Col15a1 cDNA ORF clone, Chinchilla lanigera(long-tailed chinchilla)

Gene
Clones
gRNAs

Summary

Gene Symbol	Col15a1
Entrez Gene ID	102017022
Full Name	collagen type XV alpha 1 chain
Gene Type	protein-coding
Organism	Chinchilla lanigera(long-tailed chinchilla)

mRNA and Protein(s)

mRNA	Protein	Name
XM_005382825.2	XP_005382882.1	collagen alpha-1(XV) chain

Pathways from BioSystems
Gene Ontology

The following Col15a1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Col15a1 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
OCh208488	XM_005382825.2 Latest version!	Chinchilla lanigera collagen, type XV, alpha 1 (Col15a1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$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)

Col15a1 ( XM_005382825.2 ) cDNA ORF clone, Chinchilla lanigera(long-tailed chinchilla) -> XP_005382882.1 Chinchilla lanigera collagen, type XV, alpha 1 (Col15a1), mRNA.

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CloneID	OCh208488
Clone ID Related Accession (Same CDS sequence)	XM_005382825.2
Accession Version	XM_005382825.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4116bp) 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	2015-08-18
Organism	Chinchilla lanigera(long-tailed chinchilla)
Product	collagen alpha-1(XV) chain
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004955419.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Aug 19, 2015 this sequence version replaced XM_005382825.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Chinchilla lanigera Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGCCAA GCAACTGGCG CCTGCGGTTG CTGCTGTCCA CCTCCGCGCT CCTGTCCGCT 
GTCTCCGGGA CGCGCGCCTC GACAGACTCA GCCTCCCAAG GCCATCTGGA CCTCACACAG 
CTCATCGGCG TCCCACTGCC CTCCTCTGTG TCCTTTGTCA CAGGCTACGG TGGCTTCCCA 
GCTTACAGCT TCGGGCCTGG CGCCAACATT GGCCGCCCAG CTAGGACCCT CATCCCGCCC 
ACCTTCTTCA GGGACTTCGC CATCAGTGTC ATGGTCAAGC CCAGCAGCAC CCGAGGCGGG 
GTGCTTTTTG CCATTACTGA CGCCTTCCAG AAGGTCATTT ACCTAGGCCT GCGGCTCTCG 
GGTGTGGAGG ACGGCCACCA GCGGGTCATC CTCTACTACA CAGAGCCTGG CTCTCATGTG 
