CPD cDNA ORF clone, Tupaia chinensis(Chinese tree shrew)

Gene
Clones
gRNAs

Summary

Gene Symbol	CPD
Entrez Gene ID	102482407
Full Name	carboxypeptidase D
Gene Type	protein-coding
Organism	Tupaia chinensis(Chinese tree shrew)

mRNA and Protein(s)

mRNA	Protein	Name
XM_006169621.3	XP_006169683.2	carboxypeptidase D
XM_006169621.2	XP_006169683.2	carboxypeptidase D

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

Sodium taurocholate cotransporting polypeptide is a functional receptor for human hepatitis B and D virus.
Yan H, Zhong G, Xu G, He W, Jing Z, Gao Z, Huang Y, Qi Y, Peng B, Wang H, Fu L, Song M, Chen P, Gao W, Ren B, Sun Y, Cai T, Feng X, Sui J, Li W
eLife1e00049(2012 Nov)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following CPD gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CPD 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)
OTu27451	XM_006169621.3 Latest version!	Tupaia chinensis carboxypeptidase D (CPD), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$797.30 $1139.00
View Old Accession Versions >>
OTu27451	XM_006169621.2	Tupaia chinensis carboxypeptidase D (CPD), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$797.30 $1139.00
Hide Old Accession Versions >>

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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)

CPD ( XM_006169621.3 ) cDNA ORF clone, Tupaia chinensis(Chinese tree shrew) -> XP_006169683.2 Tupaia chinensis carboxypeptidase D (CPD), mRNA.

