C2cd5 cDNA ORF clone, Peromyscus maniculatus bairdii(prairie deer mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	C2cd5
Entrez Gene ID	102915404
Full Name	C2 calcium dependent domain containing 5
Gene Type	protein-coding
Organism	Peromyscus maniculatus bairdii(prairie deer mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_016008312.1	XP_015863798.1	C2 domain-containing protein 5

Pathways from BioSystems
Gene Ontology

The following C2cd5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the C2cd5 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
OPe79308	XM_016008312.1 Latest version!	Peromyscus maniculatus bairdii C2 calcium-dependent domain containing 5 (C2cd5), 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)

C2cd5 ( XM_016008312.1 ) cDNA ORF clone, Peromyscus maniculatus bairdii(prairie deer mouse) -> XP_015863798.1 Peromyscus maniculatus bairdii C2 calcium-dependent domain containing 5 (C2cd5), mRNA.

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CloneID	OPe79308
Clone ID Related Accession (Same CDS sequence)	XM_016008312.1
Accession Version	XM_016008312.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4125bp) 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	2016-03-20
Organism	Peromyscus maniculatus bairdii(prairie deer mouse)
Product	C2 domain-containing protein 5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006501477.1) 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 :: Peromyscus maniculatus bairdii Annotation Release 101 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 :: 18% of CDS bases ##RefSeq-Attributes-END##

