USP31 cDNA ORF clone, Tupaia chinensis(Chinese tree shrew)

Gene
Clones
gRNAs

Summary

Gene Symbol	USP31
Entrez Gene ID	102470552
Full Name	ubiquitin specific peptidase 31
Gene Type	protein-coding
Organism	Tupaia chinensis(Chinese tree shrew)

mRNA and Protein(s)

mRNA	Protein	Name
XM_006148317.2	XP_006148379.1	ubiquitin carboxyl-terminal hydrolase 31
XM_006148317.1	XP_006148379.1	ubiquitin carboxyl-terminal hydrolase 31

Pathways from BioSystems
Gene Ontology

The following USP31 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the USP31 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)
OTu07953	XM_006148317.2 Latest version!	Tupaia chinensis ubiquitin specific peptidase 31 (USP31), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$713.30 $1019.00
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OTu07953	XM_006148317.1	Tupaia chinensis ubiquitin specific peptidase 31 (USP31), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$713.30 $1019.00
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** 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)

USP31 ( XM_006148317.2 ) cDNA ORF clone, Tupaia chinensis(Chinese tree shrew) -> XP_006148379.1 Tupaia chinensis ubiquitin specific peptidase 31 (USP31), mRNA.

Price & Availability↑

CloneID	OTu07953
Clone ID Related Accession (Same CDS sequence)	XM_006148317.2 , XM_006148317.1
Accession Version	XM_006148317.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3675bp) 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	ubiquitin carboxyl-terminal hydrolase 31
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006159707.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jan 23, 2019 this sequence version replaced XM_006148317.1. ##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## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGCGGCTG CAGCAGCTTC AGCGCTGGGA GGGCGGCGCC GGGGACCAGT CACGGGAGAA 
AACACCGAGC TCTTCGCCGA GTACCTGGCG CTGGGCCAGT ACCGGGCGGG GCGGCCGGAG 
CCCTCGCCTG ACCCCGAGCA GCCTGCGGGC CGCGGCGCGC AGGGCCAGGG CGAGGTCACC 
GAGCAGCTGG CGCACCTGGT GCGGGCCCTC TGGACCCTGG AGTACACCCC GCAGCACAGC 
CGCGACTTCA AGAGTATCGT GTCAAAGAAT GCGCTGCAGT ATCGGGGAAA TTCCCAGCAT 
GACGCCCAGG AGTTTCTGCT GTGGCTTTTG GATCGAGTTC ACGAGGACCT CAATCATGCT 
GTGAAGCAGA GTGGCCAGCC TCCTCTGAAG CCACCATCAG AGACTGACAT GATTCCCGAG 
GGGCCATCCT TTCCTGTCTG TAGCACTTTT GTACAAGAAC TTTTTCAAGC CCAATACAGA 
TCTTCTTTGA CATGTCCTCA TTGTCAAAAA CAAAGCAACA CCTTTGACCC TTTTCTCTGC 
ATTTCTTTGC CAATTCCTCT ACCCCACACA AGGCCTCTCT ATGTCACTGT AGTGTATCAA 
GGGAAGTGTT CTCACTGCAT GAGGATTGGC GTGGCTGTGC CTCTGTCTGG GACTGTCGCC 
AGACTTCGGG AAGCAGTGTC TATGGAAACA AAGATCCCCA CTGATCAGAT TGTGTTAACA 
GAAATGTACT ATGATGGGTT CCACCGTTCC TTTTGTGATA CAGACGACCT GGAAACGGTC 
CATGAAAGCG ACTGCATTTT TGCCTTTGAG ACTCCAGAAA TATTTAGGCC TGAAGGAATT 
CTCAGTCAAA GAGGAATTCA CTTAAACAAC AATCTAAACC ACTTGAAATT TGGCTTGGAT 
CATCATAGAC TGTCTTCCCC TACTCAAATA GCAAAGCAAG GGAGAGTAGA CTTGCCCACC 
ACAAGAACAG GAAGTGACAA GATCGTTCTC TTGGTGTGTA ACCGAGCCTG CACTGGGCAG 