Price & Availability↑

CloneID	OTu27451
Clone ID Related Accession (Same CDS sequence)	XM_006169621.3 , XM_006169621.2
Accession Version	XM_006169621.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4137bp) 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	2019-01-22
Organism	Tupaia chinensis(Chinese tree shrew)
Product	carboxypeptidase D
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006207191.1) and transcript sequence (JU147794.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jan 23, 2019 this sequence version replaced XM_006169621.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Tupaia chinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## assembly gap :: added 609 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGGCGAGCG GCTGGGACGC GCTGTCGCCC TGGCGGCTGG GGTGCCTCCC GCTGCTCCTG 
TGCCTGCTGC TGCTGAGAGG CCCGGCCCGG GCGGCGCACA TCAAGAAGGC GGAGGCGACG 
ACGACTACGA CGAGCGCGGG CGCCGAGGCG GCCGAGGGCC AGTTCGACCA CTACTACCAC 
GAAGAGGAGC TGGGCTCCGC GCTGAGGGAG GCGGCGGCCG CGGGGCCCCC CGGCCTGGCC 
CGCCTCTTCA GCATCGGCCG CTCGGTGGAG GGTCGGCCAC TCTGGGTGCT GCGCCTCACG 
GCCGGCCTGG GGCCGCTGGT CGGTGACGGC GACGCGGGGC CCGACCCGGC GGGGCCGGAT 
GCCGCGGGGC CGCTGCTGCC CGGCCGGCCG CAGGTGAAGC TGGTGGGCAA CATGCACGGC 
GACGAGACCG TGTCGCGCCA GGTGCTGGTT TACCTGGCCC GCGAGCTGGC GGCCGGCTAC 
CGCCGCGGGG ACCCGCGCAT CGTCCGCCTG CTCAACACCA CCGACGTGTA CGTGCTGCCC 
AGCCTCAACC CCGACGGCTT CGAGCGCGCC CGCGAGGGCG ACTGCGGCCT CGGTGACGGC 
GGCCCGCCCG GGGCCAGCGG CCGCGACAAC AGCCTTGGCC GCGACCTCAA CCGCAGTTTC 
CCGGATCAGT TCAGTACCGG CGAGCCCCCC GCCCTGGATG AGGTGCCCGA AGTGCGCGCC 
CTTATTGACT GGATCCGCAG GAACAAGTTT GTGCTTTCTG GAAATCTGCA TGGTGGCTCA 
GTGGTAGCAA GTTATCCTTT TGATGATTCT CCAGAACACA AGGCCACTGG AATCTATAGC 
AAAACCTCAG ATGATGAAGT CTTTAAATAC TTGGCAAAAG CTTATGCATC AAACCACCCC 
ATAATGAAAA CTGGTGAGCC TCACTGTCCA GGAGATGAAG ACGAGACTTT CAAAGATGGG 
ATCACGAATG GCGCACATTG GTATGATGTG GAAGGTGGTA TGCAAGATTA CAATTATGTA 
TGGGCCAACT GTTTTGAGAT CACACTAGAA CTGTCTTGTT GCAAGTACCC ACCTGCTTCA 
CAACTTCGAC AGGAATGGGA AAACAACCGT GAGTCCTTGA TCACATTGAT TGAAAAGGTT 
CACATTGGAA TTAAAGGATT TGTTAAAGAT TCAGTAACAG GATCTGGTTT GGAGAATGCA 
ACTGTCTCAG TGGCTGGTAT TAATCATAAT ATCACAACAG GCAGATTTGG TGATTTCCAC 
AGACTGCTTG TTCCTGGAAC TTATAATCTT ACTGTAGTTT TAACTGGGTA TATGCCATTG 
ACAATTAATA ATGTAATAGT GAAAGAAGGA CCAGCCACAG AAGTGGATTT TAACCTACGG 
CCAACTGTGG CTTCAGTAAT CCCTGACACT ACTGAAGCTA TGGCAACTGC TAGCACAGTT 
GCTGTGCCTA ATATTCCTCC TGGAACATCA TCCTCCCACC AGCCAATCCA GCCAAAGGAT 
TTTCACCACC ACCATTTCCC TGACATGGAA ATCTTCTTGA GAAGGTTTGC CAATGAATAT 
CCTAACATCA CCCGGCTTTA TTCATTGGGG AAATCAGTAG AATCAAGAGA ACTTTATGTG 
ATGGAGATCT CTGATAATCC TGGTGTCCAT GAACCAGGTG AACCAGAATT TAAGTACATT 
GGAAATATGC ATGGAAATGA AGTGGTTGGA CGAGAACTGC TATTGAACCT CATTGAATAC 
CTTTGTAAGA ACTTTGGAAC AGACCCTGAA GTAACAGATT TGGTTCGTAG CACTAGAATT 
CACCTTATGC CATCCATGAA TCCTGATGGA TATGAAAAGT CCCAAGAAGG AGACTCAGTA 
AGTGTAATTG GCAGAAATAA CAGCAACAAC TTTGACCTGA ACCGAAATTT CCCAGACCAG 
TTTGTTCAGA TCACTGATCC CACCCAACCA GAAACTATTG CTGTAATGAG CTGGATGAAG 
ACCTATCCAT TTGTACTGTC GGCAAACCTG CATGGAGGTT CTTTGGTGGT TAACTACCCT 
TTTGATGATG ATGAACAAGG ACTAGCCACA TACAGTAAAT CACCAGATGA TGCTGTGTTT 
CAACAGATAG CACTGTCTTA TTCCAAGGAA AATTCCCAGA TGTTTCAAGG TAGACCTTGC 
AAGAATATGT ACCCTAATGA ATATTTTCCT CATGGAATAA CGAATGGAGC TAATTGGTAT 
AATGTCCCAG GTGGTATGCA GGACTGGAAC TACTTACAAA CAAATTGCTT TGAAGTGACT 
ATTGAACTAG GTTGTATAAA ATATCCATTT GAGAAAGATC TGCCAAAATT TTGGGAGCAG 
AATCGAAGAT CTCTAATCCA GTTTATGAAA CAGGTTCATC AGGGTGTTAA AGGATTTGTC 
CTAGATGCCA CAGATGGCAG GGGCATATTG AATGCTACCA TTAGTGTTGC TGAAATTAAT 
CACCCTGTGA CTACTTACAA AACTGGAGAC TACTGGCGTC TCTTGGTTCC AGGAACTTAT 
AAAATCACAG CATCTGCTCG AGGGTATAAT CCGGTGACCA AGAACGTGAC TGTAAAGAGT 
GAAGGCGCTA TTCAGGTCAA CTTCACACTT GTTCGCTCCT CAACAGATGC AAACAGTGAA 
TCAAAGAAAG GAAAGGGAGA TAGCGCCAGC ACTGATGATG CCAGTGATCC AACTACTAAA 
GAATTTGAAG CTTTAATTAA AGACCTTTCA GCCGAGAATG GTTTAGAAGG CCTCATGTTA 
AAGTCCTCCT CTAATCTGGC CCTTTATCGA TACCATTCGT ACAAAGACTT ATCCGAGTTT 
CTGAGAGGAC TTGTCATGAA CTACCCACAT ATTACAAATC TTACCAATTT GGGACAGAGC 
GCTGAATATC GTCACATTTG GTCCCTTGAA ATCTCTAACA AGCCCAACGT GTCTGAGCCT 
GAGGAGCCAA AGATTCGTTT TGTTGCTGGT ATCCATGGAA ATGCTCCAGT TGGAACTGAA 
CTGCTTTTGG CTCTGGCAGA ATTTCTCTGT CTGAACTACA AAAAGAACCC AGCTGTTACC 
CAATTGGTTG ACAGGACTAG GATTGTGATT GTCCCTTCTC TGAATCCAGA TGGACGAGAG 
AGAGCACAAG AGAAAGACTG TACTTCAAAA ATAGGACAGA CAAATGCTCG TGGCAAAGAC 
TTAGATACAG ATTTCACAAA TAATGCCTCC CAGCCCGAGA CCAAAGCCAT CATTGAAAAT 
TTGATTCAAA AACAGGACTT CAGTCTTTCT GTTGCTTTAG ATGGTGGTTC TGTGCTGGTC 
ACATACCCAT ATGACAAGCC AGTACAGACA GTGGAAAACA AAGAGACTCT GAAGCATTTG 
GCATCTCTTT ATGCAAATAA TCACCCATCG ATGCACATGG GTCAGCCCAG TTGCCCAAAT 
AAATCAGATG AAAATATTCC AGGAGGAGTA ATGCGTGGAG CAGAATGGCA CAGCCACTTG 
GGCAGTATGA AGGACTATAG TGTCACTTAT GGTCACTGTC CAGAAATCAC CGTGTACACA 
AGCTGCTGCT ACTTTCCTAC CGCAGCACAG CTCCCGTCCT TGTGGGCAGA AAACAAAAGA 
TCTCTTCTGA GCATGTTGGT GGAGGTTCAC AAGGGAGTTC ATGGACTTGT TAAAGATAAG 
ACTGGAAAGC CAATCTCTAA AGCAGTCATC GTACTTAATG AGGGAATAAA GGTACACACC 
AAAGAGGGAG GTTATTTCCA CGTGCTGCTA GCCCCTGGTG TCCACAACAT CAATGCCATT 
GCCGATGGAT ACCAGCAACA ACATTCACAG GTTTTTGTGC ATCACGATGC AGCTAGTTCT 
GTGGTAATAG TCTTTGACAC AGACAACCGG ATATTTGGTT TACCAAGGGA GCTTGTGGTA 
ACTGTATCAG GTGCCACCAT GTCAGCATTG ATCCTAACAG CTTGCATTAT TTGGTGCATC 
TGTTCAATCA AGTCCAACAG ACACAAGGAT GGCTTTCATC GGCTCAGGCA GCATCATGAT 
GAGTATGAAG ATGAAATTCG CATGATGTCA ACTGGTTCTA AGAAGTCCCT CCTAAGCCAT 
GAGTTCCAGG ATGAAACAGA CACTGAAGAG GAAACATTAT ATTCTAGCAA ACATTGA