TCCCATGAAG CTGCTGTTTT CTCCGTGCCT GTGATGGCCA ACAGGTGGAA CCACTTTGCG 
GTGATCGTCC AGGGAGAGGA GGTGACCCTC CTCATGGACT GTGAGGAGCA CAGCCAGGCC 
CTCTTCCAGC GGTCCTCCCG CCCTTTGGCT TTCGATCCCA GCACAGGGAT CTTCGTGGGC 
AGCGCGGGCG CCACGGGACT GGACAGATTT ACCGGGGCTC TACAGCAGCT GACCATCCAC 
GCTGACCCCA GGACTCCAGA GGAGCTATGT GAAGCCCAGG AGTCGTCGGC CTCAGGAGAA 
GCCAGTGGCC TTCAGGAGTC TGAAGCGGAG ACTGTTGCTG AGATCTTAGA GGCCGTCACC 
TACACTCAAG CTCCGGCTAA AGAAGCAAAA GTTGAACCCA TAAACACACC TCCAACCTCA 
TTTTCTCCCC TGGAGGACAC GGAGCTTTCT GGTGAACCGG TACCAGAGGG GACCCCAGAA 
ACCAACCTGA GCATCAGCCA GCACAACAGC CCTGAGCAAG GGTCTGGCGA GATCCTGAAT 
GACACGCTGG AGAGGGTTCA TACCGTGGAT GGGGATGCCA TTGCTGACGC TGGCTCAGGA 
GAGAGGGCCT TCCTCGATGC CACTGAAGAA CAAGGCTCTG CAGCAACAGT AGCAGGGGAG 
GATGAGGTGA CCACCAGCAC ACCCCAGGAG GCAGAGGTCA GCAGCATGCC CGCTGCAGCA 
CCAACCCTGG CCGTGTCCAC CTTGAACCCT CAGGAAGGGA CCACTCCAGA TCTGGAGGAT 
GAAGAAGGTT CAGCAGCAAT GGGAACAGGG GAGGCCAAGG CACCAGTGAG CACTGCTGGG 
GAAGTAGAGT CAGGCAGCCT GCCCACGGTG GGACCCACCT TCACCATGTC CACCCAGAGC 
CCCAGGGAAG AGACCACTCT GGGCCCAGGT GAGGAATGGT TAACCACGGC CACAGCTACC 
ACAGAAGTGT CCCTCAGCAC TTTTGGAGAA GAGGAAGCCA GTGGGGCCTC CACAGACGAC 
CTAACTGTCC TTACACCCAC AGTGGCCCCT GCACATGCCG GTGGGCCTTC CACAGATGAC 
CTGGCTGTCC TCACACCCAC AGCGGCCCTG GGACAAGTGG TCACCCCGGC ACCTGATGAC 
ATGGAAGATT TGGAGCCCCT GGCCACAGCA GGCGGAGAGG GGATCAGCAG TGCTCCCCCT 
GCTGGGCTGC CGCTTCCCGT ACCCACGGTG GCTCCTGAGA GACGGGTCAC TCTGGCTCAC 
TTACTACATG GGGAAGTGGA AGGACCTGAA GGAGAAAAGG TGGGTGCCGA GGCTGAAGGC 
TCTGACCCGG GCTGGGGCCT GGACATCGGC TCTGGCTCTG GGGATCTGGT GGACCGAGAA 
GAATTGCTAA GAGGTCCCCC AGGGCCCCCA GGACCACCTG GCTTACCTGG GATTCCAGGA 
AAACCAGGAA CTGATGTTCT CATGGGGCCT CCTGGCTCTC CCGGAGAGGA TGGAGCTGCT 
GGCGAACCTG GACTCCCGGG ACCCGAAGGA GAGCCTGGAC TCGATGGAGC CACCGGGCGT 
CCTGGGATAA AAGGGGAGAA GGGAGCAAGA GGGCCTAATG GCTCAGTTGG TGAAAAGGGT 
GACCCCGGTA ACAGAGGCTT ACCAGGACCC CCAGGAAAAA ATGGACAAGC TGGCACTCCC 
GGAATCATGG GACCTCCAGG GCCTCCTGGA CCCCCAGGTC CCCCAGGCCC TGGATGTGCA 
ACAGGACCTG AATTTGAGGA TACCGAGGGC TCAGGAAATA TCAGGCTGCT GAGTGAACCC 
AGAATCTCCA GGCCAACCGT TTCCACTGGT CTCAAAGGAG AAAAAGGAGA CCAGGGACCC 
