camta2 cDNA ORF clone, Poecilia latipinna(sailfin molly)

Gene
Clones
gRNAs

Summary

Gene Symbol	camta2
Entrez Gene ID	106958326
Full Name	calmodulin binding transcription activator 2
Gene Type	protein-coding
Organism	Poecilia latipinna(sailfin molly)

mRNA and Protein(s)

mRNA	Protein	Name
XM_015050174.1	XP_014905660.1	calmodulin-binding transcription activator 2

Pathways from BioSystems
Gene Ontology

The following camta2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the camta2 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
OPo68552	XM_015050174.1 Latest version!	Poecilia latipinna calmodulin binding transcription activator 2 (camta2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$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)

camta2 ( XM_015050174.1 ) cDNA ORF clone, Poecilia latipinna(sailfin molly) -> XP_014905660.1 Poecilia latipinna calmodulin binding transcription activator 2 (camta2), mRNA.

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CloneID	OPo68552
Clone ID Related Accession (Same CDS sequence)	XM_015050174.1
Accession Version	XM_015050174.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3849bp) 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	2015-12-14
Organism	Poecilia latipinna(sailfin molly)
Product	calmodulin-binding transcription activator 2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015113595.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Poecilia latipinna Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGAGCAACA AGGAGATGGT TTCCACGGAG ACAGCAGAGA ATAAAGGCCA GAGGAAGGTG 
TTTGTTCCCA ACAAGCTGCT GGACTGCCTG CCGCGCTCGG CATGCCTGCC TAACGAGCGT 
CTGAGGTGGA ACACTAACGA GGAAATCGCC TCCTACCTGA TATCCTTCGA CAGACACGAC 
GAGTGGCTCT GCTGCTCCCT GAAGACCAGG CCGAAGAACG GCAGCATCAT CCTCTACAAC 
AGGAAGAAGG TGAAGTACAG GAAGGACGGC TACTGCTGGA AGAAGAGGAA GGATGGGAAG 
ACGACGAGAG AGGACCACAT GAAGCTGAAG GTCCAGGGCA TGGAGTGCCT CTACGGCTGC 
