetr is described as per.
Ad26.ZIKV.002 was produced and on a small scaleCells andin the model, relativity is testedYield (fig. 3). Will be at 1 × 106Density of individual cells/mL inoculated in 10mL total volume in shake flasks supplemented with 4mM L-glutamine (Longsha group (Lonza))In culture medium (Longsha group; Basel, Switzerland)Cells andcell cultures were infected with different vectors at different Virus Particle (VP) -cell ratios and then incubated for 4 days. Briefly, purified Ad26.ZIKV.002 adenovirus particles at 70, 300 and 900 vp/cell or one of three internal Ad26 controls (baseline) were transducedCells orCells, these controls are known from previous studies to be good, medium or low producers. Samples were taken at days 0, 1,2, 3 and 4 post infection and adenovirus vector titers were determined by VP-qPCR. As shown in fig. 3, when inWhen produced on cells, ad26.zikv.002 showed production rates at 70, 300 and 900 vp/cell equivalent to low-yield controls. When inWhen produced on cells, ad26.zikv.002 showed production rates at 70, 300 and 900 vp/cell equivalent to the good production controls. Albeit atWhen made on cells, the TetO-containing Ad26.ZIKV.002 vector was comparable to the low-producer, but the yield was increased, allowing small-scale shake flasksIn the model ofIn the above production, Ad26.ZIKV.002 vector was the same as that of a good producer.
Ad26.ZIKV.002 was also tested using a small scale modelCells andthe model predicts virus production at a larger scale (fig. 4). Briefly, the study batch material Ad26.ZIKV.002 or Ad26 containing a (non-inhibitory) luciferase transgene was transduced with a purification of 300 vp/cell under the control of a TetO-bearing CMV promoterCells orA cell. Viral titers were measured by (hexon) vp-qPCR on day 3 post-infection. Ad26.ZIKV.002 inRatio of production rates inThe productivity in cells is higher than or equal to 1Log10。
Production rate of Ad26.ZIKV.002 in sPER.C6-TetR at 10/50 liter Scale
Ad26.ZIKV.002 was evaluated at high cell densities on 10L and 50L scales using 70 vp/cell and 300 vp/cell in a 10L bioreactor and 300 vp/cell in a 50L bioreactorThe productivity of (5). Harvesting on day 3 post infection and measurement of viral particles by capillary electrophoresis(vp) Titers. On day 3The titer ratio of the viral particles achieved in (1)Ad26.ZIKV.001 in middle 1.5-2Log10。
Example 4: Ad26.ZIKV.002 is immunogenic in non-human primates and confers protection against ZIKV challenges
By 1011vp ad26.zikv.002 non-human primates (NHP, Rhesus macaques) were immunized by intramuscular injection once or with formulated buffer (sham). Four weeks after immunization, animals were bled and 10 was administered3pfu ZIKV-BR subcutaneous challenge.
Ad26.zikv.002 induced a humoral immune response in NHP as shown by induction of Env binding antibody titers (fig. 6, left panel) and induction of ZIKV-PR neutralizing antibody titers (fig. 6, right panel).
After challenge, all sham-injected NHPs showed viral load in plasma. In contrast, NHPs immunized with ad26.zikv.002 were all protected against ZIKV-BR challenge, as evidenced by undetectable viral RNA loads in plasma samples of these animals (fig. 7, upper panel).
In addition, viral load in cerebrospinal fluid (CSF) was measured on days 3 and 7 after ZIKV-BR challenge. Although ZIKV RNA was detectable in CSF samples of all mock-immunized animals, no virus was detectable in CSF samples of ad26. zikv.002-immunized animals (fig. 7, bottom panel).
It will be appreciated by those skilled in the art that changes could be made to the embodiments described above without departing from the broad inventive concept thereof. It is understood, therefore, that this invention is not limited to the particular embodiments disclosed, but it is intended to cover modifications within the spirit and scope of the present invention as defined by the present specification.
Sequence listing
<110> Yangsen vaccine & prevention Co
<120> recombinant adenovirus vector expressing Zika antigen with improved productivity
<130> 688097.511US
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<170> PatentIn version 3.5
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<213> Artificial sequence
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<223> Zika virus M and Env antigens
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Tyr Thr Lys His Leu Ile Arg Val Glu Asn Trp Ile Phe Arg Asn Pro
50 55 60
Gly Phe Ala Leu Ala Ala Ala Ala Ile Ala Trp Leu Leu Gly Ser Ser
65 70 75 80
Thr Ser Gln Lys Val Ile Tyr Leu Val Met Ile Leu Leu Ile Ala Pro
85 90 95
Ala Tyr Ser Ile Arg Cys Ile Gly Val Ser Asn Arg Asp Phe Val Glu
100 105 110
Gly Met Ser Gly Gly Thr Trp Val Asp Val Val Leu Glu His Gly Gly
115 120 125
Cys Val Thr Val Met Ala Gln Asp Lys Pro Thr Val Asp Ile Glu Leu
130 135 140
Val Thr Thr Thr Val Ser Asn Met Ala Glu Val Arg Ser Tyr Cys Tyr
145 150 155 160
Glu Ala Ser Ile Ser Asp Met Ala Ser Asp Ser Arg Cys Pro Thr Gln
165 170 175
Gly Glu Ala Tyr Leu Asp Lys Gln Ser Asp Thr Gln Tyr Val Cys Lys
180 185 190
Arg Thr Leu Val Asp Arg Gly Trp Gly Asn Gly Cys Gly Leu Phe Gly
195 200 205
Lys Gly Ser Leu Val Thr Cys Ala Lys Phe Ala Cys Ser Lys Lys Met
210 215 220
Thr Gly Lys Ser Ile Gln Pro Glu Asn Leu Glu Tyr Arg Ile Met Leu
225 230 235 240
Ser Val His Gly Ser Gln His Ser Gly Met Ile Val Asn Asp Thr Gly
245 250 255
His Glu Thr Asp Glu Asn Arg Ala Lys Val Glu Ile Thr Pro Asn Ser
260 265 270
Pro Arg Ala Glu Ala Thr Leu Gly Gly Phe Gly Ser Leu Gly Leu Asp
275 280 285
Cys Glu Pro Arg Thr Gly Leu Asp Phe Ser Asp Leu Tyr Tyr Leu Thr
290 295 300
Met Asn Asn Lys His Trp Leu Val His Lys Glu Trp Phe His Asp Ile
305 310 315 320
Pro Leu Pro Trp His Ala Gly Ala Asp Thr Gly Thr Pro His Trp Asn
325 330 335
Asn Lys Glu Ala Leu Val Glu Phe Lys Asp Ala His Ala Lys Arg Gln
340 345 350
Thr Val Val Val Leu Gly Ser Gln Glu Gly Ala Val His Thr Ala Leu
355 360 365
Ala Gly Ala Leu Glu Ala Glu Met Asp Gly Ala Lys Gly Arg Leu Ser
370 375 380
Ser Gly His Leu Lys Cys Arg Leu Lys Met Asp Lys Leu Arg Leu Lys
385 390 395 400
Gly Val Ser Tyr Ser Leu Cys Thr Ala Ala Phe Thr Phe Thr Lys Ile
405 410 415
Pro Ala Glu Thr Leu His Gly Thr Val Thr Val Glu Val Gln Tyr Ala
420 425 430
Gly Thr Asp Gly Pro Cys Lys Val Pro Ala Gln Met Ala Val Asp Met
435 440 445
Gln Thr Leu Thr Pro Val Gly Arg Leu Ile Thr Ala Asn Pro Val Ile
450 455 460
Thr Glu Ser Thr Glu Asn Ser Lys Met Met Leu Glu Leu Asp Pro Pro
465 470 475 480
Phe Gly Asp Ser Tyr Ile Val Ile Gly Val Gly Glu Lys Lys Ile Thr
485 490 495
His His Trp His Arg Ser Gly Ser Thr Ile Gly Lys Ala Phe Glu Ala
500 505 510
Thr Val Arg Gly Ala Lys Arg Met Ala Val Leu Gly Asp Thr Ala Trp
515 520 525
Asp Phe Gly Ser Val Gly Gly Ala Leu Asn Ser Leu Gly Lys Gly Ile
530 535 540
His Gln Ile Phe Gly Ala Ala Phe Lys Ser Leu Phe Gly Gly Met Ser
545 550 555 560
Trp Phe Ser Gln Ile Leu Ile Gly Thr Leu Leu Met Trp Leu Gly Leu
565 570 575
Asn Thr Lys Asn Gly Ser Ile Ser Leu Met Cys Leu Ala Leu Gly Gly
580 585 590
Val Leu Ile Phe Leu Ser Thr Ala Val Ser Ala
595 600
<210> 2
<211> 1809
<212> DNA
<213> Artificial sequence
<220>
<223> Zika virus M and Env antigens
<400> 2
atgggcaaaa gatccgccgg cagcatcatg tggctggcca gtctggctgt cgtgatcgcc 60
tgtgctggcg ccgctgtgac actgcctagc cacagcaccc ggaagctgca gaccagaagc 120
cagacctggc tggaaagcag agagtacacc aagcacctga tccgggtgga aaactggatc 180
ttccggaacc ccggcttcgc cctggccgct gctgctattg cttggctgct gggcagcagc 240
accagccaga aagtgatcta cctcgtgatg atcctgctga tcgcccctgc ctacagcatc 300
cggtgtatcg gcgtgtccaa ccgggacttc gtggaaggca tgagcggcgg cacatgggtg 360
gacgtggtgc tggaacatgg cggctgcgtg acagtgatgg cccaggacaa gcccaccgtg 420
gacatcgagc tcgtgaccac caccgtgtcc aatatggccg aagtgcggag ctactgctac 480
gaggccagca tcagcgacat ggccagcgac agcagatgcc ctacacaggg cgaggcctac 540
ctggacaagc agtccgacac ccagtacgtg tgcaagcgga ccctggtgga tagaggctgg 600
ggcaatggct gcggcctgtt tggcaagggc agcctcgtga cctgcgccaa gttcgcctgc 660
agcaagaaga tgaccggcaa gagcatccag cccgagaacc tggaataccg gatcatgctg 720
agcgtgcacg gcagccagca ctccggcatg atcgtgaacg acaccggcca cgagacagac 780
gagaaccggg ccaaggtgga aatcaccccc aacagcccta gagccgaggc cacactgggc 840
ggctttggat ctctgggcct ggactgcgag cctagaaccg gcctggattt cagcgacctg 900
tactacctga ccatgaacaa caaacactgg ctggtgcaca aagagtggtt ccacgacatc 960
cccctgccct ggcatgccgg cgctgataca ggcacacccc actggaacaa caaagaggcc 1020
ctggtggagt tcaaggacgc ccacgccaag aggcagaccg tggtggtgct gggatctcag 1080
gaaggcgccg tgcatacagc tctggctggc gccctggaag ccgaaatgga tggcgctaag 1140
ggcagactgt ccagcggcca cctgaagtgc cggctgaaga tggacaagct gcggctgaag 1200
ggcgtgtcct acagcctgtg taccgccgcc ttcaccttca ccaagatccc cgccgagaca 1260
ctgcacggca ccgtgactgt ggaagtgcag tacgccggca ccgacggccc ttgtaaagtg 1320
cctgctcaga tggccgtgga tatgcagacc ctgacccctg tgggcaggct gatcaccgcc 1380
aaccctgtga tcaccgagag caccgagaac agcaagatga tgctggaact ggacccaccc 1440
ttcggcgaca gctacatcgt gatcggcgtg ggagagaaga agatcaccca ccactggcac 1500
agaagcggca gcaccatcgg caaggccttt gaggctacag tgcggggagc caagagaatg 1560
gccgtgctgg gagataccgc ctgggacttt ggctctgtgg gcggagccct gaactctctg 1620
ggcaagggaa tccaccagat cttcggcgct gccttcaaga gcctgttcgg cggcatgagc 1680
tggttcagcc agatcctgat cggcaccctg ctgatgtggc tgggcctgaa caccaagaac 1740
ggctccatca gcctgatgtg cctggctctg ggaggcgtgc tgatcttcct gagcacagcc 1800
gtgtccgcc 1809
<210> 3
<211> 829
<212> DNA
<213> Artificial sequence
<220>
<223> CMVTeto2A1 promoter
<400> 3
tcaatattgg ccattagcca tattattcat tggttatata gcataaatca atattggcta 60
ttggccattg catacgttgt atccatatca taatatgtac atttatattg gctcatgtcc 120
aacattaccg ccatgttgac attgattatt gactagttat taatagtaat caattacggg 180
gtcattagtt catagcccat atatggagtt ccgcgttaca taacttacgg taaatggccc 240
gcctggctga ccgcccaacg acccccgccc attgacgtca ataatgacgt atgttcccat 300
agtaacgcca atagggactt tccattgacg tcaatgggtg gagtatttac ggtaaactgc 360
ccacttggca gtacatcaag tgtatcatat gccaagtacg ccccctattg acgtcaatga 420
cggtaaatgg cccgcctggc attatgccca gtacatgacc ttatgggact ttcctacttg 480
gcagtacatc tacgtattag tcatcgctat taccatggtg atgcggtttt ggcagtacat 540
caatgggcgt ggatagcggt ttgactcacg gggatttcca agtctccacc ccattgacgt 600
caatgggagt ttgttttggc accaaaatca acgggacttt ccaaaatgtc gtaacaactc 660
cgccccattg acgcaaatgg gcggtaggcg tgtacggtgg gaggtctata taagcagagc 720
tcgtttagtt ccctatcagt gatagagaag acgccatcca cgctgttttg acctccatag 780
aagacaccgg gaccgatcca gcctccgcgg ccgggaacgg tgcattgga 829
<210> 4
<211> 829
<212> DNA
<213> Artificial sequence
<220>
<223> CMVTeto2A2 promoter
<400> 4
tcaatattgg ccattagcca tattattcat tggttatata gcataaatca atattggcta 60
ttggccattg catacgttgt atccatatca taatatgtac atttatattg gctcatgtcc 120
aacattaccg ccatgttgac attgattatt gactagttat taatagtaat caattacggg 180
gtcattagtt catagcccat atatggagtt ccgcgttaca taacttacgg taaatggccc 240
gcctggctga ccgcccaacg acccccgccc attgacgtca ataatgacgt atgttcccat 300
agtaacgcca atagggactt tccattgacg tcaatgggtg gagtatttac ggtaaactgc 360
ccacttggca gtacatcaag tgtatcatat gccaagtacg ccccctattg acgtcaatga 420
cggtaaatgg cccgcctggc attatgccca gtacatgacc ttatgggact ttcctacttg 480
gcagtacatc tacgtattag tcatcgctat taccatggtg atgcggtttt ggcagtacat 540
caatgggcgt ggatagcggt ttgactcacg gggatttcca agtctccacc ccattgacgt 600
caatgggagt ttgttttggc accaaaatca acgggacttt ccaaaatgtc gtaacaactc 660
cgccccattg acgcaaatgg gcggtaggcg tgtacggtgg gaggtctata aaagcagagc 720
tcgtttagtt ccctatcagt gatagagaag acgccatcca cgctgttttg acctccatag 780
aagacaccgg gaccgatcca gcctccgcgg ccgggaacgg tgcattgga 829
<210> 5
<211> 829
<212> DNA
<213> Artificial sequence
<220>
<223> CMVTeto2B1 promoter
<400> 5
tcaatattgg ccattagcca tattattcat tggttatata gcataaatca atattggcta 60
ttggccattg catacgttgt atccatatca taatatgtac atttatattg gctcatgtcc 120
aacattaccg ccatgttgac attgattatt gactagttat taatagtaat caattacggg 180
gtcattagtt catagcccat atatggagtt ccgcgttaca taacttacgg taaatggccc 240
gcctggctga ccgcccaacg acccccgccc attgacgtca ataatgacgt atgttcccat 300
agtaacgcca atagggactt tccattgacg tcaatgggtg gagtatttac ggtaaactgc 360
ccacttggca gtacatcaag tgtatcatat gccaagtacg ccccctattg acgtcaatga 420
cggtaaatgg cccgcctggc attatgccca gtacatgacc ttatgggact ttcctacttg 480
gcagtacatc tacgtattag tcatcgctat taccatggtg atgcggtttt ggcagtacat 540
caatgggcgt ggatagcggt ttgactcacg gggatttcca agtctccacc ccattgacgt 600
caatgggagt ttgttttggc accaaaatca acgggacttt ccaaaatgtc gtaacaactc 660
cgccccattg acgcaaatgg gcggtaggcg tgtacggtgg gaggtctata taagcagagc 720
tcgtttagtt ctctatcact gatagggaag acgccatcca cgctgttttg acctccatag 780
aagacaccgg gaccgatcca gcctccgcgg ccgggaacgg tgcattgga 829
<210> 6
<211> 829
<212> DNA
<213> Artificial sequence
<220>
<223> CMVTeto3A promoter
<400> 6
tcaatattgg ccattagcca tattattcat tggttatata gcataaatca atattggcta 60
ttggccattg catacgttgt atccatatca taatatgtac atttatattg gctcatgtcc 120
aacattaccg ccatgttgac attgattatt gactagttat taatagtaat caattacggg 180
gtcattagtt catagcccat atatggagtt ccgcgttaca taacttacgg taaatggccc 240
gcctggctga ccgcccaacg acccccgccc attgacgtca ataatgacgt atgttcccat 300
agtaacgcca atagggactt tccattgacg tcaatgggtg gagtatttac ggtaaactgc 360
ccacttggca gtacatcaag tgtatcatat gccaagtacg ccccctattg acgtcaatga 420
cggtaaatgg cccgcctggc attatgccca gtacatgacc ttatgggact ttcctacttg 480
gcagtacatc tacgtattag tcatcgctat taccatggtg atgcggtttt ggcagtacat 540
caatgggcgt ggatagcggt ttgactcacg gggatttcca agtctccacc ccattgacgt 600
caatgggagt ttgttttggc accaaaatca acgggacttt ccaaaatgtc gtaacaactc 660
cgccccattg acgcaaatgg gcggtaggcg tgtacggtgg gaggtctata taagcagagc 720
tcgtttagtg aaccgtcaga tccctatcag tgatagagaa cgctgttttg acctccatag 780
aagacaccgg gaccgatcca gcctccgcgg ccgggaacgg tgcattgga 829
<210> 7
<211> 829
<212> DNA
<213> Artificial sequence
<220>
<223> CMVTeto3B promoter
<400> 7
tcaatattgg ccattagcca tattattcat tggttatata gcataaatca atattggcta 60
ttggccattg catacgttgt atccatatca taatatgtac atttatattg gctcatgtcc 120
aacattaccg ccatgttgac attgattatt gactagttat taatagtaat caattacggg 180
gtcattagtt catagcccat atatggagtt ccgcgttaca taacttacgg taaatggccc 240
gcctggctga ccgcccaacg acccccgccc attgacgtca ataatgacgt atgttcccat 300
agtaacgcca atagggactt tccattgacg tcaatgggtg gagtatttac ggtaaactgc 360
ccacttggca gtacatcaag tgtatcatat gccaagtacg ccccctattg acgtcaatga 420
cggtaaatgg cccgcctggc attatgccca gtacatgacc ttatgggact ttcctacttg 480
gcagtacatc tacgtattag tcatcgctat taccatggtg atgcggtttt ggcagtacat 540
caatgggcgt ggatagcggt ttgactcacg gggatttcca agtctccacc ccattgacgt 600
caatgggagt ttgttttggc accaaaatca acgggacttt ccaaaatgtc gtaacaactc 660
cgccccattg acgcaaatgg gcggtaggcg tgtacggtgg gaggtctata taagcagagc 720
tcgtttagtg aaccgtcaga tctctatcac tgatagggaa cgctgttttg acctccatag 780
aagacaccgg gaccgatcca gcctccgcgg ccgggaacgg tgcattgga 829
<210> 8
<211> 883
<212> DNA
<213> Artificial sequence
<220>
<223> CMVTeto v1 promoter
<400> 8
tcaatattgg ccattagcca tattattcat tggttatata gcataaatca atattggcta 60
ttggccattg catacgttgt atccatatca taatatgtac atttatattg gctcatgtcc 120
aacattaccg ccatgttgac attgattatt gactagttat taatagtaat caattacggg 180
gtcattagtt catagcccat atatggagtt ccgcgttaca taacttacgg taaatggccc 240
gcctggctga ccgcccaacg acccccgccc attgacgtca ataatgacgt atgttcccat 300
agtaacgcca atagggactt tccattgacg tcaatgggtg gagtatttac ggtaaactgc 360
ccacttggca gtacatcaag tgtatcatat gccaagtacg ccccctattg acgtcaatga 420
cggtaaatgg cccgcctggc attatgccca gtacatgacc ttatgggact ttcctacttg 480
gcagtacatc tacgtattag tcatcgctat taccatggtg atgcggtttt ggcagtacat 540
caatgggcgt ggatagcggt ttgactcacg gggatttcca agtctccacc ccattgacgt 600
caatgggagt ttgttttggc accaaaatca acgggacttt ccaaaatgtc gtaacaactc 660
cgccccattg acgcaaatgg gcggtaggcg tgtacggtgg gaggtctata taagcagagc 720
tctccctatc agtgatagag atctccctat cagtgataga gatcgtcgac gagctcgttt 780
agtgaaccgt cagatcgcct ggagacgcca tccacgctgt tttgacctcc atagaagaca 840
ccgggaccga tccagcctcc gcggccggga acggtgcatt gga 883
<210> 9
<211> 2655
<212> DNA
<213> Artificial sequence
<220>
<223> CMVTeto2A1 promoter operably linked to ME Zika antigen
<400> 9
tcaatattgg ccattagcca tattattcat tggttatata gcataaatca atattggcta 60
ttggccattg catacgttgt atccatatca taatatgtac atttatattg gctcatgtcc 120
aacattaccg ccatgttgac attgattatt gactagttat taatagtaat caattacggg 180
gtcattagtt catagcccat atatggagtt ccgcgttaca taacttacgg taaatggccc 240
gcctggctga ccgcccaacg acccccgccc attgacgtca ataatgacgt atgttcccat 300
agtaacgcca atagggactt tccattgacg tcaatgggtg gagtatttac ggtaaactgc 360
ccacttggca gtacatcaag tgtatcatat gccaagtacg ccccctattg acgtcaatga 420
cggtaaatgg cccgcctggc attatgccca gtacatgacc ttatgggact ttcctacttg 480
gcagtacatc tacgtattag tcatcgctat taccatggtg atgcggtttt ggcagtacat 540
caatgggcgt ggatagcggt ttgactcacg gggatttcca agtctccacc ccattgacgt 600
caatgggagt ttgttttggc accaaaatca acgggacttt ccaaaatgtc gtaacaactc 660
cgccccattg acgcaaatgg gcggtaggcg tgtacggtgg gaggtctata taagcagagc 720
tcgtttagtt ccctatcagt gatagagaag acgccatcca cgctgttttg acctccatag 780
aagacaccgg gaccgatcca gcctccgcgg ccgggaacgg tgcattggaa gcttggtacc 840
gccaccatgg gcaaaagatc cgccggcagc atcatgtggc tggccagtct ggctgtcgtg 900
atcgcctgtg ctggcgccgc tgtgacactg cctagccaca gcacccggaa gctgcagacc 960
agaagccaga cctggctgga aagcagagag tacaccaagc acctgatccg ggtggaaaac 1020
tggatcttcc ggaaccccgg cttcgccctg gccgctgctg ctattgcttg gctgctgggc 1080
agcagcacca gccagaaagt gatctacctc gtgatgatcc tgctgatcgc ccctgcctac 1140
agcatccggt gtatcggcgt gtccaaccgg gacttcgtgg aaggcatgag cggcggcaca 1200
tgggtggacg tggtgctgga acatggcggc tgcgtgacag tgatggccca ggacaagccc 1260
accgtggaca tcgagctcgt gaccaccacc gtgtccaata tggccgaagt gcggagctac 1320
tgctacgagg ccagcatcag cgacatggcc agcgacagca gatgccctac acagggcgag 1380
gcctacctgg acaagcagtc cgacacccag tacgtgtgca agcggaccct ggtggataga 1440
ggctggggca atggctgcgg cctgtttggc aagggcagcc tcgtgacctg cgccaagttc 1500