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

RefSeq	XP_006169683.2
CDS	1..4137
Translation	MASGWDALSPWRLGCLPLLLCLLLLRGPARAAHIKKAEATTTTTSAGAEAAEGQFDHYYHEEELGSALREAAAAGPPGLARLFSIGRSVEGRPLWVLRLTAGLGPLVGDGDAGPDPAGPDAAGPLLPGRPQVKLVGNMHGDETVSRQVLVYLARELAAGYRRGDPRIVRLLNTTDVYVLPSLNPDGFERAREGDCGLGDGGPPGASGRDNSLGRDLNRSFPDQFSTGEPPALDEVPEVRALIDWIRRNKFVLSGNLHGGSVVASYPFDDSPEHKATGIYSKTSDDEVFKYLAKAYASNHPIMKTGEPHCPGDEDETFKDGITNGAHWYDVEGGMQDYNYVWANCFEITLELSCCKYPPASQLRQEWENNRESLITLIEKVHIGIKGFVKDSVTGSGLENATVSVAGINHNITTGRFGDFHRLLVPGTYNLTVVLTGYMPLTINNVIVKEGPATEVDFNLRPTVASVIPDTTEAMATASTVAVPNIPPGTSSSHQPIQPKDFHHHHFPDMEIFLRRFANEYPNITRLYSLGKSVESRELYVMEISDNPGVHEPGEPEFKYIGNMHGNEVVGRELLLNLIEYLCKNFGTDPEVTDLVRSTRIHLMPSMNPDGYEKSQEGDSVSVIGRNNSNNFDLNRNFPDQFVQITDPTQPETIAVMSWMKTYPFVLSANLHGGSLVVNYPFDDDEQGLATYSKSPDDAVFQQIALSYSKENSQMFQGRPCKNMYPNEYFPHGITNGANWYNVPGGMQDWNYLQTNCFEVTIELGCIKYPFEKDLPKFWEQNRRSLIQFMKQVHQGVKGFVLDATDGRGILNATISVAEINHPVTTYKTGDYWRLLVPGTYKITASARGYNPVTKNVTVKSEGAIQVNFTLVRSSTDANSESKKGKGDSASTDDASDPTTKEFEALIKDLSAENGLEGLMLKSSSNLALYRYHSYKDLSEFLRGLVMNYPHITNLTNLGQSAEYRHIWSLEISNKPNVSEPEEPKIRFVAGIHGNAPVGTELLLALAEFLCLNYKKNPAVTQLVDRTRIVIVPSLNPDGRERAQEKDCTSKIGQTNARGKDLDTDFTNNASQPETKAIIENLIQKQDFSLSVALDGGSVLVTYPYDKPVQTVENKETLKHLASLYANNHPSMHMGQPSCPNKSDENIPGGVMRGAEWHSHLGSMKDYSVTYGHCPEITVYTSCCYFPTAAQLPSLWAENKRSLLSMLVEVHKGVHGLVKDKTGKPISKAVIVLNEGIKVHTKEGGYFHVLLAPGVHNINAIADGYQQQHSQVFVHHDAASSVVIVFDTDNRIFGLPRELVVTVSGATMSALILTACIIWCICSIKSNRHKDGFHRLRQHHDEYEDEIRMMSTGSKKSLLSHEFQDETDTEEETLYSSKH

Target ORF information:

RefSeq Version	XM_006169621.3
Organism	Tupaia chinensis(Chinese tree shrew)
Definition	Tupaia chinensis carboxypeptidase D (CPD), mRNA.

Target ORF information:

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

XM_006169621.3

ORF Insert Sequence:

ATGGCGAGCG GCTGGGACGC GCTGTCGCCC TGGCGGCTGG GGTGCCTCCC GCTGCTCCTG 
TGCCTGCTGC TGCTGAGAGG CCCGGCCCGG GCGGCGCACA TCAAGAAGGC GGAGGCGACG 
ACGACTACGA CGAGCGCGGG CGCCGAGGCG GCCGAGGGCC AGTTCGACCA CTACTACCAC 
GAAGAGGAGC TGGGCTCCGC GCTGAGGGAG GCGGCGGCCG CGGGGCCCCC CGGCCTGGCC 
CGCCTCTTCA GCATCGGCCG CTCGGTGGAG GGTCGGCCAC TCTGGGTGCT GCGCCTCACG 
GCCGGCCTGG GGCCGCTGGT CGGTGACGGC GACGCGGGGC CCGACCCGGC GGGGCCGGAT 
GCCGCGGGGC CGCTGCTGCC CGGCCGGCCG CAGGTGAAGC TGGTGGGCAA CATGCACGGC 
GACGAGACCG TGTCGCGCCA GGTGCTGGTT TACCTGGCCC GCGAGCTGGC GGCCGGCTAC 
CGCCGCGGGG ACCCGCGCAT CGTCCGCCTG CTCAACACCA CCGACGTGTA CGTGCTGCCC 
AGCCTCAACC CCGACGGCTT CGAGCGCGCC CGCGAGGGCG ACTGCGGCCT CGGTGACGGC 
GGCCCGCCCG GGGCCAGCGG CCGCGACAAC AGCCTTGGCC GCGACCTCAA CCGCAGTTTC 
CCGGATCAGT TCAGTACCGG CGAGCCCCCC GCCCTGGATG AGGTGCCCGA AGTGCGCGCC 
CTTATTGACT GGATCCGCAG GAACAAGTTT GTGCTTTCTG GAAATCTGCA TGGTGGCTCA 
GTGGTAGCAA GTTATCCTTT TGATGATTCT CCAGAACACA AGGCCACTGG AATCTATAGC 
AAAACCTCAG ATGATGAAGT CTTTAAATAC TTGGCAAAAG CTTATGCATC AAACCACCCC 
ATAATGAAAA CTGGTGAGCC TCACTGTCCA GGAGATGAAG ACGAGACTTT CAAAGATGGG 
ATCACGAATG GCGCACATTG GTATGATGTG GAAGGTGGTA TGCAAGATTA CAATTATGTA 
TGGGCCAACT GTTTTGAGAT CACACTAGAA CTGTCTTGTT GCAAGTACCC ACCTGCTTCA 
CAACTTCGAC AGGAATGGGA AAACAACCGT GAGTCCTTGA TCACATTGAT TGAAAAGGTT 
CACATTGGAA TTAAAGGATT TGTTAAAGAT TCAGTAACAG GATCTGGTTT GGAGAATGCA 
ACTGTCTCAG TGGCTGGTAT TAATCATAAT ATCACAACAG GCAGATTTGG TGATTTCCAC 
AGACTGCTTG TTCCTGGAAC TTATAATCTT ACTGTAGTTT TAACTGGGTA TATGCCATTG 
ACAATTAATA ATGTAATAGT GAAAGAAGGA CCAGCCACAG AAGTGGATTT TAACCTACGG 
CCAACTGTGG CTTCAGTAAT CCCTGACACT ACTGAAGCTA TGGCAACTGC TAGCACAGTT 
GCTGTGCCTA ATATTCCTCC TGGAACATCA TCCTCCCACC AGCCAATCCA GCCAAAGGAT 
TTTCACCACC ACCATTTCCC TGACATGGAA ATCTTCTTGA GAAGGTTTGC CAATGAATAT 
CCTAACATCA CCCGGCTTTA TTCATTGGGG AAATCAGTAG AATCAAGAGA ACTTTATGTG 
ATGGAGATCT CTGATAATCC TGGTGTCCAT GAACCAGGTG AACCAGAATT TAAGTACATT 
GGAAATATGC ATGGAAATGA AGTGGTTGGA CGAGAACTGC TATTGAACCT CATTGAATAC 
CTTTGTAAGA ACTTTGGAAC AGACCCTGAA GTAACAGATT TGGTTCGTAG CACTAGAATT 
CACCTTATGC CATCCATGAA TCCTGATGGA TATGAAAAGT CCCAAGAAGG AGACTCAGTA 
AGTGTAATTG GCAGAAATAA CAGCAACAAC TTTGACCTGA ACCGAAATTT CCCAGACCAG 
TTTGTTCAGA TCACTGATCC CACCCAACCA GAAACTATTG CTGTAATGAG CTGGATGAAG 
ACCTATCCAT TTGTACTGTC GGCAAACCTG CATGGAGGTT CTTTGGTGGT TAACTACCCT 
TTTGATGATG ATGAACAAGG ACTAGCCACA TACAGTAAAT CACCAGATGA TGCTGTGTTT 
CAACAGATAG CACTGTCTTA TTCCAAGGAA AATTCCCAGA TGTTTCAAGG TAGACCTTGC 
AAGAATATGT ACCCTAATGA ATATTTTCCT CATGGAATAA CGAATGGAGC TAATTGGTAT 
AATGTCCCAG GTGGTATGCA GGACTGGAAC TACTTACAAA CAAATTGCTT TGAAGTGACT 
ATTGAACTAG GTTGTATAAA ATATCCATTT GAGAAAGATC TGCCAAAATT TTGGGAGCAG 
AATCGAAGAT CTCTAATCCA GTTTATGAAA CAGGTTCATC AGGGTGTTAA AGGATTTGTC 
CTAGATGCCA CAGATGGCAG GGGCATATTG AATGCTACCA TTAGTGTTGC TGAAATTAAT 
CACCCTGTGA CTACTTACAA AACTGGAGAC TACTGGCGTC TCTTGGTTCC AGGAACTTAT 
AAAATCACAG CATCTGCTCG AGGGTATAAT CCGGTGACCA AGAACGTGAC TGTAAAGAGT 
GAAGGCGCTA TTCAGGTCAA CTTCACACTT GTTCGCTCCT CAACAGATGC AAACAGTGAA 
TCAAAGAAAG GAAAGGGAGA TAGCGCCAGC ACTGATGATG CCAGTGATCC AACTACTAAA 
GAATTTGAAG CTTTAATTAA AGACCTTTCA GCCGAGAATG GTTTAGAAGG CCTCATGTTA 
AAGTCCTCCT CTAATCTGGC CCTTTATCGA TACCATTCGT ACAAAGACTT ATCCGAGTTT 
CTGAGAGGAC TTGTCATGAA CTACCCACAT ATTACAAATC TTACCAATTT GGGACAGAGC 
GCTGAATATC GTCACATTTG GTCCCTTGAA ATCTCTAACA AGCCCAACGT GTCTGAGCCT 
GAGGAGCCAA AGATTCGTTT TGTTGCTGGT ATCCATGGAA ATGCTCCAGT TGGAACTGAA 
CTGCTTTTGG CTCTGGCAGA ATTTCTCTGT CTGAACTACA AAAAGAACCC AGCTGTTACC 
CAATTGGTTG ACAGGACTAG GATTGTGATT GTCCCTTCTC TGAATCCAGA TGGACGAGAG 
AGAGCACAAG AGAAAGACTG TACTTCAAAA ATAGGACAGA CAAATGCTCG TGGCAAAGAC 
TTAGATACAG ATTTCACAAA TAATGCCTCC CAGCCCGAGA CCAAAGCCAT CATTGAAAAT 
TTGATTCAAA AACAGGACTT CAGTCTTTCT GTTGCTTTAG ATGGTGGTTC TGTGCTGGTC 
ACATACCCAT ATGACAAGCC AGTACAGACA GTGGAAAACA AAGAGACTCT GAAGCATTTG 
GCATCTCTTT ATGCAAATAA TCACCCATCG ATGCACATGG GTCAGCCCAG TTGCCCAAAT 
AAATCAGATG AAAATATTCC AGGAGGAGTA ATGCGTGGAG CAGAATGGCA CAGCCACTTG 
GGCAGTATGA AGGACTATAG TGTCACTTAT GGTCACTGTC CAGAAATCAC CGTGTACACA 
AGCTGCTGCT ACTTTCCTAC CGCAGCACAG CTCCCGTCCT TGTGGGCAGA AAACAAAAGA 
TCTCTTCTGA GCATGTTGGT GGAGGTTCAC AAGGGAGTTC ATGGACTTGT TAAAGATAAG 
ACTGGAAAGC CAATCTCTAA AGCAGTCATC GTACTTAATG AGGGAATAAA GGTACACACC 
AAAGAGGGAG GTTATTTCCA CGTGCTGCTA GCCCCTGGTG TCCACAACAT CAATGCCATT 
GCCGATGGAT ACCAGCAACA ACATTCACAG GTTTTTGTGC ATCACGATGC AGCTAGTTCT 
GTGGTAATAG TCTTTGACAC AGACAACCGG ATATTTGGTT TACCAAGGGA GCTTGTGGTA 
ACTGTATCAG GTGCCACCAT GTCAGCATTG ATCCTAACAG CTTGCATTAT TTGGTGCATC 
TGTTCAATCA AGTCCAACAG ACACAAGGAT GGCTTTCATC GGCTCAGGCA GCATCATGAT 
GAGTATGAAG ATGAAATTCG CATGATGTCA ACTGGTTCTA AGAAGTCCCT CCTAAGCCAT 
GAGTTCCAGG ATGAAACAGA CACTGAAGAG GAAACATTAT ATTCTAGCAA ACATTGA

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

CPD ( XM_006169621.2 ) cDNA ORF clone, Tupaia chinensis(Chinese tree shrew) -> XP_006169683.2 Tupaia chinensis carboxypeptidase D (CPD), mRNA.