TACGTCCATT CCTCCATCGT GCCAACATTC CACAGACGAT GCTACTGGCT GCTGCAGAAC 
CCAGACATCG TGCTGGTCCA CTACCTGAAC GTGCCGTCAC CAGAGGATTC TGGGAGATGC 
AGTCCTTTGC TGTGCACGGT GTCTGAGCGC CACGACACCC TGAGGTGGAG CCGGGACGAC 
CTGCTGGGCC AGCTGAAGCC CATGTTCCAC AGCATCAAGT GCTCCATGGG TTCTGGAGAC 
TTCAGCATCG AGGAGCTGGT GCAGCACATC CTGGACCGGC AGAGAACCAA ACCACAGCCC 
CGCACACACG CCTGCCTCTG CAGCACAAAC CAAGTGTCAC CAGGAGTGAA CATTCCCCAC 
CGCTGCAACA GCACCAAGCA TCGGATCATC TCCCCCAAAC TGCCACCGTC CTCCTCAGGA 
CCTGCCGCCT CCCCGCCGTC CTCCGAACCG GGAGAGTCAG GGAGAGGGGG AGGAGAGAGT 
AAGCTACCCC AGCTGCAGCC TCAGAGCCCC GCGTCCTCCC CCAGCCCTTC ATCCACGTCT 
GCCCCCCCTC CCTCGCTCGC CCTCTCCCTG TCTCCCACCT CCTCTGTGGC CCCTCCCCTC 
CTGCCGCTCT GCCTGGAGCT GGGCGCGCTG GGGGAGTCCG ACGGGGTGAA GGAGGAGTCC 
CGGTCTGAGG AAGAGGAGCT GGATGAGCGG ACTGATGATG ATGATGAAGG CAGTGCCCCC 
CCCACCAAGC TGGTCCTGCT TCAGACAAGC CACGCCCCCT CCAGCCCGTC TCCTAGGCAA 
CACACAGACA GTGGCTCCGC CCCCCTCCTG CTGGCCTCCC AGGATCGGCC AGGTGAACCA 
TCCCAGCCCA CCAATCAGAC GCCGGCACCG CCTGGAGGGC AGCAGCCATT GGTCCTGCCG 
TCGTCCAATC AGCTGCCCGG ACCTGAAGCT CCGCCCCCTG CTGAGAGTTC CCATCAGCAC 
CTGGAGCTGC TGTCAAGCTC GGCAGCTGTT GCCATGGAGA CAGCCTCCCT AGCAACGGTC 
CAGGTGAAGG AGGAGAGGAG GCGGCGCTAC GACTCTGAGG ACGCCTGCAT GGACAGCCAG 
GAGGAGGCGG AGCCTGAGGA GCTGGACATC TCCTTCGACA GCCAGTTCCC CGACCTGATC 
TCTGACCTCA TCACCGATGA GCCGGGCCCC GCCGCCGCCC CTCCGGCTCC GCCCAGCGCA 
TCGGGTCCGG CCGTGTTCCC CACCGGCGTC CGCTACGTGG TTCCGCCGCA GCCGTCGCCG 
TCCTCCTCCT TCCTGCCGTT CCCCCAGCCG CTGCCCGCCG CCGCCCGCCT GGCCGCCATC 
ACAGACTTCT CCCCGGAGTG GTCCTACCCA GAGGGCGGAG TGAAGGTTCT GATCACCGGG 
CCGTGGAGCG AGCCGTCGGG TCGGTACTCC TGCGTGTTCG ATCAGAGCGC CGTCCCCGCT 
TCCCTCATCC AGCCCGGGGT TCTGCGCTGC TACTGCCCAG CCCACGAGGC TGGCCTGGTG 
TGTCTGCAGG TTCTGGAGTC CGGTGGGTCG GTGTCGTCGT CGGTTCTGTT CGAGTACAGA 
GCGAGGAACG CCAGCTCTCT GCCCAGCTCC CAGCTGGACT GGCTCTCATT GGACGACAAC 
CAGTTCAGGA TGTCCATCCT GGAGCGGCTG GAGCAGATGG AGCGCCGGAT GGCGGAGATG 
GCGGCTCGGG ACGGCCTTCA TCATCATCAT CATCAGCAGC AGCAGCAGAG TGGGAACCAG 