gcctgcagca agaagatgac cggcaagagc atccagcccg agaacctgga ataccggatc 1560
atgctgagcg tgcacggcag ccagcactcc ggcatgatcg tgaacgacac cggccacgag 1620
acagacgaga accgggccaa ggtggaaatc acccccaaca gccctagagc cgaggccaca 1680
ctgggcggct ttggatctct gggcctggac tgcgagccta gaaccggcct ggatttcagc 1740
gacctgtact acctgaccat gaacaacaaa cactggctgg tgcacaaaga gtggttccac 1800
gacatccccc tgccctggca tgccggcgct gatacaggca caccccactg gaacaacaaa 1860
gaggccctgg tggagttcaa ggacgcccac gccaagaggc agaccgtggt ggtgctggga 1920
tctcaggaag gcgccgtgca tacagctctg gctggcgccc tggaagccga aatggatggc 1980
gctaagggca gactgtccag cggccacctg aagtgccggc tgaagatgga caagctgcgg 2040
ctgaagggcg tgtcctacag cctgtgtacc gccgccttca ccttcaccaa gatccccgcc 2100
gagacactgc acggcaccgt gactgtggaa gtgcagtacg ccggcaccga cggcccttgt 2160
aaagtgcctg ctcagatggc cgtggatatg cagaccctga cccctgtggg caggctgatc 2220
accgccaacc ctgtgatcac cgagagcacc gagaacagca agatgatgct ggaactggac 2280
ccacccttcg gcgacagcta catcgtgatc ggcgtgggag agaagaagat cacccaccac 2340
tggcacagaa gcggcagcac catcggcaag gcctttgagg ctacagtgcg gggagccaag 2400
agaatggccg tgctgggaga taccgcctgg gactttggct ctgtgggcgg agccctgaac 2460
tctctgggca agggaatcca ccagatcttc ggcgctgcct tcaagagcct gttcggcggc 2520
atgagctggt tcagccagat cctgatcggc accctgctga tgtggctggg cctgaacacc 2580
aagaacggct ccatcagcct gatgtgcctg gctctgggag gcgtgctgat cttcctgagc 2640
acagccgtgt ccgcc 2655
<210> 10
<211> 2655
<212> DNA
<213> Artificial sequence
<220>
<223> CMVTeto2A2 promoter operably linked to ME Zika antigen
<400> 10
tcaatattgg ccattagcca tattattcat tggttatata gcataaatca atattggcta 60
ttggccattg catacgttgt atccatatca taatatgtac atttatattg gctcatgtcc 120
aacattaccg ccatgttgac attgattatt gactagttat taatagtaat caattacggg 180
gtcattagtt catagcccat atatggagtt ccgcgttaca taacttacgg taaatggccc 240
gcctggctga ccgcccaacg acccccgccc attgacgtca ataatgacgt atgttcccat 300
agtaacgcca atagggactt tccattgacg tcaatgggtg gagtatttac ggtaaactgc 360
ccacttggca gtacatcaag tgtatcatat gccaagtacg ccccctattg acgtcaatga 420
cggtaaatgg cccgcctggc attatgccca gtacatgacc ttatgggact ttcctacttg 480
gcagtacatc tacgtattag tcatcgctat taccatggtg atgcggtttt ggcagtacat 540
caatgggcgt ggatagcggt ttgactcacg gggatttcca agtctccacc ccattgacgt 600
caatgggagt ttgttttggc accaaaatca acgggacttt ccaaaatgtc gtaacaactc 660
cgccccattg acgcaaatgg gcggtaggcg tgtacggtgg gaggtctata aaagcagagc 720
tcgtttagtt ccctatcagt gatagagaag acgccatcca cgctgttttg acctccatag 780
aagacaccgg gaccgatcca gcctccgcgg ccgggaacgg tgcattggaa gcttggtacc 840
gccaccatgg gcaaaagatc cgccggcagc atcatgtggc tggccagtct ggctgtcgtg 900
atcgcctgtg ctggcgccgc tgtgacactg cctagccaca gcacccggaa gctgcagacc 960
agaagccaga cctggctgga aagcagagag tacaccaagc acctgatccg ggtggaaaac 1020
tggatcttcc ggaaccccgg cttcgccctg gccgctgctg ctattgcttg gctgctgggc 1080
agcagcacca gccagaaagt gatctacctc gtgatgatcc tgctgatcgc ccctgcctac 1140
agcatccggt gtatcggcgt gtccaaccgg gacttcgtgg aaggcatgag cggcggcaca 1200
tgggtggacg tggtgctgga acatggcggc tgcgtgacag tgatggccca ggacaagccc 1260
accgtggaca tcgagctcgt gaccaccacc gtgtccaata tggccgaagt gcggagctac 1320
tgctacgagg ccagcatcag cgacatggcc agcgacagca gatgccctac acagggcgag 1380
gcctacctgg acaagcagtc cgacacccag tacgtgtgca agcggaccct ggtggataga 1440
ggctggggca atggctgcgg cctgtttggc aagggcagcc tcgtgacctg cgccaagttc 1500
gcctgcagca agaagatgac cggcaagagc atccagcccg agaacctgga ataccggatc 1560
atgctgagcg tgcacggcag ccagcactcc ggcatgatcg tgaacgacac cggccacgag 1620
acagacgaga accgggccaa ggtggaaatc acccccaaca gccctagagc cgaggccaca 1680
ctgggcggct ttggatctct gggcctggac tgcgagccta gaaccggcct ggatttcagc 1740
gacctgtact acctgaccat gaacaacaaa cactggctgg tgcacaaaga gtggttccac 1800
gacatccccc tgccctggca tgccggcgct gatacaggca caccccactg gaacaacaaa 1860
gaggccctgg tggagttcaa ggacgcccac gccaagaggc agaccgtggt ggtgctggga 1920
tctcaggaag gcgccgtgca tacagctctg gctggcgccc tggaagccga aatggatggc 1980
gctaagggca gactgtccag cggccacctg aagtgccggc tgaagatgga caagctgcgg 2040
ctgaagggcg tgtcctacag cctgtgtacc gccgccttca ccttcaccaa gatccccgcc 2100
gagacactgc acggcaccgt gactgtggaa gtgcagtacg ccggcaccga cggcccttgt 2160
aaagtgcctg ctcagatggc cgtggatatg cagaccctga cccctgtggg caggctgatc 2220
accgccaacc ctgtgatcac cgagagcacc gagaacagca agatgatgct ggaactggac 2280
ccacccttcg gcgacagcta catcgtgatc ggcgtgggag agaagaagat cacccaccac 2340
tggcacagaa gcggcagcac catcggcaag gcctttgagg ctacagtgcg gggagccaag 2400
agaatggccg tgctgggaga taccgcctgg gactttggct ctgtgggcgg agccctgaac 2460
tctctgggca agggaatcca ccagatcttc ggcgctgcct tcaagagcct gttcggcggc 2520
atgagctggt tcagccagat cctgatcggc accctgctga tgtggctggg cctgaacacc 2580
aagaacggct ccatcagcct gatgtgcctg gctctgggag gcgtgctgat cttcctgagc 2640
acagccgtgt ccgcc 2655
<210> 11
<211> 2655
<212> DNA
<213> Artificial sequence
<220>
<223> CMVTeto2B1 promoter operably linked to ME Zika antigen
<400> 11
tcaatattgg ccattagcca tattattcat tggttatata gcataaatca atattggcta 60
ttggccattg catacgttgt atccatatca taatatgtac atttatattg gctcatgtcc 120
aacattaccg ccatgttgac attgattatt gactagttat taatagtaat caattacggg 180
gtcattagtt catagcccat atatggagtt ccgcgttaca taacttacgg taaatggccc 240
gcctggctga ccgcccaacg acccccgccc attgacgtca ataatgacgt atgttcccat 300
agtaacgcca atagggactt tccattgacg tcaatgggtg gagtatttac ggtaaactgc 360
ccacttggca gtacatcaag tgtatcatat gccaagtacg ccccctattg acgtcaatga 420
cggtaaatgg cccgcctggc attatgccca gtacatgacc ttatgggact ttcctacttg 480
gcagtacatc tacgtattag tcatcgctat taccatggtg atgcggtttt ggcagtacat 540
caatgggcgt ggatagcggt ttgactcacg gggatttcca agtctccacc ccattgacgt 600
caatgggagt ttgttttggc accaaaatca acgggacttt ccaaaatgtc gtaacaactc 660
cgccccattg acgcaaatgg gcggtaggcg tgtacggtgg gaggtctata taagcagagc 720
tcgtttagtt ctctatcact gatagggaag acgccatcca cgctgttttg acctccatag 780
aagacaccgg gaccgatcca gcctccgcgg ccgggaacgg tgcattggaa gcttggtacc 840
gccaccatgg gcaaaagatc cgccggcagc atcatgtggc tggccagtct ggctgtcgtg 900
atcgcctgtg ctggcgccgc tgtgacactg cctagccaca gcacccggaa gctgcagacc 960
agaagccaga cctggctgga aagcagagag tacaccaagc acctgatccg ggtggaaaac 1020
tggatcttcc ggaaccccgg cttcgccctg gccgctgctg ctattgcttg gctgctgggc 1080
agcagcacca gccagaaagt gatctacctc gtgatgatcc tgctgatcgc ccctgcctac 1140
agcatccggt gtatcggcgt gtccaaccgg gacttcgtgg aaggcatgag cggcggcaca 1200
tgggtggacg tggtgctgga acatggcggc tgcgtgacag tgatggccca ggacaagccc 1260
accgtggaca tcgagctcgt gaccaccacc gtgtccaata tggccgaagt gcggagctac 1320
tgctacgagg ccagcatcag cgacatggcc agcgacagca gatgccctac acagggcgag 1380
gcctacctgg acaagcagtc cgacacccag tacgtgtgca agcggaccct ggtggataga 1440
ggctggggca atggctgcgg cctgtttggc aagggcagcc tcgtgacctg cgccaagttc 1500
gcctgcagca agaagatgac cggcaagagc atccagcccg agaacctgga ataccggatc 1560
atgctgagcg tgcacggcag ccagcactcc ggcatgatcg tgaacgacac cggccacgag 1620
acagacgaga accgggccaa ggtggaaatc acccccaaca gccctagagc cgaggccaca 1680
ctgggcggct ttggatctct gggcctggac tgcgagccta gaaccggcct ggatttcagc 1740
gacctgtact acctgaccat gaacaacaaa cactggctgg tgcacaaaga gtggttccac 1800
gacatccccc tgccctggca tgccggcgct gatacaggca caccccactg gaacaacaaa 1860
gaggccctgg tggagttcaa ggacgcccac gccaagaggc agaccgtggt ggtgctggga 1920
tctcaggaag gcgccgtgca tacagctctg gctggcgccc tggaagccga aatggatggc 1980
gctaagggca gactgtccag cggccacctg aagtgccggc tgaagatgga caagctgcgg 2040
ctgaagggcg tgtcctacag cctgtgtacc gccgccttca ccttcaccaa gatccccgcc 2100
gagacactgc acggcaccgt gactgtggaa gtgcagtacg ccggcaccga cggcccttgt 2160
aaagtgcctg ctcagatggc cgtggatatg cagaccctga cccctgtggg caggctgatc 2220
accgccaacc ctgtgatcac cgagagcacc gagaacagca agatgatgct ggaactggac 2280
ccacccttcg gcgacagcta catcgtgatc ggcgtgggag agaagaagat cacccaccac 2340
tggcacagaa gcggcagcac catcggcaag gcctttgagg ctacagtgcg gggagccaag 2400
agaatggccg tgctgggaga taccgcctgg gactttggct ctgtgggcgg agccctgaac 2460
tctctgggca agggaatcca ccagatcttc ggcgctgcct tcaagagcct gttcggcggc 2520
atgagctggt tcagccagat cctgatcggc accctgctga tgtggctggg cctgaacacc 2580
aagaacggct ccatcagcct gatgtgcctg gctctgggag gcgtgctgat cttcctgagc 2640
acagccgtgt ccgcc 2655
<210> 12
<211> 2655
<212> DNA
<213> Artificial sequence
<220>
<223> CMVTeto3A promoter operably linked to ME Zika antigen
<400> 12
tcaatattgg ccattagcca tattattcat tggttatata gcataaatca atattggcta 60
ttggccattg catacgttgt atccatatca taatatgtac atttatattg gctcatgtcc 120
aacattaccg ccatgttgac attgattatt gactagttat taatagtaat caattacggg 180
gtcattagtt catagcccat atatggagtt ccgcgttaca taacttacgg taaatggccc 240
gcctggctga ccgcccaacg acccccgccc attgacgtca ataatgacgt atgttcccat 300
agtaacgcca atagggactt tccattgacg tcaatgggtg gagtatttac ggtaaactgc 360
ccacttggca gtacatcaag tgtatcatat gccaagtacg ccccctattg acgtcaatga 420
cggtaaatgg cccgcctggc attatgccca gtacatgacc ttatgggact ttcctacttg 480
gcagtacatc tacgtattag tcatcgctat taccatggtg atgcggtttt ggcagtacat 540
caatgggcgt ggatagcggt ttgactcacg gggatttcca agtctccacc ccattgacgt 600
caatgggagt ttgttttggc accaaaatca acgggacttt ccaaaatgtc gtaacaactc 660
cgccccattg acgcaaatgg gcggtaggcg tgtacggtgg gaggtctata taagcagagc 720
tcgtttagtg aaccgtcaga tccctatcag tgatagagaa cgctgttttg acctccatag 780
aagacaccgg gaccgatcca gcctccgcgg ccgggaacgg tgcattggaa gcttggtacc 840
gccaccatgg gcaaaagatc cgccggcagc atcatgtggc tggccagtct ggctgtcgtg 900
atcgcctgtg ctggcgccgc tgtgacactg cctagccaca gcacccggaa gctgcagacc 960
agaagccaga cctggctgga aagcagagag tacaccaagc acctgatccg ggtggaaaac 1020
tggatcttcc ggaaccccgg cttcgccctg gccgctgctg ctattgcttg gctgctgggc 1080
agcagcacca gccagaaagt gatctacctc gtgatgatcc tgctgatcgc ccctgcctac 1140
agcatccggt gtatcggcgt gtccaaccgg gacttcgtgg aaggcatgag cggcggcaca 1200
tgggtggacg tggtgctgga acatggcggc tgcgtgacag tgatggccca ggacaagccc 1260
accgtggaca tcgagctcgt gaccaccacc gtgtccaata tggccgaagt gcggagctac 1320
tgctacgagg ccagcatcag cgacatggcc agcgacagca gatgccctac acagggcgag 1380
gcctacctgg acaagcagtc cgacacccag tacgtgtgca agcggaccct ggtggataga 1440
ggctggggca atggctgcgg cctgtttggc aagggcagcc tcgtgacctg cgccaagttc 1500
gcctgcagca agaagatgac cggcaagagc atccagcccg agaacctgga ataccggatc 1560
atgctgagcg tgcacggcag ccagcactcc ggcatgatcg tgaacgacac cggccacgag 1620
acagacgaga accgggccaa ggtggaaatc acccccaaca gccctagagc cgaggccaca 1680
ctgggcggct ttggatctct gggcctggac tgcgagccta gaaccggcct ggatttcagc 1740
gacctgtact acctgaccat gaacaacaaa cactggctgg tgcacaaaga gtggttccac 1800
gacatccccc tgccctggca tgccggcgct gatacaggca caccccactg gaacaacaaa 1860
gaggccctgg tggagttcaa ggacgcccac gccaagaggc agaccgtggt ggtgctggga 1920
tctcaggaag gcgccgtgca tacagctctg gctggcgccc tggaagccga aatggatggc 1980
gctaagggca gactgtccag cggccacctg aagtgccggc tgaagatgga caagctgcgg 2040
ctgaagggcg tgtcctacag cctgtgtacc gccgccttca ccttcaccaa gatccccgcc 2100
gagacactgc acggcaccgt gactgtggaa gtgcagtacg ccggcaccga cggcccttgt 2160
aaagtgcctg ctcagatggc cgtggatatg cagaccctga cccctgtggg caggctgatc 2220
accgccaacc ctgtgatcac cgagagcacc gagaacagca agatgatgct ggaactggac 2280
ccacccttcg gcgacagcta catcgtgatc ggcgtgggag agaagaagat cacccaccac 2340
tggcacagaa gcggcagcac catcggcaag gcctttgagg ctacagtgcg gggagccaag 2400
agaatggccg tgctgggaga taccgcctgg gactttggct ctgtgggcgg agccctgaac 2460
tctctgggca agggaatcca ccagatcttc ggcgctgcct tcaagagcct gttcggcggc 2520
atgagctggt tcagccagat cctgatcggc accctgctga tgtggctggg cctgaacacc 2580
aagaacggct ccatcagcct gatgtgcctg gctctgggag gcgtgctgat cttcctgagc 2640
acagccgtgt ccgcc 2655
<210> 13
<211> 2655
<212> DNA
<213> Artificial sequence
<220>
<223> CMVTeto3B promoter operably linked to ME Zika antigen
<400> 13
tcaatattgg ccattagcca tattattcat tggttatata gcataaatca atattggcta 60
ttggccattg catacgttgt atccatatca taatatgtac atttatattg gctcatgtcc 120
aacattaccg ccatgttgac attgattatt gactagttat taatagtaat caattacggg 180
gtcattagtt catagcccat atatggagtt ccgcgttaca taacttacgg taaatggccc 240
gcctggctga ccgcccaacg acccccgccc attgacgtca ataatgacgt atgttcccat 300
agtaacgcca atagggactt tccattgacg tcaatgggtg gagtatttac ggtaaactgc 360
ccacttggca gtacatcaag tgtatcatat gccaagtacg ccccctattg acgtcaatga 420
cggtaaatgg cccgcctggc attatgccca gtacatgacc ttatgggact ttcctacttg 480
gcagtacatc tacgtattag tcatcgctat taccatggtg atgcggtttt ggcagtacat 540
caatgggcgt ggatagcggt ttgactcacg gggatttcca agtctccacc ccattgacgt 600
caatgggagt ttgttttggc accaaaatca acgggacttt ccaaaatgtc gtaacaactc 660
cgccccattg acgcaaatgg gcggtaggcg tgtacggtgg gaggtctata taagcagagc 720
tcgtttagtg aaccgtcaga tctctatcac tgatagggaa cgctgttttg acctccatag 780
aagacaccgg gaccgatcca gcctccgcgg ccgggaacgg tgcattggaa gcttggtacc 840
gccaccatgg gcaaaagatc cgccggcagc atcatgtggc tggccagtct ggctgtcgtg 900
atcgcctgtg ctggcgccgc tgtgacactg cctagccaca gcacccggaa gctgcagacc 960
agaagccaga cctggctgga aagcagagag tacaccaagc acctgatccg ggtggaaaac 1020
tggatcttcc ggaaccccgg cttcgccctg gccgctgctg ctattgcttg gctgctgggc 1080
agcagcacca gccagaaagt gatctacctc gtgatgatcc tgctgatcgc ccctgcctac 1140
agcatccggt gtatcggcgt gtccaaccgg gacttcgtgg aaggcatgag cggcggcaca 1200
tgggtggacg tggtgctgga acatggcggc tgcgtgacag tgatggccca ggacaagccc 1260
accgtggaca tcgagctcgt gaccaccacc gtgtccaata tggccgaagt gcggagctac 1320
tgctacgagg ccagcatcag cgacatggcc agcgacagca gatgccctac acagggcgag 1380
gcctacctgg acaagcagtc cgacacccag tacgtgtgca agcggaccct ggtggataga 1440
ggctggggca atggctgcgg cctgtttggc aagggcagcc tcgtgacctg cgccaagttc 1500
gcctgcagca agaagatgac cggcaagagc atccagcccg agaacctgga ataccggatc 1560
atgctgagcg tgcacggcag ccagcactcc ggcatgatcg tgaacgacac cggccacgag 1620
acagacgaga accgggccaa ggtggaaatc acccccaaca gccctagagc cgaggccaca 1680
ctgggcggct ttggatctct gggcctggac tgcgagccta gaaccggcct ggatttcagc 1740
gacctgtact acctgaccat gaacaacaaa cactggctgg tgcacaaaga gtggttccac 1800
gacatccccc tgccctggca tgccggcgct gatacaggca caccccactg gaacaacaaa 1860
gaggccctgg tggagttcaa ggacgcccac gccaagaggc agaccgtggt ggtgctggga 1920
tctcaggaag gcgccgtgca tacagctctg gctggcgccc tggaagccga aatggatggc 1980
gctaagggca gactgtccag cggccacctg aagtgccggc tgaagatgga caagctgcgg 2040
ctgaagggcg tgtcctacag cctgtgtacc gccgccttca ccttcaccaa gatccccgcc 2100
gagacactgc acggcaccgt gactgtggaa gtgcagtacg ccggcaccga cggcccttgt 2160
aaagtgcctg ctcagatggc cgtggatatg cagaccctga cccctgtggg caggctgatc 2220
accgccaacc ctgtgatcac cgagagcacc gagaacagca agatgatgct ggaactggac 2280
ccacccttcg gcgacagcta catcgtgatc ggcgtgggag agaagaagat cacccaccac 2340
tggcacagaa gcggcagcac catcggcaag gcctttgagg ctacagtgcg gggagccaag 2400
agaatggccg tgctgggaga taccgcctgg gactttggct ctgtgggcgg agccctgaac 2460
tctctgggca agggaatcca ccagatcttc ggcgctgcct tcaagagcct gttcggcggc 2520
atgagctggt tcagccagat cctgatcggc accctgctga tgtggctggg cctgaacacc 2580
aagaacggct ccatcagcct gatgtgcctg gctctgggag gcgtgctgat cttcctgagc 2640
acagccgtgt ccgcc 2655
<210> 14
<211> 2709
<212> DNA
<213> Artificial sequence
<220>
<223> CMVTeto v1 promoter operably linked to ME Zika antigen
<400> 14
tcaatattgg ccattagcca tattattcat tggttatata gcataaatca atattggcta 60
ttggccattg catacgttgt atccatatca taatatgtac atttatattg gctcatgtcc 120
aacattaccg ccatgttgac attgattatt gactagttat taatagtaat caattacggg 180
gtcattagtt catagcccat atatggagtt ccgcgttaca taacttacgg taaatggccc 240
gcctggctga ccgcccaacg acccccgccc attgacgtca ataatgacgt atgttcccat 300
agtaacgcca atagggactt tccattgacg tcaatgggtg gagtatttac ggtaaactgc 360
ccacttggca gtacatcaag tgtatcatat gccaagtacg ccccctattg acgtcaatga 420
cggtaaatgg cccgcctggc attatgccca gtacatgacc ttatgggact ttcctacttg 480
gcagtacatc tacgtattag tcatcgctat taccatggtg atgcggtttt ggcagtacat 540
caatgggcgt ggatagcggt ttgactcacg gggatttcca agtctccacc ccattgacgt 600
caatgggagt ttgttttggc accaaaatca acgggacttt ccaaaatgtc gtaacaactc 660
cgccccattg acgcaaatgg gcggtaggcg tgtacggtgg gaggtctata taagcagagc 720
tctccctatc agtgatagag atctccctat cagtgataga gatcgtcgac gagctcgttt 780
agtgaaccgt cagatcgcct ggagacgcca tccacgctgt tttgacctcc atagaagaca 840
ccgggaccga tccagcctcc gcggccggga acggtgcatt ggaagcttgg taccgccacc 900
atgggcaaaa gatccgccgg cagcatcatg tggctggcca gtctggctgt cgtgatcgcc 960
tgtgctggcg ccgctgtgac actgcctagc cacagcaccc ggaagctgca gaccagaagc 1020
cagacctggc tggaaagcag agagtacacc aagcacctga tccgggtgga aaactggatc 1080
ttccggaacc ccggcttcgc cctggccgct gctgctattg cttggctgct gggcagcagc 1140
accagccaga aagtgatcta cctcgtgatg atcctgctga tcgcccctgc ctacagcatc 1200
cggtgtatcg gcgtgtccaa ccgggacttc gtggaaggca tgagcggcgg cacatgggtg 1260
gacgtggtgc tggaacatgg cggctgcgtg acagtgatgg cccaggacaa gcccaccgtg 1320
gacatcgagc tcgtgaccac caccgtgtcc aatatggccg aagtgcggag ctactgctac 1380
gaggccagca tcagcgacat ggccagcgac agcagatgcc ctacacaggg cgaggcctac 1440
ctggacaagc agtccgacac ccagtacgtg tgcaagcgga ccctggtgga tagaggctgg 1500
ggcaatggct gcggcctgtt tggcaagggc agcctcgtga cctgcgccaa gttcgcctgc 1560
agcaagaaga tgaccggcaa gagcatccag cccgagaacc tggaataccg gatcatgctg 1620
agcgtgcacg gcagccagca ctccggcatg atcgtgaacg acaccggcca cgagacagac 1680
gagaaccggg ccaaggtgga aatcaccccc aacagcccta gagccgaggc cacactgggc 1740
ggctttggat ctctgggcct ggactgcgag cctagaaccg gcctggattt cagcgacctg 1800
tactacctga ccatgaacaa caaacactgg ctggtgcaca aagagtggtt ccacgacatc 1860
cccctgccct ggcatgccgg cgctgataca ggcacacccc actggaacaa caaagaggcc 1920
ctggtggagt tcaaggacgc ccacgccaag aggcagaccg tggtggtgct gggatctcag 1980
gaaggcgccg tgcatacagc tctggctggc gccctggaag ccgaaatgga tggcgctaag 2040
ggcagactgt ccagcggcca cctgaagtgc cggctgaaga tggacaagct gcggctgaag 2100
ggcgtgtcct acagcctgtg taccgccgcc ttcaccttca ccaagatccc cgccgagaca 2160
ctgcacggca ccgtgactgt ggaagtgcag tacgccggca ccgacggccc ttgtaaagtg 2220
cctgctcaga tggccgtgga tatgcagacc ctgacccctg tgggcaggct gatcaccgcc 2280
aaccctgtga tcaccgagag caccgagaac agcaagatga tgctggaact ggacccaccc 2340
ttcggcgaca gctacatcgt gatcggcgtg ggagagaaga agatcaccca ccactggcac 2400
agaagcggca gcaccatcgg caaggccttt gaggctacag tgcggggagc caagagaatg 2460
gccgtgctgg gagataccgc ctgggacttt ggctctgtgg gcggagccct gaactctctg 2520
ggcaagggaa tccaccagat cttcggcgct gccttcaaga gcctgttcgg cggcatgagc 2580
tggttcagcc agatcctgat cggcaccctg ctgatgtggc tgggcctgaa caccaagaac 2640
