UACA cDNA ORF clone, Cuculus canorus(common cuckoo)

Gene
Clones
gRNAs

Summary

Gene Symbol	UACA
Entrez Gene ID	104065178
Full Name	uveal autoantigen with coiled-coil domains and ankyrin repeats
Gene Type	protein-coding
Organism	Cuculus canorus(common cuckoo)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009567619.1	XP_009565914.1	uveal autoantigen with coiled-coil domains and ankyrin repeats

Pathways from BioSystems
Gene Ontology

The following UACA gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the UACA cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OCu50258	XM_009567619.1 Latest version!	Cuculus canorus uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

UACA ( XM_009567619.1 ) cDNA ORF clone, Cuculus canorus(common cuckoo) -> XP_009565914.1 Cuculus canorus uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), mRNA.

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CloneID	OCu50258
Clone ID Related Accession (Same CDS sequence)	XM_009567619.1
Accession Version	XM_009567619.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4122bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2014-10-13
Organism	Cuculus canorus(common cuckoo)
Product	uveal autoantigen with coiled-coil domains and ankyrin repeats
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_009246295.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Cuculus canorus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGTTGTT GGTTTTCTTG TGCAGCTAAA GACACACTGA ACACAGACTG GAACAAATAT 
GATGACAGGT TAATGAAAGC AGCGGAAAGG GGTGATGTGG AAAAAGTTTC ATCAATCCTT 
GCCAAAAAAG GAGTCAGTCC TGCTAAACTG GATGTGGAAG GGAGATCTGC ATTCCATGTT 
GTAGCATCAA AGGGAAACCT AGATTGCTTG AACACCATCC TTATTCATGG AGTTGATATC 
ACAGCTACTG ATGCTGCAGG TAGAAACGCG TTGCACCTAG CTGCAAAATA CGGACATCCT 
CTGTGTTTGC AGAAGCTGTT GCAGTACAAT TGTCCAACGG AAAATGTGGA TCTTCAAGGA 
AGAACTGCTC TTCATGATGC AGCTATGTCA GACTGTTCCG CTAGCATACA ATTGCTGTGT 