CAAGGGAAAA GATTTGGACT GCCTTTCGTG CTGCACTTAG AGAAGACAAT AGCATGGGAC 
CTTCTGCAGA AGGAAATCTT AGAGAAAATG AAGTATTTCT TGAGGCCCAC AGTTTGCATT 
CAGGTGTGTC CATTCAGTTT GCGTGTGGTC AGTGTTGTGG GAATCACGTA CTTGCTACCC 
CAGGAGGAGC AGCCCCTGTG CCACCCAACA GTAGAAAGGG CATTAAAATC TTGTGGACCA 
GGTGGTACTG CTCATGTGAA ATTAGTGGTA GAATGGGACA AGGAGACAAA AGATTTCTTG 
TTTGTAAACA CTGAAGATGA GTACATTCCT GACGCAGAAA GTGTCCGTCT GCAAAGGGAG 
CGTCATCATC AGCCTCAGAC CTGCACTTTA TCCCAGTGTT TCCAACTGTA CACCAAAGAG 
GAGCGGCTTG CCCCAGATGA CGCCTGGCGT TGCCCACACT GTAAGCAGCT GCAGCAGGGG 
AGTATTACGC TGAGTCTGTG GACCCTGCCA GATGTACTTA TTATACATCT AAAGAGATTT 
CGACAGGAAG GAGACAGGCG TATGAAACTT CAGAACATGG TCAAGTTCCC CTTGACTGGC 
CTGGACATGA CACCTCATGT GGTTAAGAGA AGCCAGAGCA GCTGGAGTTT GCCATCCCAT 
TGGTCCCCAT GGAGACGGCC CTATGGACTC GGGAGGGACC CTGAGGACTG CATCTATGAC 
CTGTATGCTG TGTGCAATCA TCATGGCACC ATGCAAGGGG GGCACTACAC AGCATACTGT 
AAGAACTCTG TGGATGGTCT CTGGTATTGC TTCGATGACA GCGATGTGCA GCAGCTGTCC 
GAAGAGGAGG TCTGCACACA GACAGCCTAC ATACTTTTCT ACCAGAGGCG GACAGCTATA 
CCATCATGGT CGGCTAACAG CTCAGTGGCA GGCTCCACAA GTTCTTCCTT GTGTGAACAC 
TGGGTGAGCC GACTCCCGGG GAGTAAGCAA GCCAGCGTGA CCTCTGCAGC CTCCTCCAGA 
CGCACTTCCC TGGCCTCACT CTCTGAGTCC GTGGAGATGA CTGGGGAAAG GAGCGAAGAT 
GACGGAGGCT TCTCAACTCG ACCATTTGTA AGAAGCGTCC AGCGCCAGAG TTTGTCATCC 
AGATCTTCTG TCACCAGCCC CTTGGCCGTC AACGAAAATT GTATGAGACC TTCTTGGTCC 
CTGTCTGCTA AGCTTCAGAT GCGCTCCAAT TCTCCTTCCC GATTCTCAGG GGACTCTCCA 
ATTCACAGCT CTGCCTCCAC CTTGGAGAAG ATCGGGGAGG CCGTGGATGA CAAGGTCTCC 
ATCTCTTGCT TTGGTAGCCT GAGGAACCTG TCTAGCAGTT ACCAGGAACC AAGTGATAGT 
CACAGTCGAC GTGAGCACAA AGCAGTGGGT CGGGCCCCTC TGGCTGTCAT GGAAGGTGTG 
TTCAAAGAAG AACCAGACAC TCGCAAATCG AACCCCGGTG TTGTAGAGAC ACAGAGCAAA 
AGCTCAGCAC AAGGGGATCG CTTGCCGCCT GTCTCTGATC CATTTGATAA CAATAACCAG 
ATTGCATATG TGGATCAGAG TGATTCTGTA GACAGCTCTC CAGTCAAAGA GGTGAAACCC 
CCTAGCCACC CAGGCTCACT CTCCAAGAAA CCAGAGAGCA CAACCAAGAG ATCCCCCAAC 
TCCAAAAGCG CTTCTGAGCC AGATAAAAGC TTGCGGAAAG GGAGACCAGC CTTGGCAAGT 
CAGGAATCAT CTCTTTCAAG TACATCTCCT TCTTCTCCTG TTCCTGTAAA AGTTTCCCTA 
AAGCCCTCCC GCTCCCGAAG CAAAGCAGAT TCTTCTTCTA GGGTCAGTGG ACGGCATTCA 
TCCCCTGCCT CTGTCCAACC CAAAAAGGAC TCATCTCCCA AATCCCAGGA CTCTGTGTCA 
TCCCCTTCTC CACAGAAGCA GAAGTCTGCC TCTGCCCTCG CTTATACTGC TTCATCTACA 
TCTGCCAAAA AAGCCTCGGG CCCTACCACG AGGGGCCCCT TCCCTCCTGG GAAGGGGAGG 
ACTTCAGACA GGAGCTTAAG TAGAGAGGGT TCCAGACAAA GCCTAGGTTC GGACAGAGCC 
AGCATCACTT CCACCTCCAA ACCCAACTCC CCTCGGGTGA GTCAGACCAG AGCGGTGGAA 
GGCCGAGGGG ATGGGAAGCA TGTTAGGAGC TCCTCCATGG CCAGCCTGCG CTCACCCAGC 
ACGAGCATCA AGTCTGGCCT GAAGAGGGAC AGCAAGTCTG AGGACAAGGG TCTGTCCTTC 
TTCAAATCAG CCTTGAGACA GAAGGAAACG CGGCGGTCGA CTGATCTTGG CAAGACAACC 
CTGCTCTCTA AAAAGGCTGG TGGAAGCTCT GTTAAGTCAG TCTCTAAGAG TTCCGTGGAT 
GACAAGGCAG AGAAAGGCCA CCAGCCTCCA GGTTCCCAGC AGCCAAATGC AAATGCAGTT 
GGAAAAGAGC AGCTTGTCTC CAAGGACCCT GCTTCTGCTA AACATTCGTT GTTGTCCACT 
CGCAAATCCA AGTCTTCCCA GCTAGATTCT GGAGTTCCCG CATCTCCTAG TGCCAGGCAG 
TCTGCTGAGA AATCCTCAAA AAAGTTATCT TCTAGCATGC AAAGCTCTGC ACGGCCTTCT 
CAAAAACCTC AGTGA