AAGGGTGAAA GGGGGTTGGA CGGAGTCAGC ACTGTGGGAC CTCCAGGACC CAGGGGTCCC 
CCTGGGCGGA TTGAGATCTT ATCTAGTTCT TTGATCAACA TCACGCATGG ATCCTTGAAT 
TTCTCCGACA TTCCTGAGCT CCTAGGGCCT CCGGGGCCTG ATGGTTTGCC TGGGCTGCCC 
GGATTCCCAG GCCCTAGAGG ACCGAAAGGT GACACTGGCT TGCCTGGCTT TCCAGGGCTC 
AAAGGAGAAC AGGGTGAGAA GGGTGAGCCA GGCACCATCC TGACAGGGGA TGTTCCTCTG 
GAAAGGCTGA AGGGGAGAAA GGGTGAGCCT GGACTGCATG GAGCCCCGGG ACCAATGGGA 
CCCAAAGGAC CACCAGGACA CAAAGGAGAA TTTGGCCTCC CCGGAAGACC TGGTCGCCCA 
GGACTGAATG GCCTCAAGGG TGCCAAGGGA GATCGAGGAA TCATGATGCC GGGTCCACCT 
GGCCAGCCTG GTCCTCCAGG CCCCCCTGGA CCACCTGGAG CTGTGATTAA CATCAAAGGA 
GCTGTGTTCC CAGTACCTGT CCGGCCACAC TGCAAAATGC CAGTCGGAAC CGCACATCCT 
GGGGATCCAG AACTCATCAC CTTCCACGGT GTTAAAGGAG AGAAAGGATC CTGGGGTCTT 
CCTGGCTCAA AAGGAGAAAA AGGGGACCAA GGAGCCCAGG GACCACCAGG TCCACCAGTT 
GATCCAGTTT ACCTGAGACA TTTTCTGAAC AGCTTGAAGG GGGAAAATGG AGACAGGGGA 
TTCAAAGGAG AAAAAGGAGA CTCTAATGAG AACTTCTTTG TGTCTGGGTC TCCGGGCCTG 
CCGGGAAATC CAGGCCTGGC TGGACAGAAA GGGGAGGCTA TCATGGGACC CCAAGGACCC 
CCAGGAATTC CTGGCCTGCC TGGGCCACCT GGTTTTGGAA GACCTGGTGC CCCTGGGCCA 
CCAGGACCCC CTGGGCCACC AGGACCTCCA GCTATCCTGG GTGCAGCTGT GGCCCTTCCA 
GGCCCGCCTG GCCCTCCAGG ACAGCCAGGG CTTCCCGGAT CCAGGAATCT GGTCACAGCG 
TTCAGCAGTA TGGACGACAT GCTGCAGAAA GCACATTTGG TCATAGAAGG AACATTCATC 
TACCTGAGGG ACAGCACAGA ATTCTTCATT CGTGTTCGAG ATGGCTGGAA AAAATTACAG 
CTGGGAGAAC TGATCCCCAT CCCTGCCGAC AGTCCTCCAC CCCCTGCGCT TTCCAGCAAT 
TCATATCAGC TCCAGCCTCC ACTGAACCCT ATTTTAAGTG GCAATTATGA GAGTCCTGCT 
CTGCACTTGG TTGCTCTAAA CATGCCATTT TCTGGGGACA TTCGAGCTGA TTTTCAGTGC 
TTCCAGCAGG CCAGGGCTGC AGGACTATTG TCCACCTTCC GAGCATTCTT ATCTTCCCAT 
TTGCAAGATC TCTCTACAGT TGTGAGGAAG GCAGAGAGAT ACAGCCTTCC AATAGTGAAT 
CTCAAGGGCC AAGTACTTTT TAATAATTGG GACTCAATCT TTTCTGGTGA TGGAGGTCAG 
TTCAATACAC ATGTTCCAAT ATACTCCTTT GATGGCCGAG ATGTGATGAC AGATCCTTCT 
TGGCCCCAGA AGGTCATCTG GCATGGCTCC ACCACCCATG GTGTCCGTCT TGTGGATAAG 
TACTGTGAAG CATGGCGAAC TGCAGACATG GCAGTCACGG GATTTGCCTC CCCACTGAGC 
ACCGGGAAGA TTCTGGACCA GACGCCGTAT AGCTGCGCTA ATAGGCTAAT TGTTCTGTGT 
ATTGAGAACA GTTTCATGAC AGATGCTAGG AAGTAA

