USP31 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	USP31
Entrez Gene ID	100476506
Full Name	ubiquitin specific peptidase 31
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_002927126.3	XP_002927172.3	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)	Select
OAc98280	XM_002927126.3 Latest version!	Ailuropoda melanoleuca ubiquitin specific peptidase 31 (USP31), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

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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_002927126.3 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_002927172.3 Ailuropoda melanoleuca ubiquitin specific peptidase 31 (USP31), mRNA.

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CloneID	OAc98280
Clone ID Related Accession (Same CDS sequence)	XM_002927126.3
Accession Version	XM_002927126.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3639bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
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_003218506.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_002927126.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAACGCCA CGCTGCAGTG TCTCAGCAAC ACCGAGCTCT TCGCCGAGTA CCTGGCGCTC 
GGCCAGTACC GGGCGGGGCG GCCCGAGCCC TCGCCTGACC CCGAACAGCC TGTGGGCCGG 
GGGACGCAGG GCCAGGGCGA GGTCACCGAG CAGCTGGCGC ACCTGGTGCG GGCCCTCTGG 
ACCCTGGAGT ACACGCCGCA GCACAGCCGC GACTTCAAGA GTATTGTGTC AAAGAACGCA 
CTGCAGTATC GGGGAAATTC CCAGCATGAC GCCCAGGAGT TTCTGCTGTG GCTTCTGGAC 
CGAGTTCACG AAGACCTCAA TCATGCTGTG AAGCAGAGCG GCCAGCCTCC TCTGAAGCCA 
CCATCAGAGA CTGATATGAT GCCCGAGGGA CCATCTTTTC CTGTCTGTAG CACTTTTGTA 
CAAGAACTTT TTCAAGCCCA GTACAGATCT TCTTTGACAT GTCCTCACTG TCAGAAGCAG 
AGCAACACTT TTGACCCCTT CCTCTGCATT TCTTTGCCAA TTCCTCTACC CCACACAAGG 
CCTCTCTATG TTACCGTAGT GTATCAGGGG AAATGTTCTC ACTGCATGAG GATTGGTGTG 
GCCGTGCCTC TGTCTGGGAC TGTCGCCAGG CTTCGCGAAG CAGTGTCTAT GGAAACAAAG 
ATCCCCACTG ATCAGATTGT GTTAACGGAA ATGTACTATG ATGGGTTCCA TCGTTCCTTT 
TGTGACACAG ACGACCTGGA AACAGTCCAT GAAAGCGACT GCATTTTTGC CTTTGAGACT 
CCAGAAATAT TTAGGCCTGA AGGAATTCTC AGTCAAAGAG GAATCCACTT AAACAGCAAT 