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

RefSeq	XP_006148379.1
CDS	1..3675
Translation	MAAAAASALGGRRRGPVTGENTELFAEYLALGQYRAGRPEPSPDPEQPAGRGAQGQGEVTEQLAHLVRALWTLEYTPQHSRDFKSIVSKNALQYRGNSQHDAQEFLLWLLDRVHEDLNHAVKQSGQPPLKPPSETDMIPEGPSFPVCSTFVQELFQAQYRSSLTCPHCQKQSNTFDPFLCISLPIPLPHTRPLYVTVVYQGKCSHCMRIGVAVPLSGTVARLREAVSMETKIPTDQIVLTEMYYDGFHRSFCDTDDLETVHESDCIFAFETPEIFRPEGILSQRGIHLNNNLNHLKFGLDHHRLSSPTQIAKQGRVDLPTTRTGSDKIVLLVCNRACTGQQGKRFGLPFVLHLEKTIAWDLLQKEILEKMKYFLRPTVCIQVCPFSLRVVSVVGITYLLPQEEQPLCHPTVERALKSCGPGGTAHVKLVVEWDKETKDFLFVNTEDEYIPDAESVRLQRERHHQPQTCTLSQCFQLYTKEERLAPDDAWRCPHCKQLQQGSITLSLWTLPDVLIIHLKRFRQEGDRRMKLQNMVKFPLTGLDMTPHVVKRSQSSWSLPSHWSPWRRPYGLGRDPEDCIYDLYAVCNHHGTMQGGHYTAYCKNSVDGLWYCFDDSDVQQLSEEEVCTQTAYILFYQRRTAIPSWSANSSVAGSTSSSLCEHWVSRLPGSKQASVTSAASSRRTSLASLSESVEMTGERSEDDGGFSTRPFVRSVQRQSLSSRSSVTSPLAVNENCMRPSWSLSAKLQMRSNSPSRFSGDSPIHSSASTLEKIGEAVDDKVSISCFGSLRNLSSSYQEPSDSHSRREHKAVGRAPLAVMEGVFKEEPDTRKSNPGVVETQSKSSAQGDRLPPVSDPFDNNNQIAYVDQSDSVDSSPVKEVKPPSHPGSLSKKPESTTKRSPNSKSASEPDKSLRKGRPALASQESSLSSTSPSSPVPVKVSLKPSRSRSKADSSSRVSGRHSSPASVQPKKDSSPKSQDSVSSPSPQKQKSASALAYTASSTSAKKASGPTTRGPFPPGKGRTSDRSLSREGSRQSLGSDRASITSTSKPNSPRVSQTRAVEGRGDGKHVRSSSMASLRSPSTSIKSGLKRDSKSEDKGLSFFKSALRQKETRRSTDLGKTTLLSKKAGGSSVKSVSKSSVDDKAEKGHQPPGSQQPNANAVGKEQLVSKDPASAKHSLLSTRKSKSSQLDSGVPASPSARQSAEKSSKKLSSSMQSSARPSQKPQ

Target ORF information:

RefSeq Version	XM_006148317.2
Organism	Tupaia chinensis(Chinese tree shrew)
Definition	Tupaia chinensis ubiquitin specific peptidase 31 (USP31), mRNA.

Target ORF information:

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

XM_006148317.2

ORF Insert Sequence:

ATGGCGGCTG CAGCAGCTTC AGCGCTGGGA GGGCGGCGCC GGGGACCAGT CACGGGAGAA 
AACACCGAGC TCTTCGCCGA GTACCTGGCG CTGGGCCAGT ACCGGGCGGG GCGGCCGGAG 
CCCTCGCCTG ACCCCGAGCA GCCTGCGGGC CGCGGCGCGC AGGGCCAGGG CGAGGTCACC 
GAGCAGCTGG CGCACCTGGT GCGGGCCCTC TGGACCCTGG AGTACACCCC GCAGCACAGC 
CGCGACTTCA AGAGTATCGT GTCAAAGAAT GCGCTGCAGT ATCGGGGAAA TTCCCAGCAT 
GACGCCCAGG AGTTTCTGCT GTGGCTTTTG GATCGAGTTC ACGAGGACCT CAATCATGCT 
GTGAAGCAGA GTGGCCAGCC TCCTCTGAAG CCACCATCAG AGACTGACAT GATTCCCGAG 
GGGCCATCCT TTCCTGTCTG TAGCACTTTT GTACAAGAAC TTTTTCAAGC CCAATACAGA 
TCTTCTTTGA CATGTCCTCA TTGTCAAAAA CAAAGCAACA CCTTTGACCC TTTTCTCTGC 
ATTTCTTTGC CAATTCCTCT ACCCCACACA AGGCCTCTCT ATGTCACTGT AGTGTATCAA 
GGGAAGTGTT CTCACTGCAT GAGGATTGGC GTGGCTGTGC CTCTGTCTGG GACTGTCGCC 
AGACTTCGGG AAGCAGTGTC TATGGAAACA AAGATCCCCA CTGATCAGAT TGTGTTAACA 
GAAATGTACT ATGATGGGTT CCACCGTTCC TTTTGTGATA CAGACGACCT GGAAACGGTC 
CATGAAAGCG ACTGCATTTT TGCCTTTGAG ACTCCAGAAA TATTTAGGCC TGAAGGAATT 
CTCAGTCAAA GAGGAATTCA CTTAAACAAC AATCTAAACC ACTTGAAATT TGGCTTGGAT 
CATCATAGAC TGTCTTCCCC TACTCAAATA GCAAAGCAAG GGAGAGTAGA CTTGCCCACC 
ACAAGAACAG GAAGTGACAA GATCGTTCTC TTGGTGTGTA ACCGAGCCTG CACTGGGCAG 
CAAGGGAAAA GATTTGGACT GCCTTTCGTG CTGCACTTAG AGAAGACAAT AGCATGGGAC 
CTTCTGCAGA AGGAAATCTT AGAGAAAATG AAGTATTTCT TGAGGCCCAC AGTTTGCATT 
CAGGTGTGTC CATTCAGTTT GCGTGTGGTC AGTGTTGTGG GAATCACGTA CTTGCTACCC 
CAGGAGGAGC AGCCCCTGTG CCACCCAACA GTAGAAAGGG CATTAAAATC TTGTGGACCA 
GGTGGTACTG CTCATGTGAA ATTAGTGGTA GAATGGGACA AGGAGACAAA AGATTTCTTG 
TTTGTAAACA CTGAAGATGA GTACATTCCT GACGCAGAAA GTGTCCGTCT GCAAAGGGAG 
CGTCATCATC AGCCTCAGAC CTGCACTTTA TCCCAGTGTT TCCAACTGTA CACCAAAGAG 
GAGCGGCTTG CCCCAGATGA CGCCTGGCGT TGCCCACACT GTAAGCAGCT GCAGCAGGGG 
AGTATTACGC TGAGTCTGTG GACCCTGCCA GATGTACTTA TTATACATCT AAAGAGATTT 
CGACAGGAAG GAGACAGGCG TATGAAACTT CAGAACATGG TCAAGTTCCC CTTGACTGGC 
CTGGACATGA CACCTCATGT GGTTAAGAGA AGCCAGAGCA GCTGGAGTTT GCCATCCCAT 
TGGTCCCCAT GGAGACGGCC CTATGGACTC GGGAGGGACC CTGAGGACTG CATCTATGAC 
CTGTATGCTG TGTGCAATCA TCATGGCACC ATGCAAGGGG GGCACTACAC AGCATACTGT 
AAGAACTCTG TGGATGGTCT CTGGTATTGC TTCGATGACA GCGATGTGCA GCAGCTGTCC 
GAAGAGGAGG TCTGCACACA GACAGCCTAC ATACTTTTCT ACCAGAGGCG GACAGCTATA 
CCATCATGGT CGGCTAACAG CTCAGTGGCA GGCTCCACAA GTTCTTCCTT GTGTGAACAC 
TGGGTGAGCC GACTCCCGGG GAGTAAGCAA GCCAGCGTGA CCTCTGCAGC CTCCTCCAGA 
CGCACTTCCC TGGCCTCACT CTCTGAGTCC GTGGAGATGA CTGGGGAAAG GAGCGAAGAT 
GACGGAGGCT TCTCAACTCG ACCATTTGTA AGAAGCGTCC AGCGCCAGAG TTTGTCATCC 
AGATCTTCTG TCACCAGCCC CTTGGCCGTC AACGAAAATT GTATGAGACC TTCTTGGTCC 
CTGTCTGCTA AGCTTCAGAT GCGCTCCAAT TCTCCTTCCC GATTCTCAGG GGACTCTCCA 
ATTCACAGCT CTGCCTCCAC CTTGGAGAAG ATCGGGGAGG CCGTGGATGA CAAGGTCTCC 
ATCTCTTGCT TTGGTAGCCT GAGGAACCTG TCTAGCAGTT ACCAGGAACC AAGTGATAGT 
CACAGTCGAC GTGAGCACAA AGCAGTGGGT CGGGCCCCTC TGGCTGTCAT GGAAGGTGTG 
TTCAAAGAAG AACCAGACAC TCGCAAATCG AACCCCGGTG TTGTAGAGAC ACAGAGCAAA 
AGCTCAGCAC AAGGGGATCG CTTGCCGCCT GTCTCTGATC CATTTGATAA CAATAACCAG 
ATTGCATATG TGGATCAGAG TGATTCTGTA GACAGCTCTC CAGTCAAAGA GGTGAAACCC 
CCTAGCCACC CAGGCTCACT CTCCAAGAAA CCAGAGAGCA CAACCAAGAG ATCCCCCAAC 
TCCAAAAGCG CTTCTGAGCC AGATAAAAGC TTGCGGAAAG GGAGACCAGC CTTGGCAAGT 
CAGGAATCAT CTCTTTCAAG TACATCTCCT TCTTCTCCTG TTCCTGTAAA AGTTTCCCTA 
AAGCCCTCCC GCTCCCGAAG CAAAGCAGAT TCTTCTTCTA GGGTCAGTGG ACGGCATTCA 
TCCCCTGCCT CTGTCCAACC CAAAAAGGAC TCATCTCCCA AATCCCAGGA CTCTGTGTCA 
TCCCCTTCTC CACAGAAGCA GAAGTCTGCC TCTGCCCTCG CTTATACTGC TTCATCTACA 
TCTGCCAAAA AAGCCTCGGG CCCTACCACG AGGGGCCCCT TCCCTCCTGG GAAGGGGAGG 
ACTTCAGACA GGAGCTTAAG TAGAGAGGGT TCCAGACAAA GCCTAGGTTC GGACAGAGCC 
AGCATCACTT CCACCTCCAA ACCCAACTCC CCTCGGGTGA GTCAGACCAG AGCGGTGGAA 
GGCCGAGGGG ATGGGAAGCA TGTTAGGAGC TCCTCCATGG CCAGCCTGCG CTCACCCAGC 
ACGAGCATCA AGTCTGGCCT GAAGAGGGAC AGCAAGTCTG AGGACAAGGG TCTGTCCTTC 
TTCAAATCAG CCTTGAGACA GAAGGAAACG CGGCGGTCGA CTGATCTTGG CAAGACAACC 
CTGCTCTCTA AAAAGGCTGG TGGAAGCTCT GTTAAGTCAG TCTCTAAGAG TTCCGTGGAT 
GACAAGGCAG AGAAAGGCCA CCAGCCTCCA GGTTCCCAGC AGCCAAATGC AAATGCAGTT 
GGAAAAGAGC AGCTTGTCTC CAAGGACCCT GCTTCTGCTA AACATTCGTT GTTGTCCACT 
CGCAAATCCA AGTCTTCCCA GCTAGATTCT GGAGTTCCCG CATCTCCTAG TGCCAGGCAG 
TCTGCTGAGA AATCCTCAAA AAAGTTATCT TCTAGCATGC AAAGCTCTGC ACGGCCTTCT 
CAAAAACCTC AGTGA

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

USP31 ( XM_006148317.1 ) cDNA ORF clone, Tupaia chinensis(Chinese tree shrew) -> XP_006148379.1 Tupaia chinensis ubiquitin specific peptidase 31 (USP31), mRNA.