ATGGTGCGGT GGAAGCTGGT GATGGGGCTT CGTGGGGCTT GTGTTATTAG CAGTGGGGAG 
GAAACAGCTA ACTGCTCGGC TGCAGCAGTC TGTCCAGGAG CCTGCAGAGC GCGGCGTGGC 
TCTATCACCA ACCTCGCGTC CCGGAGGAGC GCAGGCATCT GCGAGCCACA CTTGCACACG 
CACCCGAAAA GGCTGGCTGG GTGGATGATG CAGGGCTCGC CCGGCTTCCC TGCTCCCCAG 
CTCGGCCCCG CCCCTCTCTT CGGGCCCCGG CGAATTCAAA TCGGCCCCGC CGAAGCGGCC 
GAGAGCCGAG TGATCGATCG CTCCCGCCCC ACGGCCGCCA TTTTTGGAAA GGTGGGAGGA 
GAGAGGCGGG GCGGCGCGGC GCCGGCTCCG TGGGATGCTG ACTGGACTCG GAGGCTAGAG 
GTAGTGCGCC GGGGCCAGGG CGGCACGGTG GCCCGGCGCC CCTCCTCCGG CTGCGCCTCC 
GGAATGAGGC TTCGGCGCCC GCGCGGGACG ACCCGGTTCC TCCTCCGAGC GACGCCGCCC 
GGCCACCTGC CAGTCCGAGG CGTGGCCGCG GAGACCTGGC TCGCTCGCCT GCTCGCTGGC 
TCGCACGACC TCGGTTGTGA TGAGGCGGCT AAGGGCCCTT GCTGCAGCGT GTCCACGCAG 
CCAGCTCTCG GGGGACAGCC GCGGCCCCAC GCTATTCTCC TTCAAGTAGA CATGCCAGCT 
CCTTCCTCAG GGCTGATGTC AGGATGCATG TTTTCTGTTT TCTGTGGAGC TGGTCAGGTA 
AAATTTGGTA ATACAACCTT TAAGACAGAT GTGTACCTCA AGTCACTCAA TCCTCAGTGG 
AACTCGGAGT GGTTTAAATT TGAGGTGGAT GATGAAGATT TACAAGATGA ACCTCTGCAG 
ATCACAGTTC TTGACCACGA TACTTACAGT GCAAACGATG CTATTGGCAA GGTGTACATT 
GACATCGATC CTTTGCTTTA TAGTGAAGCT GCGACCGTCA TCTCAGGGTG GTTCCCAATT 
TATGACACCA TCCATGGTAT CCGTGGAGAA ATCAATGTGG TTGTCAAAGT AGACCTCTTC 
AATGATTTAA ACAGATTTAG ACAGTCATCA TGTGGAGTCA AATTCTTTTG CACAACATCT 
ATTCCAAAGT GCTACAGAGC TGTGGTGATC CATGGATTTG TAGAAGAACT TGTGGTCAAT 
GAAGACCCTG AGTATCAATG GATTGATCGT ATTCGCACAC CAAGGGCATC AAATGAGGCC 
AGACAGAGAC TTATTTCTTT AATGTCAGGT GAATTACAGA GAAAGATTGG CTTGAAAGTA 
CTTGAGATGA GAGGAAATGC AGTTGTTGGG TACTTGCAGT GTTTTGATCT GGAAGGCGAG 
TCTGGGTTAG TGGTACGAGC CATAGGAACA GCGTGTACTC TGGATAAATT AAGTAGCCCA 
GCAGCATTCC TCCCTGCATG TAATTCCCCA TCCAAAGAAA TGAAGGAGAT TCCCTTCAAT 
GAAGATCCCA ATCCCAATCC TCACTCATCA GGACCCTCAA CCCCTCTGAA AAACCAAACT 
TATTCCTTTT CACCTTCCAA GTCCTACAGT CGACAGTCCT CTTCTTCTGA CACAGACTTG 
AGTTTGACAC CCAAGACTGC ACCTTACCCA CAGGGGCCTG GGATCTACCT GTGCCCCAGC 
TCCACCCCCC TCTCTTGTGG TTCCCTTCAC CTTAAGTCCC GCCTCCTCTC GGAATCTAGC 
CTTACCCCTC ATCACTCTAG CCTTGTCAGC CCCGTTCTGA GGAAAAGTGT TTCTTTCAGT 
GAAGAGCTGT TCCTGGCTGC TTCTGGAATG GGAAGTGGTA GTGCTGGAAA AGAAGGGGGG 
CCCTTTAAAG CTCTTCTGCG ACAACAGACT CAGTCGGCGT TGGAGCAGCG GGGAGGATCG 
CCTCATAGGT TCTGTAGAAG GCGGGAATTC CCCTTCCTCA CCTTGACGGC CTTTCCTCCT 
GGACTCCTTG TGCATGTCGG TGGTGTGGTT AGTGCACGCT CTGTGAAGCT TTTAGATCGG 