ggctccatca gcctgatgtg cctggctctg ggaggcgtgc tgatcttcct gagcacagcc 2700
gtgtccgcc 2709
<210> 15
<211> 31171
<212> DNA
<213> Artificial sequence
<220>
<223> Ad26.ZIKV.002 Adenoviral vector
<400> 15
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 acctaggtgg 480
tcaatattgg ccattagcca tattattcat tggttatata gcataaatca atattggcta 540
ttggccattg catacgttgt atccatatca taatatgtac atttatattg gctcatgtcc 600
aacattaccg ccatgttgac attgattatt gactagttat taatagtaat caattacggg 660
gtcattagtt catagcccat atatggagtt ccgcgttaca taacttacgg taaatggccc 720
gcctggctga ccgcccaacg acccccgccc attgacgtca ataatgacgt atgttcccat 780
agtaacgcca atagggactt tccattgacg tcaatgggtg gagtatttac ggtaaactgc 840
ccacttggca gtacatcaag tgtatcatat gccaagtacg ccccctattg acgtcaatga 900
cggtaaatgg cccgcctggc attatgccca gtacatgacc ttatgggact ttcctacttg 960
gcagtacatc tacgtattag tcatcgctat taccatggtg atgcggtttt ggcagtacat 1020
caatgggcgt ggatagcggt ttgactcacg gggatttcca agtctccacc ccattgacgt 1080
caatgggagt ttgttttggc accaaaatca acgggacttt ccaaaatgtc gtaacaactc 1140
cgccccattg acgcaaatgg gcggtaggcg tgtacggtgg gaggtctata taagcagagc 1200
tcgtttagtt ccctatcagt gatagagaag acgccatcca cgctgttttg acctccatag 1260
aagacaccgg gaccgatcca gcctccgcgg ccgggaacgg tgcattggaa gcttggtacc 1320
gccaccatgg gcaaaagatc cgccggcagc atcatgtggc tggccagtct ggctgtcgtg 1380
atcgcctgtg ctggcgccgc tgtgacactg cctagccaca gcacccggaa gctgcagacc 1440
agaagccaga cctggctgga aagcagagag tacaccaagc acctgatccg ggtggaaaac 1500
tggatcttcc ggaaccccgg cttcgccctg gccgctgctg ctattgcttg gctgctgggc 1560
agcagcacca gccagaaagt gatctacctc gtgatgatcc tgctgatcgc ccctgcctac 1620
agcatccggt gtatcggcgt gtccaaccgg gacttcgtgg aaggcatgag cggcggcaca 1680
tgggtggacg tggtgctgga acatggcggc tgcgtgacag tgatggccca ggacaagccc 1740
accgtggaca tcgagctcgt gaccaccacc gtgtccaata tggccgaagt gcggagctac 1800
tgctacgagg ccagcatcag cgacatggcc agcgacagca gatgccctac acagggcgag 1860
gcctacctgg acaagcagtc cgacacccag tacgtgtgca agcggaccct ggtggataga 1920
ggctggggca atggctgcgg cctgtttggc aagggcagcc tcgtgacctg cgccaagttc 1980
gcctgcagca agaagatgac cggcaagagc atccagcccg agaacctgga ataccggatc 2040
atgctgagcg tgcacggcag ccagcactcc ggcatgatcg tgaacgacac cggccacgag 2100
acagacgaga accgggccaa ggtggaaatc acccccaaca gccctagagc cgaggccaca 2160
ctgggcggct ttggatctct gggcctggac tgcgagccta gaaccggcct ggatttcagc 2220
gacctgtact acctgaccat gaacaacaaa cactggctgg tgcacaaaga gtggttccac 2280
gacatccccc tgccctggca tgccggcgct gatacaggca caccccactg gaacaacaaa 2340
gaggccctgg tggagttcaa ggacgcccac gccaagaggc agaccgtggt ggtgctggga 2400
tctcaggaag gcgccgtgca tacagctctg gctggcgccc tggaagccga aatggatggc 2460
gctaagggca gactgtccag cggccacctg aagtgccggc tgaagatgga caagctgcgg 2520
ctgaagggcg tgtcctacag cctgtgtacc gccgccttca ccttcaccaa gatccccgcc 2580
gagacactgc acggcaccgt gactgtggaa gtgcagtacg ccggcaccga cggcccttgt 2640
aaagtgcctg ctcagatggc cgtggatatg cagaccctga cccctgtggg caggctgatc 2700
accgccaacc ctgtgatcac cgagagcacc gagaacagca agatgatgct ggaactggac 2760
ccacccttcg gcgacagcta catcgtgatc ggcgtgggag agaagaagat cacccaccac 2820
tggcacagaa gcggcagcac catcggcaag gcctttgagg ctacagtgcg gggagccaag 2880
agaatggccg tgctgggaga taccgcctgg gactttggct ctgtgggcgg agccctgaac 2940
tctctgggca agggaatcca ccagatcttc ggcgctgcct tcaagagcct gttcggcggc 3000
atgagctggt tcagccagat cctgatcggc accctgctga tgtggctggg cctgaacacc 3060
aagaacggct ccatcagcct gatgtgcctg gctctgggag gcgtgctgat cttcctgagc 3120
acagccgtgt ccgcctgagc tagcgttaac ggatcctcta gacgagatcc gaacttgttt 3180
attgcagctt ataatggtta caaataaagc aatagcatca caaatttcac aaataaagca 3240
tttttttcac tgcattctag ttgtggtttg tccaaactca tcaatgtatc ttatcatgtc 3300
tagatccagg taggtttgag tagtgggcgt ggctaaggtg actataaagg cgggtgtctt 3360
acgagggtct ttttgctttt ctgcagacat catgaacggg actggcgggg ccttcgaagg 3420
ggggcttttt agcccttatt tgacaacccg cctgccggga tgggccggag ttcgtcagaa 3480
tgtgatggga tcgacggtgg atgggcgccc agtgcttcca gcaaattcct cgaccatgac 3540
ctacgcgacc gtggggaact cgtcgctcga cagcaccgcc gcagccgcgg cagccgcagc 3600
cgccatgaca gcgacgagac tggcctcgag ctacatgccc agcagcggta gtagcccctc 3660
tgtgcccagt tccatcatcg ccgaggagaa actgctggcc ctgctggccg agctggaagc 3720
cctgagccgc cagctggccg ccctgaccca gcaggtgtcc gagctccgcg aacagcagca 3780
gcagcaaaat aaatgattca ataaacacag attctgattc aaacagcaaa gcatctttat 3840
tatttatttt ttcgcgcgcg gtaggccctg gtccacctct cccgatcatt gagagtgcgg 3900
tggatttttt ccaggacccg gtagaggtgg gattggatgt tgaggtacat gggcatgagc 3960
ccgtcccgtg ggtggaggta gcaccactgc atggcctcgt gctctggggt cgtgttgtag 4020
atgatccagt catagcaggg gcgctgggcg tggtgctgga tgatgtcctt gaggaggaga 4080
ctgatggcca cggggagccc cttggtgtag gtgttggcaa aacggttgag ctgggaggga 4140
tgcatgcggg gggagatgat gtgcagtttg gcctggatct tgaggttggc gatgttgcca 4200
cccagatccc gccgggggtt catgttgtgc aggaccacca gaacggtgta gcccgtgcac 4260
ttggggaact tgtcatgcaa cttggaaggg aatgcgtgga agaatttgga gacgcccttg 4320
tgcccgccca ggttttccat gcactcatcc atgatgatgg caatgggccc gtgggctgcg 4380
gctttggcaa agacgtttct ggggtcagag acatcgtaat tatgctcctg ggtgagatca 4440
tcataagaca ttttaatgaa tttggggcgg agggtgccag attgggggac gatggttccc 4500
tcgggccccg gggcgaagtt cccctcgcag atctgcatct cccaggcttt catctcggag 4560
ggggggatca tgtccacctg cggggcgatg aaaaaaacgg tttccggggc gggggtgatg 4620
agctgcgagg agagcaggtt tctcaacagc tgggacttgc cgcacccggt cgggccgtag 4680
atgaccccga tgacgggttg caggtggtag ttcaaggaca tgcagctgcc gtcgtcccgg 4740
aggagggggg ccacctcgtt gagcttgtct ctgacttgga ggttttcccg gacgagctcg 4800
ccgaggaggc ggtccccgcc cagcgagaga agctcttgca gggaagcaaa gtttttcagg 4860
ggcttgagcc cgtcggccat gggcatcttg gcgagggtct gcgagaggag ctccaggcgg 4920
tcccagagct cggtgacgtg ctctacggca tctcgatcca gcagacttcc tcgtttcggg 4980
ggttgggacg actgcgactg tagggcacga gacgatgggc gtccagcgcg gccagcgtca 5040
tgtccttcca gggtctcagg gtccgcgtga gggtggtctc cgtcacggtg aaggggtggg 5100
ccgcgggctg ggcgcttgca agggtgcgct tgagactcat cctgctggtg ctgaaacggg 5160
cacggtcttc gccctgcgcg tcggcgagat agcagttgac catgagctcg tagttgaggg 5220
cctcggcggc gtggcccttg gcgcggagct tgcccttgga agagcgcccg caggcgggac 5280
agaggaggga ttgcagggcg tagagcttgg gcgcgagaaa gacggactcg ggggcgaagg 5340
cgtccgctcc gcagtgggcg cagacggtct cgcactcgac tagccaggtg agctcgggct 5400
gctcggggtc aaaaaccagt tttcccccgt tctttttgat gcgcttctta cctcgcgtct 5460
ccatgagtct gtgtccgcgc tcggtgacaa acaggctgtc tgtgtccccg tagacggact 5520
tgatgggcct gtcctgcagg ggcgtcccgc ggtcctcctc gtagagaaac tcagaccact 5580
ctgagacgaa ggcgcgcgtc cacgccaaga caaaggaggc cacgtgcgag gggtagcggt 5640
cgttgtccac cagggggtcc accttttcca cggtatgcag gcacatgtcc ccctcctccg 5700
catccaagaa ggtgattggc ttgtaggtgt aggccacgtg acctggggtt cccgacgggg 5760
gggtataaaa gggggcgggt ctgtgctcgt cctcactctc ttccgcgtcg ctgtccacga 5820
gcgccagctg ttggggtagg tattccctct caagagcggg catgacctcg gcactcaggt 5880
tgtcagtttc tagaaacgag gaggatttga tgtgggcctg ccctgccgcg atgcttttta 5940
ggagactttc atccatctgg tcagaaaaga ctattttttt attgtcaagc ttggtggcga 6000
aggagccata gagggcgttt gagagaagct tggcgatgga tctcatggtc tgatttttgt 6060
cacggtcggc gcgctccttg gccgcgatgt tgagctggac atattcgcgc gcgacacact 6120
tccattcggg gaagacggtg gtgcgctcgt cgggcacgat cctgacgcgc cagccgcggt 6180
tatgcagggt gaccaggtcc acgctggtgg ccacctcgcc gcgcaggggc tcgttggtcc 6240
agcagagtct gccgcccttg cgcgagcaga acgggggcag cacatcaagc agatgctcgt 6300
caggggggtc cgcatcgatg gtgaagatgc ccggacagag ttccttgtca aaataatcga 6360
tttttgagga tgcatcgtcc aaggccatct gccactcgcg ggcggccagc gctcgctcgt 6420
aggggttgag gggcggaccc caaggcatgg gatgcgtgag ggcggaggcg tacatgccgc 6480
agatgtcata gacatagatg ggctccgaga ggatgccgat gtaggtggga tagcagcgcc 6540
ccccgcggat gcttgcgcgc acgtagtcat acaactcgtg cgagggggcc aagaaggcgg 6600
ggccgagatt ggtgcgctgg ggctgctcgg cgcggaagac gatctggcga aagatggcgt 6660
gcgagttgga ggagatggtg ggccgttgga agatgttaaa gtgggcgtga ggcaggcgga 6720
ccgagtcgcg gatgaagtgc gcgtaggagt cttgcagctt ggcgacgagc tcggcggtga 6780
cgaggacgtc catggcgcag tagtccagcg tttcgcggat gatgtcataa ctcgcctctc 6840
ctttcttctc ccacagctcg cggttgaggg cgtattcctc gtcatccttc cagtactccc 6900
ggagcgggaa tcctcgatcg tccgcacggt aagagcccag catgtagaaa tggttcacgg 6960
ccttgtaggg acagcagccc ttctccacgg ggagggcgta agcttgagcg gccttgcgga 7020
gcgaggtgtg cgtcagggca aaggtgtccc tgaccatgac tttcaagaac tggtacttga 7080
agtccgagtc gtcgcagccg ccgtgctccc agagctcgaa atcggtgcgc ttcttcgaga 7140
gggggttagg cagagcgaaa gtgacgtcat tgaagagaat cttgcctgcc cgcggcatga 7200
aattgcgggt gatgcggaaa gggcccggga cggaggctcg gttgttgatg acctgggcgg 7260
cgaggacgat ctcgtcaaag ccgttgatgt tgtgcccgac gatgtagagt tccatgaatc 7320
gcgggcggcc tttgatgtgc ggcagctttt tgagctcctc gtaggtgagg tcctcggggc 7380
attgcaggcc gtgctgctcg agcgcccact cctggagatg tgggttggct tgcatgaagg 7440
aagcccagag ctcgcgggcc atgagggtct ggagctcgtc gcgaaagagg cggaactgct 7500
ggcccacggc catcttttct ggggtgacgc agtagaaggt gagggggtcc cgctcccagc 7560
gatcccagcg taaacgcacg gcgagatcgc gagcgagggc gaccagctct gggtccccgg 7620
agaatttcat gaccagcatg aaggggacga gctgcttgcc gaaggacccc atccaggtgt 7680
aggtttctac atcgtaggtg acaaagagcc gctccgtgcg aggatgagag ccgattggga 7740
agaactggat ttcctgccac cagttggacg agtggctgtt gatgtgatga aagtagaaat 7800
cccgccggcg aaccgagcac tcgtgctgat gcttgtaaaa gcgtccgcag tactcgcagc 7860
gctgcacggg ctgtacctca tccacgagat acacagcgcg tcccttgagg aggaacttca 7920
ggagtggcgg ccctggctgg tggttttcat gttcgcctgc gtgggactca ccctggggct 7980
cctcgaggac ggagaggctg acgagcccgc gcgggagcca ggtccagatc tcggcgcggc 8040
gggggcggag agcgaagacg agggcgcgca gttgggagct gtccatggtg tcgcggagat 8100
ccaggtccgg gggcagggtt ctgaggttga cctcgtagag gcgggtgagg gcgtgcttga 8160
gatgcagatg gtacttgatt tctacgggtg agttggtggt cgtgtccacg cattgcatga 8220
gcccgtagct gcgcggggcc acgaccgtgc cgcggtgcgc ttttagaagc ggtgtcgcgg 8280
acgcgctccc ggcggcagcg gcggttccgg ccccgcgggc aggggcggca gaggcacgtc 8340
ggcgtggcgc tcgggcaggt cccggtgctg cgccctgaga gcgctggcgt gcgcgacgac 8400
gcggcggttg acatcctgga tctgccgcct ctgcgtgaag accacgggcc ccgtgacttt 8460
gaacctgaaa gacagttcaa cagaatcaat ctctgcgtca ttgacggcgg cctgacgcag 8520
gatctcttgc acgtcgcccg agttgtcctg gtaggcgatc tcggacatga actgttcgat 8580
ctcctcctcc tggagatcgc cgcggcccgc gcgctccacg gtggcggcga ggtcattgga 8640
gatgcgaccc atgagctgcg agaaggcgcc caggccgctc tcgttccaga cgcggctgta 8700
gaccacgtcc ccgtcggcgt cgcgcgcgcg catgaccacc tgcgcgaggt tgagctccac 8760
gtgccgcgca aagacggcgt agttgcgcag gcgctggaag aggtagttga gggtggtggc 8820
gatgtgctcg gtgacgaaga agtacatgat ccagcggcgc aggggcatct cgctgatgtc 8880
gccgatggct tccagccttt ccatggcctc gtagaagtcc acggcgaagt tgaaaaactg 8940
ggcgttgcgg gccgagaccg tgagctcgtc ttccaggagc cggatgagtt cggcgatggt 9000
ggcgcgcacc tcgcgctcga aatccccggg ggcctcctcc tcttcctctt cttccatgac 9060
gacctcttct tctatttctt cctctggggg cggtggtggt ggcgggggcc gacgacgacg 9120
gcgacgcacc gggagacggt cgacgaagcg ctcgatcatc tccccgcggc ggcgacgcat 9180
ggtttcggtg acggcgcgac cccgttcgcg aggacgcagc gtgaagacgc cgccggtcat 9240
ctcccggtaa tggggcgggt ccccattggg cagcgatagg gcgctgacga tgcatcttat 9300
caattgcggt gtaggggacg tgagcgcgtc gagatcgacc ggatcggaga atctttcgag 9360
gaaagcgtct agccaatcgc agtcgcaagg taagctcaaa cacgtagcag ccctgcggac 9420
gctgttagaa ttgcggttgc tgatgatgta attgaagtag gcgtttttga ggcggcggat 9480
ggtggcgagg aggaccaggt ccttgggtcc agcttgctgg atgcggagcc gctcggccat 9540
gccccaggcc tggccctgac accggctcag gttcttgtag tagtcatgca tgagcctctc 9600
aatgtcatca ctggctgagg cggagtcttc catgcgggtg accccgacgc ccctgagcgg 9660
ctgcacgagc gccaggtcgg cgacgacgcg ctcggcgagg atggcctgtt gcacgcgggt 9720
gagggtgtcc tggaagtcgt ccatgtcgac gaagcggtga taggccccgg tgttgatggt 9780
gtaggtgcag ttggccatga gcgaccagtt gacggtctgc aggcctggct gcacgacctc 9840
ggagtacctg agccgcgaga aggcgcgcga gtcgaagacg tagtcgttgc aggtgcgcac 9900
gaggtactgg tatccgacta ggaagtgcgg cggcggctgg cggtagagcg gccagcgctg 9960
ggtggccggc gcgcccgggg ccaggtcctc gagcatgagg cggtggtagc cgtagaggta 10020
gcgggacatc caggtgatgc cggcggcggt ggtggaggcg cgcgggaact cgcggacgcg 10080
gttccagatg ttgcgcagcg gcaggaaata gtccatggtc ggcacggtct ggccggtgag 10140
acgcgcgcag tcattgacgc tctagaggca aaaacgaaag cggttgagcg ggctcttcct 10200
ccgtagcctg gcggaacgca aacgggttag gccgcgtgtg taccccggtt cgagtcccct 10260
cgaatcaggc tggagccgcg actaacgtgg tattggcact cccgtctcga cccgagcccg 10320
atagccgcca ggatacggcg gagagccctt tttgccggcc gagtggggtc gctagacttg 10380
aaagcgaccg aaaaccctgc cgggtagtgg ctcgcgcccg tagtctggag aagcatcgcc 10440
agggttgagt cgcggcagaa cccggttcga ggacggccgc ggcgagcggg acttggtcac 10500
cccgccgata taaagaccca cagccagccg acttctccag ttacgggagc gagccccctt 10560
ttttcttttt gccagatgca tcccgtcctg cgccaaatgc gtcccacccc cccggcgacc 10620
accgcgaccg cggccgtagc aggcgccggc gctagccagc caccacagac agagatggac 10680
ttggaagagg gcgaagggct ggcaagactg ggggcgccgt ccccggagcg acatccccgc 10740
gtgcagctgc agaaggacgt gcgcccggcg tacgtgccta cgcagaacct gttcagggac 10800
cgcagcgggg aggagcccga ggagatgcgc gactgccggt ttcgggcggg cagggagctg 10860
cgcgagggcc tggaccgcca gcgcgtgctg cgcgacgagg atttcgagcc gaacgagcag 10920
acggggatca gccccgcacg cgcgcacgtg gcggcagcca acctggtgac ggcctacgag 10980
cagacggtga agcaggagcg caacttccaa aagagtttca acaaccacgt gcgcaccctg 11040
atcgcgcgcg aggaggtggc cctgggcctg atgcacctgt gggacctggc ggaggccatc 11100
gtgcagaacc cggacagcaa gcctctgacg gcgcagctgt tcctggtggt gcagcacagc 11160
agggacaacg aggcgttcag ggaggcgctg ctgaacatcg ccgagcccga gggtcgctgg 11220
ctgctggagc tgattaacat cttgcagagc atcgtagtgc aggagcgcag cctgagcctg 11280
gccgagaagg tggcggcgat caactactcg gtgctgagcc tgggcaagtt ttacgcgcgc 11340
aagatttaca agacgccgta cgtgcccata gacaaggagg tgaagataga cagcttttac 11400
atgcgcatgg cgctcaaggt gctgacgctg agcgacgacc tgggcgtgta ccgcaacgac 11460
cgcatccaca aggccgtgag cacgagccgg cggcgcgagc tgagcgaccg cgagctgatg 11520
ctgagtctgc gccgggcgct ggtagggggc gccgccggcg gcgaggagtc ctacttcgac 11580
atgggtgcgg acctgcattg gcagccgagc cggcgcgcct tggaggccgc ctacggttca 11640
gaggacttgg atgaggaaga ggaagaggag gaggatgcac ccgctgcggg gtactgacgc 11700
ctccgtgatg tgtttttaga tgtcccagca agccccggac cccgccataa gggcggcgct 11760
gcaaagccag ccgtccggtc tagcatcgga cgactgggag gccgcgatgc aacgcatcat 11820
ggccctgacg acccgcaacc ccgagtcctt tagacaacag ccgcaggcca acagactctc 11880
ggccattctg gaggcggtgg tcccctctcg gaccaacccc acgcacgaga aggtgctggc 11940
gatcgtgaac gcgctggcgg agaacaaggc catccgtccc gacgaggccg ggctggtgta 12000
caacgccctg ctggagcgcg tgggccgcta caacagcacg aacgtgcagt ccaacctgga 12060
tcggctggtg acggacgtgc gcgaggccgt ggcgcagcgc gagcggttca agaacgaggg 12120
cctgggctcg ctggtggcgc tgaacgcctt cctggcgacg cagccggcga acgtgccgcg 12180
cgggcaggac gattacacca actttatcag cgcgctgcgg ctgatggtga ccgaggtgcc 12240
ccagagcgag gtgtaccagt ctggcccgga ctactttttc cagacgagcc ggcagggctt 12300
gcagacggtg aacctgagcc aggctttcaa gaatctgcgc gggctgtggg gcgtgcaggc 12360
gcccgtgggc gaccggtcaa cggtgagcag cttgctgacg cccaactcgc ggctgctgct 12420
gctgctgatc gcgcccttca ccgacagcgg cagcgtgaac cgcaactcgt acctgggcca 12480
tctgctgacg ctgtaccgcg aggccatagg ccaggcgcag gtggacgagc agaccttcca 12540
ggagatcact agcgtgagcc gcgcgctggg gcagaacgac accgacagtc tgagggccac 12600
cctgaacttt ttgctgacca atagacagca gaagatcccg gcgcagtacg cactgtcggc 12660
cgaggaggaa aggattctga gatatgtgca gcagagcgta gggctgttcc tgatgcagga 12720
gggtgccacc cccagcgccg cgctggacat gaccgcgcgc aacatggaac ctagcatgta 12780
cgccgccaac cggccgttca tcaataagct gatggactac ttgcaccgcg cggcggccat 12840
gaacacggac tactttacca acgccatcct gaacccgcac tggctcccgc cgccggggtt 12900
ctacacgggc gagtacgaca tgcccgaccc caacgacggg ttcctgtggg acgacgtgga 12960
cagcgcggtg ttctcgccga cctttcaaaa gcgccaggag gcgccgccga gcgagggcgc 13020
ggtggggagg agcccctttc ctagcttagg gagtttgcat agcttgccgg gctcggtgaa 13080
cagcggcagg gtgagccggc cgcgcttgct gggcgaggac gagtacctga acgactcgct 13140
gctgcagccg ccgcgggcca agaacgccat ggccaataac gggatagaga gtctggtgga 13200
caaactgaac cgctggaaga cctacgctca ggaccatagg gacgcgcccg cgccgcggcg 13260
acagcgccac gaccggcagc ggggcctggt gtgggacgac gaggactcgg ccgacgatag 13320
cagcgtgttg gacttgggcg ggagcggtgg ggtcaacccg ttcgcgcatc tgcagcccaa 13380
actggggcga cggatgtttt gaatgaaata aaactcacca aggccatagc gtgcgttctc 13440
ttccttgtta gagatgaggc gcgcggtggt gtcttcctct cctcctccct cgtacgagag 13500
cgtgatggcg caggcgaccc tggaggttcc gtttgtgcct ccgcggtata tggctcctac 13560
ggagggcaga aacagcattc gttactcgga gctggctccg cagtacgaca ccactcgcgt 13620
gtacttggtg gacaacaagt cggcggacat cgcttccctg aactaccaaa acgaccacag 13680
caacttcctg accacggtgg tgcagaacaa cgatttcacc cccgccgagg ccagcacgca 13740
gacgataaat tttgacgagc ggtcgcggtg gggcggtgat ctgaagacca ttctgcacac 13800
taacatgccc aatgtgaacg agtacatgtt caccagcaag tttaaggcgc gggtgatggt 13860
gtctaggaag catccagagg gggtagttga aacagatttg agtcaggata agcttgaata 13920
tgagtggttt gagtttaccc tgcccgaggg aaacttttcc gagaccatga ccatagacct 13980
gatgaacaac gccatcttgg aaaactactt gcaagtgggg cggcagaatg gcgtgctgga 14040
gagcgatatc ggagtcaagt ttgacagcag aaatttcaag ctgggctggg acccggtgac 14100
caagctggtg atgccagggg tctacaccta cgaggccttc cacccggacg tggtgctgct 14160
gccgggctgc ggggtggact tcaccgagag ccgcctgagc aacctcctgg gcattcgcaa 14220
gaagcaacct ttccaagagg gcttcagaat catgtatgag gatctagaag gtggcaacat 14280
ccccgccctc cttgatgtgc ccaagtactt ggaaagcaag aagaaagttg aagacgaaac 14340
taaaaatgca gctgcggcca cagccgatac aaccactagg ggtgatacat ttgcaactcc 14400
agcgcaagag acagcagctg ataagaaggt agaagtcttg cccattgaaa aggatgagag 14460
tggtagaagt tacaacctga tccaggggac ccacgacacg ctgtaccgca gttggtacct 14520
gtcctatacc tacggggacc ccgagaaggg ggtgcagtcg tggacgctgc tcaccacccc 14580
ggacgttacc tgcggcgcgg agcaagtcta ctggtcactg ccggacctca tgcaagaccc 14640
cgtcaccttc cgctccaccc agcaagtcag caactacccc gtggtcggcg ccgagctcat 14700
gcccttccgc gccaagagct tttacaacga cctcgccgtc tactcccagc tcatccgcag 14760
ctacacctcc ctcacccacg tcttcaaccg cttccccgac aaccagatcc tctgccgccc 14820
gcccgcgccc accatcacca ccgtcagtga aaacgtgcct gctctcacag atcacgggac 14880
gctaccgctg cgcagcagta tccgcggagt ccagcgagtg accgtcactg acgcccgtcg 14940
ccgcacctgt ccctacgtct acaaggccct gggcatagtc gcgccgcgcg tgctttccag 15000
tcgcaccttc taaaaaaatg tctattctca tctcgcccag caataacacc ggctggggtc 15060