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

RefSeq	XP_005382882.1
CDS	421..4536
Translation	MAPSNWRLRLLLSTSALLSAVSGTRASTDSASQGHLDLTQLIGVPLPSSVSFVTGYGGFPAYSFGPGANIGRPARTLIPPTFFRDFAISVMVKPSSTRGGVLFAITDAFQKVIYLGLRLSGVEDGHQRVILYYTEPGSHVSHEAAVFSVPVMANRWNHFAVIVQGEEVTLLMDCEEHSQALFQRSSRPLAFDPSTGIFVGSAGATGLDRFTGALQQLTIHADPRTPEELCEAQESSASGEASGLQESEAETVAEILEAVTYTQAPAKEAKVEPINTPPTSFSPLEDTELSGEPVPEGTPETNLSISQHNSPEQGSGEILNDTLERVHTVDGDAIADAGSGERAFLDATEEQGSAATVAGEDEVTTSTPQEAEVSSMPAAAPTLAVSTLNPQEGTTPDLEDEEGSAAMGTGEAKAPVSTAGEVESGSLPTVGPTFTMSTQSPREETTLGPGEEWLTTATATTEVSLSTFGEEEASGASTDDLTVLTPTVAPAHAGGPSTDDLAVLTPTAALGQVVTPAPDDMEDLEPLATAGGEGISSAPPAGLPLPVPTVAPERRVTLAHLLHGEVEGPEGEKVGAEAEGSDPGWGLDIGSGSGDLVDREELLRGPPGPPGPPGLPGIPGKPGTDVLMGPPGSPGEDGAAGEPGLPGPEGEPGLDGATGRPGIKGEKGARGPNGSVGEKGDPGNRGLPGPPGKNGQAGTPGIMGPPGPPGPPGPPGPGCATGPEFEDTEGSGNIRLLSEPRISRPTVSTGLKGEKGDQGPKGERGLDGVSTVGPPGPRGPPGRIEILSSSLINITHGSLNFSDIPELLGPPGPDGLPGLPGFPGPRGPKGDTGLPGFPGLKGEQGEKGEPGTILTGDVPLERLKGRKGEPGLHGAPGPMGPKGPPGHKGEFGLPGRPGRPGLNGLKGAKGDRGIMMPGPPGQPGPPGPPGPPGAVINIKGAVFPVPVRPHCKMPVGTAHPGDPELITFHGVKGEKGSWGLPGSKGEKGDQGAQGPPGPPVDPVYLRHFLNSLKGENGDRGFKGEKGDSNENFFVSGSPGLPGNPGLAGQKGEAIMGPQGPPGIPGLPGPPGFGRPGAPGPPGPPGPPGPPAILGAAVALPGPPGPPGQPGLPGSRNLVTAFSSMDDMLQKAHLVIEGTFIYLRDSTEFFIRVRDGWKKLQLGELIPIPADSPPPPALSSNSYQLQPPLNPILSGNYESPALHLVALNMPFSGDIRADFQCFQQARAAGLLSTFRAFLSSHLQDLSTVVRKAERYSLPIVNLKGQVLFNNWDSIFSGDGGQFNTHVPIYSFDGRDVMTDPSWPQKVIWHGSTTHGVRLVDKYCEAWRTADMAVTGFASPLSTGKILDQTPYSCANRLIVLCIENSFMTDARK

Target ORF information:

RefSeq Version	XM_005382825.2
Organism	Chinchilla lanigera(long-tailed chinchilla)
Definition	Chinchilla lanigera collagen, type XV, alpha 1 (Col15a1), mRNA.

Target ORF information:

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

XM_005382825.2

ORF Insert Sequence:

ATGGCGCCAA GCAACTGGCG CCTGCGGTTG CTGCTGTCCA CCTCCGCGCT CCTGTCCGCT 
GTCTCCGGGA CGCGCGCCTC GACAGACTCA GCCTCCCAAG GCCATCTGGA CCTCACACAG 
CTCATCGGCG TCCCACTGCC CTCCTCTGTG TCCTTTGTCA CAGGCTACGG TGGCTTCCCA 
GCTTACAGCT TCGGGCCTGG CGCCAACATT GGCCGCCCAG CTAGGACCCT CATCCCGCCC 
ACCTTCTTCA GGGACTTCGC CATCAGTGTC ATGGTCAAGC CCAGCAGCAC CCGAGGCGGG 
GTGCTTTTTG CCATTACTGA CGCCTTCCAG AAGGTCATTT ACCTAGGCCT GCGGCTCTCG 
GGTGTGGAGG ACGGCCACCA GCGGGTCATC CTCTACTACA CAGAGCCTGG CTCTCATGTG 
TCCCATGAAG CTGCTGTTTT CTCCGTGCCT GTGATGGCCA ACAGGTGGAA CCACTTTGCG 
GTGATCGTCC AGGGAGAGGA GGTGACCCTC CTCATGGACT GTGAGGAGCA CAGCCAGGCC 
CTCTTCCAGC GGTCCTCCCG CCCTTTGGCT TTCGATCCCA GCACAGGGAT CTTCGTGGGC 
AGCGCGGGCG CCACGGGACT GGACAGATTT ACCGGGGCTC TACAGCAGCT GACCATCCAC 
GCTGACCCCA GGACTCCAGA GGAGCTATGT GAAGCCCAGG AGTCGTCGGC CTCAGGAGAA 
GCCAGTGGCC TTCAGGAGTC TGAAGCGGAG ACTGTTGCTG AGATCTTAGA GGCCGTCACC 
TACACTCAAG CTCCGGCTAA AGAAGCAAAA GTTGAACCCA TAAACACACC TCCAACCTCA 
TTTTCTCCCC TGGAGGACAC GGAGCTTTCT GGTGAACCGG TACCAGAGGG GACCCCAGAA 
ACCAACCTGA GCATCAGCCA GCACAACAGC CCTGAGCAAG GGTCTGGCGA GATCCTGAAT 
GACACGCTGG AGAGGGTTCA TACCGTGGAT GGGGATGCCA TTGCTGACGC TGGCTCAGGA 
GAGAGGGCCT TCCTCGATGC CACTGAAGAA CAAGGCTCTG CAGCAACAGT AGCAGGGGAG 
GATGAGGTGA CCACCAGCAC ACCCCAGGAG GCAGAGGTCA GCAGCATGCC CGCTGCAGCA 
CCAACCCTGG CCGTGTCCAC CTTGAACCCT CAGGAAGGGA CCACTCCAGA TCTGGAGGAT 
GAAGAAGGTT CAGCAGCAAT GGGAACAGGG GAGGCCAAGG CACCAGTGAG CACTGCTGGG 
GAAGTAGAGT CAGGCAGCCT GCCCACGGTG GGACCCACCT TCACCATGTC CACCCAGAGC 
CCCAGGGAAG AGACCACTCT GGGCCCAGGT GAGGAATGGT TAACCACGGC CACAGCTACC 
ACAGAAGTGT CCCTCAGCAC TTTTGGAGAA GAGGAAGCCA GTGGGGCCTC CACAGACGAC 
CTAACTGTCC TTACACCCAC AGTGGCCCCT GCACATGCCG GTGGGCCTTC CACAGATGAC 
CTGGCTGTCC TCACACCCAC AGCGGCCCTG GGACAAGTGG TCACCCCGGC ACCTGATGAC 
ATGGAAGATT TGGAGCCCCT GGCCACAGCA GGCGGAGAGG GGATCAGCAG TGCTCCCCCT 
GCTGGGCTGC CGCTTCCCGT ACCCACGGTG GCTCCTGAGA GACGGGTCAC TCTGGCTCAC 
TTACTACATG GGGAAGTGGA AGGACCTGAA GGAGAAAAGG TGGGTGCCGA GGCTGAAGGC 
TCTGACCCGG GCTGGGGCCT GGACATCGGC TCTGGCTCTG GGGATCTGGT GGACCGAGAA 
GAATTGCTAA GAGGTCCCCC AGGGCCCCCA GGACCACCTG GCTTACCTGG GATTCCAGGA 
AAACCAGGAA CTGATGTTCT CATGGGGCCT CCTGGCTCTC CCGGAGAGGA TGGAGCTGCT 
GGCGAACCTG GACTCCCGGG ACCCGAAGGA GAGCCTGGAC TCGATGGAGC CACCGGGCGT 
CCTGGGATAA AAGGGGAGAA GGGAGCAAGA GGGCCTAATG GCTCAGTTGG TGAAAAGGGT 