Price & Availability↑

CloneID	OTu07953
Clone ID Related Accession (Same CDS sequence)	XM_006148317.2 , XM_006148317.1
Accession Version	XM_006148317.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3675bp) 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	ubiquitin carboxyl-terminal hydrolase 31
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006159707.1) 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 :: 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## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGCGGCTG CAGCAGCTTC AGCGCTGGGA GGGCGGCGCC GGGGACCAGT CACGGGAGAA 
AACACCGAGC TCTTCGCCGA GTACCTGGCG CTGGGCCAGT ACCGGGCGGG GCGGCCGGAG 
CCCTCGCCTG ACCCCGAGCA GCCTGCGGGC CGCGGCGCGC AGGGCCAGGG CGAGGTCACC 
GAGCAGCTGG CGCACCTGGT GCGGGCCCTC TGGACCCTGG AGTACACCCC GCAGCACAGC 
CGCGACTTCA AGAGTATCGT GTCAAAGAAT GCGCTGCAGT ATCGGGGAAA TTCCCAGCAT 
GACGCCCAGG AGTTTCTGCT GTGGCTTTTG GATCGAGTTC ACGAGGACCT CAATCATGCT 
GTGAAGCAGA GTGGCCAGCC TCCTCTGAAG CCACCATCAG AGACTGACAT GATTCCCGAG 
GGGCCATCCT TTCCTGTCTG TAGCACTTTT GTACAAGAAC TTTTTCAAGC CCAATACAGA 
TCTTCTTTGA CATGTCCTCA TTGTCAAAAA CAAAGCAACA CCTTTGACCC TTTTCTCTGC 
ATTTCTTTGC CAATTCCTCT ACCCCACACA AGGCCTCTCT ATGTCACTGT AGTGTATCAA 
GGGAAGTGTT CTCACTGCAT GAGGATTGGC GTGGCTGTGC CTCTGTCTGG GACTGTCGCC 
AGACTTCGGG AAGCAGTGTC TATGGAAACA AAGATCCCCA CTGATCAGAT TGTGTTAACA 
GAAATGTACT ATGATGGGTT CCACCGTTCC TTTTGTGATA CAGACGACCT GGAAACGGTC 
CATGAAAGCG ACTGCATTTT TGCCTTTGAG ACTCCAGAAA TATTTAGGCC TGAAGGAATT 
CTCAGTCAAA GAGGAATTCA CTTAAACAAC AATCTAAACC ACTTGAAATT TGGCTTGGAT 
CATCATAGAC TGTCTTCCCC TACTCAAATA GCAAAGCAAG GGAGAGTAGA CTTGCCCACC 
ACAAGAACAG GAAGTGACAA GATCGTTCTC TTGGTGTGTA ACCGAGCCTG CACTGGGCAG 
CAAGGGAAAA GATTTGGACT GCCTTTCGTG CTGCACTTAG AGAAGACAAT AGCATGGGAC 
CTTCTGCAGA AGGAAATCTT AGAGAAAATG AAGTATTTCT TGAGGCCCAC AGTTTGCATT 
CAGGTGTGTC CATTCAGTTT GCGTGTGGTC AGTGTTGTGG GAATCACGTA CTTGCTACCC 
CAGGAGGAGC AGCCCCTGTG CCACCCAACA GTAGAAAGGG CATTAAAATC TTGTGGACCA 
GGTGGTACTG CTCATGTGAA ATTAGTGGTA GAATGGGACA AGGAGACAAA AGATTTCTTG 
TTTGTAAACA CTGAAGATGA GTACATTCCT GACGCAGAAA GTGTCCGTCT GCAAAGGGAG 
CGTCATCATC AGCCTCAGAC CTGCACTTTA TCCCAGTGTT TCCAACTGTA CACCAAAGAG 
GAGCGGCTTG CCCCAGATGA CGCCTGGCGT TGCCCACACT GTAAGCAGCT GCAGCAGGGG 
AGTATTACGC TGAGTCTGTG GACCCTGCCA GATGTACTTA TTATACATCT AAAGAGATTT 
CGACAGGAAG GAGACAGGCG TATGAAACTT CAGAACATGG TCAAGTTCCC CTTGACTGGC 