CTAAACCACT TGAAATTTGC CTTGGATCAT CGACTGTCTT CTATGCAAGC AGCAGCAAAG 
CAAGGGAAAA TAGACTTGCC CCCAACAAGA GCAGAAAATG ACAAGATTGT TCTATTAGTG 
TGTAACCGAG CGTGCACTGG GCAGCAAGGG AAAAGATTTG GACTGCCTTT TGTGCTGCAC 
TTAGAGAAGA CAATAGCGTG GGACCTTCTG CAGAAGGAAA TCTTGGAGAA GATGAAGTAT 
TTCTTGAGGC CCACGGTTTG CATCCAGGTG TGTCCATTCA GTTTGCGTGT TGTCAGTGTT 
GTGGGGATAA CATACTTGCT GCCCCAGGAG GAGAAGCCGC TATGCCACCC AACAGTAGAA 
AGGGCGTTGA AGTCTTGTGG ACCAGGTGGC ACTGCTCATG TGAAGTTAGT GGTAGAATGG 
GACAAGGAAA CAAAAGATTT CTTGTTTGTA AATACTGAAG ATGAATATAT TCCTGATGCA 
GAAAGCGTCC GTCTGCAGAG GGAGCGTCAT CATCAGCCTC AGACTTGCAC TTTATCCCAG 
TGTTTCCAGC TCTACACCAA AGAGGAGCGG CTCGCCCCAG ATGACGCCTG GCGTTGCCCG 
CACTGTAAGC AGCTGCAGCA GGGGAGCATT ACATTAAGCC TCTGGACTCT GCCTGATGTG 
CTTATTATAC ATCTAAAGAG ATTTCGACAG GAAGGAGACA GGCGTGTGAA ACTTCAGAAC 
ATGGTCAAGT TCCCCTTGAC TGGCCTGGAC ATGACACCTC ATGTGGTTAA GAGAAGTCAG 
AGCAGCTGGA GTTTGCCATC CCATTGGTCT CCGTGGAGAC GGCCCTATGG ACTTGGGAGG 
GACCCCGAGG ACTACGTCTA TGACCTGTAT GCTGTGTGCA ATCATCATGG CACCATGCAA 
GGGGGGCACT ACACAGCATA CTGTAAGAAC TCTGTGGATG GCCTCTGGTA CTGCTTCGAT 
GACAGTGATG TGCAGCAGCT GTCAGAAGAT GAGGTCTGCA CACAGACGGC GTACATCCTT 
TTCTACCAGA GGCGGACAGC TATTCCGTCG TGGTCGGCCA ACAGCTCAGT GGCAGGCTCT 
ACGAGTTCTT CACTGTGTGA ACACTGGGTG AGCCGGCTCC CGGGGAGCAA GCAAGCCAGC 
GTGACCTCCG CAGCTTCCTC CAGACGCACC TCCCTGGCCT CATTGTCCGA GTCGGTGGAG 
ATGGCCGGGG AGAGGAGTGA AGACGATGGA GGTTTCTCAA CTCGACCATT CGTGAGAAGT 
GTCCAGCGTC AGAGCTTGTC ATCCAGATCT TCTGTCACCA GCCCCTTGGC CGTTAACGAC 
AATTGCATTA GACCTTCTTG GTCCCTGTCC GCCAAGCTGC AGATGCGCTC CAGTTCTCCC 
TCCCGGTTCT CAGGGGACTC TCCGATCCAC ACCTCTGCCT CCACCTTGGA GAAGATCGGG 
GAGGCAGTAG ATGACAAGGT CTCCATCTCT TGCTTTGGCA GCTTGAGGAA CCTTTCCAGC 
AGTTACCAGG AACCAAGTGA TAGTCACAGC CGACGTGAGC ACAAGGCTGT GGGTCGGGCC 
CCTCTGGCTG TCATGGAAGG CGTGTTCAGA GATGAATCAG ACACCCGCAA ATTGAACTCC 
AGTGTTATAG ACACACAGAG CAAAATCTCA GCACAAGGGG ATCGTGTGCC CCCCATCTCT 
GATCCATTTG ATAACAATAA CCAGATCGCT TATGTGGATC AGAGCGATTC TGTAGACAGC 
TCTCCAGTCA AAGAGGTGAG ACCCACAAGC CACCCAGGCT CCCTCACAAA GAAACCAGAT 
GGAACAGCCA AGAGATCTCC CAGCTCCAAA GGCGCTTCTG AGCCAGACAG AAGCTTGCGG 
AAGGGGAGAC CAGTCTTGGC AAGCCAGGAA TCATCTCTTT CAAGTACGTC CCCTTCTTCT 