Price & Availability↑

CloneID	OTu27451
Clone ID Related Accession (Same CDS sequence)	XM_006169621.3 , XM_006169621.2
Accession Version	XM_006169621.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4137bp) 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	2015-11-03
Organism	Tupaia chinensis(Chinese tree shrew)
Product	carboxypeptidase D
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006207191.1) and transcript sequence (JU147794.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 4, 2015 this sequence version replaced XM_006169621.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Tupaia chinensis 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## ##RefSeq-Attributes-START## assembly gap :: added 609 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGGCGAGCG GCTGGGACGC GCTGTCGCCC TGGCGGCTGG GGTGCCTCCC GCTGCTCCTG 
TGCCTGCTGC TGCTGAGAGG CCCGGCCCGG GCGGCGCACA TCAAGAAGGC GGAGGCGACG 
ACGACTACGA CGAGCGCGGG CGCCGAGGCG GCCGAGGGCC AGTTCGACCA CTACTACCAC 
GAAGAGGAGC TGGGCTCCGC GCTGAGGGAG GCGGCGGCCG CGGGGCCCCC CGGCCTGGCC 
CGCCTCTTCA GCATCGGCCG CTCGGTGGAG GGTCGGCCAC TCTGGGTGCT GCGCCTCACG 
GCCGGCCTGG GGCCGCTGGT CGGTGACGGC GACGCGGGGC CCGACCCGGC GGGGCCGGAT 
GCCGCGGGGC CGCTGCTGCC CGGCCGGCCG CAGGTGAAGC TGGTGGGCAA CATGCACGGC 
GACGAGACCG TGTCGCGCCA GGTGCTGGTT TACCTGGCCC GCGAGCTGGC GGCCGGCTAC 
CGCCGCGGGG ACCCGCGCAT CGTCCGCCTG CTCAACACCA CCGACGTGTA CGTGCTGCCC 
AGCCTCAACC CCGACGGCTT CGAGCGCGCC CGCGAGGGCG ACTGCGGCCT CGGTGACGGC 
GGCCCGCCCG GGGCCAGCGG CCGCGACAAC AGCCTTGGCC GCGACCTCAA CCGCAGTTTC 
CCGGATCAGT TCAGTACCGG CGAGCCCCCC GCCCTGGATG AGGTGCCCGA AGTGCGCGCC 
CTTATTGACT GGATCCGCAG GAACAAGTTT GTGCTTTCTG GAAATCTGCA TGGTGGCTCA 
GTGGTAGCAA GTTATCCTTT TGATGATTCT CCAGAACACA AGGCCACTGG AATCTATAGC 
AAAACCTCAG ATGATGAAGT CTTTAAATAC TTGGCAAAAG CTTATGCATC AAACCACCCC 
ATAATGAAAA CTGGTGAGCC TCACTGTCCA GGAGATGAAG ACGAGACTTT CAAAGATGGG 
ATCACGAATG GCGCACATTG GTATGATGTG GAAGGTGGTA TGCAAGATTA CAATTATGTA 
TGGGCCAACT GTTTTGAGAT CACACTAGAA CTGTCTTGTT GCAAGTACCC ACCTGCTTCA 
CAACTTCGAC AGGAATGGGA AAACAACCGT GAGTCCTTGA TCACATTGAT TGAAAAGGTT 
CACATTGGAA TTAAAGGATT TGTTAAAGAT TCAGTAACAG GATCTGGTTT GGAGAATGCA 
ACTGTCTCAG TGGCTGGTAT TAATCATAAT ATCACAACAG GCAGATTTGG TGATTTCCAC 
AGACTGCTTG TTCCTGGAAC TTATAATCTT ACTGTAGTTT TAACTGGGTA TATGCCATTG 
ACAATTAATA ATGTAATAGT GAAAGAAGGA CCAGCCACAG AAGTGGATTT TAACCTACGG 
CCAACTGTGG CTTCAGTAAT CCCTGACACT ACTGAAGCTA TGGCAACTGC TAGCACAGTT 
GCTGTGCCTA ATATTCCTCC TGGAACATCA TCCTCCCACC AGCCAATCCA GCCAAAGGAT 
TTTCACCACC ACCATTTCCC TGACATGGAA ATCTTCTTGA GAAGGTTTGC CAATGAATAT 
CCTAACATCA CCCGGCTTTA TTCATTGGGG AAATCAGTAG AATCAAGAGA ACTTTATGTG 
ATGGAGATCT CTGATAATCC TGGTGTCCAT GAACCAGGTG AACCAGAATT TAAGTACATT 
GGAAATATGC ATGGAAATGA AGTGGTTGGA CGAGAACTGC TATTGAACCT CATTGAATAC 
CTTTGTAAGA ACTTTGGAAC AGACCCTGAA GTAACAGATT TGGTTCGTAG CACTAGAATT 
CACCTTATGC CATCCATGAA TCCTGATGGA TATGAAAAGT CCCAAGAAGG AGACTCAGTA 
AGTGTAATTG GCAGAAATAA CAGCAACAAC TTTGACCTGA ACCGAAATTT CCCAGACCAG 
TTTGTTCAGA TCACTGATCC CACCCAACCA GAAACTATTG CTGTAATGAG CTGGATGAAG 
ACCTATCCAT TTGTACTGTC GGCAAACCTG CATGGAGGTT CTTTGGTGGT TAACTACCCT 
TTTGATGATG ATGAACAAGG ACTAGCCACA TACAGTAAAT CACCAGATGA TGCTGTGTTT 
CAACAGATAG CACTGTCTTA TTCCAAGGAA AATTCCCAGA TGTTTCAAGG TAGACCTTGC 
AAGAATATGT ACCCTAATGA ATATTTTCCT CATGGAATAA CGAATGGAGC TAATTGGTAT 
AATGTCCCAG GTGGTATGCA GGACTGGAAC TACTTACAAA CAAATTGCTT TGAAGTGACT 
ATTGAACTAG GTTGTATAAA ATATCCATTT GAGAAAGATC TGCCAAAATT TTGGGAGCAG 
AATCGAAGAT CTCTAATCCA GTTTATGAAA CAGGTTCATC AGGGTGTTAA AGGATTTGTC 
CTAGATGCCA CAGATGGCAG GGGCATATTG AATGCTACCA TTAGTGTTGC TGAAATTAAT 
CACCCTGTGA CTACTTACAA AACTGGAGAC TACTGGCGTC TCTTGGTTCC AGGAACTTAT 
AAAATCACAG CATCTGCTCG AGGGTATAAT CCGGTGACCA AGAACGTGAC TGTAAAGAGT 
GAAGGCGCTA TTCAGGTCAA CTTCACACTT GTTCGCTCCT CAACAGATGC AAACAGTGAA 
TCAAAGAAAG GAAAGGGAGA TAGCGCCAGC ACTGATGATG CCAGTGATCC AACTACTAAA 
GAATTTGAAG CTTTAATTAA AGACCTTTCA GCCGAGAATG GTTTAGAAGG CCTCATGTTA 
AAGTCCTCCT CTAATCTGGC CCTTTATCGA TACCATTCGT ACAAAGACTT ATCCGAGTTT 
CTGAGAGGAC TTGTCATGAA CTACCCACAT ATTACAAATC TTACCAATTT GGGACAGAGC 
GCTGAATATC GTCACATTTG GTCCCTTGAA ATCTCTAACA AGCCCAACGT GTCTGAGCCT 
GAGGAGCCAA AGATTCGTTT TGTTGCTGGT ATCCATGGAA ATGCTCCAGT TGGAACTGAA 
CTGCTTTTGG CTCTGGCAGA ATTTCTCTGT CTGAACTACA AAAAGAACCC AGCTGTTACC 
CAATTGGTTG ACAGGACTAG GATTGTGATT GTCCCTTCTC TGAATCCAGA TGGACGAGAG 
AGAGCACAAG AGAAAGACTG TACTTCAAAA ATAGGACAGA CAAATGCTCG TGGCAAAGAC 
TTAGATACAG ATTTCACAAA TAATGCCTCC CAGCCCGAGA CCAAAGCCAT CATTGAAAAT 
TTGATTCAAA AACAGGACTT CAGTCTTTCT GTTGCTTTAG ATGGTGGTTC TGTGCTGGTC 
ACATACCCAT ATGACAAGCC AGTACAGACA GTGGAAAACA AAGAGACTCT GAAGCATTTG 
GCATCTCTTT ATGCAAATAA TCACCCATCG ATGCACATGG GTCAGCCCAG TTGCCCAAAT 
AAATCAGATG AAAATATTCC AGGAGGAGTA ATGCGTGGAG CAGAATGGCA CAGCCACTTG 
GGCAGTATGA AGGACTATAG TGTCACTTAT GGTCACTGTC CAGAAATCAC CGTGTACACA 
AGCTGCTGCT ACTTTCCTAC CGCAGCACAG CTCCCGTCCT TGTGGGCAGA AAACAAAAGA 
TCTCTTCTGA GCATGTTGGT GGAGGTTCAC AAGGGAGTTC ATGGACTTGT TAAAGATAAG 
ACTGGAAAGC CAATCTCTAA AGCAGTCATC GTACTTAATG AGGGAATAAA GGTACACACC 
AAAGAGGGAG GTTATTTCCA CGTGCTGCTA GCCCCTGGTG TCCACAACAT CAATGCCATT 
GCCGATGGAT ACCAGCAACA ACATTCACAG GTTTTTGTGC ATCACGATGC AGCTAGTTCT 
GTGGTAATAG TCTTTGACAC AGACAACCGG ATATTTGGTT TACCAAGGGA GCTTGTGGTA 
ACTGTATCAG GTGCCACCAT GTCAGCATTG ATCCTAACAG CTTGCATTAT TTGGTGCATC 
TGTTCAATCA AGTCCAACAG ACACAAGGAT GGCTTTCATC GGCTCAGGCA GCATCATGAT 
GAGTATGAAG ATGAAATTCG CATGATGTCA ACTGGTTCTA AGAAGTCCCT CCTAAGCCAT 
GAGTTCCAGG ATGAAACAGA CACTGAAGAG GAAACATTAT ATTCTAGCAA ACATTGA