CTGGCCACGC CCCCTCCTCT ACCTGATGAC CAGCAGCAGT GTTCCCAGTG GTTTGAGAGG 
AGGATCGTTG GTGTGTGTGA GCGGATGATG AGAGGAGCGT GCTGGGGAGG AAGAGGAGGA 
GGAAGAGGAG AGAGCCTTCG TCACTCGGCC GGTCACCGTG GGATGACGCT GCTGCACCTG 
GCTGCTGCCC AGGGCTACAC CCACCTGATC CACACCCTGA TCCACTGGAG GGCGATGAGC 
AGCGACAGTC TGGACCTGGA ACAGGAAGTG GACCCCCTGA ACATCGACCA CTTCTCCTGC 
ACGCCGCTGA TGTGGGCGTG CGCCCTGGGC CACCAGAGGG CAGCAGAGCT GCTGTACAGC 
TGGAACGGCC TGGCGCTGGG CATCCCCGAC TCGCTGGGCC GCCTGCCGCT CGCCGTGGCG 
CGCTCCCGTG GCCACACCCG CCTCGCCGCC GCACTGGAGG AGCTGCACAC ACAGCGCTCT 
CAGGCGGCCA CCAGGGACGG GCCGCCGCCG TCCCCTCTGT CCACCAGCCT GGACACAGGT 
CTCAGCTCCT CCAGCAGTCT CCCCTCACCC AGCGACCCGT CCTCGCCGTC CCCCAGCTCC 
GCCTACTCCA GTGGCCCCGC CCCCATGGAC ACCTCCCCCT CGTCTCCATC ATCGCTCTCC 
TCTTCCTCGC TGTCCATCTC TCCTTCTTCC CCGTCCTTCA TTCAGTCCAC CGTTCCCTTG 
GCGTCCATGT GGAGGGAGGA GCCTAACCCG ACTGTCAGCA CAGGTAACCC TGGTTTAACC 
GCCAGCGGCT CCAGAGACCT GATGGACTAC AAGAACGCCC CGCCCACAGA CACGCCCCCT 
CAGAGCGCGG GGCGGCGGGC GCTGCTGGAG GAGCAGCTGC TGAGCTACGG CGAGAACGCC 
GAGAATGAAG GAGAGGAGGA GGAGTACCTG GAGGACGAGG TGCTGCAGGT GGACATGGCG 
ACGCTGGCGG AGCAGATCAT CGAGGCGACG CCGGAGCGAA TCAAACAGGA GGATTTCCCC 
CGGGGGGCGG AGTCTCCGCT CAGAGAGAGG CGGGACAACC CGGCCATCCA GGACACCTGG 
TTGGCCACCT ACCTGGAGAC GGTGGACAGC CAGTCCCCGC CCAGGCGGGT CTGCCCCCCC 
TCGCCGCTCA GCGCTCTGGC TCTCCAGAGG CTCCGCCCCC CGTCGTCCGC GGCGTGGGCG 
GAGTTCCTGA ACGCCTCGGC CAATGGGAAG ATGGAGAGAG ACTTCGCTCT GCTGACGCTG 
ACGGACGGCG AGCAGAGGGA GCTGTACGAG GCCGCCCGCA TCATCCAGAA CGCCTTCCGC 
CGATACAAGG GTCGAAGGTT AAAGGAGCAG CAGGACATGG CGGCCGCCGT CATCCAGAGG 
TGCTACAGGA AGTACAAACA GCTAACATGG ATAGCTCTGA AGTACGCGCT CTACAAGAAG 
ATGACCCAGG CGGCCATCTT GATCCAGTCC AAGTTCCGGT CGTACTACGA GCAGAAGCGG 
TTCCAGCAGA GCCGGCGGGC CGCCGTGCTG ATCCAGCAGT ACTACCGCAG CTACAAGGAG 
TACGAGAGGC TGAAGCAGGC GCCACGAGGG GGCGCCGCAC TCAACCCCAA GAGCAACAGG 
GGGTCGTTCC TGACGAAGAA GCAGGACCAG GCGGCCCGGA AGATCATGAG GTTCCTGCGG 
CGCTGCAGAC ACAGGATCAA AGAGCTGAAG CAGAGCAGGG AGCTGGAGCG GAGAGGACTG 
ACCACGTAG