GACCATGGGG CCTCGGTGAA TTCAAAAGAT GGAGACGGGA GGACACCACT GGTGCTGGCC 
ACTCAGATGT GTCGTCCCAC AGTCTGCCAG CTTCTGATAG ACAGAGGAGC AGATGTTAAT 
GCCAGGGACA AACAAAACAG GACTGCCTTA ATGTTAGGCT GTGAATACGG CTGCAAGGAT 
GCGGTAGAAG TTTTACTCAG AAACGGTGCG GATGTTAGTT TGACCGATGG TCTTGGTCAT 
GACTGTGCTT ACTATGCGAG AATTGGGGAC AATATTGACA TTTTGGCTTT GATAAAAGCT 
GCCGTTGAGG ATTCCAGCAA AGCAAGAGAT ACCATGAAGA GAGGGCAGCT TGAACAAAAG 
ATTGCCAATA TGTCACAGAA GTGGAGTCGG CTGCATGCAC AGGAGGAGGT GAATGTCAAG 
CTGTATCAGA AGGAACATAA TGCTCAGGAA TTGGAGTTAG AAAATCAAGA TTTGAAAGAT 
CGCATGAGAG AAGTGCAGGA GGAGCAGAGG ATGCTGCTGG ATAGAATCAG TGGGCTGCAG 
CTGCAGTTGA ATGAGGAGCA AATGTTTGCA GATGATCTTG AAATTGAGAA AGATGAGTTG 
AAGAAAATCC TAACAACCAA GGAAAAACAG CAGGAAGAAA GCCTGAGAAC TATTGAAGCT 
CTCAAAGCCA AGCTCAAATA TTATGAAGTT GACTTTGTGG GATCTGGAAG TAACTTTGGT 
AACAGAAAAG AAGATTTATT ACTTAAACAA GGCCAAACGT TTGCTGTGGA ATCACAGTCT 
AGGTCTATGC TGAGACCCCT GGAGCTCTCT GTGTCAAACC AGTCATCCAG TTCAGAGAAG 
GAAGCTTTAA AGAAAGAACT TGACAGCATG AGGACCAGCT ATGGTGCAGC AAAAGAAGAA 
ATCAGCAAAT TGCAGAGAGA ACTGTCTCAC AAGGTATCTG AATGCAAAGC TTTGGCATCA 
GAGTGTGAAA GAACCAAGGC AGAATCTGAT GGACAGATAA AACAACTGGA AGATGCTTTA 
AAAGATGTGC AGAAAAGAAT GTTTGACTCT GAAGGCAAAG TTAAGCAAAT GCAGACCCAC 
TTTCTTGCTC TGAAAGATCA CCTGACTAGT GAAGCTGCTT CAGGAAACAG CAAACTAACA 
GAGGAGCTGA AGGATCAGTT GAAAGAAATG AAAGCAAAGT ATGAAGGAGC CTCTGCTGAA 
GTGGGAAAAC TAAGGAACCA GATTAAGCAG AATGAGTTGC TGGTGGCGGA ATTCAAGAGA 
GATGAAGGAA GGCTAGTGGA GGAAAATAAA AGTTTGCAGA AGGAACTTGT TAAGTTGGAG 
ATGGAGCGAG ATAAAAGGGG GAGAAATGTC ATGGAGTTAG AAGGGCAGCT CAAAGAAACA 
GCAGCGAAGT TAGCCCACTG TGTGACTTCA GAGAGATTTG AAAGCATGAA GAGTTTGTTA 
TCAAACGAAG TGAGTGAGAA AGCCAGAAAG TTAGCAGATA TGGAAGGAGA GCATGAAAAA 
CTGCAGGCAG AGATTCTGCT TTTGAAGAGG GAATGTGAGA GTCAGAAAGC CAAACTTGCT 
CAGCACATAA AGCCAGAAGA CCACGAGCAG ATGAGGAGTG GGTTTGAGAA AAAGAATGAG 
GAACTTGGGA AGACGATTTC TGAATTGTCG CAGAAGAACG AGACTCTGCA GAAGGAGCTT 
