adamtsl4 cDNA ORF clone, Anolis carolinensis(green anole)

Gene
Clones
gRNAs

Summary

Gene Symbol	adamtsl4
Entrez Gene ID	100565858
Full Name	ADAMTS like 4
Gene Type	protein-coding
Organism	Anolis carolinensis(green anole)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008121895.2	XP_008120102.1	ADAMTS-like protein 4

Pathways from BioSystems
Gene Ontology

The following adamtsl4 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the adamtsl4 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
OAn18626	XM_008121895.2 Latest version!	Anolis carolinensis ADAMTS like 4 (adamtsl4), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00

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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)

adamtsl4 ( XM_008121895.2 ) cDNA ORF clone, Anolis carolinensis(green anole) -> XP_008120102.1 Anolis carolinensis ADAMTS like 4 (adamtsl4), mRNA.

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CloneID	OAn18626
Clone ID Related Accession (Same CDS sequence)	XM_008121895.2
Accession Version	XM_008121895.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3981bp) 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	2016-05-30
Organism	Anolis carolinensis(green anole)
Product	ADAMTS-like protein 4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003339163.1) and transcript sequence (GAFD01020490.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 31, 2016 this sequence version replaced XM_008121895.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Anolis carolinensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## assembly gap :: added 314 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGCATGAAT GCAAAGTGAC GAGGATGGCC AGTCGAGGAC GGATCGGCAA GTTTTCCTTG 
GCTGGCTTTT CGCTGACTCT CTCTGTCCTC ATGGCCGGCT GCAGCCAAGG CCTCGAGAAG 
ACCCCGCAAC GTGCACCCCG TCAGGCTTCG GAGGATGACA GCACGGGGAG CTCGGTGCCC 
GGCGTCTGGA GTGTTTGGGG CCCTTGGTCA GCGTGTTCCC AGCGCTGTGG AAGGGGCGTC 
TTGGAGCGGA GCCGGGACTG CCAATCCCCC CATTTACGTG TCCCGTGGGC CGGGAGAACA 