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

RefSeq	XP_014905660.1
CDS	250..4098
Translation	MSNKEMVSTETAENKGQRKVFVPNKLLDCLPRSACLPNERLRWNTNEEIASYLISFDRHDEWLCCSLKTRPKNGSIILYNRKKVKYRKDGYCWKKRKDGKTTREDHMKLKVQGMECLYGCYVHSSIVPTFHRRCYWLLQNPDIVLVHYLNVPSPEDSGRCSPLLCTVSERHDTLRWSRDDLLGQLKPMFHSIKCSMGSGDFSIEELVQHILDRQRTKPQPRTHACLCSTNQVSPGVNIPHRCNSTKHRIISPKLPPSSSGPAASPPSSEPGESGRGGGESKLPQLQPQSPASSPSPSSTSAPPPSLALSLSPTSSVAPPLLPLCLELGALGESDGVKEESRSEEEELDERTDDDDEGSAPPTKLVLLQTSHAPSSPSPRQHTDSGSAPLLLASQDRPGEPSQPTNQTPAPPGGQQPLVLPSSNQLPGPEAPPPAESSHQHLELLSSSAAVAMETASLATVQVKEERRRRYDSEDACMDSQEEAEPEELDISFDSQFPDLISDLITDEPGPAAAPPAPPSASGPAVFPTGVRYVVPPQPSPSSSFLPFPQPLPAAARLAAITDFSPEWSYPEGGVKVLITGPWSEPSGRYSCVFDQSAVPASLIQPGVLRCYCPAHEAGLVCLQVLESGGSVSSSVLFEYRARNASSLPSSQLDWLSLDDNQFRMSILERLEQMERRMAEMAARDGLHHHHHQQQQQSGNQLATPPPLPDDQQQCSQWFERRIVGVCERMMRGACWGGRGGGRGESLRHSAGHRGMTLLHLAAAQGYTHLIHTLIHWRAMSSDSLDLEQEVDPLNIDHFSCTPLMWACALGHQRAAELLYSWNGLALGIPDSLGRLPLAVARSRGHTRLAAALEELHTQRSQAATRDGPPPSPLSTSLDTGLSSSSSLPSPSDPSSPSPSSAYSSGPAPMDTSPSSPSSLSSSSLSISPSSPSFIQSTVPLASMWREEPNPTVSTGNPGLTASGSRDLMDYKNAPPTDTPPQSAGRRALLEEQLLSYGENAENEGEEEEYLEDEVLQVDMATLAEQIIEATPERIKQEDFPRGAESPLRERRDNPAIQDTWLATYLETVDSQSPPRRVCPPSPLSALALQRLRPPSSAAWAEFLNASANGKMERDFALLTLTDGEQRELYEAARIIQNAFRRYKGRRLKEQQDMAAAVIQRCYRKYKQLTWIALKYALYKKMTQAAILIQSKFRSYYEQKRFQQSRRAAVLIQQYYRSYKEYERLKQAPRGGAALNPKSNRGSFLTKKQDQAARKIMRFLRRCRHRIKELKQSRELERRGLTT

Target ORF information:

RefSeq Version	XM_015050174.1
Organism	Poecilia latipinna(sailfin molly)
Definition	Poecilia latipinna calmodulin binding transcription activator 2 (camta2), mRNA.

Target ORF information:

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

XM_015050174.1

ORF Insert Sequence:

ATGAGCAACA AGGAGATGGT TTCCACGGAG ACAGCAGAGA ATAAAGGCCA GAGGAAGGTG 
TTTGTTCCCA ACAAGCTGCT GGACTGCCTG CCGCGCTCGG CATGCCTGCC TAACGAGCGT 
CTGAGGTGGA ACACTAACGA GGAAATCGCC TCCTACCTGA TATCCTTCGA CAGACACGAC 
GAGTGGCTCT GCTGCTCCCT GAAGACCAGG CCGAAGAACG GCAGCATCAT CCTCTACAAC 
AGGAAGAAGG TGAAGTACAG GAAGGACGGC TACTGCTGGA AGAAGAGGAA GGATGGGAAG 
ACGACGAGAG AGGACCACAT GAAGCTGAAG GTCCAGGGCA TGGAGTGCCT CTACGGCTGC 
TACGTCCATT CCTCCATCGT GCCAACATTC CACAGACGAT GCTACTGGCT GCTGCAGAAC 
CCAGACATCG TGCTGGTCCA CTACCTGAAC GTGCCGTCAC CAGAGGATTC TGGGAGATGC 
AGTCCTTTGC TGTGCACGGT GTCTGAGCGC CACGACACCC TGAGGTGGAG CCGGGACGAC 
CTGCTGGGCC AGCTGAAGCC CATGTTCCAC AGCATCAAGT GCTCCATGGG TTCTGGAGAC 
TTCAGCATCG AGGAGCTGGT GCAGCACATC CTGGACCGGC AGAGAACCAA ACCACAGCCC 
CGCACACACG CCTGCCTCTG CAGCACAAAC CAAGTGTCAC CAGGAGTGAA CATTCCCCAC 
CGCTGCAACA GCACCAAGCA TCGGATCATC TCCCCCAAAC TGCCACCGTC CTCCTCAGGA 
CCTGCCGCCT CCCCGCCGTC CTCCGAACCG GGAGAGTCAG GGAGAGGGGG AGGAGAGAGT 
AAGCTACCCC AGCTGCAGCC TCAGAGCCCC GCGTCCTCCC CCAGCCCTTC ATCCACGTCT 
GCCCCCCCTC CCTCGCTCGC CCTCTCCCTG TCTCCCACCT CCTCTGTGGC CCCTCCCCTC 
CTGCCGCTCT GCCTGGAGCT GGGCGCGCTG GGGGAGTCCG ACGGGGTGAA GGAGGAGTCC 
CGGTCTGAGG AAGAGGAGCT GGATGAGCGG ACTGATGATG ATGATGAAGG CAGTGCCCCC 
CCCACCAAGC TGGTCCTGCT TCAGACAAGC CACGCCCCCT CCAGCCCGTC TCCTAGGCAA 
CACACAGACA GTGGCTCCGC CCCCCTCCTG CTGGCCTCCC AGGATCGGCC AGGTGAACCA 
TCCCAGCCCA CCAATCAGAC GCCGGCACCG CCTGGAGGGC AGCAGCCATT GGTCCTGCCG 
TCGTCCAATC AGCTGCCCGG ACCTGAAGCT CCGCCCCCTG CTGAGAGTTC CCATCAGCAC 
CTGGAGCTGC TGTCAAGCTC GGCAGCTGTT GCCATGGAGA CAGCCTCCCT AGCAACGGTC 
CAGGTGAAGG AGGAGAGGAG GCGGCGCTAC GACTCTGAGG ACGCCTGCAT GGACAGCCAG 
GAGGAGGCGG AGCCTGAGGA GCTGGACATC TCCTTCGACA GCCAGTTCCC CGACCTGATC 
TCTGACCTCA TCACCGATGA GCCGGGCCCC GCCGCCGCCC CTCCGGCTCC GCCCAGCGCA 
TCGGGTCCGG CCGTGTTCCC CACCGGCGTC CGCTACGTGG TTCCGCCGCA GCCGTCGCCG 
TCCTCCTCCT TCCTGCCGTT CCCCCAGCCG CTGCCCGCCG CCGCCCGCCT GGCCGCCATC 
ACAGACTTCT CCCCGGAGTG GTCCTACCCA GAGGGCGGAG TGAAGGTTCT GATCACCGGG 
CCGTGGAGCG AGCCGTCGGG TCGGTACTCC TGCGTGTTCG ATCAGAGCGC CGTCCCCGCT 
TCCCTCATCC AGCCCGGGGT TCTGCGCTGC TACTGCCCAG CCCACGAGGC TGGCCTGGTG 
TGTCTGCAGG TTCTGGAGTC CGGTGGGTCG GTGTCGTCGT CGGTTCTGTT CGAGTACAGA 