GAAAGATTGC AGATTGATAA CAAGATGCTT AAGCAGCAAA TCCAAATGCT GAAAACTGAA 
ATTAAAAGCC AGAATGTGCC TTTAAAAATT CATGAAGAAT TGAAGAAAAC AAATGATCTG 
ACTGTGGGTG ACCTAACCAA AAAGCTTTTT GAAATAACGA AGAAGTACAA TGAAAGCAAA 
GCAGAAGGGG AAAAGTTGGT GGCAGAGAAG AACAACTTAA GTGAGAAGAT CAGCCACTTC 
CAAGCTGTGT ACCTGTCTCC AGAGCAGCAT GAAAAAGAAG TGGAAGCTTT AAAATCTAAT 
GGTATTGAAC TTGAAAAGCG GCTTGTTGAG CTTCAGAAAA AATACGATGA TGAACAGGCA 
AAAGTGTGCA AACTTGTCTC TGAAAATGCA GACATAAAAG AGACTCTCAG GGATCAGTAT 
GTGCTGGCTA CGACACATGA GGAAATTAAA ACAGCCTTGA CTAACACACT AGAGAAGACT 
AATGGGGAGC TGTCGGATCT GAAGAAGGAA ACTGAAGAGC TAAAGCAAGA ATTCATGAGG 
GTAAATGAAG AAAATGGAAC TCTGAAAAAT AAGGTGAAGC TCTTACAGAA TCAAATACAA 
ACTGAGTACA TAAGCTTAAA AGAGCATGAA ACTACAGTGA CTACTTTAAA TAGAAGCTTG 
GAGGAACTTC AGGAGGGCAA TGCTGCGATT ATGGCTGAAT ATAAGAGGGG TCAAGAGGAA 
ATTTTACAGT TGCATGCGGA AATGGAAGCC CAAAAGAAGG AACTTGACAC AATTCAAGAA 
TGCATTAAAT CAAAATATGC CCCAGTTGCC TCGCTGCAAG ACAGAGAGCA AAGCTTTGAA 
GCCACTGTAC AGGAGTTAAA AGTGCAGTTG CAGGAACAGG TGCAGAAGTG CAGAGAAAGC 
GAGGAGGAAA CTGAGAAGTA TAAAGAAGAA AATGAAAAGC TGAAAAATGT CATTTTGTCC 
ATCCAAAATG ACTTGCAGCA GAACTACATA CTCGCTGAGA AGTCCTGGGA AATGGAAAAA 
ATGTTTGCAA GGAAAATGGG GGAGTTGAAC AAGCAGCTGC GAGAATTGCT GCAGAAATAC 
ACAGGTGCAA AAGAAGAGGA AGGTGAGCTG GAAGAGAATA GCCGGCAGCC CATTGCTGTA 
CAGGCACAGC AGCTTTCAGC AGAGCAGATT GAAGCCTTGA AGAAGGCTCT TGGTCACACC 
ATTGAAGAGC TGAAGGAAGC CCTTAGAAGT AAGAACTTAA AAAAGTCTTC AGTATCTTTG 
GTAGAGTATA CGCAAATGAA GGAAAGGCTA GAACAAGAAA TTGTAGCCAT CAAAAACAGC 
TTGAGAGGCA AGGAAGATGA AAACAAAATT AAAAATGAGG AAATCTTGAA GCTGCAGTCT 
GAGATTCAGT GTACTCGACA AGCTTTAACA GACCTGGAGA GCAAAGAAGT GATTGACATG 
TCGGAATACA AATCCATGAA GAGTACTCTG GAGGCCCAGA TTAACAGCAT AGCCGAGAAC 
TTGTCCGATA TGAATAAAAA GTATGAGGAA GCCTGCAAGG AGGCTTTGCA AGCTAAAAAG 
AGTGAGCTTT CTTTAAAGGA TGAGAAGGAG TTGCTTCAGT TACGGAGCTG CAGTATCGAG 
CAAGAAATTA AAGACCAGAA AGAAAGGTGT GATAAATCAT TGACAACAAT TATTGACTTG 