GACTCTGTCC CACCGCCGGT TTACCCGCCT CACCCAGGAT CCGCCGGACC ACATCCGGCC 
CGCCCGTCTT TCCCGCTCCA TACGGATCGG AACCCTAATC TGGCTCTGAC CTTCCCAAGC 
AGCGGCTCAG TCCTTCCTCT CCATAACCCG GGTCCTCCGT ATAATTCCCC AAACCGCTAC 
AGCCGGCAAG AGGAGTGGCC CCCGACTCGG CCAAGGGGCG TCGTGGCCCC CCAGCACAAC 
CGCCGGAGGG ATCCCGCAGC CCTTCGAGGG CAGGTCTCGG GTCACGTTTC GTCCCAAAGG 
GCGTCGCTCA GCTCCCCGGT TGGGGCCGCG TCCAGGCCCC ACGTTCCGGC CCCCCGCGAG 
ACCCTGCCCT TGTTCAAGCC TCCAAGGAGA GACGGCCCAA ACGGGGGGCC GCGGCCTGAT 
GGGCCTCATC ACGGGAGCCA ATCGGATAGC GGACGCCACA GATGGGGGTC TTCTCCGACA 
CCTGAGTCTC AAGCAGCCCG GAGGTCCCGG GTTCGGGAGG CCATCAAGCC CGGGAAGTAC 
GGCTACGGGA AGGTGCCGTT CGCTTTGCCG CTCCATAAAG ACCCGGCCGA GGAGGCTGCC 
GGCCGCGCGA AGAGACACCA AGCGGAGCAT CCCGGGCCTC CGCCGCCTCC GCCTCCGCCG 
CCTCCTCGCC CTACATCGAA GAAGCCCAAA CGCAAAGCCT CTCATGAAGA AGTGTCCCGG 
AGCCAGGAAA AGGACCCGCC GGATTCTGGA GCGCATGAGA AGGAGAAGCA TCCTCCGCTG 
GTCCGTGCTG TGGAGGGACA CGATTCAGGG CACGGTGACA GCGTCAATAT CCGAGGTCCA 
GAAGACACGT CTCAACCTGA GGCTGATTTG ACAGTATCTC ATCCTGTGGA ACCAGGTATG 
GCCACGGCGA CACGTAGTGA ACATCACCAT GGGAAAGCGG CTACTGTGTC CTCCGGCGAT 
GCCTCTGCGG CTGGAGAAAC CCACCCGGAA GCAAGACCCC GAGAAGGAAA GAGGCCTCAT 
GACAAATCCC CAAAAGGAGC AAAATCAGGT GCTCCAACTT CTGGAGTCAG TCCCAACTCC 
CAGGGTCGAG TGGAGCTTCG CTTGTCGCAC CGAGTCCTGA AAAACCAAAG CTCTGCTTCC 
AAGCAGACGG CAAAAACGCT GGAGCCGTCG GCCCGTTCCA GGGGCCCACA GCCACCCTCG 
GGGCTACCTC GAACGCGGGC GCACAGGCAG AACGAGCCCC GGACGGGAGG AAGCGGCAAT 
TACGGGTCGC GGTCGACACA CAGCCTCTTC GTGGACCGTC CCGTGGCCCC TCCGCGGAAC 
ACGGAGCCCG ACATTTGGCT CCTGCACCAC GGGAACCCCG TGCAATTCCA CGCCCGGGGT 
CAAGGGCCGC CCCAGGCGGG GCCCGAAGTG CCGCAATGGA ACCTGTATTA TCCTGGGACG 
GAGACCTTCC GCTGCGAAGG AGAAAGCAAG CAATACAAAG CCTGCAGCCA AGAGCCCTGT 
CCTCCCGAAC GTCCAGATCC GCGGTCGGTC CAATGTGCTG CATACAACAA TCAGGAATTT 
ATGGGCCGGT TTTACGAGTG GGAACCCTTC AGAGACGTGC AGGGCTCCCA GCGCTGTGAG 
CTCAACTGCC GGCCCATCGG CTACCGATTC TACGTCCGAC ACACAGAAAA AGTGCAAGAC 
GGCACGCCGT GCGAGGACGA CTCCCCGGAG ATCTGTGTGA CCGGGCAGTG CCTGACCCCT 
GGTTGTGACG GGATCCTGGG CTCCAACCGC AGCCTGGACA GCTGTGGGGT GTGCGGCGGA 
GACCACACTC GGTGCAAGCT GGTAGTAGGC AACTACACGG ACAAGGACGT GCCCATTGGG 