CTGGACATGA CACCTCATGT GGTTAAGAGA AGCCAGAGCA GCTGGAGTTT GCCATCCCAT 
TGGTCCCCAT GGAGACGGCC CTATGGACTC GGGAGGGACC CTGAGGACTG CATCTATGAC 
CTGTATGCTG TGTGCAATCA TCATGGCACC ATGCAAGGGG GGCACTACAC AGCATACTGT 
AAGAACTCTG TGGATGGTCT CTGGTATTGC TTCGATGACA GCGATGTGCA GCAGCTGTCC 
GAAGAGGAGG TCTGCACACA GACAGCCTAC ATACTTTTCT ACCAGAGGCG GACAGCTATA 
CCATCATGGT CGGCTAACAG CTCAGTGGCA GGCTCCACAA GTTCTTCCTT GTGTGAACAC 
TGGGTGAGCC GACTCCCGGG GAGTAAGCAA GCCAGCGTGA CCTCTGCAGC CTCCTCCAGA 
CGCACTTCCC TGGCCTCACT CTCTGAGTCC GTGGAGATGA CTGGGGAAAG GAGCGAAGAT 
GACGGAGGCT TCTCAACTCG ACCATTTGTA AGAAGCGTCC AGCGCCAGAG TTTGTCATCC 
AGATCTTCTG TCACCAGCCC CTTGGCCGTC AACGAAAATT GTATGAGACC TTCTTGGTCC 
CTGTCTGCTA AGCTTCAGAT GCGCTCCAAT TCTCCTTCCC GATTCTCAGG GGACTCTCCA 
ATTCACAGCT CTGCCTCCAC CTTGGAGAAG ATCGGGGAGG CCGTGGATGA CAAGGTCTCC 
ATCTCTTGCT TTGGTAGCCT GAGGAACCTG TCTAGCAGTT ACCAGGAACC AAGTGATAGT 
CACAGTCGAC GTGAGCACAA AGCAGTGGGT CGGGCCCCTC TGGCTGTCAT GGAAGGTGTG 
TTCAAAGAAG AACCAGACAC TCGCAAATCG AACCCCGGTG TTGTAGAGAC ACAGAGCAAA 
AGCTCAGCAC AAGGGGATCG CTTGCCGCCT GTCTCTGATC CATTTGATAA CAATAACCAG 
ATTGCATATG TGGATCAGAG TGATTCTGTA GACAGCTCTC CAGTCAAAGA GGTGAAACCC 
CCTAGCCACC CAGGCTCACT CTCCAAGAAA CCAGAGAGCA CAACCAAGAG ATCCCCCAAC 
TCCAAAAGCG CTTCTGAGCC AGATAAAAGC TTGCGGAAAG GGAGACCAGC CTTGGCAAGT 
CAGGAATCAT CTCTTTCAAG TACATCTCCT TCTTCTCCTG TTCCTGTAAA AGTTTCCCTA 
AAGCCCTCCC GCTCCCGAAG CAAAGCAGAT TCTTCTTCTA GGGTCAGTGG ACGGCATTCA 
TCCCCTGCCT CTGTCCAACC CAAAAAGGAC TCATCTCCCA AATCCCAGGA CTCTGTGTCA 
TCCCCTTCTC CACAGAAGCA GAAGTCTGCC TCTGCCCTCG CTTATACTGC TTCATCTACA 
TCTGCCAAAA AAGCCTCGGG CCCTACCACG AGGGGCCCCT TCCCTCCTGG GAAGGGGAGG 
ACTTCAGACA GGAGCTTAAG TAGAGAGGGT TCCAGACAAA GCCTAGGTTC GGACAGAGCC 
AGCATCACTT CCACCTCCAA ACCCAACTCC CCTCGGGTGA GTCAGACCAG AGCGGTGGAA 
GGCCGAGGGG ATGGGAAGCA TGTTAGGAGC TCCTCCATGG CCAGCCTGCG CTCACCCAGC 
ACGAGCATCA AGTCTGGCCT GAAGAGGGAC AGCAAGTCTG AGGACAAGGG TCTGTCCTTC 
TTCAAATCAG CCTTGAGACA GAAGGAAACG CGGCGGTCGA CTGATCTTGG CAAGACAACC 
CTGCTCTCTA AAAAGGCTGG TGGAAGCTCT GTTAAGTCAG TCTCTAAGAG TTCCGTGGAT 
GACAAGGCAG AGAAAGGCCA CCAGCCTCCA GGTTCCCAGC AGCCAAATGC AAATGCAGTT 
GGAAAAGAGC AGCTTGTCTC CAAGGACCCT GCTTCTGCTA AACATTCGTT GTTGTCCACT 
CGCAAATCCA AGTCTTCCCA GCTAGATTCT GGAGTTCCCG CATCTCCTAG TGCCAGGCAG 
TCTGCTGAGA AATCCTCAAA AAAGTTATCT TCTAGCATGC AAAGCTCTGC ACGGCCTTCT 
CAAAAACCTC AGTGA