CAGAAGAGAA TACAGGAATC TGCAAAGCAG GTGGAAGCCA AGGATAACAA GATAACAGAG 
CTGCTTAATG ACGTTGAACG GTTAAAACAA GCTCTTAATG GCTTGTCTCA GCTGACATAC 
ACCACTGGGA TTCCCTCGAA GAGGCAGAAC CAGCAGGTTG AGATGCTCCA GAACCAAGTG 
AAAACACTGC AACAGCAGCT AACTGATGCT AAAAGGCAGC ATCAAGAGGT AGTTTCAGTT 
TATCGGACAC ATCTTCTTAG TGCTGTACAG GGCCACATGG ATGAAGATGT CCAAGCTGCT 
TTACTACAGA TCATTCGAAT GAGACAGGGA CTGGTTTGCT GA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_009565914.1
CDS	1..4122
Translation	MSCWFSCAAKDTLNTDWNKYDDRLMKAAERGDVEKVSSILAKKGVSPAKLDVEGRSAFHVVASKGNLDCLNTILIHGVDITATDAAGRNALHLAAKYGHPLCLQKLLQYNCPTENVDLQGRTALHDAAMSDCSASIQLLCDHGASVNSKDGDGRTPLVLATQMCRPTVCQLLIDRGADVNARDKQNRTALMLGCEYGCKDAVEVLLRNGADVSLTDGLGHDCAYYARIGDNIDILALIKAAVEDSSKARDTMKRGQLEQKIANMSQKWSRLHAQEEVNVKLYQKEHNAQELELENQDLKDRMREVQEEQRMLLDRISGLQLQLNEEQMFADDLEIEKDELKKILTTKEKQQEESLRTIEALKAKLKYYEVDFVGSGSNFGNRKEDLLLKQGQTFAVESQSRSMLRPLELSVSNQSSSSEKEALKKELDSMRTSYGAAKEEISKLQRELSHKVSECKALASECERTKAESDGQIKQLEDALKDVQKRMFDSEGKVKQMQTHFLALKDHLTSEAASGNSKLTEELKDQLKEMKAKYEGASAEVGKLRNQIKQNELLVAEFKRDEGRLVEENKSLQKELVKLEMERDKRGRNVMELEGQLKETAAKLAHCVTSERFESMKSLLSNEVSEKARKLADMEGEHEKLQAEILLLKRECESQKAKLAQHIKPEDHEQMRSGFEKKNEELGKTISELSQKNETLQKELERLQIDNKMLKQQIQMLKTEIKSQNVPLKIHEELKKTNDLTVGDLTKKLFEITKKYNESKAEGEKLVAEKNNLSEKISHFQAVYLSPEQHEKEVEALKSNGIELEKRLVELQKKYDDEQAKVCKLVSENADIKETLRDQYVLATTHEEIKTALTNTLEKTNGELSDLKKETEELKQEFMRVNEENGTLKNKVKLLQNQIQTEYISLKEHETTVTTLNRSLEELQEGNAAIMAEYKRGQEEILQLHAEMEAQKKELDTIQECIKSKYAPVASLQDREQSFEATVQELKVQLQEQVQKCRESEEETEKYKEENEKLKNVILSIQNDLQQNYILAEKSWEMEKMFARKMGELNKQLRELLQKYTGAKEEEGELEENSRQPIAVQAQQLSAEQIEALKKALGHTIEELKEALRSKNLKKSSVSLVEYTQMKERLEQEIVAIKNSLRGKEDENKIKNEEILKLQSEIQCTRQALTDLESKEVIDMSEYKSMKSTLEAQINSIAENLSDMNKKYEEACKEALQAKKSELSLKDEKELLQLRSCSIEQEIKDQKERCDKSLTTIIDLQKRIQESAKQVEAKDNKITELLNDVERLKQALNGLSQLTYTTGIPSKRQNQQVEMLQNQVKTLQQQLTDAKRQHQEVVSVYRTHLLSAVQGHMDEDVQAALLQIIRMRQGLVC