CCTGTTCCTG TAAAAGTTTC TGTAAAGCCC TCCCACTCCC GAAGCAAAGC AGATTCTTCT 
TCCAGGGCCA GTGGACGGCA TTCCTCCCCT GCCCCTGGCC AGCCCAGAAA GGAGTCCTCC 
CCCAAACCCC AGGACTCCAT GTCATCTCCT TCACCCCAGA GGCAGAAATC ATCTTCCTCC 
CTCACCTACA CTGCTTCCTC CACATCTGCC AAAAAAGCCT CGGGCCCTGC TGCAAGGGGC 
CCCTTCCCTC CTGGGAAGAG CAGGACTTCA GACCGGAGCT TGAGTAGAGA GGGCTCCAGG 
CAAAGCCTGG CTTCGGACAG AGCCAGCGTC ACCTCCAGCT CTAAACCCAA CTCCCCTCGG 
GTGAGCCAGG CCAGGGCCGG GGAGGGCCGA GGGGATGGAA AGCACGTCAG GAGCTCCTCC 
ATGGCTAGCC TGCGTTCCCC CAACACAAAC GTGAAGGCTG GTCTGAAGAG GGACAGCAAG 
TCGGAGGACA AGGGGCTGTC CTTCTTCAAG TCAGCCTTGA GACAGAAGGA AACCCGGCGG 
TCGACTGACC TCGGCAAAAC CACCTTGCTC TCCAAGAAGG CTGGTGGGAG CTCTGTCAAG 
TTGGCTGGTA AGAATGCCGT GGATGACAAG GCAGAGAAAG GCTACCAGCC TCCAGGTTCC 
CAGCAGCCAA ATGCAAGTGC AGTTGGAAAA GAGCAGCTTG TCTCCAAGGA CCCTGCTTCT 
GCTAAACATT CCCTGCTATC CGCTCGCAAA TCCAAGTCTT CCCAGCTAGA TTCTGGAGTG 
CCCTCGTCTC CTGGTGGCAG GCAGTCTGCT GAGAAATCCT CAAAAAAGTT ATCTTCTAGC 
ATGCAAACCT CTGCACGGCC TTCTCAAAAA CCTCAGTGA

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

RefSeq	XP_002927172.3
CDS	19..3657
Translation	MNATLQCLSNTELFAEYLALGQYRAGRPEPSPDPEQPVGRGTQGQGEVTEQLAHLVRALWTLEYTPQHSRDFKSIVSKNALQYRGNSQHDAQEFLLWLLDRVHEDLNHAVKQSGQPPLKPPSETDMMPEGPSFPVCSTFVQELFQAQYRSSLTCPHCQKQSNTFDPFLCISLPIPLPHTRPLYVTVVYQGKCSHCMRIGVAVPLSGTVARLREAVSMETKIPTDQIVLTEMYYDGFHRSFCDTDDLETVHESDCIFAFETPEIFRPEGILSQRGIHLNSNLNHLKFALDHRLSSMQAAAKQGKIDLPPTRAENDKIVLLVCNRACTGQQGKRFGLPFVLHLEKTIAWDLLQKEILEKMKYFLRPTVCIQVCPFSLRVVSVVGITYLLPQEEKPLCHPTVERALKSCGPGGTAHVKLVVEWDKETKDFLFVNTEDEYIPDAESVRLQRERHHQPQTCTLSQCFQLYTKEERLAPDDAWRCPHCKQLQQGSITLSLWTLPDVLIIHLKRFRQEGDRRVKLQNMVKFPLTGLDMTPHVVKRSQSSWSLPSHWSPWRRPYGLGRDPEDYVYDLYAVCNHHGTMQGGHYTAYCKNSVDGLWYCFDDSDVQQLSEDEVCTQTAYILFYQRRTAIPSWSANSSVAGSTSSSLCEHWVSRLPGSKQASVTSAASSRRTSLASLSESVEMAGERSEDDGGFSTRPFVRSVQRQSLSSRSSVTSPLAVNDNCIRPSWSLSAKLQMRSSSPSRFSGDSPIHTSASTLEKIGEAVDDKVSISCFGSLRNLSSSYQEPSDSHSRREHKAVGRAPLAVMEGVFRDESDTRKLNSSVIDTQSKISAQGDRVPPISDPFDNNNQIAYVDQSDSVDSSPVKEVRPTSHPGSLTKKPDGTAKRSPSSKGASEPDRSLRKGRPVLASQESSLSSTSPSSPVPVKVSVKPSHSRSKADSSSRASGRHSSPAPGQPRKESSPKPQDSMSSPSPQRQKSSSSLTYTASSTSAKKASGPAARGPFPPGKSRTSDRSLSREGSRQSLASDRASVTSSSKPNSPRVSQARAGEGRGDGKHVRSSSMASLRSPNTNVKAGLKRDSKSEDKGLSFFKSALRQKETRRSTDLGKTTLLSKKAGGSSVKLAGKNAVDDKAEKGYQPPGSQQPNASAVGKEQLVSKDPASAKHSLLSARKSKSSQLDSGVPSSPGGRQSAEKSSKKLSSSMQTSARPSQKPQ