ATCCACAATC CTGCCTTTGT CGGAATTATG GGTAACACAA GATCTTACAA ACTGCTAGAC 
TGGAATAGTT TCAATTCAGA TGAACCAGAA ACTCGAGATG CATGGTGGGC AGAAATCAGA 
CAAGAGATAA AGTCACATGC TAAAGCCTTA GGCTGCCATG CTGTAGTGGG CTACAGCGAG 
TCAACTAGCA TCTGTGAAGA AGTCTGTATT TTATCGGCAT CTGGCACGGC AGCTGTACTG 
AACCCACGGT TTCTGCAGGA AGGCACTGTG GAGGGCTCTT TGGATCAGAG GATTGAAGAA 
AATTTGCCTG TGGGCTGTGG ATTCTGCCAT ATACCATATG ATGAACTAAA CATGCCGTTT 
CCAGCTCATC TCACATATTG TTACAACTGT AGGAAACAAA AAGTCCCTGA TGTTCTCTTT 
ACAACAATAG ACCTGCCCAC TGATGCAGTC GTTGTTGGAA AAGGTTGTCT TATTCAGGCA 
AGGTTATGTC GCTTAAAAAA GAAAGCCCAG GCAGAAGCCA ATGCTACAGC TATCAGTAAT 
CTCCTGCCAT TTATGGAGTA TGAAGTCCAC ACTCAGTTGA TGAACAAGCT TAAACTCAAA 
GGAATGAATG CTTTGTTTGG ACTAAGAATT CAGATCACAG TGGGTGAAAA CATGTTGATG 
GGCTTAGCGT CGGCCACAGG GGTCTACTTA GCAGCTTTAC CAACGCCCGG TGGTATCCAG 
ATTGCTGGGA AGACCCCTAA TGACGGCTCC TATGAGCAGC ACATCTCCCA CATGCAGAAG 
AAAATAAATG ACACGATCGC CAGAAACAAA GAACTGTATG AAATCAATCC TCCGGAAGTA 
CCTGAAGAGA TTCTAGGGTC ACCCATCCCA GAACCTAGAC AGCGCTCAAG ACTTCTAAGA 
TCGCAGTCAG AAAGTTCTGA TGAAGTTACA GAATTAGACC TTTCACATGG GAAAAAAGAT 
GCATTTGTTT TAGAGATCGA TGACACTGAT GCCATGGAAG ATGTGCACTC CCTCCTTACT 
GATGTTCCTC CTCCTTCAGG TTTTTATAGT TGTAATACAG AAATTATGCC TGGCATAAAT 
AATTGGACAT CAGAAATACA GATGTTCACA TCAGTAAGAG TGGTCAGACT GAGCAGCCTC 
AACCTGACTA ACCAAGCTCT CAATAAGAAT TTCAACGGCC TGTGTGAGAA CTTGCTCAAG 
AGCTTATATT TCAAACTCCG CTCCATGACC CCCTGCTGCC TGTGCCATGT GAACTTTACC 
GTGTCTCTGC CTGAAGACGA GTTAATCCAG GTTACAGTCA CAGCAGTTGC AATAACTTTT 
GATAAAAACC AGGCCTTACA GACCACAAAA GCCCATGTCG AAAAGTCATT GCAGAGAGCC 
TCCACAGATA ACGAAGAGCT GCTGCAGTTC CCGCTGGAAC TCTGCTCAGA CTCACTGCCT 
TCTCATGCCT TCCCAGCAAC TAAAGAACAC CTGGAGAGTG CGAGTTCTAA CTCAGGTACA 
CCAGCTGCAC AGAGAGCAAC GTCAGTTGAT TACAGTTCCT TTGCAGACAG ATGCAGCAGC 
TGGATAGAGC TCATTAAACT GAAAGCTCAG ACCATAAGGC GCGGATCAAT TAAGACAACT 
GTGACGGTTG AGAAAGCAAG TCCCATGGGT GATGGAAATT TCCGGAATCG CTCTGCTCCA 
CCTTGTGCAA GTTCCACAGT CGGGGTTGTT AAGATGACGC CTCTTTCTTT CATTCCTGGA 
GCAAAGATAA CAAAATATCT CGGCATCATT AACATGTTTT TTATTAGAGA AACTACTTCT 
CTCCGTGAGG AAGGAGGAGT CAGCGGTTTC CTCCATGCTT TCATTGCTGA AGTGTTTGCC 
ATGGTAAGAG CTCACGTCGC TGCACTGGGA GGGAATGCTG TTGTTTCCTA CATCATGAAG 
CAGTGTGTCT TCATGGAGAA TCCCAGTAAG AACCAGGCGC AGTGTCTCAT CAACGTCAGT 
GGTGATGCGG TGGTTTTTGT TCGTGAATCT GACTTAGAGG TCATGTCAAC TCAGCAGCCA 
GCTGTCAACT GCCAGCCGTC GTGTACTGGA GAAGTTACAA CCTGA