ttactagacc cagcaccatg tacggaggag ccaagaagcg ctcccagcag caccccgtcc 15120
gcgtccgcgg ccacttccgc gctccctggg gcgcatacaa gcgcgggcgg acttccaccg 15180
ccgccgtgcg caccaccgtc gacgacgtca tcgactcggt ggtcgccgac gcgcgcaact 15240
atacccccgc cccctccacc gtggacgcgg tcatcgacag cgtggtggcc gacgcgcgcg 15300
actatgccag acgcaagagc cggcggcgac ggatcgccag gcgccaccgg agcacgcccg 15360
ccatgcgcgc cgcccgggct ctgctgcgcc gcgccagacg cacgggccgc cgggccatga 15420
tgcgagccgc gcgccgcgct gccactgcac ccacccccgc aggcaggact cgcagacgag 15480
cggccgccgc cgccgctgcg gccatctcta gcatgaccag acccaggcgc ggaaacgtgt 15540
actgggtgcg cgactccgtc acgggcgtgc gcgtgcccgt gcgcacccgt cctcctcgtc 15600
cctgatctaa tgcttgtgtc ctcccccgca agcgacgatg tcaaagcgca aaatcaagga 15660
ggagatgctc caggtcgtcg ccccggagat ttacggacca ccccaggcgg accagaaacc 15720
ccgcaaaatc aagcgggtta aaaaaaagga tgaggtggac gagggggcag tagagtttgt 15780
gcgcgagttc gctccgcggc ggcgcgtaaa ttggaagggg cgcagggtgc agcgcgtgtt 15840
gcggcccggc acggcggtgg tgttcacgcc cggcgagcgg tcctcggtca ggagcaagcg 15900
tagctatgac gaggtgtacg gcgacgacga catcctggac caggcggcgg agcgggcggg 15960
cgagttcgcc tacgggaagc ggtcgcgcga agaggagctg atctcgctgc cgctggacga 16020
aagcaacccc acgccgagcc tgaagcccgt gaccctgcag caggtgctgc cccaggcggt 16080
gctgctgccg agccgcgggg tcaagcgcga gggcgagagc atgtacccga ccatgcagat 16140
catggtgccc aagcgccggc gcgtggagga cgtgctggac accgtgaaaa tggatgtgga 16200
gcccgaggtc aaggtgcgcc ccatcaagca ggtggcgccg ggcctgggcg tgcaaaccgt 16260
ggacattcag atccccaccg acatggatgt cgacaaaaaa ccctcgacca gcatcgaggt 16320
gcaaaccgac ccctggctcc cagcctccac cgctaccgtc tccacttcta ccgccgccac 16380
ggctaccgag cctcccagga ggcgaagatg gggcgccgcc agccggctga tgcccaacta 16440
cgtgttgcat ccttccatca tcccgacgcc gggctaccgc ggcacccggt actacgccag 16500
ccgccggcgc ccagccagca aacgccgccg ccgcaccgcc acccgccgcc gtctggcccc 16560
cgcccgcgtg cgccgcgtga ccacgcgccg gggccgctcg ctcgttctgc ccaccgtgcg 16620
ctaccacccc agcatccttt aatccgtgtg ctgtgatact gttgcagaga gatggctctc 16680
acttgccgcc tgcgcatccc cgtcccgaat taccgaggaa gatcccgccg caggagaggc 16740
atggcaggca gcggcctgaa ccgccgccgg cggcgggcca tgcgcaggcg cctgagtggc 16800
ggctttctgc ccgcgctcat ccccataatc gccgcggcca ttggcacgat cccgggcata 16860
gcttccgttg cgctgcaggc gtcgcagcgc cgttgatgtg cgaataaagc ctctttagac 16920
tctgacacac ctggtcctgt atatttttag aatggaagac atcaattttg cgtccctggc 16980
tccgcggcac ggcacgcggc cgttcatggg cacctggaac gagatcggca ccagccagct 17040
gaacgggggc gccttcaatt ggagcagtgt ctggagcggg cttaaaaatt tcggctcgac 17100
gctccggacc tatgggaaca aggcctggaa tagtagcacg gggcagttgt tgagggaaaa 17160
gctcaaagac cagaacttcc agcagaaggt ggtggacggg ctggcctcgg gcattaacgg 17220
ggtggtggac atcgcgaacc aggccgtgca gcgcgagata aacagccgcc tggacccgcg 17280
accgcccacg gtggtggaga tggaagatgc aactcttccg ccgcccaagg gcgagaagcg 17340
gccgcggccc gacgcggagg agacgatcct gcaggtggac gagccgccct cgtacgagga 17400
ggccgtcaag gccggcatgc ccaccacgcg catcatcgcg ccgctggcca cgggtgtaat 17460
gaaacccgcc acccttgacc tgcctccacc acccgcgccc gctccaccga aggcaactcc 17520
ggttgtgcag gcccccccgg tggcgaccgc cgtgcgccgc gtccccgccc gccgccaggc 17580
ccagaactgg cagagcacgc tgcacagtat cgtgggcctg ggagtgaaaa gtctgaagcg 17640
ccgccgatgc tattgagaga gaggaaagag gacactaaag ggagagctta acttgtatgt 17700
gccttaccgc cagagaacgc gcgaagatgg ccaccccctc gatgatgccg cagtgggcgt 17760
acatgcacat cgccgggcag gacgcctcgg agtacctgag cccgggtctg gtgcagtttg 17820
cccgcgccac cgacacgtac ttcagcctgg gcaacaagtt taggaacccc acggtggccc 17880
cgacccacga tgtgaccacg gaccggtccc agcgtctgac gctgcgcttc gtgcccgtgg 17940
atcgcgagga caccacgtac tcgtacaagg cgcgcttcac tctggccgtg ggcgacaacc 18000
gggtgctaga catggccagc acttactttg acatccgcgg cgtcctggac cgcggtccca 18060
gcttcaaacc ctactcgggc acggcctaca acagcctggc tcccaagggt gcccccaatc 18120
ccagtcagtg ggaaacaaaa gaaaagcaag gaactactgg aggagtgcag caagaaaaag 18180
atgtcacaaa aacatttggt gtggctgcca ccggcggaat taatataaca aaccagggtc 18240
tgttactagg aactgacgaa accgctgaga atggcaaaaa agacatttat gcagacaaga 18300
ctttccagcc agaacctcaa gttggagaag aaaactggca ggaaaatgaa gccttctatg 18360
gaggaagggc tcttaaaaag gacactaaaa tgaaaccatg ctatggatct tttgctagac 18420
ctactaatga gaaaggaggt caggcaaagt tcaaaccagt taatgaagga gaacaaccta 18480
aagatctgga tatagatttt gcttactttg acgtccctgg cggaagtcct ccagcaggtg 18540
gtagtgggga agaatacaaa gcagatataa ttttgtacac tgaaaatgtt aatcttgaaa 18600
caccagacac tcatgtggtt tacaagccag gaacttcaga taacagttca gaaatcaatc 18660
tggttcagca gtccatgcca aacagaccca actacattgg ctttagggac aactttgtag 18720
gtctcatgta ttacaacagc accggaaata tgggtgtgct ggctggtcag gcttctcagt 18780
tgaacgctgt ggtcgacttg caagacagaa acaccgagtt atcttaccag ctattgctag 18840
attctctggg tgacagaacc agatacttta gcatgtggaa ctctgcggtg gacagttacg 18900
atccagatgt caggatcatt gaaaatcacg gtgtggaaga tgaacttcca aactattgct 18960
tcccattgaa tggcactgga accaattcca cttatcaagg tgtaaagatt acaaatggta 19020
atgatggtgc tgaagaaagt gagtgggaga aagacgatgc aatttctaga caaaaccaaa 19080
tctgcaaggg caatgtctac gccatggaga tcaacctgca ggccaacctg tggaagagtt 19140
ttctgtactc gaacgtggcc ctgtacctgc ccgactccta caagtacacg ccggccaacg 19200
tcaagctgcc cgccaacacc aacacctacg agtacatgaa cggccgcgtg gtagccccct 19260
cgctggtgga cgcctacatc aacatcggcg cccgctggtc gttggacccc atggacaacg 19320
tcaacccctt caaccaccac cgcaatgcgg gcctgcgcta ccgctccatg ctgctgggca 19380
acggccgcta cgtgcccttc cacatccaag tgccccaaaa gttctttgcc atcaagaacc 19440
tgctcctgct cccgggctcc tacacctacg agtggaactt ccgcaaggac gtcaacatga 19500
tcctgcagag ttccctcggc aacgacctgc gcgtcgacgg cgcctccgtc cgcttcgaca 19560
gcgtcaacct atacgccact ttcttcccca tggcgcacaa caccgcttca accttggaag 19620
ccatgctgcg caacgacacc aacgaccagt ccttcaacga ctacctctcg gccgccaaca 19680
tgctctaccc catcccggcc aaggccacca acgtgcccat ctccatccca tcgcgcaact 19740
gggccgcctt ccgcggctgg agtttcaccc ggctcaagac caaggaaact ccttccctcg 19800
gctcgggttt cgacccctac tttgtctact cgggctccat cccctacctc gacgggacct 19860
tctacctcaa ccacaccttc aagaaggtct ccatcatgtt cgactcctcg gtcagctggc 19920
ccggcaacga ccggctgctc acgccgaacg agttcgagat caagcgcagc gtcgacgggg 19980
agggctacaa cgtggcccaa tgcaacatga ccaaggactg gttcctcgtc cagatgctct 20040
cccactacaa catcggctac cagggcttcc acgtgcccga gggctacaag gaccgcatgt 20100
actccttctt ccgcaacttc cagcccatga gcaggcaggt ggtcgatgag atcaactaca 20160
aggactacaa ggccgtcacc ctgcccttcc agcacaataa ctcgggcttc accggctacc 20220
tcgcacccac catgcgccag gggcagccct accccgccaa cttcccctac ccgctcatcg 20280
gtcagacagc cgtgccctcc gtcacccaga aaaagttcct ctgcgacagg gtcatgtggc 20340
gcatcccctt ctccagcaac ttcatgtcca tgggcgccct caccgacctg ggtcagaaca 20400
tgctctacgc caactcggcc cacgcgctcg acatgacctt cgaggtggac cccatggatg 20460
agcccaccct cctctatctt ctcttcgaag ttttcgacgt ggtcagagta caccagccgc 20520
accgcggcgt catcgaggcc gtctacctgc gcacgccctt ctccgccggc aacgccacca 20580
cctaagcatg agcggctcca gcgaacgaga gctcgcggcc atcgtgcgcg acctgggctg 20640
cgggccctac tttttgggca cccacgacaa gcgcttcccg ggctttctcg ccggcgacaa 20700
gctggcctgc gccatcgtca acacggccgg ccgcgagacc ggaggcgtgc actggctcgc 20760
cttcggctgg aacccgcgct cgcgcacctg ctacatgttc gacccctttg ggttctcgga 20820
ccgccggctc aagcagattt acagcttcga gtacgaggcc atgctgcgcc gcagcgccct 20880
ggcctcctcg cccgaccgct gtctcagcct cgagcagtcc actcagaccg tgcaggggcc 20940
cgactccgcc gcctgcggac tcttctgttg catgttcttg catgccttcg tgcactggcc 21000
cgaccgaccc atggacggaa accccaccat gaacttgctg acgggggtgc ccaacggcat 21060
gctacaatcg ccacaggtgc tgcccaccct caggcgcaac caggaggaac tctaccgctt 21120
cctcgcgcgc cactcccctt actttcgctc ccaccgcgcc gccatcgaac acgccaccgc 21180
ttttgacaaa atgaaacaac tgcgtgtatc tcaataaaca gcacttttat tttacatgca 21240
ctggagtata tgcaagttat ttaaaagtcg aaggggttct cgcgctcgtc gttgtgcgcc 21300
gcgctgggga gggccacgtt gcggtactgg tacttgggct gccacttgaa ctcggggatc 21360
accagtttgg gcactggggt ctcggggaag gtctcgctcc acatgcgccg gctcatctgc 21420
agggcgccca gcatgtccgg ggcggagatc ttgaaatcgc agttggggcc ggtgctctgc 21480
gcgcgcgagt tgcggtacac ggggttgcag cactggaaca ccatcagact ggggtacttc 21540
acactagcca gcacgctctt gtcgctgatc tgatccttgt ccagatcctc ggcgttgctc 21600
aggccgaacg gggtcatctt gcacagctgg cgtcccagga agggcacgct ctgaggcttg 21660
tggttacact cgcagtgcac gggcatcagc atcatccccg cgccgcgctg catattcggg 21720
tagagggcct tgacaaaggc cgcgatctgc ttgaaagctt gctgggcctt ggccccctcg 21780
ctgaaaaaca ggccgcagct cttcccgctg aactggttat tcccacaccc ggcatcctgc 21840
acgcagcagc gcgcgtcatg gctggtcagt tgcaccacgc tccgtcccca gcggttctgg 21900
gtcaccttag ccttgctggg ctgctccttc aacgcgcgct gcccgttctc gctggtcaca 21960
tccatctcca ccacgtggtc cttgtggatc atcatcgtcc cgtgcagaca cttgagctgg 22020
ccttccacct cggtgcagcc gtgatcccac agggcgcaac cggtgcactc ccagttcttg 22080
tgcgcaatcc cgctgtggct gaagatgtaa ccttgcaaca tgcggcccat gatggtgcta 22140
aatgctttct gggtggtgaa ggtcagttgc atcccgcggg cctcctcgtt catccaggtc 22200
tggcacatct tctggaagat ctcggtctgc tcgggcatga gcttgtaagc atcgcgcagg 22260
ccgctgtcga cgcggtagcg ttccatcagc acgttcatgg tatccatgcc cttctcccag 22320
gacgagacca gaggcagact cagagggttg cgtacgttca ggacaccggg ggtcgcgggc 22380
tcgacgatgc gttttccgtc cttgccttcc ttcaatagaa ccggcggctg gctgaatccc 22440
actcccacga tcacggcatc ttcctggggc atctcttcgt cggggtctac cttggtcaca 22500
tgcttggtct ttctggcttg cttctttttt ggagggctgt ccacggggag cacgtcctcc 22560
tcggaagacc cggagcccac ccgctgatac tttcggcgct tggtgggcag aggaggtggc 22620
ggcgaggggc tcctctcctg ctccggcgga tagcgcgccg acccgtggcc ccggggcgga 22680
gtggcctctc ggcccatgaa ccggcgcacg tcctgactgc cgccggccat tgtttcctag 22740
gggaagatgg aggagcagcc gcgtaagcag gagcaggagg aggacttaac cacccacgag 22800
caacccaaaa tcgagcagga cctgggcttc gaagagccgg ctcgtctaga acccccacag 22860
gatgaacagg agcacgagca agacgcaggc caggaggaga ccgacgctgg gctcgagcat 22920
ggctacctgg gaggagagga ggatgtgctg ctgaaacacc tgcagcgcca gtccctcatc 22980
ctccgggacg ccctggccga ccggagcgaa acccccctca gcgtcgagga gctgtgtcgg 23040
gcctacgagc tcaacctctt ctcgccgcgc gtacccccca aacgccagcc caacggcacc 23100
tgcgagccca acccgcgtct caacttctat cccgtctttg cggtccccga agccctcgcc 23160
acctatcaca tctttttcaa gaaccaaaag atccccgtct cctgccgcgc caaccgcacc 23220
agcgccgacg cgctcctcgc tttggggccc ggcgcgcgca tacctgatat cgcttccctg 23280
gaagaggtgc ccaagatctt cgaagggctc ggtcgggacg agacgcgcgc ggcgaacgct 23340
ctgaaagaaa cagcagagga agagggtcac actagcgccc tggtagagtt ggaaggcgac 23400
aacgccaggc tggccgtgct caagcgcagc gtcgagctta cccacttcgc ctaccccgcc 23460
gtcaacctcc cgcccaaggt catgcgtcgc atcatggatc agctcatcat gccccacatc 23520
gaggccctcg atgaaagtca ggagcagcgc cccgaggacg cccggcccgt ggtcagcgac 23580
gagatgctcg cgcgctggct cgggacccgc gacccccagg ctttggaaca gcggcgcaaa 23640
ctcatgctgg ccgtggtcct ggtcaccctt gagctcgaat gcatgcgccg ctttttcagc 23700
gaccccgaga ccctgcgcaa ggtcgaggag accctgcact acactttcag gcacggtttc 23760
gtcaggcagg cctgcaagat ctccaacgtg gagctgacca acctggtctc ctgcctgggg 23820
atcctgcacg agaaccgcct gggccagacc gtgctccact ctaccctgaa gggcgaggcg 23880
cggcgggact atgtccgcga ctgcgtcttt ctctttctct gccacacatg gcaagcggcc 23940
atgggcgtgt ggcagcagtg tctcgaggac gagaacctaa aggagctgga caagcttctt 24000
gctagaaacc ttaaaaagct gtggacgggc ttcgacgagc gcaccgtcgc ctcggacctg 24060
gccgagatcg tcttccccga gcgcctgaga cagacgctga aaggcgggct gcccgacttc 24120
atgagccaga gcatgttgca aaactaccgc actttcattc ttgagcgatc aggcatcctg 24180
cccgccacct gcaacgcctt cccctccgac tttgtaccgc tgagctaccg cgagtgtccc 24240
ccgccgctgt ggagccactg ctacctcttg cagctggcca actacatcgc ctaccactcg 24300
gacgtgatcg aggacgtgag cggcgagggg ctgctcgagt gccactgtcg ctgcaacctg 24360
tgctccccgc atcgctccct ggtctgcaac ccccagctcc tgagcgagac ccaggtcatc 24420
ggtaccttcg agctgcaagg tccgcaggag tccaccgctc cgctgaaact cacgccgggg 24480
ttgtggactt ccgcgtacct gcgcaaattt gtacccgaag actaccacgc ccatgagata 24540
aagttctttg aggaccaatc gcgtccgcag cacgcggatc tcacggcctg cgtcatcacc 24600
cagggcgcga tcctcgccca attgcacgcc atccaaaaat cccgccaaga gtttcttctg 24660
aaaaagggta gaggggtcta cctggacccc cagacgggcg aggtgctcaa cccgggtctc 24720
ccccagcatg ccgaggaaga agcaggagcc gctagtggag gagatggaag aagaatggga 24780
cagccaggca gaggaggacg aatgggagga ggagacagag gaggaagaat tggaagaggt 24840
ggaagaggag caggcaacag agcagcccgt cgccgcacca tccgcgccgg cagccccgcc 24900
ggtcacggat acaacctccg ctccggtcaa gcctcctcgt agatgggatc aagtgaaggg 24960
tgacggtaag cacgagcggc agggctaccg atcatggagg gcccacaaag ccgcgatcat 25020
cgcctgcttg caagactgcg gggggaacat cgctttcgcc cgccgctacc tgctcttcca 25080
ccgcggggtg aacatccccc gcaacgtgtt gcattactac cgtcaccttc acagctaaga 25140
aaaagcaagt caaaggagtc gccggaggag gaggaggagg cctgaggatc gcggcgaacg 25200
agcccttgac caccagggag ctgaggaacc ggatcttccc cactctttat gccatttttc 25260
agcagagtcg aggtcagcag caagagctca aagtaaaaaa ccggtctctg cgctcgctca 25320
cccgcagttg cttgtaccac aaaaacgaag atcagctgca gcgcactctc gaagacgccg 25380
aggctctgtt ccacaagtac tgcgcgctca ctcttaaaga ctaaggcgcg cccacccgga 25440
aaaaaggcgg gaattacctc atcgccacca tgagcaagga gattcccacc ccttacatgt 25500
ggagctatca gccccaaatg ggcctggccg cgggcgcctc ccaggactac tccacccgca 25560
tgaactggct cagtgccggc ccctcgatga tctcacgggt caacggggtc cgcagtcatc 25620
gaaaccagat attgttggag caggcggcgg tcacctccac gcccagggca aagctcaacc 25680
cgcgtaattg gccctccacc ctggtgtatc aggaaatccc cgggccgact accgtactac 25740
ttccgcgtga cgcactggcc gaagtccgca tgactaactc aggtgtccag ctggccggcg 25800
gcgcttcccg gtgcccgctc cgcccacaat cgggtataaa aaccctggtg atccgaggca 25860
gaggcacaca gctcaacgac gagttggtga gctcttcgat cggtctgcga ccggacggag 25920
tgttccaact agccggagcc gggagatcct ccttcactcc caaccaggcc tacctgacct 25980
tgcagagcag ctcttcggag cctcgctccg gaggcatcgg aaccctccag tttgtggagg 26040
agtttgtgcc ctcggtctac ttcaacccct tctcgggatc gccaggcctc tacccggacg 26100
agttcatacc gaacttcgac gcagtgagag aagcggtgga cggctacgac tgaatgtccc 26160
atggtgactc ggctgagctc gctcggttga ggcatctgga ccactgccgc cgcctgcgct 26220
gcttcgcccg ggagagctgc ggactcatct actttgagtt tcccgaggag caccccaacg 26280
gccctgcaca cggagtgcgg atcaccgtag agggcaccac cgagtctcac ctggtcaggt 26340
tcttcaccca gcaacccttc ctggtcgagc gggaccgggg cgccaccacc tacaccgtct 26400
actgcatctg tccaaccccg aagttgcatg agaatttttg ttgtactctt tgtggtgagt 26460
ttaataaaag ctaaactctt gcaatactct ggaccttgtc gtcgtcaact caacgagacc 26520
gtctacctca ccaaccagac tgaggtaaaa ctcacctgca gaccacacaa gacctatatc 26580
atctggttct tcgagaacac ctcatttgca gtctccaaca ctcactgcac tagtccatga 26640
actgatgttg attaaaagcc caaaaaccaa tcagcccctt cccccatttc cccatccccc 26700
aattactcat aaaaaataaa tcattggaat taatcattca ataaagatca cttacttgaa 26760
atctgaaagt atgtctctgg tgtagttgtt cagcagcacc tcggtaccct cctcccagct 26820
ctggtactcc agtccccggc gggcggcgaa cttcctccac accttgaaag ggatgtcaaa 26880
ttcctggtcc acaattttca ttgtcttccc tctcagatgg caaagaggct ccgggtggaa 26940
gatgacttca accccgtcta cccctatggc tacgcgcgga atcagaatat ccccttcctc 27000
actcccccct ttgtctcctc cgatggattc aaaaacttcc cccctggggt cctgtcactt 27060
aaactggctg atccaatcac catcaacaat ggggatgtct cacttaaggt gggaggggga 27120
cttgctgtag agcaacagac tggtaaccta agcgtaaacc ctgatgcacc cttgcaagtt 27180
gcaagtgata agctacagct tgctctggct cctccattcg aggtcagaga tggaaagctt 27240
gctttaaagg caggtaatgg attaaaagta ctagataatt ccattactgg attgactgga 27300
ttattgaata cacttgtggt attaactgga aggggaatag gaacggagga attaaaaaat 27360
gacgatggtg taacaaacaa aggagtcggc ttgcgtgtaa gacttggaga tgacggcggg 27420
ctgacatttg ataaaaaggg tgatttagta gcctggaata aaaaagatga caggcgcacc 27480
ctgtggacaa cccctgacac atctccaaat tgcaaaatga gtacagaaaa ggattctaaa 27540
cttacgttga cacttacaaa gtgtggaagt caggttctgg gaaatgtatc tttacttgca 27600
gttacaggtg aatatcatca aatgactgct actacaaaga aggatgtaaa aatatcttta 27660
ctatttgatg agaatggaat tctattacca tcttcgtccc ttagcaaaga ttattggaat 27720
tacagaagtg atgattctat tgtatctcaa aaatataata atgcagttcc attcatgcca 27780
aacctgacag cttatccaaa accaagcgct caaaatgcaa aaaactattc aagaactaaa 27840
atcataagta atgtctactt aggtgctctt acctaccaac ctgtaattat cactattgca 27900
tttaatcagg aaactgaaaa tggatgtgct tattctataa catttacctt cacttggcaa 27960
aaagactatt ctgcccaaca gtttgatgtt acatctttta ccttctcata tcttacccaa 28020
gagaacaaag acaaagacta ataaaatgtt ttgaactgaa tttatgaatc tttatttatt 28080
tttacaccag cacgggtagt cagtttccca ccaccagccc atttcacagt gtaaacagtc 28140
ctttctcccc ggctggcctt aaaaagcatc atatcatggg taacagacat attcttaggt 28200
gttatattcc acacggtttc ctgtcgagcc aaacgctcat cagtgatatt aataaactcc 28260
ccgggcagct cacttaagtt catgtcgctg tccagctgct gagccacagg ctgctgtcca 28320
acttgcggtt gcttaacggg cggcgaagga gaagtccacg cctacatggg ggtagagtca 28380
taatcgtgca tcaggatagg gcggtggtgc tgcagcagcg cgcgaataaa ctgctgccgc 28440
cgccgctccg tcctgcagga atacaacatg gcagtggtct cctcagcgat gattcgcacc 28500
gcccgcagca taaggcgcct tgtcctccgg gcacagcagc gcaccctgat ctcacttaaa 28560
tcagcacagt aactgcagca cagcaccaca atattgttca aaatcccaca gtgcaaggcg 28620
ctgtatccaa agctcatggc ggggaccaca gaacccacgt ggccatcata ccacaagcgc 28680
aggtagatta agtggcgacc cctcataaac acgctggaca taaacattac ctcttttggc 28740
atgttgtaat tcaccacctc ccggtaccat ataaacctct gattaaacat ggcgccatcc 28800
accaccatcc taaaccagct ggccaaaacc tgcccgccgg ctatacactg cagggaaccg 28860
ggactggaac aatgacagtg gagagcccag gactcgtaac catggatcat catgctcgtc 28920
atgatatcaa tgttggcaca acacaggcac acgtgcatac acttcctcag gattacaagc 28980
tcctcccgcg ttagaaccat atcccaggga acaacccatt cctgaatcag cgtaaatccc 29040
acactgcagg gaagacctcg cacgtaactc acgttgtgca ttgtcaaagt gttacattcg 29100
ggcagcagcg gatgatcctc cagtatggta gcgcgggttt ctgtctcaaa aggaggtaga 29160
cgatccctac tgtacggagt gcgccgagac aaccgagatc gtgttggtcg tagtgtcatg 29220
ccaaatggaa cgccggacgt agtcattgaa atggattctc ttgcgtacct tgtcgtactt 29280
ctgccagcag aaagtggctc gggaacagca gatacctttc ctcctgctgt ccttccgctg 29340
ctgacgctca gtcatccaac tgaagtacag ccattcccgc aggttctcca gcagctcctg 29400
tgcatctgat gaaacaaaag tcccgtcgat gcggattccc cttaaaacat cagccaggac 29460
attgtaggcc atcccaatcc agttaatgca tcctgatcta tcatgaagag gaggtggggg 29520
aagaactgga agaaccattt ttattccaag cggtctcgaa ggacgataaa gtgcaagtca 29580
cgcaggtgac agcgttcccc gccgctgtgc tggtggaaac agacagccag gtcaaaaccc 29640
actctatttt caaggtgctc gactgtggct tcgagcagtg gctctacgcg tacatccagc 29700