TACCACCGCA TCTTGGAGAT TCCGGCCGGG GCCACACGGA TCCAGGTCAA AGAGATGGGT 
GTTAGCCCCA ACTATCTTGC CCTTCGGAGC CATAATGGCA AATCAATCAT CAATGGAAAC 
TGGGCAGTGA ACCCGCCAGG CAGCTATGAA GCAGCCGGCA CCGTTTTCGT CTATAGCAGA 
CCCGGGAATG ACAAGCGGGA GGGCGAATCC CTGGCTGCCG ACGGTCCCAC CACGGAGCCT 
ATAGATGTGT ATATGATCTT CCAGCAAGAC AACCCGGGCG TCTCATACCA GTTCTTCCTG 
GCCTCTCCTC CCTCGGAAAG CCCTCGCCAG GAGCAGCCCC GGAACCCTCA GCAAGAGTTT 
GGTGCCTTGA CGGTGGTGTC CCCCGGCCAC ACACACGAAT CCCCAACTAG CCATCTGCGA 
CCCGTATTAC ACAATTCCCA GAGCCACGCT CCGCCACGCC TCCCCGTCCC CTCCGGCCAA 
TCGGGACGAA GCCGTGGGGT GCCCCCTCCG CCGGCCGGCC AATCGGGACG CAGCCCTGGG 
ACCCTGCAGC GGAACGTCCG CGTCCCCCCT TTGCCCCCGC CCCCGCCCCC AGTCCAGCAT 
CACTCCGAAA ACCCCCACGA CTTCTATTGG CGGCGGACCG GCACCACCGA GTGTTCGGCC 
ACATGCGGAA AAGGTTTTTG GCAGTCGGTC TACAGCTGCG TCTCTCGGGT TTCCCAGGAA 
GAAGTGGGAG ATGACAAATG CCACCTTATT CCCAAACCTA TTGTGGCCGA AGAGGTTTGC 
AACACCGAGC CTTGCCCGGC ATACTGGGAC GTGGGCGAGT GGTCGGCCTG CAGCAGGTCC 
TGTGGCCTGG GCACGCAGCA CCGCCAGGTC CTCTGCCGGC AGATCTATGC CAACCGCAGC 
ACCATGGTGC ACCCCCAGCG CTGCGGGCAG TTGGAAAAGC CCAACGCCAC CCAGGCCTGC 
CAGGTGCAGG TTTGCAGCCA CTGGGAAATC CACACCAACT GGAGCTCGTG CTCCGTCCTT 
TGTGGCATGG GCCACCGGAC ACGCCGTGTG CGCTGCGTCG GCAACGACGG CGCCTTCTTG 
AAGGACAGCG ACTGCCCCAG CCGCCACCGG CCCAAGACCA GCGAGGCCTG CGACATGGGA 
CCCTGCGTGC GGACCTGGTT CTACAGCGAG TGGAGCAACA CGTGTTCGGC CGAATGCGGC 
ACCGGCATCC AGCGGCGCTC GGTAGTCTGC CTGTCCAGCG ACGCCAGCGG AGACCCCGAG 
GAGAACTGTG CCGGCACCAA GCCGGCCGAC ATGCGGGCCT GCAACGGGGG GCCCTGCCGG 
AAGGTGAACC TTTGGTACGT GGGACCCTGG AGCCCGTGCT CTTCGGACTG CGGCACTGGC 
ACCCAACGGC GTGATGTGGT CTGCCTCAGC AAACTGGGTG CGGATTACAA TGTGTCAGAG 
GCTTCGGAGT GCGCCCATCT GGAGAAGCCG CCCTCCCTCC AGCCTTGCCA CGGCACCGAG 
TGCGAAGCAC GATGGTATAA CACTGCCTGG AGTGCGTGCT CCCAGTCCTG CCAGGGCGGC 
GTCCAGGTGA GAGAAGCCCA GTGCCTGACC CCAAACCGGA CCCTGAGCCG CCTCTGCCCG 
CCGGACTTCA AGCCGGCCAC CAAGCGGCCT TGCAACGCCC AGCCCTGCCT CCCCGAGATT 
GACGAGAACT GCAAGGACAT CCTCCACAAC TGCCCGGTGA TCATGCAGGC CCGGCTGTGC 
GTCTATTCCT ACTACAAGGT GATTTGCTGC GCGTCCTGTG CGCACGCCTT GGAGCGGCAC 
CAAGTGGGGC CCAACCGGTA G