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

RefSeq	XP_006169683.2
CDS	1..4137
Translation	MASGWDALSPWRLGCLPLLLCLLLLRGPARAAHIKKAEATTTTTSAGAEAAEGQFDHYYHEEELGSALREAAAAGPPGLARLFSIGRSVEGRPLWVLRLTAGLGPLVGDGDAGPDPAGPDAAGPLLPGRPQVKLVGNMHGDETVSRQVLVYLARELAAGYRRGDPRIVRLLNTTDVYVLPSLNPDGFERAREGDCGLGDGGPPGASGRDNSLGRDLNRSFPDQFSTGEPPALDEVPEVRALIDWIRRNKFVLSGNLHGGSVVASYPFDDSPEHKATGIYSKTSDDEVFKYLAKAYASNHPIMKTGEPHCPGDEDETFKDGITNGAHWYDVEGGMQDYNYVWANCFEITLELSCCKYPPASQLRQEWENNRESLITLIEKVHIGIKGFVKDSVTGSGLENATVSVAGINHNITTGRFGDFHRLLVPGTYNLTVVLTGYMPLTINNVIVKEGPATEVDFNLRPTVASVIPDTTEAMATASTVAVPNIPPGTSSSHQPIQPKDFHHHHFPDMEIFLRRFANEYPNITRLYSLGKSVESRELYVMEISDNPGVHEPGEPEFKYIGNMHGNEVVGRELLLNLIEYLCKNFGTDPEVTDLVRSTRIHLMPSMNPDGYEKSQEGDSVSVIGRNNSNNFDLNRNFPDQFVQITDPTQPETIAVMSWMKTYPFVLSANLHGGSLVVNYPFDDDEQGLATYSKSPDDAVFQQIALSYSKENSQMFQGRPCKNMYPNEYFPHGITNGANWYNVPGGMQDWNYLQTNCFEVTIELGCIKYPFEKDLPKFWEQNRRSLIQFMKQVHQGVKGFVLDATDGRGILNATISVAEINHPVTTYKTGDYWRLLVPGTYKITASARGYNPVTKNVTVKSEGAIQVNFTLVRSSTDANSESKKGKGDSASTDDASDPTTKEFEALIKDLSAENGLEGLMLKSSSNLALYRYHSYKDLSEFLRGLVMNYPHITNLTNLGQSAEYRHIWSLEISNKPNVSEPEEPKIRFVAGIHGNAPVGTELLLALAEFLCLNYKKNPAVTQLVDRTRIVIVPSLNPDGRERAQEKDCTSKIGQTNARGKDLDTDFTNNASQPETKAIIENLIQKQDFSLSVALDGGSVLVTYPYDKPVQTVENKETLKHLASLYANNHPSMHMGQPSCPNKSDENIPGGVMRGAEWHSHLGSMKDYSVTYGHCPEITVYTSCCYFPTAAQLPSLWAENKRSLLSMLVEVHKGVHGLVKDKTGKPISKAVIVLNEGIKVHTKEGGYFHVLLAPGVHNINAIADGYQQQHSQVFVHHDAASSVVIVFDTDNRIFGLPRELVVTVSGATMSALILTACIIWCICSIKSNRHKDGFHRLRQHHDEYEDEIRMMSTGSKKSLLSHEFQDETDTEEETLYSSKH

Target ORF information:

RefSeq Version	XM_006169621.2
Organism	Tupaia chinensis(Chinese tree shrew)
Definition	Tupaia chinensis carboxypeptidase D (CPD), mRNA.

Target ORF information:

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

XM_006169621.2

ORF Insert Sequence:

ATGGCGAGCG GCTGGGACGC GCTGTCGCCC TGGCGGCTGG GGTGCCTCCC GCTGCTCCTG 
TGCCTGCTGC TGCTGAGAGG CCCGGCCCGG GCGGCGCACA TCAAGAAGGC GGAGGCGACG 
ACGACTACGA CGAGCGCGGG CGCCGAGGCG GCCGAGGGCC AGTTCGACCA CTACTACCAC 
GAAGAGGAGC TGGGCTCCGC GCTGAGGGAG GCGGCGGCCG CGGGGCCCCC CGGCCTGGCC 
CGCCTCTTCA GCATCGGCCG CTCGGTGGAG GGTCGGCCAC TCTGGGTGCT GCGCCTCACG 
GCCGGCCTGG GGCCGCTGGT CGGTGACGGC GACGCGGGGC CCGACCCGGC GGGGCCGGAT 
GCCGCGGGGC CGCTGCTGCC CGGCCGGCCG CAGGTGAAGC TGGTGGGCAA CATGCACGGC 
GACGAGACCG TGTCGCGCCA GGTGCTGGTT TACCTGGCCC GCGAGCTGGC GGCCGGCTAC 
CGCCGCGGGG ACCCGCGCAT CGTCCGCCTG CTCAACACCA CCGACGTGTA CGTGCTGCCC 
AGCCTCAACC CCGACGGCTT CGAGCGCGCC CGCGAGGGCG ACTGCGGCCT CGGTGACGGC 
GGCCCGCCCG GGGCCAGCGG CCGCGACAAC AGCCTTGGCC GCGACCTCAA CCGCAGTTTC 
CCGGATCAGT TCAGTACCGG CGAGCCCCCC GCCCTGGATG AGGTGCCCGA AGTGCGCGCC 
CTTATTGACT GGATCCGCAG GAACAAGTTT GTGCTTTCTG GAAATCTGCA TGGTGGCTCA 
GTGGTAGCAA GTTATCCTTT TGATGATTCT CCAGAACACA AGGCCACTGG AATCTATAGC 
AAAACCTCAG ATGATGAAGT CTTTAAATAC TTGGCAAAAG CTTATGCATC AAACCACCCC 
ATAATGAAAA CTGGTGAGCC TCACTGTCCA GGAGATGAAG ACGAGACTTT CAAAGATGGG 
ATCACGAATG GCGCACATTG GTATGATGTG GAAGGTGGTA TGCAAGATTA CAATTATGTA 
TGGGCCAACT GTTTTGAGAT CACACTAGAA CTGTCTTGTT GCAAGTACCC ACCTGCTTCA 
CAACTTCGAC AGGAATGGGA AAACAACCGT GAGTCCTTGA TCACATTGAT TGAAAAGGTT 
CACATTGGAA TTAAAGGATT TGTTAAAGAT TCAGTAACAG GATCTGGTTT GGAGAATGCA 
ACTGTCTCAG TGGCTGGTAT TAATCATAAT ATCACAACAG GCAGATTTGG TGATTTCCAC 
AGACTGCTTG TTCCTGGAAC TTATAATCTT ACTGTAGTTT TAACTGGGTA TATGCCATTG 
ACAATTAATA ATGTAATAGT GAAAGAAGGA CCAGCCACAG AAGTGGATTT TAACCTACGG 
CCAACTGTGG CTTCAGTAAT CCCTGACACT ACTGAAGCTA TGGCAACTGC TAGCACAGTT 
GCTGTGCCTA ATATTCCTCC TGGAACATCA TCCTCCCACC AGCCAATCCA GCCAAAGGAT 
TTTCACCACC ACCATTTCCC TGACATGGAA ATCTTCTTGA GAAGGTTTGC CAATGAATAT 
CCTAACATCA CCCGGCTTTA TTCATTGGGG AAATCAGTAG AATCAAGAGA ACTTTATGTG 
ATGGAGATCT CTGATAATCC TGGTGTCCAT GAACCAGGTG AACCAGAATT TAAGTACATT 
GGAAATATGC ATGGAAATGA AGTGGTTGGA CGAGAACTGC TATTGAACCT CATTGAATAC 
CTTTGTAAGA ACTTTGGAAC AGACCCTGAA GTAACAGATT TGGTTCGTAG CACTAGAATT 
CACCTTATGC CATCCATGAA TCCTGATGGA TATGAAAAGT CCCAAGAAGG AGACTCAGTA 
AGTGTAATTG GCAGAAATAA CAGCAACAAC TTTGACCTGA ACCGAAATTT CCCAGACCAG 
TTTGTTCAGA TCACTGATCC CACCCAACCA GAAACTATTG CTGTAATGAG CTGGATGAAG 
ACCTATCCAT TTGTACTGTC GGCAAACCTG CATGGAGGTT CTTTGGTGGT TAACTACCCT 
TTTGATGATG ATGAACAAGG ACTAGCCACA TACAGTAAAT CACCAGATGA TGCTGTGTTT 
CAACAGATAG CACTGTCTTA TTCCAAGGAA AATTCCCAGA TGTTTCAAGG TAGACCTTGC 
AAGAATATGT ACCCTAATGA ATATTTTCCT CATGGAATAA CGAATGGAGC TAATTGGTAT 
AATGTCCCAG GTGGTATGCA GGACTGGAAC TACTTACAAA CAAATTGCTT TGAAGTGACT 
ATTGAACTAG GTTGTATAAA ATATCCATTT GAGAAAGATC TGCCAAAATT TTGGGAGCAG 