ataagaatca cattaaaggc tggacctcca tcgatttcat caatcatcag gttacactca 29760
ttcaccatcc ccaggtaatt ctcatttttc cagccttgga ttatttctac aaattgttgg 29820
tgtaagtcca ctccgcacat gtggaaaagt tcccacagcg ccccctccac tttcataatc 29880
aggcagacct tcatattaga aacagatcct gctgctccac cacctgcagc gtgttcaaaa 29940
caacaagatt caatgaggtt ctgccctctg ccctcagctc acgtctcagc gtcagctgca 30000
aaaagtcact caagtcctca gccactacag ctgacaattc agagccaggg ctaagcgtgg 30060
gactggcaag cgtgagtgag tactttaatg ctccaaagct agcacccaaa aactgcatgc 30120
tggaataagc tctctttgtg tcaccggtga tgccttccaa taggtgagtg ataaagcgag 30180
gtagtttttc tttaatcatt tgagtaatag aaaagtcctc taaataagtc actaggaccc 30240
caggaaccac aatgtggtag ctgacagcgt gtcgctcaag catggttagt agagatgaga 30300
gtctgaaaaa cagaaagcat gcactaaacc agagttgcca gtctcactga aggaaaaatc 30360
actctctcca gcagcaaagt gcccactggg tggccctctc ggacatacaa aaatcgatcc 30420
gtgtggttaa agagcagcac agttagctcc tgtcttctcc cagcaaagat cacatcggac 30480
tgggttagta tgcccctgga atggtagtca ttcaaggcca taaatctgcc ttggtagcca 30540
ttaggaatca gcacgctcac tctcaagtga accaaaacca ccccatgcgg aggaatgtgg 30600
aaagattctg ggcaaaaaaa ggtatatcta ttgctagtcc cttcctggac gggagcaatc 30660
cctccagggc tatctatgaa agcatacaga gattcagcca tagctcagcc cgcttaccag 30720
tagacagaga gcacagcagt acaagcgcca acagcagcga ctgactaccc actgacccag 30780
ctccctattt aaaggcacct tacactgacg taatgaccaa aggtctaaaa accccgccaa 30840
aaaaacacac acgccctggg tgtttttcgc gaaaacactt ccgcgttctc acttcctcgt 30900
atcgatttcg tgactcaact tccgggttcc cacgttacgt cacttctgcc cttacatgta 30960
actcagccgt agggcgccat cttgcccacg tccaaaatgg cttccatgtc cggccacgcc 31020
tccgcggcga ccgttagccg tgcgtcgtga cgtcatttgc atcaccgttt ctcgtccaat 31080
cagcgttggc tccgccccaa aaccgttaaa attcaaaagc tcatttgcat attaactttt 31140
gtttactttg tggggtatat tattgatgat g 31171
<210> 16
<211> 7973
<212> DNA
<213> Artificial sequence
<220>
<223> pAdApt26.CMVTO2A1.prM-Env vector
<400> 16
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 acctaggtgg 480
tcaatattgg ccattagcca tattattcat tggttatata gcataaatca atattggcta 540
ttggccattg catacgttgt atccatatca taatatgtac atttatattg gctcatgtcc 600
aacattaccg ccatgttgac attgattatt gactagttat taatagtaat caattacggg 660
gtcattagtt catagcccat atatggagtt ccgcgttaca taacttacgg taaatggccc 720
gcctggctga ccgcccaacg acccccgccc attgacgtca ataatgacgt atgttcccat 780
agtaacgcca atagggactt tccattgacg tcaatgggtg gagtatttac ggtaaactgc 840
ccacttggca gtacatcaag tgtatcatat gccaagtacg ccccctattg acgtcaatga 900
cggtaaatgg cccgcctggc attatgccca gtacatgacc ttatgggact ttcctacttg 960
gcagtacatc tacgtattag tcatcgctat taccatggtg atgcggtttt ggcagtacat 1020
caatgggcgt ggatagcggt ttgactcacg gggatttcca agtctccacc ccattgacgt 1080
caatgggagt ttgttttggc accaaaatca acgggacttt ccaaaatgtc gtaacaactc 1140
cgccccattg acgcaaatgg gcggtaggcg tgtacggtgg gaggtctata taagcagagc 1200
tcgtttagtt ccctatcagt gatagagaag acgccatcca cgctgttttg acctccatag 1260
aagacaccgg gaccgatcca gcctccgcgg ccgggaacgg tgcattggaa gcttggtacc 1320
gccaccatgg gcaaaagatc cgccggcagc atcatgtggc tggccagtct ggctgtcgtg 1380
atcgcctgtg ctggcgccgc tgtgacactg cctagccaca gcacccggaa gctgcagacc 1440
agaagccaga cctggctgga aagcagagag tacaccaagc acctgatccg ggtggaaaac 1500
tggatcttcc ggaaccccgg cttcgccctg gccgctgctg ctattgcttg gctgctgggc 1560
agcagcacca gccagaaagt gatctacctc gtgatgatcc tgctgatcgc ccctgcctac 1620
agcatccggt gtatcggcgt gtccaaccgg gacttcgtgg aaggcatgag cggcggcaca 1680
tgggtggacg tggtgctgga acatggcggc tgcgtgacag tgatggccca ggacaagccc 1740
accgtggaca tcgagctcgt gaccaccacc gtgtccaata tggccgaagt gcggagctac 1800
tgctacgagg ccagcatcag cgacatggcc agcgacagca gatgccctac acagggcgag 1860
gcctacctgg acaagcagtc cgacacccag tacgtgtgca agcggaccct ggtggataga 1920
ggctggggca atggctgcgg cctgtttggc aagggcagcc tcgtgacctg cgccaagttc 1980
gcctgcagca agaagatgac cggcaagagc atccagcccg agaacctgga ataccggatc 2040
atgctgagcg tgcacggcag ccagcactcc ggcatgatcg tgaacgacac cggccacgag 2100
acagacgaga accgggccaa ggtggaaatc acccccaaca gccctagagc cgaggccaca 2160
ctgggcggct ttggatctct gggcctggac tgcgagccta gaaccggcct ggatttcagc 2220
gacctgtact acctgaccat gaacaacaaa cactggctgg tgcacaaaga gtggttccac 2280
gacatccccc tgccctggca tgccggcgct gatacaggca caccccactg gaacaacaaa 2340
gaggccctgg tggagttcaa ggacgcccac gccaagaggc agaccgtggt ggtgctggga 2400
tctcaggaag gcgccgtgca tacagctctg gctggcgccc tggaagccga aatggatggc 2460
gctaagggca gactgtccag cggccacctg aagtgccggc tgaagatgga caagctgcgg 2520
ctgaagggcg tgtcctacag cctgtgtacc gccgccttca ccttcaccaa gatccccgcc 2580
gagacactgc acggcaccgt gactgtggaa gtgcagtacg ccggcaccga cggcccttgt 2640
aaagtgcctg ctcagatggc cgtggatatg cagaccctga cccctgtggg caggctgatc 2700
accgccaacc ctgtgatcac cgagagcacc gagaacagca agatgatgct ggaactggac 2760
ccacccttcg gcgacagcta catcgtgatc ggcgtgggag agaagaagat cacccaccac 2820
tggcacagaa gcggcagcac catcggcaag gcctttgagg ctacagtgcg gggagccaag 2880
agaatggccg tgctgggaga taccgcctgg gactttggct ctgtgggcgg agccctgaac 2940
tctctgggca agggaatcca ccagatcttc ggcgctgcct tcaagagcct gttcggcggc 3000
atgagctggt tcagccagat cctgatcggc accctgctga tgtggctggg cctgaacacc 3060
aagaacggct ccatcagcct gatgtgcctg gctctgggag gcgtgctgat cttcctgagc 3120
acagccgtgt ccgcctgagc tagcgttaac ggatcctcta gacgagatcc gaacttgttt 3180
attgcagctt ataatggtta caaataaagc aatagcatca caaatttcac aaataaagca 3240
tttttttcac tgcattctag ttgtggtttg tccaaactca tcaatgtatc ttatcatgtc 3300
tagatccagg taggtttgag tagtgggcgt ggctaaggtg actataaagg cgggtgtctt 3360
acgagggtct ttttgctttt ctgcagacat catgaacggg actggcgggg ccttcgaagg 3420
ggggcttttt agcccttatt tgacaacccg cctgccggga tgggccggag ttcgtcagaa 3480
tgtgatggga tcgacggtgg atgggcgccc agtgcttcca gcaaattcct cgaccatgac 3540
ctacgcgacc gtggggaact cgtcgctcga cagcaccgcc gcagccgcgg cagccgcagc 3600
cgccatgaca gcgacgagac tggcctcgag ctacatgccc agcagcggta gtagcccctc 3660
tgtgcccagt tccatcatcg ccgaggagaa actgctggcc ctgctggccg agctggaagc 3720
cctgagccgc cagctggccg ccctgaccca gcaggtgtcc gagctccgcg aacagcagca 3780
gcagcaaaat aaatgattca ataaacacag attctgattc aaacagcaaa gcatctttat 3840
tatttatttt ttcgcgcgcg gtaggccctg gtccacctct cccgatcatt gagagtgcgg 3900
tggatttttt ccaggacccg gtagaggtgg gattggatgt tgaggtacat gggcatgagc 3960
ccgtcccgtg ggtggaggta gcaccactgc atggcctcgt gctctggggt cgtgttgtag 4020
atgatccagt catagcaggg gcgctgggcg tggtgctgga tgatgtcctt gaggaggaga 4080
ctgatggcca cggggagccc cttggtgtag gtgttggcaa aacggttgag ctgggaggga 4140
tgcatgcggg gggagatgat gtgcagtttg gcctggatct tgaggttggc gatgttgcca 4200
cccagatccc gccgggggtt catgttgtgc aggaccacca gaacggtgta gcccgtgcac 4260
ttggggaact tgtcatgcaa cttggaaggg aatgcgtgga agaatttgga gacgcccttg 4320
tgcccgccca ggttttccat gcactcatcc atgatgatgg caatgggccc gtgggctgcg 4380
gctttggcaa agacgtttct ggggtcagag acatcgtaat tatgctcctg ggtgagatca 4440
tcataagaca ttttaatgaa tttggggcgg agggtgccag attgggggac gatggttccc 4500
tcgggccccg gggcgaagtt cccctcgcag atctgcatct cccaggcttt catctcggag 4560
ggggggatca tgtccacctg cggggcgatg aaaaaaacgg tttccggggc gggggtgatg 4620
agctgcgagg agagcaggtt tctcaacagc tgggacttgc cgcacccggt cgggccgtag 4680
atgaccccga tgacgggttg caggtggtag ttcaaggaca tgcagctgcc gtcgtcccgg 4740
aggagggggg ccacctcgtt gagcttgtct ctgacttgga ggttttcccg gacgagctcg 4800
ccgaggaggc ggtccccgcc cagcgagaga agctcttgca gggaagcaaa gtttttcagg 4860
ggcttgagcc cgtcggccat gggcatcttg gcgagggtct gcgagaggag ctccaggcgg 4920
tcccagagct cggtgacgtg ctctacggca tctcgatcca gcagacttcc tcgtttcggg 4980
ggttgggacg actgcgactg tagggcacga gacgatgggc gtccagcgcg gccagcgtca 5040
tgtccttcca gggtctcagg gtccgcgtga gggtggtctc cgtcacggtg aaggggtggg 5100
ccgcgggctg ggcgcttgca agggtgcgct tgagactcat cctgctggtg ctgaaacggg 5160
cacggtcttc gccctgcgcg tcggcgagat agcagttgac catgagctcg tagttgaggg 5220
cctcggcggc gtggcccttg gcgcggagct tgcccttgga agagcgcccg caggcgggac 5280
agaggaggga ttgcagggcg tagagcttgg gcgcgagaaa gacggactcg ggggcgaagg 5340
cgtccgctcc gcagtgggcg cagacggtct cgcactcgac tagccaggtg agctcgggct 5400
gctcggggtc aaaaaccagt tttcccccgt tctttttgat gcgcttctta cctcgcgtct 5460
ccatgagtct gtgtccgcgc tcggtgacaa acaggctgtc tgtgtccccg tagacggact 5520
tgatgggcct gtcctgcagg ggcgtcccgc ggtcctcctc gtagagaaac tcagaccact 5580
ctgagacgaa ggcgcgcgtc cacgccaaga caaaggaggc cacgtgcgag gggtagcggt 5640
cgttgtccac cagggggtcc accttttcca cggtatgcag gcacatgtcc ccctcctccg 5700
catccaagaa ggtgattggc ttgtaggtgt aggccacgtg acctggggtt cccgacgggg 5760
gggtataaaa gggggcgggt ctgtgctcgt cctcactctc ttccgcgtcg ctgtccacga 5820
gcgccagctg ttggggtagg tattccctct caagattaat taattcgaac ccataatacc 5880
cataatagct gtttgccatc gacgcgaggc tggatggcct tccccattat gattcttctc 5940
gcttccggcg gcatcgggat gcccgcgttg caggccatgc tgtccaggca ggtagatgac 6000
gaccatcagg gacagcttca aggatcgctc gcggctctta ccagcccagc aaaaggccag 6060
gaaccgtaaa aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca 6120
tcacaaaaat cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca 6180
ggcgtttccc cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg 6240
atacctgtcc gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag 6300
gtatctcagt tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt 6360
tcagcccgac cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca 6420
cgacttatcg ccactggcag cagccactgg taacaggatt agcagagcga ggtatgtagg 6480
cggtgctaca gagttcttga agtggtggcc taactacggc tacactagaa ggacagtatt 6540
tggtatctgc gctctgctga agccagttac cttcggaaaa agagttggta gctcttgatc 6600
cggcaaacaa accaccgctg gtagcggtgg tttttttgtt tgcaagcagc agattacgcg 6660
cagaaaaaaa ggatctcaag aagatccttt gatcttttct acggggtctg acgctcagtg 6720
gaacgaaaac tcacgttaag ggattttggt catgagatta tcaaaaagga tcttcaccta 6780
gatcctttta aattaaaaat gaagttttaa atcaatctaa agtatatatg agtaaacttg 6840
gtctgacagt taccaatgct taatcagtga ggcacctatc tcagcgatct gtctatttcg 6900
ttcatccata gttgcctgac tccccgtcgt gtagataact acgatacggg agggcttacc 6960
atctggcccc agtgctgcaa tgataccgcg agacccacgc tcaccggctc cagatttatc 7020
agcaataaac cagccagccg gaagggccga gcgcagaagt ggtcctgcaa ctttatccgc 7080
ctccatccag tctattaatt gttgccggga agctagagta agtagttcgc cagttaatag 7140
tttgcgcaac gttgttgcca ttgctgcagg catcgtggtg tcacgctcgt cgtttggtat 7200
ggcttcattc agctccggtt cccaacgatc aaggcgagtt acatgatccc ccatgttgtg 7260
caaaaaagcg gttagctcct tcggtcctcc gatcgttgtc agaagtaagt tggccgcagt 7320
gttatcactc atggttatgg cagcactgca taattctctt actgtcatgc catccgtaag 7380
atgcttttct gtgactggtg agtactcaac caagtcattc tgagaatagt gtatgcggcg 7440
accgagttgc tcttgcccgg cgtcaacacg ggataatacc gcgccacata gcagaacttt 7500
aaaagtgctc atcattggaa aacgttcttc ggggcgaaaa ctctcaagga tcttaccgct 7560
gttgagatcc agttcgatgt aacccactcg tgcacccaac tgatcttcag catcttttac 7620
tttcaccagc gtttctgggt gagcaaaaac aggaaggcaa aatgccgcaa aaaagggaat 7680
aagggcgaca cggaaatgtt gaatactcat actcttcctt tttcaatatt attgaagcat 7740
ttatcagggt tattgtctca tgagcggata catatttgaa tgtatttaga aaaataaaca 7800
aataggggtt ccgcgcacat ttccccgaaa agtgccacct gacgtctaag aaaccattat 7860
tatcatgaca ttaacctata aaaataggcg tatcacgagg ccctttcgtc ttcaagaatt 7920
ggtcgatggc aaacagctat tatgggtatt atgggttcga attaattaat cga 7973
<210> 17
<211> 7973
<212> DNA
<213> Artificial sequence
<220>
<223> pAdApt26.ZIKV.001 vector
<400> 17
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 acctaggtgg 480
tcaatattgg ccattagcca tattattcat tggttatata gcataaatca atattggcta 540
ttggccattg catacgttgt atccatatca taatatgtac atttatattg gctcatgtcc 600
aacattaccg ccatgttgac attgattatt gactagttat taatagtaat caattacggg 660
gtcattagtt catagcccat atatggagtt ccgcgttaca taacttacgg taaatggccc 720
gcctggctga ccgcccaacg acccccgccc attgacgtca ataatgacgt atgttcccat 780
agtaacgcca atagggactt tccattgacg tcaatgggtg gagtatttac ggtaaactgc 840
ccacttggca gtacatcaag tgtatcatat gccaagtacg ccccctattg acgtcaatga 900
cggtaaatgg cccgcctggc attatgccca gtacatgacc ttatgggact ttcctacttg 960
gcagtacatc tacgtattag tcatcgctat taccatggtg atgcggtttt ggcagtacat 1020
caatgggcgt ggatagcggt ttgactcacg gggatttcca agtctccacc ccattgacgt 1080
caatgggagt ttgttttggc accaaaatca acgggacttt ccaaaatgtc gtaacaactc 1140
cgccccattg acgcaaatgg gcggtaggcg tgtacggtgg gaggtctata taagcagagc 1200
tcgtttagtg aaccgtcaga tcgcctggag acgccatcca cgctgttttg acctccatag 1260
aagacaccgg gaccgatcca gcctccgcgg ccgggaacgg tgcattggaa gcttggtacc 1320
gccaccatgg gcaaaagatc cgccggcagc atcatgtggc tggccagtct ggctgtcgtg 1380
atcgcctgtg ctggcgccgc tgtgacactg cctagccaca gcacccggaa gctgcagacc 1440
agaagccaga cctggctgga aagcagagag tacaccaagc acctgatccg ggtggaaaac 1500
tggatcttcc ggaaccccgg cttcgccctg gccgctgctg ctattgcttg gctgctgggc 1560
agcagcacca gccagaaagt gatctacctc gtgatgatcc tgctgatcgc ccctgcctac 1620
agcatccggt gtatcggcgt gtccaaccgg gacttcgtgg aaggcatgag cggcggcaca 1680
tgggtggacg tggtgctgga acatggcggc tgcgtgacag tgatggccca ggacaagccc 1740
accgtggaca tcgagctcgt gaccaccacc gtgtccaata tggccgaagt gcggagctac 1800
tgctacgagg ccagcatcag cgacatggcc agcgacagca gatgccctac acagggcgag 1860
gcctacctgg acaagcagtc cgacacccag tacgtgtgca agcggaccct ggtggataga 1920
ggctggggca atggctgcgg cctgtttggc aagggcagcc tcgtgacctg cgccaagttc 1980
gcctgcagca agaagatgac cggcaagagc atccagcccg agaacctgga ataccggatc 2040
atgctgagcg tgcacggcag ccagcactcc ggcatgatcg tgaacgacac cggccacgag 2100
acagacgaga accgggccaa ggtggaaatc acccccaaca gccctagagc cgaggccaca 2160
ctgggcggct ttggatctct gggcctggac tgcgagccta gaaccggcct ggatttcagc 2220
gacctgtact acctgaccat gaacaacaaa cactggctgg tgcacaaaga gtggttccac 2280
gacatccccc tgccctggca tgccggcgct gatacaggca caccccactg gaacaacaaa 2340
gaggccctgg tggagttcaa ggacgcccac gccaagaggc agaccgtggt ggtgctggga 2400
tctcaggaag gcgccgtgca tacagctctg gctggcgccc tggaagccga aatggatggc 2460
gctaagggca gactgtccag cggccacctg aagtgccggc tgaagatgga caagctgcgg 2520
ctgaagggcg tgtcctacag cctgtgtacc gccgccttca ccttcaccaa gatccccgcc 2580
gagacactgc acggcaccgt gactgtggaa gtgcagtacg ccggcaccga cggcccttgt 2640
aaagtgcctg ctcagatggc cgtggatatg cagaccctga cccctgtggg caggctgatc 2700
accgccaacc ctgtgatcac cgagagcacc gagaacagca agatgatgct ggaactggac 2760
ccacccttcg gcgacagcta catcgtgatc ggcgtgggag agaagaagat cacccaccac 2820
tggcacagaa gcggcagcac catcggcaag gcctttgagg ctacagtgcg gggagccaag 2880
agaatggccg tgctgggaga taccgcctgg gactttggct ctgtgggcgg agccctgaac 2940
tctctgggca agggaatcca ccagatcttc ggcgctgcct tcaagagcct gttcggcggc 3000
atgagctggt tcagccagat cctgatcggc accctgctga tgtggctggg cctgaacacc 3060
aagaacggct ccatcagcct gatgtgcctg gctctgggag gcgtgctgat cttcctgagc 3120
acagccgtgt ccgcctgagc tagcgttaac ggatcctcta gacgagatcc gaacttgttt 3180
attgcagctt ataatggtta caaataaagc aatagcatca caaatttcac aaataaagca 3240
tttttttcac tgcattctag ttgtggtttg tccaaactca tcaatgtatc ttatcatgtc 3300
tagatccagg taggtttgag tagtgggcgt ggctaaggtg actataaagg cgggtgtctt 3360
acgagggtct ttttgctttt ctgcagacat catgaacggg actggcgggg ccttcgaagg 3420
ggggcttttt agcccttatt tgacaacccg cctgccggga tgggccggag ttcgtcagaa 3480
tgtgatggga tcgacggtgg atgggcgccc agtgcttcca gcaaattcct cgaccatgac 3540
ctacgcgacc gtggggaact cgtcgctcga cagcaccgcc gcagccgcgg cagccgcagc 3600
cgccatgaca gcgacgagac tggcctcgag ctacatgccc agcagcggta gtagcccctc 3660
tgtgcccagt tccatcatcg ccgaggagaa actgctggcc ctgctggccg agctggaagc 3720
cctgagccgc cagctggccg ccctgaccca gcaggtgtcc gagctccgcg aacagcagca 3780
gcagcaaaat aaatgattca ataaacacag attctgattc aaacagcaaa gcatctttat 3840
tatttatttt ttcgcgcgcg gtaggccctg gtccacctct cccgatcatt gagagtgcgg 3900
tggatttttt ccaggacccg gtagaggtgg gattggatgt tgaggtacat gggcatgagc 3960
ccgtcccgtg ggtggaggta gcaccactgc atggcctcgt gctctggggt cgtgttgtag 4020
atgatccagt catagcaggg gcgctgggcg tggtgctgga tgatgtcctt gaggaggaga 4080
ctgatggcca cggggagccc cttggtgtag gtgttggcaa aacggttgag ctgggaggga 4140
tgcatgcggg gggagatgat gtgcagtttg gcctggatct tgaggttggc gatgttgcca 4200
cccagatccc gccgggggtt catgttgtgc aggaccacca gaacggtgta gcccgtgcac 4260
ttggggaact tgtcatgcaa cttggaaggg aatgcgtgga agaatttgga gacgcccttg 4320
tgcccgccca ggttttccat gcactcatcc atgatgatgg caatgggccc gtgggctgcg 4380
gctttggcaa agacgtttct ggggtcagag acatcgtaat tatgctcctg ggtgagatca 4440
tcataagaca ttttaatgaa tttggggcgg agggtgccag attgggggac gatggttccc 4500
tcgggccccg gggcgaagtt cccctcgcag atctgcatct cccaggcttt catctcggag 4560
ggggggatca tgtccacctg cggggcgatg aaaaaaacgg tttccggggc gggggtgatg 4620
agctgcgagg agagcaggtt tctcaacagc tgggacttgc cgcacccggt cgggccgtag 4680
atgaccccga tgacgggttg caggtggtag ttcaaggaca tgcagctgcc gtcgtcccgg 4740
aggagggggg ccacctcgtt gagcttgtct ctgacttgga ggttttcccg gacgagctcg 4800
ccgaggaggc ggtccccgcc cagcgagaga agctcttgca gggaagcaaa gtttttcagg 4860
ggcttgagcc cgtcggccat gggcatcttg gcgagggtct gcgagaggag ctccaggcgg 4920
tcccagagct cggtgacgtg ctctacggca tctcgatcca gcagacttcc tcgtttcggg 4980
ggttgggacg actgcgactg tagggcacga gacgatgggc gtccagcgcg gccagcgtca 5040
tgtccttcca gggtctcagg gtccgcgtga gggtggtctc cgtcacggtg aaggggtggg 5100
ccgcgggctg ggcgcttgca agggtgcgct tgagactcat cctgctggtg ctgaaacggg 5160
cacggtcttc gccctgcgcg tcggcgagat agcagttgac catgagctcg tagttgaggg 5220
cctcggcggc gtggcccttg gcgcggagct tgcccttgga agagcgcccg caggcgggac 5280
agaggaggga ttgcagggcg tagagcttgg gcgcgagaaa gacggactcg ggggcgaagg 5340
cgtccgctcc gcagtgggcg cagacggtct cgcactcgac tagccaggtg agctcgggct 5400
gctcggggtc aaaaaccagt tttcccccgt tctttttgat gcgcttctta cctcgcgtct 5460
ccatgagtct gtgtccgcgc tcggtgacaa acaggctgtc tgtgtccccg tagacggact 5520
tgatgggcct gtcctgcagg ggcgtcccgc ggtcctcctc gtagagaaac tcagaccact 5580
ctgagacgaa ggcgcgcgtc cacgccaaga caaaggaggc cacgtgcgag gggtagcggt 5640
cgttgtccac cagggggtcc accttttcca cggtatgcag gcacatgtcc ccctcctccg 5700
catccaagaa ggtgattggc ttgtaggtgt aggccacgtg acctggggtt cccgacgggg 5760
gggtataaaa gggggcgggt ctgtgctcgt cctcactctc ttccgcgtcg ctgtccacga 5820
gcgccagctg ttggggtagg tattccctct caagattaat taattcgaac ccataatacc 5880
cataatagct gtttgccatc gacgcgaggc tggatggcct tccccattat gattcttctc 5940
gcttccggcg gcatcgggat gcccgcgttg caggccatgc tgtccaggca ggtagatgac 6000
gaccatcagg gacagcttca aggatcgctc gcggctctta ccagcccagc aaaaggccag 6060
gaaccgtaaa aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca 6120