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

RefSeq	XP_008120102.1
CDS	310..4290
Translation	MHECKVTRMASRGRIGKFSLAGFSLTLSVLMAGCSQGLEKTPQRAPRQASEDDSTGSSVPGVWSVWGPWSACSQRCGRGVLERSRDCQSPHLRVPWAGRTDSVPPPVYPPHPGSAGPHPARPSFPLHTDRNPNLALTFPSSGSVLPLHNPGPPYNSPNRYSRQEEWPPTRPRGVVAPQHNRRRDPAALRGQVSGHVSSQRASLSSPVGAASRPHVPAPRETLPLFKPPRRDGPNGGPRPDGPHHGSQSDSGRHRWGSSPTPESQAARRSRVREAIKPGKYGYGKVPFALPLHKDPAEEAAGRAKRHQAEHPGPPPPPPPPPPRPTSKKPKRKASHEEVSRSQEKDPPDSGAHEKEKHPPLVRAVEGHDSGHGDSVNIRGPEDTSQPEADLTVSHPVEPGMATATRSEHHHGKAATVSSGDASAAGETHPEARPREGKRPHDKSPKGAKSGAPTSGVSPNSQGRVELRLSHRVLKNQSSASKQTAKTLEPSARSRGPQPPSGLPRTRAHRQNEPRTGGSGNYGSRSTHSLFVDRPVAPPRNTEPDIWLLHHGNPVQFHARGQGPPQAGPEVPQWNLYYPGTETFRCEGESKQYKACSQEPCPPERPDPRSVQCAAYNNQEFMGRFYEWEPFRDVQGSQRCELNCRPIGYRFYVRHTEKVQDGTPCEDDSPEICVTGQCLTPGCDGILGSNRSLDSCGVCGGDHTRCKLVVGNYTDKDVPIGYHRILEIPAGATRIQVKEMGVSPNYLALRSHNGKSIINGNWAVNPPGSYEAAGTVFVYSRPGNDKREGESLAADGPTTEPIDVYMIFQQDNPGVSYQFFLASPPSESPRQEQPRNPQQEFGALTVVSPGHTHESPTSHLRPVLHNSQSHAPPRLPVPSGQSGRSRGVPPPPAGQSGRSPGTLQRNVRVPPLPPPPPPVQHHSENPHDFYWRRTGTTECSATCGKGFWQSVYSCVSRVSQEEVGDDKCHLIPKPIVAEEVCNTEPCPAYWDVGEWSACSRSCGLGTQHRQVLCRQIYANRSTMVHPQRCGQLEKPNATQACQVQVCSHWEIHTNWSSCSVLCGMGHRTRRVRCVGNDGAFLKDSDCPSRHRPKTSEACDMGPCVRTWFYSEWSNTCSAECGTGIQRRSVVCLSSDASGDPEENCAGTKPADMRACNGGPCRKVNLWYVGPWSPCSSDCGTGTQRRDVVCLSKLGADYNVSEASECAHLEKPPSLQPCHGTECEARWYNTAWSACSQSCQGGVQVREAQCLTPNRTLSRLCPPDFKPATKRPCNAQPCLPEIDENCKDILHNCPVIMQARLCVYSYYKVICCASCAHALERHQVGPNR

Target ORF information:

RefSeq Version	XM_008121895.2
Organism	Anolis carolinensis(green anole)
Definition	Anolis carolinensis ADAMTS like 4 (adamtsl4), mRNA.

Target ORF information:

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

XM_008121895.2

ORF Insert Sequence:

ATGCATGAAT GCAAAGTGAC GAGGATGGCC AGTCGAGGAC GGATCGGCAA GTTTTCCTTG 
GCTGGCTTTT CGCTGACTCT CTCTGTCCTC ATGGCCGGCT GCAGCCAAGG CCTCGAGAAG 
ACCCCGCAAC GTGCACCCCG TCAGGCTTCG GAGGATGACA GCACGGGGAG CTCGGTGCCC 
GGCGTCTGGA GTGTTTGGGG CCCTTGGTCA GCGTGTTCCC AGCGCTGTGG AAGGGGCGTC 
TTGGAGCGGA GCCGGGACTG CCAATCCCCC CATTTACGTG TCCCGTGGGC CGGGAGAACA 
GACTCTGTCC CACCGCCGGT TTACCCGCCT CACCCAGGAT CCGCCGGACC ACATCCGGCC 
CGCCCGTCTT TCCCGCTCCA TACGGATCGG AACCCTAATC TGGCTCTGAC CTTCCCAAGC 
AGCGGCTCAG TCCTTCCTCT CCATAACCCG GGTCCTCCGT ATAATTCCCC AAACCGCTAC 
AGCCGGCAAG AGGAGTGGCC CCCGACTCGG CCAAGGGGCG TCGTGGCCCC CCAGCACAAC 
CGCCGGAGGG ATCCCGCAGC CCTTCGAGGG CAGGTCTCGG GTCACGTTTC GTCCCAAAGG 
GCGTCGCTCA GCTCCCCGGT TGGGGCCGCG TCCAGGCCCC ACGTTCCGGC CCCCCGCGAG 
ACCCTGCCCT TGTTCAAGCC TCCAAGGAGA GACGGCCCAA ACGGGGGGCC GCGGCCTGAT 
GGGCCTCATC ACGGGAGCCA ATCGGATAGC GGACGCCACA GATGGGGGTC TTCTCCGACA 
CCTGAGTCTC AAGCAGCCCG GAGGTCCCGG GTTCGGGAGG CCATCAAGCC CGGGAAGTAC 
GGCTACGGGA AGGTGCCGTT CGCTTTGCCG CTCCATAAAG ACCCGGCCGA GGAGGCTGCC 
GGCCGCGCGA AGAGACACCA AGCGGAGCAT CCCGGGCCTC CGCCGCCTCC GCCTCCGCCG 
CCTCCTCGCC CTACATCGAA GAAGCCCAAA CGCAAAGCCT CTCATGAAGA AGTGTCCCGG 
AGCCAGGAAA AGGACCCGCC GGATTCTGGA GCGCATGAGA AGGAGAAGCA TCCTCCGCTG 
GTCCGTGCTG TGGAGGGACA CGATTCAGGG CACGGTGACA GCGTCAATAT CCGAGGTCCA 
GAAGACACGT CTCAACCTGA GGCTGATTTG ACAGTATCTC ATCCTGTGGA ACCAGGTATG 
GCCACGGCGA CACGTAGTGA ACATCACCAT GGGAAAGCGG CTACTGTGTC CTCCGGCGAT 
GCCTCTGCGG CTGGAGAAAC CCACCCGGAA GCAAGACCCC GAGAAGGAAA GAGGCCTCAT 
GACAAATCCC CAAAAGGAGC AAAATCAGGT GCTCCAACTT CTGGAGTCAG TCCCAACTCC 
CAGGGTCGAG TGGAGCTTCG CTTGTCGCAC CGAGTCCTGA AAAACCAAAG CTCTGCTTCC 
AAGCAGACGG CAAAAACGCT GGAGCCGTCG GCCCGTTCCA GGGGCCCACA GCCACCCTCG 
GGGCTACCTC GAACGCGGGC GCACAGGCAG AACGAGCCCC GGACGGGAGG AAGCGGCAAT 
TACGGGTCGC GGTCGACACA CAGCCTCTTC GTGGACCGTC CCGTGGCCCC TCCGCGGAAC 
ACGGAGCCCG ACATTTGGCT CCTGCACCAC GGGAACCCCG TGCAATTCCA CGCCCGGGGT 
CAAGGGCCGC CCCAGGCGGG GCCCGAAGTG CCGCAATGGA ACCTGTATTA TCCTGGGACG 
GAGACCTTCC GCTGCGAAGG AGAAAGCAAG CAATACAAAG CCTGCAGCCA AGAGCCCTGT 
CCTCCCGAAC GTCCAGATCC GCGGTCGGTC CAATGTGCTG CATACAACAA TCAGGAATTT 
ATGGGCCGGT TTTACGAGTG GGAACCCTTC AGAGACGTGC AGGGCTCCCA GCGCTGTGAG 
CTCAACTGCC GGCCCATCGG CTACCGATTC TACGTCCGAC ACACAGAAAA AGTGCAAGAC 