Target ORF information:

RefSeq Version	XM_002927126.3
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca 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_002927126.3

ORF Insert Sequence:

ATGAACGCCA CGCTGCAGTG TCTCAGCAAC ACCGAGCTCT TCGCCGAGTA CCTGGCGCTC 
GGCCAGTACC GGGCGGGGCG GCCCGAGCCC TCGCCTGACC CCGAACAGCC TGTGGGCCGG 
GGGACGCAGG GCCAGGGCGA GGTCACCGAG CAGCTGGCGC ACCTGGTGCG GGCCCTCTGG 
ACCCTGGAGT ACACGCCGCA GCACAGCCGC GACTTCAAGA GTATTGTGTC AAAGAACGCA 
CTGCAGTATC GGGGAAATTC CCAGCATGAC GCCCAGGAGT TTCTGCTGTG GCTTCTGGAC 
CGAGTTCACG AAGACCTCAA TCATGCTGTG AAGCAGAGCG GCCAGCCTCC TCTGAAGCCA 
CCATCAGAGA CTGATATGAT GCCCGAGGGA CCATCTTTTC CTGTCTGTAG CACTTTTGTA 
CAAGAACTTT TTCAAGCCCA GTACAGATCT TCTTTGACAT GTCCTCACTG TCAGAAGCAG 
AGCAACACTT TTGACCCCTT CCTCTGCATT TCTTTGCCAA TTCCTCTACC CCACACAAGG 
CCTCTCTATG TTACCGTAGT GTATCAGGGG AAATGTTCTC ACTGCATGAG GATTGGTGTG 
GCCGTGCCTC TGTCTGGGAC TGTCGCCAGG CTTCGCGAAG CAGTGTCTAT GGAAACAAAG 
ATCCCCACTG ATCAGATTGT GTTAACGGAA ATGTACTATG ATGGGTTCCA TCGTTCCTTT 
TGTGACACAG ACGACCTGGA AACAGTCCAT GAAAGCGACT GCATTTTTGC CTTTGAGACT 
CCAGAAATAT TTAGGCCTGA AGGAATTCTC AGTCAAAGAG GAATCCACTT AAACAGCAAT 
CTAAACCACT TGAAATTTGC CTTGGATCAT CGACTGTCTT CTATGCAAGC AGCAGCAAAG 
CAAGGGAAAA TAGACTTGCC CCCAACAAGA GCAGAAAATG ACAAGATTGT TCTATTAGTG 
TGTAACCGAG CGTGCACTGG GCAGCAAGGG AAAAGATTTG GACTGCCTTT TGTGCTGCAC 
TTAGAGAAGA CAATAGCGTG GGACCTTCTG CAGAAGGAAA TCTTGGAGAA GATGAAGTAT 
TTCTTGAGGC CCACGGTTTG CATCCAGGTG TGTCCATTCA GTTTGCGTGT TGTCAGTGTT 
GTGGGGATAA CATACTTGCT GCCCCAGGAG GAGAAGCCGC TATGCCACCC AACAGTAGAA 
AGGGCGTTGA AGTCTTGTGG ACCAGGTGGC ACTGCTCATG TGAAGTTAGT GGTAGAATGG 
GACAAGGAAA CAAAAGATTT CTTGTTTGTA AATACTGAAG ATGAATATAT TCCTGATGCA 
GAAAGCGTCC GTCTGCAGAG GGAGCGTCAT CATCAGCCTC AGACTTGCAC TTTATCCCAG 
TGTTTCCAGC TCTACACCAA AGAGGAGCGG CTCGCCCCAG ATGACGCCTG GCGTTGCCCG 
CACTGTAAGC AGCTGCAGCA GGGGAGCATT ACATTAAGCC TCTGGACTCT GCCTGATGTG 