tcacaaaaat cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca 6180
ggcgtttccc cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg 6240
atacctgtcc gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag 6300
gtatctcagt tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt 6360
tcagcccgac cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca 6420
cgacttatcg ccactggcag cagccactgg taacaggatt agcagagcga ggtatgtagg 6480
cggtgctaca gagttcttga agtggtggcc taactacggc tacactagaa ggacagtatt 6540
tggtatctgc gctctgctga agccagttac cttcggaaaa agagttggta gctcttgatc 6600
cggcaaacaa accaccgctg gtagcggtgg tttttttgtt tgcaagcagc agattacgcg 6660
cagaaaaaaa ggatctcaag aagatccttt gatcttttct acggggtctg acgctcagtg 6720
gaacgaaaac tcacgttaag ggattttggt catgagatta tcaaaaagga tcttcaccta 6780
gatcctttta aattaaaaat gaagttttaa atcaatctaa agtatatatg agtaaacttg 6840
gtctgacagt taccaatgct taatcagtga ggcacctatc tcagcgatct gtctatttcg 6900
ttcatccata gttgcctgac tccccgtcgt gtagataact acgatacggg agggcttacc 6960
atctggcccc agtgctgcaa tgataccgcg agacccacgc tcaccggctc cagatttatc 7020
agcaataaac cagccagccg gaagggccga gcgcagaagt ggtcctgcaa ctttatccgc 7080
ctccatccag tctattaatt gttgccggga agctagagta agtagttcgc cagttaatag 7140
tttgcgcaac gttgttgcca ttgctgcagg catcgtggtg tcacgctcgt cgtttggtat 7200
ggcttcattc agctccggtt cccaacgatc aaggcgagtt acatgatccc ccatgttgtg 7260
caaaaaagcg gttagctcct tcggtcctcc gatcgttgtc agaagtaagt tggccgcagt 7320
gttatcactc atggttatgg cagcactgca taattctctt actgtcatgc catccgtaag 7380
atgcttttct gtgactggtg agtactcaac caagtcattc tgagaatagt gtatgcggcg 7440
accgagttgc tcttgcccgg cgtcaacacg ggataatacc gcgccacata gcagaacttt 7500
aaaagtgctc atcattggaa aacgttcttc ggggcgaaaa ctctcaagga tcttaccgct 7560
gttgagatcc agttcgatgt aacccactcg tgcacccaac tgatcttcag catcttttac 7620
tttcaccagc gtttctgggt gagcaaaaac aggaaggcaa aatgccgcaa aaaagggaat 7680
aagggcgaca cggaaatgtt gaatactcat actcttcctt tttcaatatt attgaagcat 7740
ttatcagggt tattgtctca tgagcggata catatttgaa tgtatttaga aaaataaaca 7800
aataggggtt ccgcgcacat ttccccgaaa agtgccacct gacgtctaag aaaccattat 7860
tatcatgaca ttaacctata aaaataggcg tatcacgagg ccctttcgtc ttcaagaatt 7920
ggtcgatggc aaacagctat tatgggtatt atgggttcga attaattaat cga 7973
<210> 18
<211> 6535
<212> DNA
<213> Artificial sequence
<220>
<223> pMK.RQ.CMVTO2A1_ GL _ AO _ RFL vector
<400> 18
ctaaattgta agcgttaata ttttgttaaa attcgcgtta aatttttgtt aaatcagctc 60
attttttaac caataggccg aaatcggcaa aatcccttat aaatcaaaag aatagaccga 120
gatagggttg agtggccgct acagggcgct cccattcgcc attcaggctg cgcaactgtt 180
gggaagggcg tttcggtgcg ggcctcttcg ctattacgcc agctggcgaa agggggatgt 240
gctgcaaggc gattaagttg ggtaacgcca gggttttccc agtcacgacg ttgtaaaacg 300
acggccagtg agcgcgacgt aatacgactc actatagggc gaattgaagg aaggccgtca 360
aggccgcata ccggtgaccc gcgtccgtgt caaagtccgg tgtttatgtc acagatcagc 420
tgagcgatct cgagtcaata ttggccatta gccatattat tcattggtta tatagcataa 480
atcaatattg gctattggcc attgcatacg ttgtatccat atcataatat gtacatttat 540
attggctcat gtccaacatt accgccatgt tgacattgat tattgactag ttattaatag 600
taatcaatta cggggtcatt agttcatagc ccatatatgg agttccgcgt tacataactt 660
acggtaaatg gcccgcctgg ctgaccgccc aacgaccccc gcccattgac gtcaataatg 720
acgtatgttc ccatagtaac gccaataggg actttccatt gacgtcaatg ggtggagtat 780
ttacggtaaa ctgcccactt ggcagtacat caagtgtatc atatgccaag tacgccccct 840
attgacgtca atgacggtaa atggcccgcc tggcattatg cccagtacat gaccttatgg 900
gactttccta cttggcagta catctacgta ttagtcatcg ctattaccat ggtgatgcgg 960
ttttggcagt acatcaatgg gcgtggatag cggtttgact cacggggatt tccaagtctc 1020
caccccattg acgtcaatgg gagtttgttt tggcaccaaa atcaacggga ctttccaaaa 1080
tgtcgtaaca actccgcccc attgacgcaa atgggcggta ggcgtgtacg gtgggaggtc 1140
tatataagca gagctcgttt agttccctat cagtgataga gaagacgcca tccacgctgt 1200
tttgacctcc atagaagaca ccgggaccga tccagcctcc gcggccggga acggtgcatt 1260
ggagcgatcg caagcttgcc accatgggcg tgaaggtgct gttcgccctg atctgtatcg 1320
ccgtggccga ggccaagccc accgagaaca acgaggactt caacatcgtg gccgtggcct 1380
ccaacttcgc caccaccgat ctggacgccg acagaggcaa gctgcccggc aagaaactgc 1440
ccctggaagt gctgaaagag atggaagcca acgcccggaa ggccggctgt accagaggct 1500
gtctgatctg cctgagccac attaagtgca cccccaagat gaagaagttc atccccggca 1560
gatgccacac ctacgagggc gacaaagagt ctgcccaggg cggaatcgga gaggccatcg 1620
tggacatccc tgagatcccc ggcttcaagg acctggaacc catggaacag tttatcgccc 1680
aggtggacct gtgcgtggac tgcacaacag gctgcctgaa gggcctggcc aacgtgcagt 1740
gtagcgacct gctgaagaag tggctgcccc agagatgcgc caccttcgcc tctaagatcc 1800
agggacaggt ggacaagatc aagggcgctg gcggcgactg agtctagagc gatcgcatcc 1860
gaacttgttt attgcagctt ataatggtta caaataaagc aatagcatca caaatttcac 1920
aaataaagca tttttttcac tgcattctag ttgtggtttg tccaaactca tcaatgtatc 1980
ttatcatgtc tgctagcatc gcaggtaggt ttgagtagtg ggcgtggcta aggtgactat 2040
aaaggcgggt gtcttacgag ggtctttttg cttttctgca gacatcagtc ccaatgcatt 2100
ggcacgtgac tcaacttccg ggttcccacg ttacgtcact tctgccctta catgttaatg 2160
gtaccataga gcccaccgca tccccagcat gcctgctatt gtcttcccaa tcctccccct 2220
tgctgtcctg ccccacccca ccccccagaa tagaatgaca cctactcaga caatgcgatg 2280
caatttcctc attttattag gaaaggacag tgggagtggc accttccagg gtcaaggaag 2340
gcacggggga ggggcaaaca acagatggct ggcaactaga aggcacagtt aattaaggaa 2400
ttcacatctt ggccacgggt ttcttcagga tctctctgat ggctctgcca tcgatcttgc 2460
cggtcaggcc ctttggcacc tcgtccacga atctgacgcc gcctctcagt ctcttggcgt 2520
tggacacctg agaggccacg tagtccatca cttctttctc ggtcatgttc ttgccgcttt 2580
ccagcaccac cacagcgcct ggcagttcgc cagccacagg atctggcacg cctgccacgc 2640
cagcgtcgaa gatgctggga tgctgcagca gcacagattc cagctcggca gggggcacct 2700
gatagccctt gtacttgatc agagacttca gccggtccac gatgaagaag tgcttttcct 2760
catcgtagta gccgatgtcg ccggtgtgca gccagccctc ttcgtcgatc agctctttgg 2820
tggcctcggg gttgttcacg tagcccttca tcagcatggg gcccttcacg cacacttcgc 2880
cccgtctgtt agggcccagg gacttcttgg tatccaggtc aatcactttg gccttgaaca 2940
ggggcaccac ctttccagag gcgccaggct tatcgtcgcc ctcgggggtg atgatgatgg 3000
cgctggttgt ttctgtcagg ccgtagccct gccgcacgcc aggcagattg aaccgtctgg 3060
ccacggcctc tcccacttct ttgctcagag gggcgcctcc gctggcgatt tccaccaggt 3120
tgctcaggtc gtatttgttc agcagttcgc tcttgttcag gatggcgaac agggtgggca 3180
ccaggatcac ataggtgcac ttgtagtcct gcagggtttt caggaaggtt tcctcgtcga 3240
acttggtcag catcacgacc cggaagccgc agatcaggta gcccagggtg gtgaacatgc 3300
cgaagccgtg gtgaaaaggc accacggtca gcacggcggt gccaggggac acctggtttc 3360
cgtagatggg gtcccgggcg tggctgaacc gtgtcacggt gttctcgtgg gtcagctgca 3420
cgcctttggg cagtccggtg ctgccgctgc tgttcatgat cagggccacc tgttctttcc 3480
ggtccacttc cacggtcttg aagctggagg cctggaagcc tgggggggtg ttccgcttga 3540
tgaaggtgtc caggcactgg tagccccggt agtccacctt gctgtccagg atcacgatgg 3600
tcttgatggt ggtcacggtt ttctgcacgg tgatcacttt gtccaggcct ttcttgctgc 3660
tgaacacgat ggtgggcttg ctgatgccca ggctgtgcac cagttcccgc agggtgtaga 3720
tctcgttggt gggggccact cccactccga tgaacaggcc ggcgatcacg gggatgaaga 3780
actcttcgca gttctcgctg cacagggcga ttctgccgtc caccaccagg ccatagttct 3840
gcagggcctt gcccaggcag cagctctttt ccaggtactc ggcgtagctg tagtccacgc 3900
cggtcacggc attggtgaag gcgatagcgc ccagcttggc gtatctttcc atgtacttcc 3960
gcagctgggt gccggcagag ccttcctcga tggggtagaa gggcttgggg cccacgacga 4020
tgttctcgtc gttttccatg ttctccatgg tggcgcgcct taattaacca gtgaagggtc 4080
cccggctagg ctaggccgct cggtcccggt ggctggtccg gagaacgtgg gtccctcacg 4140
ctgtcttgaa ggcgaatggc ggtctgctaa ccgggctctg cttatatacc ctaggacagc 4200
ccatggtccg cccacgaacc gcccagtaac gcccataact ccgcccggga acgcccatgg 4260
tcactccccg ttacgcccct ttccactgac gtcaatggaa agtccccgcg gttttggtgc 4320
caagaacatt gactaatatg gaatttcccc acccaccatt gccggtaatg gtgggaaagg 4380
ggaactggcc ccgttcccat tgacgtcact ggctattggc caaggacatt gactaataat 4440
agaaatcccc ctttttggtg ccaaatgagg cggtgggctt atggaaagtc cccatttaac 4500
ccctattctg gtgccaggac ggatgtatat gcttgccaag tcattgattt ggatccatta 4560
actcagccgt agggcgccat cttgcccacg tccaaaatgg cttccatgtc cggccacgtg 4620
acgcgtctgg gcctcatggg ccttcctttc actgcccgct ttccagtcgg gaaacctgtc 4680
gtgccagctg cattaacatg gtcatagctg tttccttgcg tattgggcgc tctccgcttc 4740
ctcgctcact gactcgctgc gctcggtcgt tcgggtaaag cctggggtgc ctaatgagca 4800
aaaggccagc aaaaggccag gaaccgtaaa aaggccgcgt tgctggcgtt tttccatagg 4860
ctccgccccc ctgacgagca tcacaaaaat cgacgctcaa gtcagaggtg gcgaaacccg 4920
acaggactat aaagatacca ggcgtttccc cctggaagct ccctcgtgcg ctctcctgtt 4980
ccgaccctgc cgcttaccgg atacctgtcc gcctttctcc cttcgggaag cgtggcgctt 5040
tctcatagct cacgctgtag gtatctcagt tcggtgtagg tcgttcgctc caagctgggc 5100
tgtgtgcacg aaccccccgt tcagcccgac cgctgcgcct tatccggtaa ctatcgtctt 5160
gagtccaacc cggtaagaca cgacttatcg ccactggcag cagccactgg taacaggatt 5220
agcagagcga ggtatgtagg cggtgctaca gagttcttga agtggtggcc taactacggc 5280
tacactagaa gaacagtatt tggtatctgc gctctgctga agccagttac cttcggaaaa 5340
agagttggta gctcttgatc cggcaaacaa accaccgctg gtagcggtgg tttttttgtt 5400
tgcaagcagc agattacgcg cagaaaaaaa ggatctcaag aagatccttt gatcttttct 5460
acggggtctg acgctcagtg gaacgaaaac tcacgttaag ggattttggt catgagatta 5520
tcaaaaagga tcttcaccta gatcctttta aattaaaaat gaagttttaa atcaatctaa 5580
agtatatatg agtaaacttg gtctgacagt tattagaaaa attcatccag cagacgataa 5640
aacgcaatac gctggctatc cggtgccgca atgccataca gcaccagaaa acgatccgcc 5700
cattcgccgc ccagttcttc cgcaatatca cgggtggcca gcgcaatatc ctgataacga 5760
tccgccacgc ccagacggcc gcaatcaata aagccgctaa aacggccatt ttccaccata 5820
atgttcggca ggcacgcatc accatgggtc accaccagat cttcgccatc cggcatgctc 5880
gctttcagac gcgcaaacag ctctgccggt gccaggccct gatgttcttc atccagatca 5940
tcctgatcca ccaggcccgc ttccatacgg gtacgcgcac gttcaatacg atgtttcgcc 6000
tgatgatcaa acggacaggt cgccgggtcc agggtatgca gacgacgcat ggcatccgcc 6060
ataatgctca ctttttctgc cggcgccaga tggctagaca gcagatcctg acccggcact 6120
tcgcccagca gcagccaatc acggcccgct tcggtcacca catccagcac cgccgcacac 6180
ggaacaccgg tggtggccag ccagctcaga cgcgccgctt catcctgcag ctcgttcagc 6240
gcaccgctca gatcggtttt cacaaacagc accggacgac cctgcgcgct cagacgaaac 6300
accgccgcat cagagcagcc aatggtctgc tgcgcccaat catagccaaa cagacgttcc 6360
acccacgctg ccgggctacc cgcatgcagg ccatcctgtt caatcatact cttccttttt 6420
caatattatt gaagcattta tcagggttat tgtctcatga gcggatacat atttgaatgt 6480
atttagaaaa ataaacaaat aggggttccg cgcacatttc cccgaaaagt gccac 6535
<210> 19
<211> 35606
<212> DNA
<213> Artificial sequence
<220>
<223> pWe.Ad26.dE3.5orf6 cosmid
<400> 19
ttaattaatg ctggccctgc tggccgagct ggaagccctg agccgccagc tggccgccct 60
gacccagcag gtgtccgagc tccgcgaaca gcagcagcag caaaataaat gattcaataa 120
acacagattc tgattcaaac agcaaagcat ctttattatt tattttttcg cgcgcggtag 180
gccctggtcc acctctcccg atcattgaga gtgcggtgga ttttttccag gacccggtag 240
aggtgggatt ggatgttgag gtacatgggc atgagcccgt cccgtgggtg gaggtagcac 300
cactgcatgg cctcgtgctc tggggtcgtg ttgtagatga tccagtcata gcaggggcgc 360
tgggcgtggt gctggatgat gtccttgagg aggagactga tggccacggg gagccccttg 420
gtgtaggtgt tggcaaaacg gttgagctgg gagggatgca tgcgggggga gatgatgtgc 480
agtttggcct ggatcttgag gttggcgatg ttgccaccca gatcccgccg ggggttcatg 540
ttgtgcagga ccaccagaac ggtgtagccc gtgcacttgg ggaacttgtc atgcaacttg 600
gaagggaatg cgtggaagaa tttggagacg cccttgtgcc cgcccaggtt ttccatgcac 660
tcatccatga tgatggcaat gggcccgtgg gctgcggctt tggcaaagac gtttctgggg 720
tcagagacat cgtaattatg ctcctgggtg agatcatcat aagacatttt aatgaatttg 780
gggcggaggg tgccagattg ggggacgatg gttccctcgg gccccggggc gaagttcccc 840
tcgcagatct gcatctccca ggctttcatc tcggaggggg ggatcatgtc cacctgcggg 900
gcgatgaaaa aaacggtttc cggggcgggg gtgatgagct gcgaggagag caggtttctc 960
aacagctggg acttgccgca cccggtcggg ccgtagatga ccccgatgac gggttgcagg 1020
tggtagttca aggacatgca gctgccgtcg tcccggagga ggggggccac ctcgttgagc 1080
ttgtctctga cttggaggtt ttcccggacg agctcgccga ggaggcggtc cccgcccagc 1140
gagagaagct cttgcaggga agcaaagttt ttcaggggct tgagcccgtc ggccatgggc 1200
atcttggcga gggtctgcga gaggagctcc aggcggtccc agagctcggt gacgtgctct 1260
acggcatctc gatccagcag acttcctcgt ttcgggggtt gggacgactg cgactgtagg 1320
gcacgagacg atgggcgtcc agcgcggcca gcgtcatgtc cttccagggt ctcagggtcc 1380
gcgtgagggt ggtctccgtc acggtgaagg ggtgggccgc gggctgggcg cttgcaaggg 1440
tgcgcttgag actcatcctg ctggtgctga aacgggcacg gtcttcgccc tgcgcgtcgg 1500
cgagatagca gttgaccatg agctcgtagt tgagggcctc ggcggcgtgg cccttggcgc 1560
ggagcttgcc cttggaagag cgcccgcagg cgggacagag gagggattgc agggcgtaga 1620
gcttgggcgc gagaaagacg gactcggggg cgaaggcgtc cgctccgcag tgggcgcaga 1680
cggtctcgca ctcgactagc caggtgagct cgggctgctc ggggtcaaaa accagttttc 1740
ccccgttctt tttgatgcgc ttcttacctc gcgtctccat gagtctgtgt ccgcgctcgg 1800
tgacaaacag gctgtctgtg tccccgtaga cggacttgat gggcctgtcc tgcaggggcg 1860
tcccgcggtc ctcctcgtag agaaactcag accactctga gacgaaggcg cgcgtccacg 1920
ccaagacaaa ggaggccacg tgcgaggggt agcggtcgtt gtccaccagg gggtccacct 1980
tttccacggt atgcaggcac atgtccccct cctccgcatc caagaaggtg attggcttgt 2040
aggtgtaggc cacgtgacct ggggttcccg acgggggggt ataaaagggg gcgggtctgt 2100
gctcgtcctc actctcttcc gcgtcgctgt ccacgagcgc cagctgttgg ggtaggtatt 2160
ccctctcaag agcgggcatg acctcggcac tcaggttgtc agtttctaga aacgaggagg 2220
atttgatgtg ggcctgccct gccgcgatgc tttttaggag actttcatcc atctggtcag 2280
aaaagactat ttttttattg tcaagcttgg tggcgaagga gccatagagg gcgtttgaga 2340
gaagcttggc gatggatctc atggtctgat ttttgtcacg gtcggcgcgc tccttggccg 2400
cgatgttgag ctggacatat tcgcgcgcga cacacttcca ttcggggaag acggtggtgc 2460
gctcgtcggg cacgatcctg acgcgccagc cgcggttatg cagggtgacc aggtccacgc 2520
tggtggccac ctcgccgcgc aggggctcgt tggtccagca gagtctgccg cccttgcgcg 2580
agcagaacgg gggcagcaca tcaagcagat gctcgtcagg ggggtccgca tcgatggtga 2640
agatgcccgg acagagttcc ttgtcaaaat aatcgatttt tgaggatgca tcgtccaagg 2700
ccatctgcca ctcgcgggcg gccagcgctc gctcgtaggg gttgaggggc ggaccccaag 2760
gcatgggatg cgtgagggcg gaggcgtaca tgccgcagat gtcatagaca tagatgggct 2820
ccgagaggat gccgatgtag gtgggatagc agcgcccccc gcggatgctt gcgcgcacgt 2880
agtcatacaa ctcgtgcgag ggggccaaga aggcggggcc gagattggtg cgctggggct 2940
gctcggcgcg gaagacgatc tggcgaaaga tggcgtgcga gttggaggag atggtgggcc 3000
gttggaagat gttaaagtgg gcgtgaggca ggcggaccga gtcgcggatg aagtgcgcgt 3060
aggagtcttg cagcttggcg acgagctcgg cggtgacgag gacgtccatg gcgcagtagt 3120
ccagcgtttc gcggatgatg tcataactcg cctctccttt cttctcccac agctcgcggt 3180
tgagggcgta ttcctcgtca tccttccagt actcccggag cgggaatcct cgatcgtccg 3240
cacggtaaga gcccagcatg tagaaatggt tcacggcctt gtagggacag cagcccttct 3300
ccacggggag ggcgtaagct tgagcggcct tgcggagcga ggtgtgcgtc agggcaaagg 3360
tgtccctgac catgactttc aagaactggt acttgaagtc cgagtcgtcg cagccgccgt 3420
gctcccagag ctcgaaatcg gtgcgcttct tcgagagggg gttaggcaga gcgaaagtga 3480
cgtcattgaa gagaatcttg cctgcccgcg gcatgaaatt gcgggtgatg cggaaagggc 3540
ccgggacgga ggctcggttg ttgatgacct gggcggcgag gacgatctcg tcaaagccgt 3600
tgatgttgtg cccgacgatg tagagttcca tgaatcgcgg gcggcctttg atgtgcggca 3660
gctttttgag ctcctcgtag gtgaggtcct cggggcattg caggccgtgc tgctcgagcg 3720
cccactcctg gagatgtggg ttggcttgca tgaaggaagc ccagagctcg cgggccatga 3780
gggtctggag ctcgtcgcga aagaggcgga actgctggcc cacggccatc ttttctgggg 3840
tgacgcagta gaaggtgagg gggtcccgct cccagcgatc ccagcgtaaa cgcacggcga 3900
gatcgcgagc gagggcgacc agctctgggt ccccggagaa tttcatgacc agcatgaagg 3960
ggacgagctg cttgccgaag gaccccatcc aggtgtaggt ttctacatcg taggtgacaa 4020
agagccgctc cgtgcgagga tgagagccga ttgggaagaa ctggatttcc tgccaccagt 4080
tggacgagtg gctgttgatg tgatgaaagt agaaatcccg ccggcgaacc gagcactcgt 4140
gctgatgctt gtaaaagcgt ccgcagtact cgcagcgctg cacgggctgt acctcatcca 4200
cgagatacac agcgcgtccc ttgaggagga acttcaggag tggcggccct ggctggtggt 4260
tttcatgttc gcctgcgtgg gactcaccct ggggctcctc gaggacggag aggctgacga 4320
gcccgcgcgg gagccaggtc cagatctcgg cgcggcgggg gcggagagcg aagacgaggg 4380
cgcgcagttg ggagctgtcc atggtgtcgc ggagatccag gtccgggggc agggttctga 4440
ggttgacctc gtagaggcgg gtgagggcgt gcttgagatg cagatggtac ttgatttcta 4500
cgggtgagtt ggtggtcgtg tccacgcatt gcatgagccc gtagctgcgc ggggccacga 4560
ccgtgccgcg gtgcgctttt agaagcggtg tcgcggacgc gctcccggcg gcagcggcgg 4620
ttccggcccc gcgggcaggg gcggcagagg cacgtcggcg tggcgctcgg gcaggtcccg 4680
gtgctgcgcc ctgagagcgc tggcgtgcgc gacgacgcgg cggttgacat cctggatctg 4740
ccgcctctgc gtgaagacca cgggccccgt gactttgaac ctgaaagaca gttcaacaga 4800
atcaatctct gcgtcattga cggcggcctg acgcaggatc tcttgcacgt cgcccgagtt 4860
gtcctggtag gcgatctcgg acatgaactg ttcgatctcc tcctcctgga gatcgccgcg 4920
gcccgcgcgc tccacggtgg cggcgaggtc attggagatg cgacccatga gctgcgagaa 4980
ggcgcccagg ccgctctcgt tccagacgcg gctgtagacc acgtccccgt cggcgtcgcg 5040
cgcgcgcatg accacctgcg cgaggttgag ctccacgtgc cgcgcaaaga cggcgtagtt 5100
gcgcaggcgc tggaagaggt agttgagggt ggtggcgatg tgctcggtga cgaagaagta 5160
catgatccag cggcgcaggg gcatctcgct gatgtcgccg atggcttcca gcctttccat 5220
ggcctcgtag aagtccacgg cgaagttgaa aaactgggcg ttgcgggccg agaccgtgag 5280
ctcgtcttcc aggagccgga tgagttcggc gatggtggcg cgcacctcgc gctcgaaatc 5340
cccgggggcc tcctcctctt cctcttcttc catgacgacc tcttcttcta tttcttcctc 5400
tgggggcggt ggtggtggcg ggggccgacg acgacggcga cgcaccggga gacggtcgac 5460
gaagcgctcg atcatctccc cgcggcggcg acgcatggtt tcggtgacgg cgcgaccccg 5520
ttcgcgagga cgcagcgtga agacgccgcc ggtcatctcc cggtaatggg gcgggtcccc 5580
attgggcagc gatagggcgc tgacgatgca tcttatcaat tgcggtgtag gggacgtgag 5640
cgcgtcgaga tcgaccggat cggagaatct ttcgaggaaa gcgtctagcc aatcgcagtc 5700
gcaaggtaag ctcaaacacg tagcagccct gcggacgctg ttagaattgc ggttgctgat 5760
gatgtaattg aagtaggcgt ttttgaggcg gcggatggtg gcgaggagga ccaggtcctt 5820
gggtccagct tgctggatgc ggagccgctc ggccatgccc caggcctggc cctgacaccg 5880
gctcaggttc ttgtagtagt catgcatgag cctctcaatg tcatcactgg ctgaggcgga 5940
gtcttccatg cgggtgaccc cgacgcccct gagcggctgc acgagcgcca ggtcggcgac 6000
gacgcgctcg gcgaggatgg cctgttgcac gcgggtgagg gtgtcctgga agtcgtccat 6060
gtcgacgaag cggtgatagg ccccggtgtt gatggtgtag gtgcagttgg ccatgagcga 6120
ccagttgacg gtctgcaggc ctggctgcac gacctcggag tacctgagcc gcgagaaggc 6180
gcgcgagtcg aagacgtagt cgttgcaggt gcgcacgagg tactggtatc cgactaggaa 6240
gtgcggcggc ggctggcggt agagcggcca gcgctgggtg gccggcgcgc ccggggccag 6300