Target ORF information:

RefSeq Version	XM_009567619.1
Organism	Cuculus canorus(common cuckoo)
Definition	Cuculus canorus uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_009567619.1

ORF Insert Sequence:

ATGAGTTGTT GGTTTTCTTG TGCAGCTAAA GACACACTGA ACACAGACTG GAACAAATAT 
GATGACAGGT TAATGAAAGC AGCGGAAAGG GGTGATGTGG AAAAAGTTTC ATCAATCCTT 
GCCAAAAAAG GAGTCAGTCC TGCTAAACTG GATGTGGAAG GGAGATCTGC ATTCCATGTT 
GTAGCATCAA AGGGAAACCT AGATTGCTTG AACACCATCC TTATTCATGG AGTTGATATC 
ACAGCTACTG ATGCTGCAGG TAGAAACGCG TTGCACCTAG CTGCAAAATA CGGACATCCT 
CTGTGTTTGC AGAAGCTGTT GCAGTACAAT TGTCCAACGG AAAATGTGGA TCTTCAAGGA 
AGAACTGCTC TTCATGATGC AGCTATGTCA GACTGTTCCG CTAGCATACA ATTGCTGTGT 
GACCATGGGG CCTCGGTGAA TTCAAAAGAT GGAGACGGGA GGACACCACT GGTGCTGGCC 
ACTCAGATGT GTCGTCCCAC AGTCTGCCAG CTTCTGATAG ACAGAGGAGC AGATGTTAAT 
GCCAGGGACA AACAAAACAG GACTGCCTTA ATGTTAGGCT GTGAATACGG CTGCAAGGAT 
GCGGTAGAAG TTTTACTCAG AAACGGTGCG GATGTTAGTT TGACCGATGG TCTTGGTCAT 
GACTGTGCTT ACTATGCGAG AATTGGGGAC AATATTGACA TTTTGGCTTT GATAAAAGCT 
GCCGTTGAGG ATTCCAGCAA AGCAAGAGAT ACCATGAAGA GAGGGCAGCT TGAACAAAAG 
ATTGCCAATA TGTCACAGAA GTGGAGTCGG CTGCATGCAC AGGAGGAGGT GAATGTCAAG 
CTGTATCAGA AGGAACATAA TGCTCAGGAA TTGGAGTTAG AAAATCAAGA TTTGAAAGAT 
CGCATGAGAG AAGTGCAGGA GGAGCAGAGG ATGCTGCTGG ATAGAATCAG TGGGCTGCAG 
CTGCAGTTGA ATGAGGAGCA AATGTTTGCA GATGATCTTG AAATTGAGAA AGATGAGTTG 
AAGAAAATCC TAACAACCAA GGAAAAACAG CAGGAAGAAA GCCTGAGAAC TATTGAAGCT 
CTCAAAGCCA AGCTCAAATA TTATGAAGTT GACTTTGTGG GATCTGGAAG TAACTTTGGT 
AACAGAAAAG AAGATTTATT ACTTAAACAA GGCCAAACGT TTGCTGTGGA ATCACAGTCT 
AGGTCTATGC TGAGACCCCT GGAGCTCTCT GTGTCAAACC AGTCATCCAG TTCAGAGAAG 
GAAGCTTTAA AGAAAGAACT TGACAGCATG AGGACCAGCT ATGGTGCAGC AAAAGAAGAA 
ATCAGCAAAT TGCAGAGAGA ACTGTCTCAC AAGGTATCTG AATGCAAAGC TTTGGCATCA 
GAGTGTGAAA GAACCAAGGC AGAATCTGAT GGACAGATAA AACAACTGGA AGATGCTTTA 
AAAGATGTGC AGAAAAGAAT GTTTGACTCT GAAGGCAAAG TTAAGCAAAT GCAGACCCAC 
TTTCTTGCTC TGAAAGATCA CCTGACTAGT GAAGCTGCTT CAGGAAACAG CAAACTAACA 
GAGGAGCTGA AGGATCAGTT GAAAGAAATG AAAGCAAAGT ATGAAGGAGC CTCTGCTGAA 
GTGGGAAAAC TAAGGAACCA GATTAAGCAG AATGAGTTGC TGGTGGCGGA ATTCAAGAGA 
GATGAAGGAA GGCTAGTGGA GGAAAATAAA AGTTTGCAGA AGGAACTTGT TAAGTTGGAG 
ATGGAGCGAG ATAAAAGGGG GAGAAATGTC ATGGAGTTAG AAGGGCAGCT CAAAGAAACA 
GCAGCGAAGT TAGCCCACTG TGTGACTTCA GAGAGATTTG AAAGCATGAA GAGTTTGTTA 
TCAAACGAAG TGAGTGAGAA AGCCAGAAAG TTAGCAGATA TGGAAGGAGA GCATGAAAAA 
CTGCAGGCAG AGATTCTGCT TTTGAAGAGG GAATGTGAGA GTCAGAAAGC CAAACTTGCT 