AATCGAAGAT CTCTAATCCA GTTTATGAAA CAGGTTCATC AGGGTGTTAA AGGATTTGTC 
CTAGATGCCA CAGATGGCAG GGGCATATTG AATGCTACCA TTAGTGTTGC TGAAATTAAT 
CACCCTGTGA CTACTTACAA AACTGGAGAC TACTGGCGTC TCTTGGTTCC AGGAACTTAT 
AAAATCACAG CATCTGCTCG AGGGTATAAT CCGGTGACCA AGAACGTGAC TGTAAAGAGT 
GAAGGCGCTA TTCAGGTCAA CTTCACACTT GTTCGCTCCT CAACAGATGC AAACAGTGAA 
TCAAAGAAAG GAAAGGGAGA TAGCGCCAGC ACTGATGATG CCAGTGATCC AACTACTAAA 
GAATTTGAAG CTTTAATTAA AGACCTTTCA GCCGAGAATG GTTTAGAAGG CCTCATGTTA 
AAGTCCTCCT CTAATCTGGC CCTTTATCGA TACCATTCGT ACAAAGACTT ATCCGAGTTT 
CTGAGAGGAC TTGTCATGAA CTACCCACAT ATTACAAATC TTACCAATTT GGGACAGAGC 
GCTGAATATC GTCACATTTG GTCCCTTGAA ATCTCTAACA AGCCCAACGT GTCTGAGCCT 
GAGGAGCCAA AGATTCGTTT TGTTGCTGGT ATCCATGGAA ATGCTCCAGT TGGAACTGAA 
CTGCTTTTGG CTCTGGCAGA ATTTCTCTGT CTGAACTACA AAAAGAACCC AGCTGTTACC 
CAATTGGTTG ACAGGACTAG GATTGTGATT GTCCCTTCTC TGAATCCAGA TGGACGAGAG 
AGAGCACAAG AGAAAGACTG TACTTCAAAA ATAGGACAGA CAAATGCTCG TGGCAAAGAC 
TTAGATACAG ATTTCACAAA TAATGCCTCC CAGCCCGAGA CCAAAGCCAT CATTGAAAAT 
TTGATTCAAA AACAGGACTT CAGTCTTTCT GTTGCTTTAG ATGGTGGTTC TGTGCTGGTC 
ACATACCCAT ATGACAAGCC AGTACAGACA GTGGAAAACA AAGAGACTCT GAAGCATTTG 
GCATCTCTTT ATGCAAATAA TCACCCATCG ATGCACATGG GTCAGCCCAG TTGCCCAAAT 
AAATCAGATG AAAATATTCC AGGAGGAGTA ATGCGTGGAG CAGAATGGCA CAGCCACTTG 
GGCAGTATGA AGGACTATAG TGTCACTTAT GGTCACTGTC CAGAAATCAC CGTGTACACA 
AGCTGCTGCT ACTTTCCTAC CGCAGCACAG CTCCCGTCCT TGTGGGCAGA AAACAAAAGA 
TCTCTTCTGA GCATGTTGGT GGAGGTTCAC AAGGGAGTTC ATGGACTTGT TAAAGATAAG 
ACTGGAAAGC CAATCTCTAA AGCAGTCATC GTACTTAATG AGGGAATAAA GGTACACACC 
AAAGAGGGAG GTTATTTCCA CGTGCTGCTA GCCCCTGGTG TCCACAACAT CAATGCCATT 
GCCGATGGAT ACCAGCAACA ACATTCACAG GTTTTTGTGC ATCACGATGC AGCTAGTTCT 
GTGGTAATAG TCTTTGACAC AGACAACCGG ATATTTGGTT TACCAAGGGA GCTTGTGGTA 
ACTGTATCAG GTGCCACCAT GTCAGCATTG ATCCTAACAG CTTGCATTAT TTGGTGCATC 
TGTTCAATCA AGTCCAACAG ACACAAGGAT GGCTTTCATC GGCTCAGGCA GCATCATGAT 
GAGTATGAAG ATGAAATTCG CATGATGTCA ACTGGTTCTA AGAAGTCCCT CCTAAGCCAT 
GAGTTCCAGG ATGAAACAGA CACTGAAGAG GAAACATTAT ATTCTAGCAA ACATTGA

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

PubMed

Sodium taurocholate cotransporting polypeptide is a functional receptor for human hepatitis B and D virus.
eLife1e00049(2012 Nov)
Yan H,Zhong G,Xu G,He W,Jing Z,Gao Z,Huang Y,Qi Y,Peng B,Wang H,Fu L,Song M,Chen P,Gao W,Ren B,Sun Y,Cai T,Feng X,Sui J,Li W

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オンライン注文

CPD cDNA ORF clone, Tupaia chinensis(Chinese tree shrew)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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FAX

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