gtcctcgagc atgaggcggt ggtagccgta gaggtagcgg gacatccagg tgatgccggc 6360
ggcggtggtg gaggcgcgcg ggaactcgcg gacgcggttc cagatgttgc gcagcggcag 6420
gaaatagtcc atggtcggca cggtctggcc ggtgagacgc gcgcagtcat tgacgctcta 6480
gaggcaaaaa cgaaagcggt tgagcgggct cttcctccgt agcctggcgg aacgcaaacg 6540
ggttaggccg cgtgtgtacc ccggttcgag tcccctcgaa tcaggctgga gccgcgacta 6600
acgtggtatt ggcactcccg tctcgacccg agcccgatag ccgccaggat acggcggaga 6660
gccctttttg ccggccgagt ggggtcgcta gacttgaaag cgaccgaaaa ccctgccggg 6720
tagtggctcg cgcccgtagt ctggagaagc atcgccaggg ttgagtcgcg gcagaacccg 6780
gttcgaggac ggccgcggcg agcgggactt ggtcaccccg ccgatataaa gacccacagc 6840
cagccgactt ctccagttac gggagcgagc cccctttttt ctttttgcca gatgcatccc 6900
gtcctgcgcc aaatgcgtcc cacccccccg gcgaccaccg cgaccgcggc cgtagcaggc 6960
gccggcgcta gccagccacc acagacagag atggacttgg aagagggcga agggctggca 7020
agactggggg cgccgtcccc ggagcgacat ccccgcgtgc agctgcagaa ggacgtgcgc 7080
ccggcgtacg tgcctacgca gaacctgttc agggaccgca gcggggagga gcccgaggag 7140
atgcgcgact gccggtttcg ggcgggcagg gagctgcgcg agggcctgga ccgccagcgc 7200
gtgctgcgcg acgaggattt cgagccgaac gagcagacgg ggatcagccc cgcacgcgcg 7260
cacgtggcgg cagccaacct ggtgacggcc tacgagcaga cggtgaagca ggagcgcaac 7320
ttccaaaaga gtttcaacaa ccacgtgcgc accctgatcg cgcgcgagga ggtggccctg 7380
ggcctgatgc acctgtggga cctggcggag gccatcgtgc agaacccgga cagcaagcct 7440
ctgacggcgc agctgttcct ggtggtgcag cacagcaggg acaacgaggc gttcagggag 7500
gcgctgctga acatcgccga gcccgagggt cgctggctgc tggagctgat taacatcttg 7560
cagagcatcg tagtgcagga gcgcagcctg agcctggccg agaaggtggc ggcgatcaac 7620
tactcggtgc tgagcctggg caagttttac gcgcgcaaga tttacaagac gccgtacgtg 7680
cccatagaca aggaggtgaa gatagacagc ttttacatgc gcatggcgct caaggtgctg 7740
acgctgagcg acgacctggg cgtgtaccgc aacgaccgca tccacaaggc cgtgagcacg 7800
agccggcggc gcgagctgag cgaccgcgag ctgatgctga gtctgcgccg ggcgctggta 7860
gggggcgccg ccggcggcga ggagtcctac ttcgacatgg gtgcggacct gcattggcag 7920
ccgagccggc gcgccttgga ggccgcctac ggttcagagg acttggatga ggaagaggaa 7980
gaggaggagg atgcacccgc tgcggggtac tgacgcctcc gtgatgtgtt tttagatgtc 8040
ccagcaagcc ccggaccccg ccataagggc ggcgctgcaa agccagccgt ccggtctagc 8100
atcggacgac tgggaggccg cgatgcaacg catcatggcc ctgacgaccc gcaaccccga 8160
gtcctttaga caacagccgc aggccaacag actctcggcc attctggagg cggtggtccc 8220
ctctcggacc aaccccacgc acgagaaggt gctggcgatc gtgaacgcgc tggcggagaa 8280
caaggccatc cgtcccgacg aggccgggct ggtgtacaac gccctgctgg agcgcgtggg 8340
ccgctacaac agcacgaacg tgcagtccaa cctggatcgg ctggtgacgg acgtgcgcga 8400
ggccgtggcg cagcgcgagc ggttcaagaa cgagggcctg ggctcgctgg tggcgctgaa 8460
cgccttcctg gcgacgcagc cggcgaacgt gccgcgcggg caggacgatt acaccaactt 8520
tatcagcgcg ctgcggctga tggtgaccga ggtgccccag agcgaggtgt accagtctgg 8580
cccggactac tttttccaga cgagccggca gggcttgcag acggtgaacc tgagccaggc 8640
tttcaagaat ctgcgcgggc tgtggggcgt gcaggcgccc gtgggcgacc ggtcaacggt 8700
gagcagcttg ctgacgccca actcgcggct gctgctgctg ctgatcgcgc ccttcaccga 8760
cagcggcagc gtgaaccgca actcgtacct gggccatctg ctgacgctgt accgcgaggc 8820
cataggccag gcgcaggtgg acgagcagac cttccaggag atcactagcg tgagccgcgc 8880
gctggggcag aacgacaccg acagtctgag ggccaccctg aactttttgc tgaccaatag 8940
acagcagaag atcccggcgc agtacgcact gtcggccgag gaggaaagga ttctgagata 9000
tgtgcagcag agcgtagggc tgttcctgat gcaggagggt gccaccccca gcgccgcgct 9060
ggacatgacc gcgcgcaaca tggaacctag catgtacgcc gccaaccggc cgttcatcaa 9120
taagctgatg gactacttgc accgcgcggc ggccatgaac acggactact ttaccaacgc 9180
catcctgaac ccgcactggc tcccgccgcc ggggttctac acgggcgagt acgacatgcc 9240
cgaccccaac gacgggttcc tgtgggacga cgtggacagc gcggtgttct cgccgacctt 9300
tcaaaagcgc caggaggcgc cgccgagcga gggcgcggtg gggaggagcc cctttcctag 9360
cttagggagt ttgcatagct tgccgggctc ggtgaacagc ggcagggtga gccggccgcg 9420
cttgctgggc gaggacgagt acctgaacga ctcgctgctg cagccgccgc gggccaagaa 9480
cgccatggcc aataacggga tagagagtct ggtggacaaa ctgaaccgct ggaagaccta 9540
cgctcaggac catagggacg cgcccgcgcc gcggcgacag cgccacgacc ggcagcgggg 9600
cctggtgtgg gacgacgagg actcggccga cgatagcagc gtgttggact tgggcgggag 9660
cggtggggtc aacccgttcg cgcatctgca gcccaaactg gggcgacgga tgttttgaat 9720
gaaataaaac tcaccaaggc catagcgtgc gttctcttcc ttgttagaga tgaggcgcgc 9780
ggtggtgtct tcctctcctc ctccctcgta cgagagcgtg atggcgcagg cgaccctgga 9840
ggttccgttt gtgcctccgc ggtatatggc tcctacggag ggcagaaaca gcattcgtta 9900
ctcggagctg gctccgcagt acgacaccac tcgcgtgtac ttggtggaca acaagtcggc 9960
ggacatcgct tccctgaact accaaaacga ccacagcaac ttcctgacca cggtggtgca 10020
gaacaacgat ttcacccccg ccgaggccag cacgcagacg ataaattttg acgagcggtc 10080
gcggtggggc ggtgatctga agaccattct gcacactaac atgcccaatg tgaacgagta 10140
catgttcacc agcaagttta aggcgcgggt gatggtgtct aggaagcatc cagagggggt 10200
agttgaaaca gatttgagtc aggataagct tgaatatgag tggtttgagt ttaccctgcc 10260
cgagggaaac ttttccgaga ccatgaccat agacctgatg aacaacgcca tcttggaaaa 10320
ctacttgcaa gtggggcggc agaatggcgt gctggagagc gatatcggag tcaagtttga 10380
cagcagaaat ttcaagctgg gctgggaccc ggtgaccaag ctggtgatgc caggggtcta 10440
cacctacgag gccttccacc cggacgtggt gctgctgccg ggctgcgggg tggacttcac 10500
cgagagccgc ctgagcaacc tcctgggcat tcgcaagaag caacctttcc aagagggctt 10560
cagaatcatg tatgaggatc tagaaggtgg caacatcccc gccctccttg atgtgcccaa 10620
gtacttggaa agcaagaaga aagttgaaga cgaaactaaa aatgcagctg cggccacagc 10680
cgatacaacc actaggggtg atacatttgc aactccagcg caagagacag cagctgataa 10740
gaaggtagaa gtcttgccca ttgaaaagga tgagagtggt agaagttaca acctgatcca 10800
ggggacccac gacacgctgt accgcagttg gtacctgtcc tatacctacg gggaccccga 10860
gaagggggtg cagtcgtgga cgctgctcac caccccggac gttacctgcg gcgcggagca 10920
agtctactgg tcactgccgg acctcatgca agaccccgtc accttccgct ccacccagca 10980
agtcagcaac taccccgtgg tcggcgccga gctcatgccc ttccgcgcca agagctttta 11040
caacgacctc gccgtctact cccagctcat ccgcagctac acctccctca cccacgtctt 11100
caaccgcttc cccgacaacc agatcctctg ccgcccgccc gcgcccacca tcaccaccgt 11160
cagtgaaaac gtgcctgctc tcacagatca cgggacgcta ccgctgcgca gcagtatccg 11220
cggagtccag cgagtgaccg tcactgacgc ccgtcgccgc acctgtccct acgtctacaa 11280
ggccctgggc atagtcgcgc cgcgcgtgct ttccagtcgc accttctaaa aaaatgtcta 11340
ttctcatctc gcccagcaat aacaccggct ggggtcttac tagacccagc accatgtacg 11400
gaggagccaa gaagcgctcc cagcagcacc ccgtccgcgt ccgcggccac ttccgcgctc 11460
cctggggcgc atacaagcgc gggcggactt ccaccgccgc cgtgcgcacc accgtcgacg 11520
acgtcatcga ctcggtggtc gccgacgcgc gcaactatac ccccgccccc tccaccgtgg 11580
acgcggtcat cgacagcgtg gtggccgacg cgcgcgacta tgccagacgc aagagccggc 11640
ggcgacggat cgccaggcgc caccggagca cgcccgccat gcgcgccgcc cgggctctgc 11700
tgcgccgcgc cagacgcacg ggccgccggg ccatgatgcg agccgcgcgc cgcgctgcca 11760
ctgcacccac ccccgcaggc aggactcgca gacgagcggc cgccgccgcc gctgcggcca 11820
tctctagcat gaccagaccc aggcgcggaa acgtgtactg ggtgcgcgac tccgtcacgg 11880
gcgtgcgcgt gcccgtgcgc acccgtcctc ctcgtccctg atctaatgct tgtgtcctcc 11940
cccgcaagcg acgatgtcaa agcgcaaaat caaggaggag atgctccagg tcgtcgcccc 12000
ggagatttac ggaccacccc aggcggacca gaaaccccgc aaaatcaagc gggttaaaaa 12060
aaaggatgag gtggacgagg gggcagtaga gtttgtgcgc gagttcgctc cgcggcggcg 12120
cgtaaattgg aaggggcgca gggtgcagcg cgtgttgcgg cccggcacgg cggtggtgtt 12180
cacgcccggc gagcggtcct cggtcaggag caagcgtagc tatgacgagg tgtacggcga 12240
cgacgacatc ctggaccagg cggcggagcg ggcgggcgag ttcgcctacg ggaagcggtc 12300
gcgcgaagag gagctgatct cgctgccgct ggacgaaagc aaccccacgc cgagcctgaa 12360
gcccgtgacc ctgcagcagg tgctgcccca ggcggtgctg ctgccgagcc gcggggtcaa 12420
gcgcgagggc gagagcatgt acccgaccat gcagatcatg gtgcccaagc gccggcgcgt 12480
ggaggacgtg ctggacaccg tgaaaatgga tgtggagccc gaggtcaagg tgcgccccat 12540
caagcaggtg gcgccgggcc tgggcgtgca aaccgtggac attcagatcc ccaccgacat 12600
ggatgtcgac aaaaaaccct cgaccagcat cgaggtgcaa accgacccct ggctcccagc 12660
ctccaccgct accgtctcca cttctaccgc cgccacggct accgagcctc ccaggaggcg 12720
aagatggggc gccgccagcc ggctgatgcc caactacgtg ttgcatcctt ccatcatccc 12780
gacgccgggc taccgcggca cccggtacta cgccagccgc cggcgcccag ccagcaaacg 12840
ccgccgccgc accgccaccc gccgccgtct ggcccccgcc cgcgtgcgcc gcgtgaccac 12900
gcgccggggc cgctcgctcg ttctgcccac cgtgcgctac caccccagca tcctttaatc 12960
cgtgtgctgt gatactgttg cagagagatg gctctcactt gccgcctgcg catccccgtc 13020
ccgaattacc gaggaagatc ccgccgcagg agaggcatgg caggcagcgg cctgaaccgc 13080
cgccggcggc gggccatgcg caggcgcctg agtggcggct ttctgcccgc gctcatcccc 13140
ataatcgccg cggccattgg cacgatcccg ggcatagctt ccgttgcgct gcaggcgtcg 13200
cagcgccgtt gatgtgcgaa taaagcctct ttagactctg acacacctgg tcctgtatat 13260
ttttagaatg gaagacatca attttgcgtc cctggctccg cggcacggca cgcggccgtt 13320
catgggcacc tggaacgaga tcggcaccag ccagctgaac gggggcgcct tcaattggag 13380
cagtgtctgg agcgggctta aaaatttcgg ctcgacgctc cggacctatg ggaacaaggc 13440
ctggaatagt agcacggggc agttgttgag ggaaaagctc aaagaccaga acttccagca 13500
gaaggtggtg gacgggctgg cctcgggcat taacggggtg gtggacatcg cgaaccaggc 13560
cgtgcagcgc gagataaaca gccgcctgga cccgcgaccg cccacggtgg tggagatgga 13620
agatgcaact cttccgccgc ccaagggcga gaagcggccg cggcccgacg cggaggagac 13680
gatcctgcag gtggacgagc cgccctcgta cgaggaggcc gtcaaggccg gcatgcccac 13740
cacgcgcatc atcgcgccgc tggccacggg tgtaatgaaa cccgccaccc ttgacctgcc 13800
tccaccaccc gcgcccgctc caccgaaggc aactccggtt gtgcaggccc ccccggtggc 13860
gaccgccgtg cgccgcgtcc ccgcccgccg ccaggcccag aactggcaga gcacgctgca 13920
cagtatcgtg ggcctgggag tgaaaagtct gaagcgccgc cgatgctatt gagagagagg 13980
aaagaggaca ctaaagggag agcttaactt gtatgtgcct taccgccaga gaacgcgcga 14040
agatggccac cccctcgatg atgccgcagt gggcgtacat gcacatcgcc gggcaggacg 14100
cctcggagta cctgagcccg ggtctggtgc agtttgcccg cgccaccgac acgtacttca 14160
gcctgggcaa caagtttagg aaccccacgg tggccccgac ccacgatgtg accacggacc 14220
ggtcccagcg tctgacgctg cgcttcgtgc ccgtggatcg cgaggacacc acgtactcgt 14280
acaaggcgcg cttcactctg gccgtgggcg acaaccgggt gctagacatg gccagcactt 14340
actttgacat ccgcggcgtc ctggaccgcg gtcccagctt caaaccctac tcgggcacgg 14400
cctacaacag cctggctccc aagggtgccc ccaatcccag tcagtgggaa acaaaagaaa 14460
agcaaggaac tactggagga gtgcagcaag aaaaagatgt cacaaaaaca tttggtgtgg 14520
ctgccaccgg cggaattaat ataacaaacc agggtctgtt actaggaact gacgaaaccg 14580
ctgagaatgg caaaaaagac atttatgcag acaagacttt ccagccagaa cctcaagttg 14640
gagaagaaaa ctggcaggaa aatgaagcct tctatggagg aagggctctt aaaaaggaca 14700
ctaaaatgaa accatgctat ggatcttttg ctagacctac taatgagaaa ggaggtcagg 14760
caaagttcaa accagttaat gaaggagaac aacctaaaga tctggatata gattttgctt 14820
actttgacgt ccctggcgga agtcctccag caggtggtag tggggaagaa tacaaagcag 14880
atataatttt gtacactgaa aatgttaatc ttgaaacacc agacactcat gtggtttaca 14940
agccaggaac ttcagataac agttcagaaa tcaatctggt tcagcagtcc atgccaaaca 15000
gacccaacta cattggcttt agggacaact ttgtaggtct catgtattac aacagcaccg 15060
gaaatatggg tgtgctggct ggtcaggctt ctcagttgaa cgctgtggtc gacttgcaag 15120
acagaaacac cgagttatct taccagctat tgctagattc tctgggtgac agaaccagat 15180
actttagcat gtggaactct gcggtggaca gttacgatcc agatgtcagg atcattgaaa 15240
atcacggtgt ggaagatgaa cttccaaact attgcttccc attgaatggc actggaacca 15300
attccactta tcaaggtgta aagattacaa atggtaatga tggtgctgaa gaaagtgagt 15360
gggagaaaga cgatgcaatt tctagacaaa accaaatctg caagggcaat gtctacgcca 15420
tggagatcaa cctgcaggcc aacctgtgga agagttttct gtactcgaac gtggccctgt 15480
acctgcccga ctcctacaag tacacgccgg ccaacgtcaa gctgcccgcc aacaccaaca 15540
cctacgagta catgaacggc cgcgtggtag ccccctcgct ggtggacgcc tacatcaaca 15600
tcggcgcccg ctggtcgttg gaccccatgg acaacgtcaa ccccttcaac caccaccgca 15660
atgcgggcct gcgctaccgc tccatgctgc tgggcaacgg ccgctacgtg cccttccaca 15720
tccaagtgcc ccaaaagttc tttgccatca agaacctgct cctgctcccg ggctcctaca 15780
cctacgagtg gaacttccgc aaggacgtca acatgatcct gcagagttcc ctcggcaacg 15840
acctgcgcgt cgacggcgcc tccgtccgct tcgacagcgt caacctatac gccactttct 15900
tccccatggc gcacaacacc gcttcaacct tggaagccat gctgcgcaac gacaccaacg 15960
accagtcctt caacgactac ctctcggccg ccaacatgct ctaccccatc ccggccaagg 16020
ccaccaacgt gcccatctcc atcccatcgc gcaactgggc cgccttccgc ggctggagtt 16080
tcacccggct caagaccaag gaaactcctt ccctcggctc gggtttcgac ccctactttg 16140
tctactcggg ctccatcccc tacctcgacg ggaccttcta cctcaaccac accttcaaga 16200
aggtctccat catgttcgac tcctcggtca gctggcccgg caacgaccgg ctgctcacgc 16260
cgaacgagtt cgagatcaag cgcagcgtcg acggggaggg ctacaacgtg gcccaatgca 16320
acatgaccaa ggactggttc ctcgtccaga tgctctccca ctacaacatc ggctaccagg 16380
gcttccacgt gcccgagggc tacaaggacc gcatgtactc cttcttccgc aacttccagc 16440
ccatgagcag gcaggtggtc gatgagatca actacaagga ctacaaggcc gtcaccctgc 16500
ccttccagca caataactcg ggcttcaccg gctacctcgc acccaccatg cgccaggggc 16560
agccctaccc cgccaacttc ccctacccgc tcatcggtca gacagccgtg ccctccgtca 16620
cccagaaaaa gttcctctgc gacagggtca tgtggcgcat ccccttctcc agcaacttca 16680
tgtccatggg cgccctcacc gacctgggtc agaacatgct ctacgccaac tcggcccacg 16740
cgctcgacat gaccttcgag gtggacccca tggatgagcc caccctcctc tatcttctct 16800
tcgaagtttt cgacgtggtc agagtacacc agccgcaccg cggcgtcatc gaggccgtct 16860
acctgcgcac gcccttctcc gccggcaacg ccaccaccta agcatgagcg gctccagcga 16920
acgagagctc gcggccatcg tgcgcgacct gggctgcggg ccctactttt tgggcaccca 16980
cgacaagcgc ttcccgggct ttctcgccgg cgacaagctg gcctgcgcca tcgtcaacac 17040
ggccggccgc gagaccggag gcgtgcactg gctcgccttc ggctggaacc cgcgctcgcg 17100
cacctgctac atgttcgacc cctttgggtt ctcggaccgc cggctcaagc agatttacag 17160
cttcgagtac gaggccatgc tgcgccgcag cgccctggcc tcctcgcccg accgctgtct 17220
cagcctcgag cagtccactc agaccgtgca ggggcccgac tccgccgcct gcggactctt 17280
ctgttgcatg ttcttgcatg ccttcgtgca ctggcccgac cgacccatgg acggaaaccc 17340
caccatgaac ttgctgacgg gggtgcccaa cggcatgcta caatcgccac aggtgctgcc 17400
caccctcagg cgcaaccagg aggaactcta ccgcttcctc gcgcgccact ccccttactt 17460
tcgctcccac cgcgccgcca tcgaacacgc caccgctttt gacaaaatga aacaactgcg 17520
tgtatctcaa taaacagcac ttttatttta catgcactgg agtatatgca agttatttaa 17580
aagtcgaagg ggttctcgcg ctcgtcgttg tgcgccgcgc tggggagggc cacgttgcgg 17640
tactggtact tgggctgcca cttgaactcg gggatcacca gtttgggcac tggggtctcg 17700
gggaaggtct cgctccacat gcgccggctc atctgcaggg cgcccagcat gtccggggcg 17760
gagatcttga aatcgcagtt ggggccggtg ctctgcgcgc gcgagttgcg gtacacgggg 17820
ttgcagcact ggaacaccat cagactgggg tacttcacac tagccagcac gctcttgtcg 17880
ctgatctgat ccttgtccag atcctcggcg ttgctcaggc cgaacggggt catcttgcac 17940
agctggcgtc ccaggaaggg cacgctctga ggcttgtggt tacactcgca gtgcacgggc 18000
atcagcatca tccccgcgcc gcgctgcata ttcgggtaga gggccttgac aaaggccgcg 18060
atctgcttga aagcttgctg ggccttggcc ccctcgctga aaaacaggcc gcagctcttc 18120
ccgctgaact ggttattccc acacccggca tcctgcacgc agcagcgcgc gtcatggctg 18180
gtcagttgca ccacgctccg tccccagcgg ttctgggtca ccttagcctt gctgggctgc 18240
tccttcaacg cgcgctgccc gttctcgctg gtcacatcca tctccaccac gtggtccttg 18300
tggatcatca tcgtcccgtg cagacacttg agctggcctt ccacctcggt gcagccgtga 18360
tcccacaggg cgcaaccggt gcactcccag ttcttgtgcg caatcccgct gtggctgaag 18420
atgtaacctt gcaacatgcg gcccatgatg gtgctaaatg ctttctgggt ggtgaaggtc 18480
agttgcatcc cgcgggcctc ctcgttcatc caggtctggc acatcttctg gaagatctcg 18540
gtctgctcgg gcatgagctt gtaagcatcg cgcaggccgc tgtcgacgcg gtagcgttcc 18600
atcagcacgt tcatggtatc catgcccttc tcccaggacg agaccagagg cagactcaga 18660
gggttgcgta cgttcaggac accgggggtc gcgggctcga cgatgcgttt tccgtccttg 18720
ccttccttca atagaaccgg cggctggctg aatcccactc ccacgatcac ggcatcttcc 18780
tggggcatct cttcgtcggg gtctaccttg gtcacatgct tggtctttct ggcttgcttc 18840
ttttttggag ggctgtccac ggggagcacg tcctcctcgg aagacccgga gcccacccgc 18900
tgatactttc ggcgcttggt gggcagagga ggtggcggcg aggggctcct ctcctgctcc 18960
ggcggatagc gcgccgaccc gtggccccgg ggcggagtgg cctctcggcc catgaaccgg 19020
cgcacgtcct gactgccgcc ggccattgtt tcctagggga agatggagga gcagccgcgt 19080
aagcaggagc aggaggagga cttaaccacc cacgagcaac ccaaaatcga gcaggacctg 19140
ggcttcgaag agccggctcg tctagaaccc ccacaggatg aacaggagca cgagcaagac 19200
gcaggccagg aggagaccga cgctgggctc gagcatggct acctgggagg agaggaggat 19260
gtgctgctga aacacctgca gcgccagtcc ctcatcctcc gggacgccct ggccgaccgg 19320
agcgaaaccc ccctcagcgt cgaggagctg tgtcgggcct acgagctcaa cctcttctcg 19380
ccgcgcgtac cccccaaacg ccagcccaac ggcacctgcg agcccaaccc gcgtctcaac 19440
ttctatcccg tctttgcggt ccccgaagcc ctcgccacct atcacatctt tttcaagaac 19500
caaaagatcc ccgtctcctg ccgcgccaac cgcaccagcg ccgacgcgct cctcgctttg 19560
gggcccggcg cgcgcatacc tgatatcgct tccctggaag aggtgcccaa gatcttcgaa 19620
gggctcggtc gggacgagac gcgcgcggcg aacgctctga aagaaacagc agaggaagag 19680
ggtcacacta gcgccctggt agagttggaa ggcgacaacg ccaggctggc cgtgctcaag 19740
cgcagcgtcg agcttaccca cttcgcctac cccgccgtca acctcccgcc caaggtcatg 19800
cgtcgcatca tggatcagct catcatgccc cacatcgagg ccctcgatga aagtcaggag 19860
cagcgccccg aggacgcccg gcccgtggtc agcgacgaga tgctcgcgcg ctggctcggg 19920
acccgcgacc cccaggcttt ggaacagcgg cgcaaactca tgctggccgt ggtcctggtc 19980
acccttgagc tcgaatgcat gcgccgcttt ttcagcgacc ccgagaccct gcgcaaggtc 20040
gaggagaccc tgcactacac tttcaggcac ggtttcgtca ggcaggcctg caagatctcc 20100
aacgtggagc tgaccaacct ggtctcctgc ctggggatcc tgcacgagaa ccgcctgggc 20160
cagaccgtgc tccactctac cctgaagggc gaggcgcggc gggactatgt ccgcgactgc 20220
gtctttctct ttctctgcca cacatggcaa gcggccatgg gcgtgtggca gcagtgtctc 20280
gaggacgaga acctaaagga gctggacaag cttcttgcta gaaaccttaa aaagctgtgg 20340
acgggcttcg acgagcgcac cgtcgcctcg gacctggccg agatcgtctt ccccgagcgc 20400
ctgagacaga cgctgaaagg cgggctgccc gacttcatga gccagagcat gttgcaaaac 20460
taccgcactt tcattcttga gcgatcaggc atcctgcccg ccacctgcaa cgccttcccc 20520
tccgactttg taccgctgag ctaccgcgag tgtcccccgc cgctgtggag ccactgctac 20580
ctcttgcagc tggccaacta catcgcctac cactcggacg tgatcgagga cgtgagcggc 20640
gaggggctgc tcgagtgcca ctgtcgctgc aacctgtgct ccccgcatcg ctccctggtc 20700
tgcaaccccc agctcctgag cgagacccag gtcatcggta ccttcgagct gcaaggtccg 20760
caggagtcca ccgctccgct gaaactcacg ccggggttgt ggacttccgc gtacctgcgc 20820
aaatttgtac ccgaagacta ccacgcccat gagataaagt tctttgagga ccaatcgcgt 20880
ccgcagcacg cggatctcac ggcctgcgtc atcacccagg gcgcgatcct cgcccaattg 20940
cacgccatcc aaaaatcccg ccaagagttt cttctgaaaa agggtagagg ggtctacctg 21000
gacccccaga cgggcgaggt gctcaacccg ggtctccccc agcatgccga ggaagaagca 21060