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

RefSeq	XP_015863798.1
CDS	1..4125
Translation	MVRWKLVMGLRGACVISSGEETANCSAAAVCPGACRARRGSITNLASRRSAGICEPHLHTHPKRLAGWMMQGSPGFPAPQLGPAPLFGPRRIQIGPAEAAESRVIDRSRPTAAIFGKVGGERRGGAAPAPWDADWTRRLEVVRRGQGGTVARRPSSGCASGMRLRRPRGTTRFLLRATPPGHLPVRGVAAETWLARLLAGSHDLGCDEAAKGPCCSVSTQPALGGQPRPHAILLQVDMPAPSSGLMSGCMFSVFCGAGQVKFGNTTFKTDVYLKSLNPQWNSEWFKFEVDDEDLQDEPLQITVLDHDTYSANDAIGKVYIDIDPLLYSEAATVISGWFPIYDTIHGIRGEINVVVKVDLFNDLNRFRQSSCGVKFFCTTSIPKCYRAVVIHGFVEELVVNEDPEYQWIDRIRTPRASNEARQRLISLMSGELQRKIGLKVLEMRGNAVVGYLQCFDLEGESGLVVRAIGTACTLDKLSSPAAFLPACNSPSKEMKEIPFNEDPNPNPHSSGPSTPLKNQTYSFSPSKSYSRQSSSSDTDLSLTPKTAPYPQGPGIYLCPSSTPLSCGSLHLKSRLLSESSLTPHHSSLVSPVLRKSVSFSEELFLAASGMGSGSAGKEGGPFKALLRQQTQSALEQRGGSPHRFCRRREFPFLTLTAFPPGLLVHVGGVVSARSVKLLDRIHNPAFVGIMGNTRSYKLLDWNSFNSDEPETRDAWWAEIRQEIKSHAKALGCHAVVGYSESTSICEEVCILSASGTAAVLNPRFLQEGTVEGSLDQRIEENLPVGCGFCHIPYDELNMPFPAHLTYCYNCRKQKVPDVLFTTIDLPTDAVVVGKGCLIQARLCRLKKKAQAEANATAISNLLPFMEYEVHTQLMNKLKLKGMNALFGLRIQITVGENMLMGLASATGVYLAALPTPGGIQIAGKTPNDGSYEQHISHMQKKINDTIARNKELYEINPPEVPEEILGSPIPEPRQRSRLLRSQSESSDEVTELDLSHGKKDAFVLEIDDTDAMEDVHSLLTDVPPPSGFYSCNTEIMPGINNWTSEIQMFTSVRVVRLSSLNLTNQALNKNFNGLCENLLKSLYFKLRSMTPCCLCHVNFTVSLPEDELIQVTVTAVAITFDKNQALQTTKAHVEKSLQRASTDNEELLQFPLELCSDSLPSHAFPATKEHLESASSNSGTPAAQRATSVDYSSFADRCSSWIELIKLKAQTIRRGSIKTTVTVEKASPMGDGNFRNRSAPPCASSTVGVVKMTPLSFIPGAKITKYLGIINMFFIRETTSLREEGGVSGFLHAFIAEVFAMVRAHVAALGGNAVVSYIMKQCVFMENPSKNQAQCLINVSGDAVVFVRESDLEVMSTQQPAVNCQPSCTGEVTT

Target ORF information:

RefSeq Version	XM_016008312.1
Organism	Peromyscus maniculatus bairdii(prairie deer mouse)
Definition	Peromyscus maniculatus bairdii C2 calcium-dependent domain containing 5 (C2cd5), mRNA.

Target ORF information:

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

XM_016008312.1

ORF Insert Sequence:

ATGGTGCGGT GGAAGCTGGT GATGGGGCTT CGTGGGGCTT GTGTTATTAG CAGTGGGGAG 
GAAACAGCTA ACTGCTCGGC TGCAGCAGTC TGTCCAGGAG CCTGCAGAGC GCGGCGTGGC 
TCTATCACCA ACCTCGCGTC CCGGAGGAGC GCAGGCATCT GCGAGCCACA CTTGCACACG 
CACCCGAAAA GGCTGGCTGG GTGGATGATG CAGGGCTCGC CCGGCTTCCC TGCTCCCCAG 
CTCGGCCCCG CCCCTCTCTT CGGGCCCCGG CGAATTCAAA TCGGCCCCGC CGAAGCGGCC 
GAGAGCCGAG TGATCGATCG CTCCCGCCCC ACGGCCGCCA TTTTTGGAAA GGTGGGAGGA 
GAGAGGCGGG GCGGCGCGGC GCCGGCTCCG TGGGATGCTG ACTGGACTCG GAGGCTAGAG 
GTAGTGCGCC GGGGCCAGGG CGGCACGGTG GCCCGGCGCC CCTCCTCCGG CTGCGCCTCC 
GGAATGAGGC TTCGGCGCCC GCGCGGGACG ACCCGGTTCC TCCTCCGAGC GACGCCGCCC 
GGCCACCTGC CAGTCCGAGG CGTGGCCGCG GAGACCTGGC TCGCTCGCCT GCTCGCTGGC 
TCGCACGACC TCGGTTGTGA TGAGGCGGCT AAGGGCCCTT GCTGCAGCGT GTCCACGCAG 
CCAGCTCTCG GGGGACAGCC GCGGCCCCAC GCTATTCTCC TTCAAGTAGA CATGCCAGCT 
CCTTCCTCAG GGCTGATGTC AGGATGCATG TTTTCTGTTT TCTGTGGAGC TGGTCAGGTA 
AAATTTGGTA ATACAACCTT TAAGACAGAT GTGTACCTCA AGTCACTCAA TCCTCAGTGG 
AACTCGGAGT GGTTTAAATT TGAGGTGGAT GATGAAGATT TACAAGATGA ACCTCTGCAG 
ATCACAGTTC TTGACCACGA TACTTACAGT GCAAACGATG CTATTGGCAA GGTGTACATT 
GACATCGATC CTTTGCTTTA TAGTGAAGCT GCGACCGTCA TCTCAGGGTG GTTCCCAATT 
TATGACACCA TCCATGGTAT CCGTGGAGAA ATCAATGTGG TTGTCAAAGT AGACCTCTTC 
AATGATTTAA ACAGATTTAG ACAGTCATCA TGTGGAGTCA AATTCTTTTG CACAACATCT 
ATTCCAAAGT GCTACAGAGC TGTGGTGATC CATGGATTTG TAGAAGAACT TGTGGTCAAT 
GAAGACCCTG AGTATCAATG GATTGATCGT ATTCGCACAC CAAGGGCATC AAATGAGGCC 
AGACAGAGAC TTATTTCTTT AATGTCAGGT GAATTACAGA GAAAGATTGG CTTGAAAGTA 
CTTGAGATGA GAGGAAATGC AGTTGTTGGG TACTTGCAGT GTTTTGATCT GGAAGGCGAG 
TCTGGGTTAG TGGTACGAGC CATAGGAACA GCGTGTACTC TGGATAAATT AAGTAGCCCA 
GCAGCATTCC TCCCTGCATG TAATTCCCCA TCCAAAGAAA TGAAGGAGAT TCCCTTCAAT 
GAAGATCCCA ATCCCAATCC TCACTCATCA GGACCCTCAA CCCCTCTGAA AAACCAAACT 
TATTCCTTTT CACCTTCCAA GTCCTACAGT CGACAGTCCT CTTCTTCTGA CACAGACTTG 
AGTTTGACAC CCAAGACTGC ACCTTACCCA CAGGGGCCTG GGATCTACCT GTGCCCCAGC 
TCCACCCCCC TCTCTTGTGG TTCCCTTCAC CTTAAGTCCC GCCTCCTCTC GGAATCTAGC 
CTTACCCCTC ATCACTCTAG CCTTGTCAGC CCCGTTCTGA GGAAAAGTGT TTCTTTCAGT 
GAAGAGCTGT TCCTGGCTGC TTCTGGAATG GGAAGTGGTA GTGCTGGAAA AGAAGGGGGG 
CCCTTTAAAG CTCTTCTGCG ACAACAGACT CAGTCGGCGT TGGAGCAGCG GGGAGGATCG 
CCTCATAGGT TCTGTAGAAG GCGGGAATTC CCCTTCCTCA CCTTGACGGC CTTTCCTCCT 
GGACTCCTTG TGCATGTCGG TGGTGTGGTT AGTGCACGCT CTGTGAAGCT TTTAGATCGG 