GACCCCGGTA ACAGAGGCTT ACCAGGACCC CCAGGAAAAA ATGGACAAGC TGGCACTCCC 
GGAATCATGG GACCTCCAGG GCCTCCTGGA CCCCCAGGTC CCCCAGGCCC TGGATGTGCA 
ACAGGACCTG AATTTGAGGA TACCGAGGGC TCAGGAAATA TCAGGCTGCT GAGTGAACCC 
AGAATCTCCA GGCCAACCGT TTCCACTGGT CTCAAAGGAG AAAAAGGAGA CCAGGGACCC 
AAGGGTGAAA GGGGGTTGGA CGGAGTCAGC ACTGTGGGAC CTCCAGGACC CAGGGGTCCC 
CCTGGGCGGA TTGAGATCTT ATCTAGTTCT TTGATCAACA TCACGCATGG ATCCTTGAAT 
TTCTCCGACA TTCCTGAGCT CCTAGGGCCT CCGGGGCCTG ATGGTTTGCC TGGGCTGCCC 
GGATTCCCAG GCCCTAGAGG ACCGAAAGGT GACACTGGCT TGCCTGGCTT TCCAGGGCTC 
AAAGGAGAAC AGGGTGAGAA GGGTGAGCCA GGCACCATCC TGACAGGGGA TGTTCCTCTG 
GAAAGGCTGA AGGGGAGAAA GGGTGAGCCT GGACTGCATG GAGCCCCGGG ACCAATGGGA 
CCCAAAGGAC CACCAGGACA CAAAGGAGAA TTTGGCCTCC CCGGAAGACC TGGTCGCCCA 
GGACTGAATG GCCTCAAGGG TGCCAAGGGA GATCGAGGAA TCATGATGCC GGGTCCACCT 
GGCCAGCCTG GTCCTCCAGG CCCCCCTGGA CCACCTGGAG CTGTGATTAA CATCAAAGGA 
GCTGTGTTCC CAGTACCTGT CCGGCCACAC TGCAAAATGC CAGTCGGAAC CGCACATCCT 
GGGGATCCAG AACTCATCAC CTTCCACGGT GTTAAAGGAG AGAAAGGATC CTGGGGTCTT 
CCTGGCTCAA AAGGAGAAAA AGGGGACCAA GGAGCCCAGG GACCACCAGG TCCACCAGTT 
GATCCAGTTT ACCTGAGACA TTTTCTGAAC AGCTTGAAGG GGGAAAATGG AGACAGGGGA 
TTCAAAGGAG AAAAAGGAGA CTCTAATGAG AACTTCTTTG TGTCTGGGTC TCCGGGCCTG 
CCGGGAAATC CAGGCCTGGC TGGACAGAAA GGGGAGGCTA TCATGGGACC CCAAGGACCC 
CCAGGAATTC CTGGCCTGCC TGGGCCACCT GGTTTTGGAA GACCTGGTGC CCCTGGGCCA 
CCAGGACCCC CTGGGCCACC AGGACCTCCA GCTATCCTGG GTGCAGCTGT GGCCCTTCCA 
GGCCCGCCTG GCCCTCCAGG ACAGCCAGGG CTTCCCGGAT CCAGGAATCT GGTCACAGCG 
TTCAGCAGTA TGGACGACAT GCTGCAGAAA GCACATTTGG TCATAGAAGG AACATTCATC 
TACCTGAGGG ACAGCACAGA ATTCTTCATT CGTGTTCGAG ATGGCTGGAA AAAATTACAG 
CTGGGAGAAC TGATCCCCAT CCCTGCCGAC AGTCCTCCAC CCCCTGCGCT TTCCAGCAAT 
TCATATCAGC TCCAGCCTCC ACTGAACCCT ATTTTAAGTG GCAATTATGA GAGTCCTGCT 
CTGCACTTGG TTGCTCTAAA CATGCCATTT TCTGGGGACA TTCGAGCTGA TTTTCAGTGC 
TTCCAGCAGG CCAGGGCTGC AGGACTATTG TCCACCTTCC GAGCATTCTT ATCTTCCCAT 
TTGCAAGATC TCTCTACAGT TGTGAGGAAG GCAGAGAGAT ACAGCCTTCC AATAGTGAAT 
CTCAAGGGCC AAGTACTTTT TAATAATTGG GACTCAATCT TTTCTGGTGA TGGAGGTCAG 
TTCAATACAC ATGTTCCAAT ATACTCCTTT GATGGCCGAG ATGTGATGAC AGATCCTTCT 
TGGCCCCAGA AGGTCATCTG GCATGGCTCC ACCACCCATG GTGTCCGTCT TGTGGATAAG 
TACTGTGAAG CATGGCGAAC TGCAGACATG GCAGTCACGG GATTTGCCTC CCCACTGAGC 
ACCGGGAAGA TTCTGGACCA GACGCCGTAT AGCTGCGCTA ATAGGCTAAT TGTTCTGTGT 
ATTGAGAACA GTTTCATGAC AGATGCTAGG AAGTAA