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

RefSeq	XP_006148379.1
CDS	1..3675
Translation	MAAAAASALGGRRRGPVTGENTELFAEYLALGQYRAGRPEPSPDPEQPAGRGAQGQGEVTEQLAHLVRALWTLEYTPQHSRDFKSIVSKNALQYRGNSQHDAQEFLLWLLDRVHEDLNHAVKQSGQPPLKPPSETDMIPEGPSFPVCSTFVQELFQAQYRSSLTCPHCQKQSNTFDPFLCISLPIPLPHTRPLYVTVVYQGKCSHCMRIGVAVPLSGTVARLREAVSMETKIPTDQIVLTEMYYDGFHRSFCDTDDLETVHESDCIFAFETPEIFRPEGILSQRGIHLNNNLNHLKFGLDHHRLSSPTQIAKQGRVDLPTTRTGSDKIVLLVCNRACTGQQGKRFGLPFVLHLEKTIAWDLLQKEILEKMKYFLRPTVCIQVCPFSLRVVSVVGITYLLPQEEQPLCHPTVERALKSCGPGGTAHVKLVVEWDKETKDFLFVNTEDEYIPDAESVRLQRERHHQPQTCTLSQCFQLYTKEERLAPDDAWRCPHCKQLQQGSITLSLWTLPDVLIIHLKRFRQEGDRRMKLQNMVKFPLTGLDMTPHVVKRSQSSWSLPSHWSPWRRPYGLGRDPEDCIYDLYAVCNHHGTMQGGHYTAYCKNSVDGLWYCFDDSDVQQLSEEEVCTQTAYILFYQRRTAIPSWSANSSVAGSTSSSLCEHWVSRLPGSKQASVTSAASSRRTSLASLSESVEMTGERSEDDGGFSTRPFVRSVQRQSLSSRSSVTSPLAVNENCMRPSWSLSAKLQMRSNSPSRFSGDSPIHSSASTLEKIGEAVDDKVSISCFGSLRNLSSSYQEPSDSHSRREHKAVGRAPLAVMEGVFKEEPDTRKSNPGVVETQSKSSAQGDRLPPVSDPFDNNNQIAYVDQSDSVDSSPVKEVKPPSHPGSLSKKPESTTKRSPNSKSASEPDKSLRKGRPALASQESSLSSTSPSSPVPVKVSLKPSRSRSKADSSSRVSGRHSSPASVQPKKDSSPKSQDSVSSPSPQKQKSASALAYTASSTSAKKASGPTTRGPFPPGKGRTSDRSLSREGSRQSLGSDRASITSTSKPNSPRVSQTRAVEGRGDGKHVRSSSMASLRSPSTSIKSGLKRDSKSEDKGLSFFKSALRQKETRRSTDLGKTTLLSKKAGGSSVKSVSKSSVDDKAEKGHQPPGSQQPNANAVGKEQLVSKDPASAKHSLLSTRKSKSSQLDSGVPASPSARQSAEKSSKKLSSSMQSSARPSQKPQ

Target ORF information:

RefSeq Version	XM_006148317.1
Organism	Tupaia chinensis(Chinese tree shrew)
Definition	Tupaia chinensis ubiquitin specific peptidase 31 (USP31), mRNA.

Target ORF information:

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

XM_006148317.1

ORF Insert Sequence:

ATGGCGGCTG CAGCAGCTTC AGCGCTGGGA GGGCGGCGCC GGGGACCAGT CACGGGAGAA 
AACACCGAGC TCTTCGCCGA GTACCTGGCG CTGGGCCAGT ACCGGGCGGG GCGGCCGGAG 
CCCTCGCCTG ACCCCGAGCA GCCTGCGGGC CGCGGCGCGC AGGGCCAGGG CGAGGTCACC 
GAGCAGCTGG CGCACCTGGT GCGGGCCCTC TGGACCCTGG AGTACACCCC GCAGCACAGC 
CGCGACTTCA AGAGTATCGT GTCAAAGAAT GCGCTGCAGT ATCGGGGAAA TTCCCAGCAT 
GACGCCCAGG AGTTTCTGCT GTGGCTTTTG GATCGAGTTC ACGAGGACCT CAATCATGCT 
GTGAAGCAGA GTGGCCAGCC TCCTCTGAAG CCACCATCAG AGACTGACAT GATTCCCGAG 
GGGCCATCCT TTCCTGTCTG TAGCACTTTT GTACAAGAAC TTTTTCAAGC CCAATACAGA 
TCTTCTTTGA CATGTCCTCA TTGTCAAAAA CAAAGCAACA CCTTTGACCC TTTTCTCTGC 
ATTTCTTTGC CAATTCCTCT ACCCCACACA AGGCCTCTCT ATGTCACTGT AGTGTATCAA 
GGGAAGTGTT CTCACTGCAT GAGGATTGGC GTGGCTGTGC CTCTGTCTGG GACTGTCGCC 
AGACTTCGGG AAGCAGTGTC TATGGAAACA AAGATCCCCA CTGATCAGAT TGTGTTAACA 
GAAATGTACT ATGATGGGTT CCACCGTTCC TTTTGTGATA CAGACGACCT GGAAACGGTC 
CATGAAAGCG ACTGCATTTT TGCCTTTGAG ACTCCAGAAA TATTTAGGCC TGAAGGAATT 
CTCAGTCAAA GAGGAATTCA CTTAAACAAC AATCTAAACC ACTTGAAATT TGGCTTGGAT 
CATCATAGAC TGTCTTCCCC TACTCAAATA GCAAAGCAAG GGAGAGTAGA CTTGCCCACC 
ACAAGAACAG GAAGTGACAA GATCGTTCTC TTGGTGTGTA ACCGAGCCTG CACTGGGCAG 
CAAGGGAAAA GATTTGGACT GCCTTTCGTG CTGCACTTAG AGAAGACAAT AGCATGGGAC 
CTTCTGCAGA AGGAAATCTT AGAGAAAATG AAGTATTTCT TGAGGCCCAC AGTTTGCATT 
CAGGTGTGTC CATTCAGTTT GCGTGTGGTC AGTGTTGTGG GAATCACGTA CTTGCTACCC 
CAGGAGGAGC AGCCCCTGTG CCACCCAACA GTAGAAAGGG CATTAAAATC TTGTGGACCA 
GGTGGTACTG CTCATGTGAA ATTAGTGGTA GAATGGGACA AGGAGACAAA AGATTTCTTG 
TTTGTAAACA CTGAAGATGA GTACATTCCT GACGCAGAAA GTGTCCGTCT GCAAAGGGAG 
CGTCATCATC AGCCTCAGAC CTGCACTTTA TCCCAGTGTT TCCAACTGTA CACCAAAGAG 
GAGCGGCTTG CCCCAGATGA CGCCTGGCGT TGCCCACACT GTAAGCAGCT GCAGCAGGGG 
AGTATTACGC TGAGTCTGTG GACCCTGCCA GATGTACTTA TTATACATCT AAAGAGATTT 
CGACAGGAAG GAGACAGGCG TATGAAACTT CAGAACATGG TCAAGTTCCC CTTGACTGGC 
CTGGACATGA CACCTCATGT GGTTAAGAGA AGCCAGAGCA GCTGGAGTTT GCCATCCCAT 
TGGTCCCCAT GGAGACGGCC CTATGGACTC GGGAGGGACC CTGAGGACTG CATCTATGAC 
CTGTATGCTG TGTGCAATCA TCATGGCACC ATGCAAGGGG GGCACTACAC AGCATACTGT 
AAGAACTCTG TGGATGGTCT CTGGTATTGC TTCGATGACA GCGATGTGCA GCAGCTGTCC 
GAAGAGGAGG TCTGCACACA GACAGCCTAC ATACTTTTCT ACCAGAGGCG GACAGCTATA 
CCATCATGGT CGGCTAACAG CTCAGTGGCA GGCTCCACAA GTTCTTCCTT GTGTGAACAC 
TGGGTGAGCC GACTCCCGGG GAGTAAGCAA GCCAGCGTGA CCTCTGCAGC CTCCTCCAGA 
CGCACTTCCC TGGCCTCACT CTCTGAGTCC GTGGAGATGA CTGGGGAAAG GAGCGAAGAT 
GACGGAGGCT TCTCAACTCG ACCATTTGTA AGAAGCGTCC AGCGCCAGAG TTTGTCATCC 
AGATCTTCTG TCACCAGCCC CTTGGCCGTC AACGAAAATT GTATGAGACC TTCTTGGTCC 
CTGTCTGCTA AGCTTCAGAT GCGCTCCAAT TCTCCTTCCC GATTCTCAGG GGACTCTCCA 
ATTCACAGCT CTGCCTCCAC CTTGGAGAAG ATCGGGGAGG CCGTGGATGA CAAGGTCTCC 
ATCTCTTGCT TTGGTAGCCT GAGGAACCTG TCTAGCAGTT ACCAGGAACC AAGTGATAGT 
CACAGTCGAC GTGAGCACAA AGCAGTGGGT CGGGCCCCTC TGGCTGTCAT GGAAGGTGTG 
TTCAAAGAAG AACCAGACAC TCGCAAATCG AACCCCGGTG TTGTAGAGAC ACAGAGCAAA 
AGCTCAGCAC AAGGGGATCG CTTGCCGCCT GTCTCTGATC CATTTGATAA CAATAACCAG 
ATTGCATATG TGGATCAGAG TGATTCTGTA GACAGCTCTC CAGTCAAAGA GGTGAAACCC 
CCTAGCCACC CAGGCTCACT CTCCAAGAAA CCAGAGAGCA CAACCAAGAG ATCCCCCAAC 
TCCAAAAGCG CTTCTGAGCC AGATAAAAGC TTGCGGAAAG GGAGACCAGC CTTGGCAAGT 
CAGGAATCAT CTCTTTCAAG TACATCTCCT TCTTCTCCTG TTCCTGTAAA AGTTTCCCTA 
AAGCCCTCCC GCTCCCGAAG CAAAGCAGAT TCTTCTTCTA GGGTCAGTGG ACGGCATTCA 
TCCCCTGCCT CTGTCCAACC CAAAAAGGAC TCATCTCCCA AATCCCAGGA CTCTGTGTCA 
TCCCCTTCTC CACAGAAGCA GAAGTCTGCC TCTGCCCTCG CTTATACTGC TTCATCTACA 
TCTGCCAAAA AAGCCTCGGG CCCTACCACG AGGGGCCCCT TCCCTCCTGG GAAGGGGAGG 
ACTTCAGACA GGAGCTTAAG TAGAGAGGGT TCCAGACAAA GCCTAGGTTC GGACAGAGCC 
AGCATCACTT CCACCTCCAA ACCCAACTCC CCTCGGGTGA GTCAGACCAG AGCGGTGGAA 
GGCCGAGGGG ATGGGAAGCA TGTTAGGAGC TCCTCCATGG CCAGCCTGCG CTCACCCAGC 
ACGAGCATCA AGTCTGGCCT GAAGAGGGAC AGCAAGTCTG AGGACAAGGG TCTGTCCTTC 
TTCAAATCAG CCTTGAGACA GAAGGAAACG CGGCGGTCGA CTGATCTTGG CAAGACAACC 
CTGCTCTCTA AAAAGGCTGG TGGAAGCTCT GTTAAGTCAG TCTCTAAGAG TTCCGTGGAT 
GACAAGGCAG AGAAAGGCCA CCAGCCTCCA GGTTCCCAGC AGCCAAATGC AAATGCAGTT 
GGAAAAGAGC AGCTTGTCTC CAAGGACCCT GCTTCTGCTA AACATTCGTT GTTGTCCACT 
CGCAAATCCA AGTCTTCCCA GCTAGATTCT GGAGTTCCCG CATCTCCTAG TGCCAGGCAG 
TCTGCTGAGA AATCCTCAAA AAAGTTATCT TCTAGCATGC AAAGCTCTGC ACGGCCTTCT 
CAAAAACCTC AGTGA