ggagccgcta gtggaggaga tggaagaaga atgggacagc caggcagagg aggacgaatg 21120
ggaggaggag acagaggagg aagaattgga agaggtggaa gaggagcagg caacagagca 21180
gcccgtcgcc gcaccatccg cgccggcagc cccgccggtc acggatacaa cctccgctcc 21240
ggtcaagcct cctcgtagat gggatcaagt gaagggtgac ggtaagcacg agcggcaggg 21300
ctaccgatca tggagggccc acaaagccgc gatcatcgcc tgcttgcaag actgcggggg 21360
gaacatcgct ttcgcccgcc gctacctgct cttccaccgc ggggtgaaca tcccccgcaa 21420
cgtgttgcat tactaccgtc accttcacag ctaagaaaaa gcaagtcaaa ggagtcgccg 21480
gaggaggagg aggaggcctg aggatcgcgg cgaacgagcc cttgaccacc agggagctga 21540
ggaaccggat cttccccact ctttatgcca tttttcagca gagtcgaggt cagcagcaag 21600
agctcaaagt aaaaaaccgg tctctgcgct cgctcacccg cagttgcttg taccacaaaa 21660
acgaagatca gctgcagcgc actctcgaag acgccgaggc tctgttccac aagtactgcg 21720
cgctcactct taaagactaa ggcgcgccca cccggaaaaa aggcgggaat tacctcatcg 21780
ccaccatgag caaggagatt cccacccctt acatgtggag ctatcagccc caaatgggcc 21840
tggccgcggg cgcctcccag gactactcca cccgcatgaa ctggctcagt gccggcccct 21900
cgatgatctc acgggtcaac ggggtccgca gtcatcgaaa ccagatattg ttggagcagg 21960
cggcggtcac ctccacgccc agggcaaagc tcaacccgcg taattggccc tccaccctgg 22020
tgtatcagga aatccccggg ccgactaccg tactacttcc gcgtgacgca ctggccgaag 22080
tccgcatgac taactcaggt gtccagctgg ccggcggcgc ttcccggtgc ccgctccgcc 22140
cacaatcggg tataaaaacc ctggtgatcc gaggcagagg cacacagctc aacgacgagt 22200
tggtgagctc ttcgatcggt ctgcgaccgg acggagtgtt ccaactagcc ggagccggga 22260
gatcctcctt cactcccaac caggcctacc tgaccttgca gagcagctct tcggagcctc 22320
gctccggagg catcggaacc ctccagtttg tggaggagtt tgtgccctcg gtctacttca 22380
accccttctc gggatcgcca ggcctctacc cggacgagtt cataccgaac ttcgacgcag 22440
tgagagaagc ggtggacggc tacgactgaa tgtcccatgg tgactcggct gagctcgctc 22500
ggttgaggca tctggaccac tgccgccgcc tgcgctgctt cgcccgggag agctgcggac 22560
tcatctactt tgagtttccc gaggagcacc ccaacggccc tgcacacgga gtgcggatca 22620
ccgtagaggg caccaccgag tctcacctgg tcaggttctt cacccagcaa cccttcctgg 22680
tcgagcggga ccggggcgcc accacctaca ccgtctactg catctgtcca accccgaagt 22740
tgcatgagaa tttttgttgt actctttgtg gtgagtttaa taaaagctaa actcttgcaa 22800
tactctggac cttgtcgtcg tcaactcaac gagaccgtct acctcaccaa ccagactgag 22860
gtaaaactca cctgcagacc acacaagacc tatatcatct ggttcttcga gaacacctca 22920
tttgcagtct ccaacactca ctgcactagt ccatgaactg atgttgatta aaagcccaaa 22980
aaccaatcag ccccttcccc catttcccca tcccccaatt actcataaaa aataaatcat 23040
tggaattaat cattcaataa agatcactta cttgaaatct gaaagtatgt ctctggtgta 23100
gttgttcagc agcacctcgg taccctcctc ccagctctgg tactccagtc cccggcgggc 23160
ggcgaacttc ctccacacct tgaaagggat gtcaaattcc tggtccacaa ttttcattgt 23220
cttccctctc agatggcaaa gaggctccgg gtggaagatg acttcaaccc cgtctacccc 23280
tatggctacg cgcggaatca gaatatcccc ttcctcactc ccccctttgt ctcctccgat 23340
ggattcaaaa acttcccccc tggggtcctg tcacttaaac tggctgatcc aatcaccatc 23400
aacaatgggg atgtctcact taaggtggga gggggacttg ctgtagagca acagactggt 23460
aacctaagcg taaaccctga tgcacccttg caagttgcaa gtgataagct acagcttgct 23520
ctggctcctc cattcgaggt cagagatgga aagcttgctt taaaggcagg taatggatta 23580
aaagtactag ataattccat tactggattg actggattat tgaatacact tgtggtatta 23640
actggaaggg gaataggaac ggaggaatta aaaaatgacg atggtgtaac aaacaaagga 23700
gtcggcttgc gtgtaagact tggagatgac ggcgggctga catttgataa aaagggtgat 23760
ttagtagcct ggaataaaaa agatgacagg cgcaccctgt ggacaacccc tgacacatct 23820
ccaaattgca aaatgagtac agaaaaggat tctaaactta cgttgacact tacaaagtgt 23880
ggaagtcagg ttctgggaaa tgtatcttta cttgcagtta caggtgaata tcatcaaatg 23940
actgctacta caaagaagga tgtaaaaata tctttactat ttgatgagaa tggaattcta 24000
ttaccatctt cgtcccttag caaagattat tggaattaca gaagtgatga ttctattgta 24060
tctcaaaaat ataataatgc agttccattc atgccaaacc tgacagctta tccaaaacca 24120
agcgctcaaa atgcaaaaaa ctattcaaga actaaaatca taagtaatgt ctacttaggt 24180
gctcttacct accaacctgt aattatcact attgcattta atcaggaaac tgaaaatgga 24240
tgtgcttatt ctataacatt taccttcact tggcaaaaag actattctgc ccaacagttt 24300
gatgttacat cttttacctt ctcatatctt acccaagaga acaaagacaa agactaataa 24360
aatgttttga actgaattta tgaatcttta tttattttta caccagcacg ggtagtcagt 24420
ttcccaccac cagcccattt cacagtgtaa acagtccttt ctccccggct ggccttaaaa 24480
agcatcatat catgggtaac agacatattc ttaggtgtta tattccacac ggtttcctgt 24540
cgagccaaac gctcatcagt gatattaata aactccccgg gcagctcact taagttcatg 24600
tcgctgtcca gctgctgagc cacaggctgc tgtccaactt gcggttgctt aacgggcggc 24660
gaaggagaag tccacgccta catgggggta gagtcataat cgtgcatcag gatagggcgg 24720
tggtgctgca gcagcgcgcg aataaactgc tgccgccgcc gctccgtcct gcaggaatac 24780
aacatggcag tggtctcctc agcgatgatt cgcaccgccc gcagcataag gcgccttgtc 24840
ctccgggcac agcagcgcac cctgatctca cttaaatcag cacagtaact gcagcacagc 24900
accacaatat tgttcaaaat cccacagtgc aaggcgctgt atccaaagct catggcgggg 24960
accacagaac ccacgtggcc atcataccac aagcgcaggt agattaagtg gcgacccctc 25020
ataaacacgc tggacataaa cattacctct tttggcatgt tgtaattcac cacctcccgg 25080
taccatataa acctctgatt aaacatggcg ccatccacca ccatcctaaa ccagctggcc 25140
aaaacctgcc cgccggctat acactgcagg gaaccgggac tggaacaatg acagtggaga 25200
gcccaggact cgtaaccatg gatcatcatg ctcgtcatga tatcaatgtt ggcacaacac 25260
aggcacacgt gcatacactt cctcaggatt acaagctcct cccgcgttag aaccatatcc 25320
cagggaacaa cccattcctg aatcagcgta aatcccacac tgcagggaag acctcgcacg 25380
taactcacgt tgtgcattgt caaagtgtta cattcgggca gcagcggatg atcctccagt 25440
atggtagcgc gggtttctgt ctcaaaagga ggtagacgat ccctactgta cggagtgcgc 25500
cgagacaacc gagatcgtgt tggtcgtagt gtcatgccaa atggaacgcc ggacgtagtc 25560
attgaaatgg attctcttgc gtaccttgtc gtacttctgc cagcagaaag tggctcggga 25620
acagcagata cctttcctcc tgctgtcctt ccgctgctga cgctcagtca tccaactgaa 25680
gtacagccat tcccgcaggt tctccagcag ctcctgtgca tctgatgaaa caaaagtccc 25740
gtcgatgcgg attcccctta aaacatcagc caggacattg taggccatcc caatccagtt 25800
aatgcatcct gatctatcat gaagaggagg tgggggaaga actggaagaa ccatttttat 25860
tccaagcggt ctcgaaggac gataaagtgc aagtcacgca ggtgacagcg ttccccgccg 25920
ctgtgctggt ggaaacagac agccaggtca aaacccactc tattttcaag gtgctcgact 25980
gtggcttcga gcagtggctc tacgcgtaca tccagcataa gaatcacatt aaaggctgga 26040
cctccatcga tttcatcaat catcaggtta cactcattca ccatccccag gtaattctca 26100
tttttccagc cttggattat ttctacaaat tgttggtgta agtccactcc gcacatgtgg 26160
aaaagttccc acagcgcccc ctccactttc ataatcaggc agaccttcat attagaaaca 26220
gatcctgctg ctccaccacc tgcagcgtgt tcaaaacaac aagattcaat gaggttctgc 26280
cctctgccct cagctcacgt ctcagcgtca gctgcaaaaa gtcactcaag tcctcagcca 26340
ctacagctga caattcagag ccagggctaa gcgtgggact ggcaagcgtg agtgagtact 26400
ttaatgctcc aaagctagca cccaaaaact gcatgctgga ataagctctc tttgtgtcac 26460
cggtgatgcc ttccaatagg tgagtgataa agcgaggtag tttttcttta atcatttgag 26520
taatagaaaa gtcctctaaa taagtcacta ggaccccagg aaccacaatg tggtagctga 26580
cagcgtgtcg ctcaagcatg gttagtagag atgagagtct gaaaaacaga aagcatgcac 26640
taaaccagag ttgccagtct cactgaagga aaaatcactc tctccagcag caaagtgccc 26700
actgggtggc cctctcggac atacaaaaat cgatccgtgt ggttaaagag cagcacagtt 26760
agctcctgtc ttctcccagc aaagatcaca tcggactggg ttagtatgcc cctggaatgg 26820
tagtcattca aggccataaa tctgccttgg tagccattag gaatcagcac gctcactctc 26880
aagtgaacca aaaccacccc atgcggagga atgtggaaag attctgggca aaaaaaggta 26940
tatctattgc tagtcccttc ctggacggga gcaatccctc cagggctatc tatgaaagca 27000
tacagagatt cagccatagc tcagcccgct taccagtaga cagagagcac agcagtacaa 27060
gcgccaacag cagcgactga ctacccactg acccagctcc ctatttaaag gcaccttaca 27120
ctgacgtaat gaccaaaggt ctaaaaaccc cgccaaaaaa acacacacgc cctgggtgtt 27180
tttcgcgaaa acacttccgc gttctcactt cctcgtatcg atttcgtgac tcaacttccg 27240
ggttcccacg ttacgtcact tctgccctta catgtaactc agccgtaggg cgccatcttg 27300
cccacgtcca aaatggcttc catgtccggc cacgcctccg cggcgaccgt tagccgtgcg 27360
tcgtgacgtc atttgcatca ccgtttctcg tccaatcagc gttggctccg ccccaaaacc 27420
gttaaaattc aaaagctcat ttgcatatta acttttgttt actttgtggg gtatattatt 27480
gatgatgtta attaagacaa ttcttgaaga cgaaagggcc tcgtgatacg cctattttta 27540
taggttaatg tcatgataat aatggtttct tagacgtcag gtggcacttt tcggggaaat 27600
gtgcgcggaa cccctatttg tttatttttc taaatacatt caaatatgta tccgctcatg 27660
agacaataac cctgataaat gcttcaataa tattgaaaaa ggaagagtat gagtattcaa 27720
catttccgtg tcgcccttat tccctttttt gcggcatttt gccttcctgt ttttgctcac 27780
ccagaaacgc tggtgaaagt aaaagatgct gaagatcagt tgggtgcacg agtgggttac 27840
atcgaactgg atctcaacag cggtaagatc cttgagagtt ttcgccccga agaacgtttt 27900
ccaatgatga gcacttttaa agttctgcta tgtggcgcgg tattatcccg tgttgacgcc 27960
gggcaagagc aactcggtcg ccgcatacac tattctcaga atgacttggt tgagtactca 28020
ccagtcacag aaaagcatct tacggatggc atgacagtaa gagaattatg cagtgctgcc 28080
ataaccatga gtgataacac tgcggccaac ttacttctga caacgatcgg aggaccgaag 28140
gagctaaccg cttttttgca caacatgggg gatcatgtaa ctcgccttga tcgttgggaa 28200
ccggagctga atgaagccat accaaacgac gagcgtgaca ccacgatgcc tgcagcaatg 28260
gcaacaacgt tgcgcaaact attaactggc gaactactta ctctagcttc ccggcaacaa 28320
ttaatagact ggatggaggc ggataaagtt gcaggaccac ttctgcgctc ggcccttccg 28380
gctggctggt ttattgctga taaatctgga gccggtgagc gtgggtctcg cggtatcatt 28440
gcagcactgg ggccagatgg taagccctcc cgtatcgtag ttatctacac gacggggagt 28500
caggcaacta tggatgaacg aaatagacag atcgctgaga taggtgcctc actgattaag 28560
cattggtaac tgtcagacca agtttactca tatatacttt agattgattt aaaacttcat 28620
ttttaattta aaaggatcta ggtgaagatc ctttttgata atctcatgac caaaatccct 28680
taacgtgagt tttcgttcca ctgagcgtca gaccccgtag aaaagatcaa aggatcttct 28740
tgagatcctt tttttctgcg cgtaatctgc tgcttgcaaa caaaaaaacc accgctacca 28800
gcggtggttt gtttgccgga tcaagagcta ccaactcttt ttccgaaggt aactggcttc 28860
agcagagcgc agataccaaa tactgtcctt ctagtgtagc cgtagttagg ccaccacttc 28920
aagaactctg tagcaccgcc tacatacctc gctctgctaa tcctgttacc agtggctgct 28980
gccagtggcg ataagtcgtg tcttaccggg ttggactcaa gacgatagtt accggataag 29040
gcgcagcggt cgggctgaac ggggggttcg tgcacacagc ccagcttgga gcgaacgacc 29100
tacaccgaac tgagatacct acagcgtgag ctatgagaaa gcgccacgct tcccgaaggg 29160
agaaaggcgg acaggtatcc ggtaagcggc agggtcggaa caggagagcg cacgagggag 29220
cttccagggg gaaacgcctg gtatctttat agtcctgtcg ggtttcgcca cctctgactt 29280
gagcgtcgat ttttgtgatg ctcgtcaggg gggcggagcc tatggaaaaa cgccagcaac 29340
gcggcctttt tacggttcct ggccttttgc tggccttttg ctggcctttt gctcacatgt 29400
tctttcctgc gttatcccct gattctgtgg ataaccgtat taccgccttt gagtgagctg 29460
ataccgctcg ccgcagccga acgaccgagc gcagcgagtc agtgagcgag gaagcggaag 29520
agcgctgact tccgcgtttc cagactttac gaaacacgga aaccgaagac cattcatgtt 29580
gttgctcagg tcgcagacgt tttgcagcag cagtcgcttc acgttcgctc gcgtatcggt 29640
gattcattct gctaaccagt aaggcaaccc cgccagccta gccgggtcct caacgacagg 29700
agcacgatca tgcgcacccg tcagatccag acatgataag atacattgat gagtttggac 29760
aaaccacaac tagaatgcag tgaaaaaaat gctttatttg tgaaatttgt gatgctattg 29820
ctttatttgt aaccattata agctgcaata aacaagttaa caacaacaat tgcattcatt 29880
ttatgtttca ggttcagggg gaggtgtggg aggtttttta aagcaagtaa aacctctaca 29940
aatgtggtat ggctgattat gatctctagt caaggcacta tacatcaaat attccttatt 30000
aaccccttta caaattaaaa agctaaaggt acacaatttt tgagcatagt tattaatagc 30060
agacactcta tgcctgtgtg gagtaagaaa aaacagtatg ttatgattat aactgttatg 30120
cctacttata aaggttacag aatatttttc cataattttc ttgtatagca gtgcagcttt 30180
ttcctttgtg gtgtaaatag caaagcaagc aagagttcta ttactaaaca cagcatgact 30240
caaaaaactt agcaattctg aaggaaagtc cttggggtct tctacctttc tcttcttttt 30300
tggaggagta gaatgttgag agtcagcagt agcctcatca tcactagatg gcatttcttc 30360
tgagcaaaac aggttttcct cattaaaggc attccaccac tgctcccatt catcagttcc 30420
ataggttgga atctaaaata cacaaacaat tagaatcagt agtttaacac attatacact 30480
taaaaatttt atatttacct tagagcttta aatctctgta ggtagtttgt ccaattatgt 30540
cacaccacag aagtaaggtt ccttcacaaa gatccggacc aaagcggcca tcgtgcctcc 30600
ccactcctgc agttcggggg catggatgcg cggatagccg ctgctggttt cctggatgcc 30660
gacggatttg cactgccggt agaactccgc gaggtcgtcc agcctcaggc agcagctgaa 30720
ccaactcgcg aggggatcga gcccggggtg ggcgaagaac tccagcatga gatccccgcg 30780
ctggaggatc atccagccgg cgtcccggaa aacgattccg aagcccaacc tttcatagaa 30840
ggcggcggtg gaatcgaaat ctcgtgatgg caggttgggc gtcgcttggt cggtcatttc 30900
gaaccccaga gtcccgctca gaagaactcg tcaagaaggc gatagaaggc gatgcgctgc 30960
gaatcgggag cggcgatacc gtaaagcacg aggaagcggt cagcccattc gccgccaagc 31020
tcttcagcaa tatcacgggt agccaacgct atgtcctgat agcggtccgc cacacccagc 31080
cggccacagt cgatgaatcc agaaaagcgg ccattttcca ccatgatatt cggcaagcag 31140
gcatcgccat gggtcacgac gagatcctcg ccgtcgggca tgcgcgcctt gagcctggcg 31200
aacagttcgg ctggcgcgag cccctgatgc tcttcgtcca gatcatcctg atcgacaaga 31260
ccggcttcca tccgagtacg tgctcgctcg atgcgatgtt tcgcttggtg gtcgaatggg 31320
caggtagccg gatcaagcgt atgcagccgc cgcattgcat cagccatgat ggatactttc 31380
tcggcaggag caaggtgaga tgacaggaga tcctgccccg gcacttcgcc caatagcagc 31440
cagtcccttc ccgcttcagt gacaacgtcg agcacagctg cgcaaggaac gcccgtcgtg 31500
gccagccacg atagccgcgc tgcctcgtcc tgcagttcat tcagggcacc ggacaggtcg 31560
gtcttgacaa aaagaaccgg gcgcccctgc gctgacagcc ggaacacggc ggcatcagag 31620
cagccgattg tctgttgtgc ccagtcatag ccgaatagcc tctccaccca agcggccgga 31680
gaacctgcgt gcaatccatc ttgttcaatc atgcgaaacg atcctcatcc tgtctcttga 31740
tcagatcttg atcccctgcg ccatcagatc cttggcggca agaaagccat ccagtttact 31800
ttgcagggct tcccaacctt accagagggc gccccagctg gcaattccgg ttcgcttgct 31860
gtccataaaa ccgcccagtc tagctatcgc catgtaagcc cactgcaagc tacctgcttt 31920
ctctttgcgc ttgcgttttc ccttgtccag atagcccagt agctgacatt catccggggt 31980
cagcaccgtt tctgcggact ggctttctac gtgttccgct tcctttagca gcccttgcgc 32040
cctgagtgct tgcggcagcg tgaagctttt tgcaaaagcc taggcctcca aaaaagcctc 32100
ctcactactt ctggaatagc tcagaggccg aggcggcctc ggcctctgca taaataaaaa 32160
aaattagtca gccatggggc ggagaatggg cggaactggg cggagttagg ggcgggatgg 32220
gcggagttag gggcgggact atggttgctg actaattgag atgcatgctt tgcatacttc 32280
tgcctgctgg ggagcctggg gactttccac acctggttgc tgactaattg agatgcatgc 32340
tttgcatact tctgcctgct ggggagcctg gggactttcc acaccctaac tgacacacat 32400
tccacagccg gatctgcagg acccaacgct gcccgagatg cgccgcgtgc ggctgctgga 32460
gatggcggac gcgatggata tgttctgcca agggttggtt tgcgcattca cagttctccg 32520
caagaattga ttggctccaa ttcttggagt ggtgaatccg ttagcgaggt gccgccggct 32580
tccattcagg tcgaggtggc ccggctccat gcaccgcgac gcaacgcggg gaggcagaca 32640
aggtataggg cggcgcctac aatccatgcc aacccgttcc atgtgctcgc cgaggcggca 32700
taaatcgccg tgacgatcag cggtccaatg atcgaagtta ggctggtaag agccgcgagc 32760
gatccttgaa gctgtccctg atggtcgtca tctacctgcc tggacagcat ggcctgcaac 32820
gcgggcatcc cgatgccgcc ggaagcgaga agaatcataa tggggaaggc catccagcct 32880
cgcgtcgcga acgccagcaa gacgtagccc agcgcgtcgg ccgccatgcc ggcgataatg 32940
gcctgcttct cgccgaaacg tttggtggcg ggaccagtga cgaaggcttg agcgagggcg 33000
tgcaagattc cgaataccgc aagcgacagg ccgatcatcg tcgcgctcca gcgaaagcgg 33060
tcctcgccga aaatgaccca gagcgctgcc ggcacctgtc ctacgagttg catgataaag 33120
aagacagtca taagtgcggc gacgatagtc atgccccgcg cccaccggaa ggagctgact 33180
gggttgaagg ctctcaaggg catcggtcga cgctctccct tatgcgactc ctgcattagg 33240
aagcagccca gtagtaggtt gaggccgttg agcaccgccg ccgcaaggaa tggtgcatgc 33300
aaggagatgg cgcccaacag tcccccggcc acggggcctg ccaccatacc cacgccgaaa 33360
caagcgctca tgagcccgaa gtggcgagcc cgatcttccc catcggtgat gtcggcgata 33420
taggcgccag caaccgcacc tgtggcgccg gtgatgccgg ccacgatgcg tccggcgtag 33480
aggatcttgg cagtcacagc atgcgcatat ccatgcttcg accatgcgct cacaaagtag 33540
gtgaatgcgc aatgtagtac ccacatcgtc atcgctttcc actgctctcg cgaataaaga 33600
tggaaaatca atctcatggt aatagtccat gaaaatcctt gtattcataa atcctccagg 33660
tagctatatg caaattgaaa caaaagagat ggtgatcttt ctaagagatg atggaatctc 33720
ccttcagtat cccgatggtc aatgcgctgg atatgggata gatgggaata tgctgatttt 33780
tatgggacag agttgcgaac tgttcccaac taaaatcatt ttgcacgatc agcgcactac 33840
gaactttacc cacaaatagt caggtaatga atcctgatat aaagacaggt tgataaatca 33900
gtcttctacg cgcatcgcac gcgcacaccg tagaaagtct ttcagttgtg agcctgggca 33960
aaccgttaac tttcggcggc tttgctgtgc gacaggctca cgtctaaaag gaaataaatc 34020
atgggtcata aaattatcac gttgtccggc gcggcgacgg atgttctgta tgcgctgttt 34080
ttccgtggcg cgttgctgtc tggtgatctg ccttctaaat ctggcacagc cgaattgcgc 34140
gagcttggtt ttgctgaaac cagacacaca gcaactgaat accagaaaga aaatcacttt 34200
acctttctga catcagaagg gcagaaattt gccgttgaac acctggtcaa tacgcgtttt 34260
ggtgagcagc aatattgcgc ttcgatgacg cttggcgttg agattgatac ctctgctgca 34320
caaaaggcaa tcgacgagct ggaccagcgc attcgtgaca ccgtctcctt cgaacttatt 34380
cgcaatggag tgtcattcat caaggacgcc gctatcgcaa atggtgctat ccacgcagcg 34440
gcaatcgaaa cacctcagcc ggtgaccaat atctacaaca tcagccttgg tatccagcgt 34500
gatgagccag cgcagaacaa ggtaaccgtc agtgccgata agttcaaagt taaacctggt 34560
gttgatacca acattgaaac gttgatcgaa aacgcgctga aaaacgctgc tgaatgtgcg 34620
gcgctggatg tcacaaagca aatggcagca gacaagaaag cgatggatga actggcttcc 34680
tatgtccgca cggccatcat gatggaatgt ttccccggtg gtgttatctg gcagcagtgc 34740
cgtcgatagt atgcaattga taattattat catttgcggg tcctttccgg cgatccgcct 34800
tgttacgggg cggcgacctc gcgggttttc gctatttatg aaaattttcc ggtttaaggc 34860
gtttccgttc ttcttcgtca taacttaatg tttttattta aaataccctc tgaaaagaaa 34920
ggaaacgaca ggtgctgaaa gcgagctttt tggcctctgt cgtttccttt ctctgttttt 34980
gtccgtggaa tgaacaatgg aagtcaacaa aaagcagctg gctgacattt tcggtgcgag 35040
tatccgtacc attcagaact ggcaggaaca gggaatgccc gttctgcgag gcggtggcaa 35100
gggtaatgag gtgctttatg actctgccgc cgtcataaaa tggtatgccg aaagggatgc 35160
tgaaattgag aacgaaaagc tgcgccggga ggttgaagaa ctgcggcagg ccagcgaggc 35220
agatccacag gacgggtgtg gtcgccatga tcgcgtagtc gatagtggct ccaagtagcg 35280
aagcgagcag gactgggcgg cggccaaagc ggtcggacag tgctccgaga acgggtgcgc 35340
atagaaattg catcaacgca tatagcgcta gcagcacgcc atagtgactg gcgatgctgt 35400
cggaatggac gatatcccgc aagaggcccg gcagtaccgg cataaccaag cctatgccta 35460
cagcatccag ggtgacggtg ccgaggatga cgatgagcgc attgttagat ttcatacacg 35520
gtgcctgact gcgttagcaa tttaactgtg ataaactacc gcattaaagc ttatcgatga 35580
taagcggtca aacatgagaa ttgcgg 35606
<210> 20
<211> 19
<212> DNA
<213> Artificial sequence
<220>
<223> TetO sequence
<400> 20
tccctatcag tgatagaga 19