GCGAGGAACG CCAGCTCTCT GCCCAGCTCC CAGCTGGACT GGCTCTCATT GGACGACAAC 
CAGTTCAGGA TGTCCATCCT GGAGCGGCTG GAGCAGATGG AGCGCCGGAT GGCGGAGATG 
GCGGCTCGGG ACGGCCTTCA TCATCATCAT CATCAGCAGC AGCAGCAGAG TGGGAACCAG 
CTGGCCACGC CCCCTCCTCT ACCTGATGAC CAGCAGCAGT GTTCCCAGTG GTTTGAGAGG 
AGGATCGTTG GTGTGTGTGA GCGGATGATG AGAGGAGCGT GCTGGGGAGG AAGAGGAGGA 
GGAAGAGGAG AGAGCCTTCG TCACTCGGCC GGTCACCGTG GGATGACGCT GCTGCACCTG 
GCTGCTGCCC AGGGCTACAC CCACCTGATC CACACCCTGA TCCACTGGAG GGCGATGAGC 
AGCGACAGTC TGGACCTGGA ACAGGAAGTG GACCCCCTGA ACATCGACCA CTTCTCCTGC 
ACGCCGCTGA TGTGGGCGTG CGCCCTGGGC CACCAGAGGG CAGCAGAGCT GCTGTACAGC 
TGGAACGGCC TGGCGCTGGG CATCCCCGAC TCGCTGGGCC GCCTGCCGCT CGCCGTGGCG 
CGCTCCCGTG GCCACACCCG CCTCGCCGCC GCACTGGAGG AGCTGCACAC ACAGCGCTCT 
CAGGCGGCCA CCAGGGACGG GCCGCCGCCG TCCCCTCTGT CCACCAGCCT GGACACAGGT 
CTCAGCTCCT CCAGCAGTCT CCCCTCACCC AGCGACCCGT CCTCGCCGTC CCCCAGCTCC 
GCCTACTCCA GTGGCCCCGC CCCCATGGAC ACCTCCCCCT CGTCTCCATC ATCGCTCTCC 
TCTTCCTCGC TGTCCATCTC TCCTTCTTCC CCGTCCTTCA TTCAGTCCAC CGTTCCCTTG 
GCGTCCATGT GGAGGGAGGA GCCTAACCCG ACTGTCAGCA CAGGTAACCC TGGTTTAACC 
GCCAGCGGCT CCAGAGACCT GATGGACTAC AAGAACGCCC CGCCCACAGA CACGCCCCCT 
CAGAGCGCGG GGCGGCGGGC GCTGCTGGAG GAGCAGCTGC TGAGCTACGG CGAGAACGCC 
GAGAATGAAG GAGAGGAGGA GGAGTACCTG GAGGACGAGG TGCTGCAGGT GGACATGGCG 
ACGCTGGCGG AGCAGATCAT CGAGGCGACG CCGGAGCGAA TCAAACAGGA GGATTTCCCC 
CGGGGGGCGG AGTCTCCGCT CAGAGAGAGG CGGGACAACC CGGCCATCCA GGACACCTGG 
TTGGCCACCT ACCTGGAGAC GGTGGACAGC CAGTCCCCGC CCAGGCGGGT CTGCCCCCCC 
TCGCCGCTCA GCGCTCTGGC TCTCCAGAGG CTCCGCCCCC CGTCGTCCGC GGCGTGGGCG 
GAGTTCCTGA ACGCCTCGGC CAATGGGAAG ATGGAGAGAG ACTTCGCTCT GCTGACGCTG 
ACGGACGGCG AGCAGAGGGA GCTGTACGAG GCCGCCCGCA TCATCCAGAA CGCCTTCCGC 
CGATACAAGG GTCGAAGGTT AAAGGAGCAG CAGGACATGG CGGCCGCCGT CATCCAGAGG 
TGCTACAGGA AGTACAAACA GCTAACATGG ATAGCTCTGA AGTACGCGCT CTACAAGAAG 
ATGACCCAGG CGGCCATCTT GATCCAGTCC AAGTTCCGGT CGTACTACGA GCAGAAGCGG 
TTCCAGCAGA GCCGGCGGGC CGCCGTGCTG ATCCAGCAGT ACTACCGCAG CTACAAGGAG 
TACGAGAGGC TGAAGCAGGC GCCACGAGGG GGCGCCGCAC TCAACCCCAA GAGCAACAGG 
GGGTCGTTCC TGACGAAGAA GCAGGACCAG GCGGCCCGGA AGATCATGAG GTTCCTGCGG 
CGCTGCAGAC ACAGGATCAA AGAGCTGAAG CAGAGCAGGG AGCTGGAGCG GAGAGGACTG 
ACCACGTAG