CAGCACATAA AGCCAGAAGA CCACGAGCAG ATGAGGAGTG GGTTTGAGAA AAAGAATGAG 
GAACTTGGGA AGACGATTTC TGAATTGTCG CAGAAGAACG AGACTCTGCA GAAGGAGCTT 
GAAAGATTGC AGATTGATAA CAAGATGCTT AAGCAGCAAA TCCAAATGCT GAAAACTGAA 
ATTAAAAGCC AGAATGTGCC TTTAAAAATT CATGAAGAAT TGAAGAAAAC AAATGATCTG 
ACTGTGGGTG ACCTAACCAA AAAGCTTTTT GAAATAACGA AGAAGTACAA TGAAAGCAAA 
GCAGAAGGGG AAAAGTTGGT GGCAGAGAAG AACAACTTAA GTGAGAAGAT CAGCCACTTC 
CAAGCTGTGT ACCTGTCTCC AGAGCAGCAT GAAAAAGAAG TGGAAGCTTT AAAATCTAAT 
GGTATTGAAC TTGAAAAGCG GCTTGTTGAG CTTCAGAAAA AATACGATGA TGAACAGGCA 
AAAGTGTGCA AACTTGTCTC TGAAAATGCA GACATAAAAG AGACTCTCAG GGATCAGTAT 
GTGCTGGCTA CGACACATGA GGAAATTAAA ACAGCCTTGA CTAACACACT AGAGAAGACT 
AATGGGGAGC TGTCGGATCT GAAGAAGGAA ACTGAAGAGC TAAAGCAAGA ATTCATGAGG 
GTAAATGAAG AAAATGGAAC TCTGAAAAAT AAGGTGAAGC TCTTACAGAA TCAAATACAA 
ACTGAGTACA TAAGCTTAAA AGAGCATGAA ACTACAGTGA CTACTTTAAA TAGAAGCTTG 
GAGGAACTTC AGGAGGGCAA TGCTGCGATT ATGGCTGAAT ATAAGAGGGG TCAAGAGGAA 
ATTTTACAGT TGCATGCGGA AATGGAAGCC CAAAAGAAGG AACTTGACAC AATTCAAGAA 
TGCATTAAAT CAAAATATGC CCCAGTTGCC TCGCTGCAAG ACAGAGAGCA AAGCTTTGAA 
GCCACTGTAC AGGAGTTAAA AGTGCAGTTG CAGGAACAGG TGCAGAAGTG CAGAGAAAGC 
GAGGAGGAAA CTGAGAAGTA TAAAGAAGAA AATGAAAAGC TGAAAAATGT CATTTTGTCC 
ATCCAAAATG ACTTGCAGCA GAACTACATA CTCGCTGAGA AGTCCTGGGA AATGGAAAAA 
ATGTTTGCAA GGAAAATGGG GGAGTTGAAC AAGCAGCTGC GAGAATTGCT GCAGAAATAC 
ACAGGTGCAA AAGAAGAGGA AGGTGAGCTG GAAGAGAATA GCCGGCAGCC CATTGCTGTA 
CAGGCACAGC AGCTTTCAGC AGAGCAGATT GAAGCCTTGA AGAAGGCTCT TGGTCACACC 
ATTGAAGAGC TGAAGGAAGC CCTTAGAAGT AAGAACTTAA AAAAGTCTTC AGTATCTTTG 
GTAGAGTATA CGCAAATGAA GGAAAGGCTA GAACAAGAAA TTGTAGCCAT CAAAAACAGC 
TTGAGAGGCA AGGAAGATGA AAACAAAATT AAAAATGAGG AAATCTTGAA GCTGCAGTCT 
GAGATTCAGT GTACTCGACA AGCTTTAACA GACCTGGAGA GCAAAGAAGT GATTGACATG 
TCGGAATACA AATCCATGAA GAGTACTCTG GAGGCCCAGA TTAACAGCAT AGCCGAGAAC 
TTGTCCGATA TGAATAAAAA GTATGAGGAA GCCTGCAAGG AGGCTTTGCA AGCTAAAAAG 
AGTGAGCTTT CTTTAAAGGA TGAGAAGGAG TTGCTTCAGT TACGGAGCTG CAGTATCGAG 
CAAGAAATTA AAGACCAGAA AGAAAGGTGT GATAAATCAT TGACAACAAT TATTGACTTG 
CAGAAGAGAA TACAGGAATC TGCAAAGCAG GTGGAAGCCA AGGATAACAA GATAACAGAG 
CTGCTTAATG ACGTTGAACG GTTAAAACAA GCTCTTAATG GCTTGTCTCA GCTGACATAC 
ACCACTGGGA TTCCCTCGAA GAGGCAGAAC CAGCAGGTTG AGATGCTCCA GAACCAAGTG 
AAAACACTGC AACAGCAGCT AACTGATGCT AAAAGGCAGC ATCAAGAGGT AGTTTCAGTT 
TATCGGACAC ATCTTCTTAG TGCTGTACAG GGCCACATGG ATGAAGATGT CCAAGCTGCT 
TTACTACAGA TCATTCGAAT GAGACAGGGA CTGGTTTGCT GA