GGCACGCCGT GCGAGGACGA CTCCCCGGAG ATCTGTGTGA CCGGGCAGTG CCTGACCCCT 
GGTTGTGACG GGATCCTGGG CTCCAACCGC AGCCTGGACA GCTGTGGGGT GTGCGGCGGA 
GACCACACTC GGTGCAAGCT GGTAGTAGGC AACTACACGG ACAAGGACGT GCCCATTGGG 
TACCACCGCA TCTTGGAGAT TCCGGCCGGG GCCACACGGA TCCAGGTCAA AGAGATGGGT 
GTTAGCCCCA ACTATCTTGC CCTTCGGAGC CATAATGGCA AATCAATCAT CAATGGAAAC 
TGGGCAGTGA ACCCGCCAGG CAGCTATGAA GCAGCCGGCA CCGTTTTCGT CTATAGCAGA 
CCCGGGAATG ACAAGCGGGA GGGCGAATCC CTGGCTGCCG ACGGTCCCAC CACGGAGCCT 
ATAGATGTGT ATATGATCTT CCAGCAAGAC AACCCGGGCG TCTCATACCA GTTCTTCCTG 
GCCTCTCCTC CCTCGGAAAG CCCTCGCCAG GAGCAGCCCC GGAACCCTCA GCAAGAGTTT 
GGTGCCTTGA CGGTGGTGTC CCCCGGCCAC ACACACGAAT CCCCAACTAG CCATCTGCGA 
CCCGTATTAC ACAATTCCCA GAGCCACGCT CCGCCACGCC TCCCCGTCCC CTCCGGCCAA 
TCGGGACGAA GCCGTGGGGT GCCCCCTCCG CCGGCCGGCC AATCGGGACG CAGCCCTGGG 
ACCCTGCAGC GGAACGTCCG CGTCCCCCCT TTGCCCCCGC CCCCGCCCCC AGTCCAGCAT 
CACTCCGAAA ACCCCCACGA CTTCTATTGG CGGCGGACCG GCACCACCGA GTGTTCGGCC 
ACATGCGGAA AAGGTTTTTG GCAGTCGGTC TACAGCTGCG TCTCTCGGGT TTCCCAGGAA 
GAAGTGGGAG ATGACAAATG CCACCTTATT CCCAAACCTA TTGTGGCCGA AGAGGTTTGC 
AACACCGAGC CTTGCCCGGC ATACTGGGAC GTGGGCGAGT GGTCGGCCTG CAGCAGGTCC 
TGTGGCCTGG GCACGCAGCA CCGCCAGGTC CTCTGCCGGC AGATCTATGC CAACCGCAGC 
ACCATGGTGC ACCCCCAGCG CTGCGGGCAG TTGGAAAAGC CCAACGCCAC CCAGGCCTGC 
CAGGTGCAGG TTTGCAGCCA CTGGGAAATC CACACCAACT GGAGCTCGTG CTCCGTCCTT 
TGTGGCATGG GCCACCGGAC ACGCCGTGTG CGCTGCGTCG GCAACGACGG CGCCTTCTTG 
AAGGACAGCG ACTGCCCCAG CCGCCACCGG CCCAAGACCA GCGAGGCCTG CGACATGGGA 
CCCTGCGTGC GGACCTGGTT CTACAGCGAG TGGAGCAACA CGTGTTCGGC CGAATGCGGC 
ACCGGCATCC AGCGGCGCTC GGTAGTCTGC CTGTCCAGCG ACGCCAGCGG AGACCCCGAG 
GAGAACTGTG CCGGCACCAA GCCGGCCGAC ATGCGGGCCT GCAACGGGGG GCCCTGCCGG 
AAGGTGAACC TTTGGTACGT GGGACCCTGG AGCCCGTGCT CTTCGGACTG CGGCACTGGC 
ACCCAACGGC GTGATGTGGT CTGCCTCAGC AAACTGGGTG CGGATTACAA TGTGTCAGAG 
GCTTCGGAGT GCGCCCATCT GGAGAAGCCG CCCTCCCTCC AGCCTTGCCA CGGCACCGAG 
TGCGAAGCAC GATGGTATAA CACTGCCTGG AGTGCGTGCT CCCAGTCCTG CCAGGGCGGC 
GTCCAGGTGA GAGAAGCCCA GTGCCTGACC CCAAACCGGA CCCTGAGCCG CCTCTGCCCG 
CCGGACTTCA AGCCGGCCAC CAAGCGGCCT TGCAACGCCC AGCCCTGCCT CCCCGAGATT 
GACGAGAACT GCAAGGACAT CCTCCACAAC TGCCCGGTGA TCATGCAGGC CCGGCTGTGC 
GTCTATTCCT ACTACAAGGT GATTTGCTGC GCGTCCTGTG CGCACGCCTT GGAGCGGCAC 
CAAGTGGGGC CCAACCGGTA G