ATCCACAATC CTGCCTTTGT CGGAATTATG GGTAACACAA GATCTTACAA ACTGCTAGAC 
TGGAATAGTT TCAATTCAGA TGAACCAGAA ACTCGAGATG CATGGTGGGC AGAAATCAGA 
CAAGAGATAA AGTCACATGC TAAAGCCTTA GGCTGCCATG CTGTAGTGGG CTACAGCGAG 
TCAACTAGCA TCTGTGAAGA AGTCTGTATT TTATCGGCAT CTGGCACGGC AGCTGTACTG 
AACCCACGGT TTCTGCAGGA AGGCACTGTG GAGGGCTCTT TGGATCAGAG GATTGAAGAA 
AATTTGCCTG TGGGCTGTGG ATTCTGCCAT ATACCATATG ATGAACTAAA CATGCCGTTT 
CCAGCTCATC TCACATATTG TTACAACTGT AGGAAACAAA AAGTCCCTGA TGTTCTCTTT 
ACAACAATAG ACCTGCCCAC TGATGCAGTC GTTGTTGGAA AAGGTTGTCT TATTCAGGCA 
AGGTTATGTC GCTTAAAAAA GAAAGCCCAG GCAGAAGCCA ATGCTACAGC TATCAGTAAT 
CTCCTGCCAT TTATGGAGTA TGAAGTCCAC ACTCAGTTGA TGAACAAGCT TAAACTCAAA 
GGAATGAATG CTTTGTTTGG ACTAAGAATT CAGATCACAG TGGGTGAAAA CATGTTGATG 
GGCTTAGCGT CGGCCACAGG GGTCTACTTA GCAGCTTTAC CAACGCCCGG TGGTATCCAG 
ATTGCTGGGA AGACCCCTAA TGACGGCTCC TATGAGCAGC ACATCTCCCA CATGCAGAAG 
AAAATAAATG ACACGATCGC CAGAAACAAA GAACTGTATG AAATCAATCC TCCGGAAGTA 
CCTGAAGAGA TTCTAGGGTC ACCCATCCCA GAACCTAGAC AGCGCTCAAG ACTTCTAAGA 
TCGCAGTCAG AAAGTTCTGA TGAAGTTACA GAATTAGACC TTTCACATGG GAAAAAAGAT 
GCATTTGTTT TAGAGATCGA TGACACTGAT GCCATGGAAG ATGTGCACTC CCTCCTTACT 
GATGTTCCTC CTCCTTCAGG TTTTTATAGT TGTAATACAG AAATTATGCC TGGCATAAAT 
AATTGGACAT CAGAAATACA GATGTTCACA TCAGTAAGAG TGGTCAGACT GAGCAGCCTC 
AACCTGACTA ACCAAGCTCT CAATAAGAAT TTCAACGGCC TGTGTGAGAA CTTGCTCAAG 
AGCTTATATT TCAAACTCCG CTCCATGACC CCCTGCTGCC TGTGCCATGT GAACTTTACC 
GTGTCTCTGC CTGAAGACGA GTTAATCCAG GTTACAGTCA CAGCAGTTGC AATAACTTTT 
GATAAAAACC AGGCCTTACA GACCACAAAA GCCCATGTCG AAAAGTCATT GCAGAGAGCC 
TCCACAGATA ACGAAGAGCT GCTGCAGTTC CCGCTGGAAC TCTGCTCAGA CTCACTGCCT 
TCTCATGCCT TCCCAGCAAC TAAAGAACAC CTGGAGAGTG CGAGTTCTAA CTCAGGTACA 
CCAGCTGCAC AGAGAGCAAC GTCAGTTGAT TACAGTTCCT TTGCAGACAG ATGCAGCAGC 
TGGATAGAGC TCATTAAACT GAAAGCTCAG ACCATAAGGC GCGGATCAAT TAAGACAACT 
GTGACGGTTG AGAAAGCAAG TCCCATGGGT GATGGAAATT TCCGGAATCG CTCTGCTCCA 
CCTTGTGCAA GTTCCACAGT CGGGGTTGTT AAGATGACGC CTCTTTCTTT CATTCCTGGA 
GCAAAGATAA CAAAATATCT CGGCATCATT AACATGTTTT TTATTAGAGA AACTACTTCT 
CTCCGTGAGG AAGGAGGAGT CAGCGGTTTC CTCCATGCTT TCATTGCTGA AGTGTTTGCC 
ATGGTAAGAG CTCACGTCGC TGCACTGGGA GGGAATGCTG TTGTTTCCTA CATCATGAAG 
CAGTGTGTCT TCATGGAGAA TCCCAGTAAG AACCAGGCGC AGTGTCTCAT CAACGTCAGT 
GGTGATGCGG TGGTTTTTGT TCGTGAATCT GACTTAGAGG TCATGTCAAC TCAGCAGCCA 
GCTGTCAACT GCCAGCCGTC GTGTACTGGA GAAGTTACAA CCTGA