CTTATTATAC ATCTAAAGAG ATTTCGACAG GAAGGAGACA GGCGTGTGAA ACTTCAGAAC 
ATGGTCAAGT TCCCCTTGAC TGGCCTGGAC ATGACACCTC ATGTGGTTAA GAGAAGTCAG 
AGCAGCTGGA GTTTGCCATC CCATTGGTCT CCGTGGAGAC GGCCCTATGG ACTTGGGAGG 
GACCCCGAGG ACTACGTCTA TGACCTGTAT GCTGTGTGCA ATCATCATGG CACCATGCAA 
GGGGGGCACT ACACAGCATA CTGTAAGAAC TCTGTGGATG GCCTCTGGTA CTGCTTCGAT 
GACAGTGATG TGCAGCAGCT GTCAGAAGAT GAGGTCTGCA CACAGACGGC GTACATCCTT 
TTCTACCAGA GGCGGACAGC TATTCCGTCG TGGTCGGCCA ACAGCTCAGT GGCAGGCTCT 
ACGAGTTCTT CACTGTGTGA ACACTGGGTG AGCCGGCTCC CGGGGAGCAA GCAAGCCAGC 
GTGACCTCCG CAGCTTCCTC CAGACGCACC TCCCTGGCCT CATTGTCCGA GTCGGTGGAG 
ATGGCCGGGG AGAGGAGTGA AGACGATGGA GGTTTCTCAA CTCGACCATT CGTGAGAAGT 
GTCCAGCGTC AGAGCTTGTC ATCCAGATCT TCTGTCACCA GCCCCTTGGC CGTTAACGAC 
AATTGCATTA GACCTTCTTG GTCCCTGTCC GCCAAGCTGC AGATGCGCTC CAGTTCTCCC 
TCCCGGTTCT CAGGGGACTC TCCGATCCAC ACCTCTGCCT CCACCTTGGA GAAGATCGGG 
GAGGCAGTAG ATGACAAGGT CTCCATCTCT TGCTTTGGCA GCTTGAGGAA CCTTTCCAGC 
AGTTACCAGG AACCAAGTGA TAGTCACAGC CGACGTGAGC ACAAGGCTGT GGGTCGGGCC 
CCTCTGGCTG TCATGGAAGG CGTGTTCAGA GATGAATCAG ACACCCGCAA ATTGAACTCC 
AGTGTTATAG ACACACAGAG CAAAATCTCA GCACAAGGGG ATCGTGTGCC CCCCATCTCT 
GATCCATTTG ATAACAATAA CCAGATCGCT TATGTGGATC AGAGCGATTC TGTAGACAGC 
TCTCCAGTCA AAGAGGTGAG ACCCACAAGC CACCCAGGCT CCCTCACAAA GAAACCAGAT 
GGAACAGCCA AGAGATCTCC CAGCTCCAAA GGCGCTTCTG AGCCAGACAG AAGCTTGCGG 
AAGGGGAGAC CAGTCTTGGC AAGCCAGGAA TCATCTCTTT CAAGTACGTC CCCTTCTTCT 
CCTGTTCCTG TAAAAGTTTC TGTAAAGCCC TCCCACTCCC GAAGCAAAGC AGATTCTTCT 
TCCAGGGCCA GTGGACGGCA TTCCTCCCCT GCCCCTGGCC AGCCCAGAAA GGAGTCCTCC 
CCCAAACCCC AGGACTCCAT GTCATCTCCT TCACCCCAGA GGCAGAAATC ATCTTCCTCC 
CTCACCTACA CTGCTTCCTC CACATCTGCC AAAAAAGCCT CGGGCCCTGC TGCAAGGGGC 
CCCTTCCCTC CTGGGAAGAG CAGGACTTCA GACCGGAGCT TGAGTAGAGA GGGCTCCAGG 
CAAAGCCTGG CTTCGGACAG AGCCAGCGTC ACCTCCAGCT CTAAACCCAA CTCCCCTCGG 
GTGAGCCAGG CCAGGGCCGG GGAGGGCCGA GGGGATGGAA AGCACGTCAG GAGCTCCTCC 
ATGGCTAGCC TGCGTTCCCC CAACACAAAC GTGAAGGCTG GTCTGAAGAG GGACAGCAAG 
TCGGAGGACA AGGGGCTGTC CTTCTTCAAG TCAGCCTTGA GACAGAAGGA AACCCGGCGG 
TCGACTGACC TCGGCAAAAC CACCTTGCTC TCCAAGAAGG CTGGTGGGAG CTCTGTCAAG 
TTGGCTGGTA AGAATGCCGT GGATGACAAG GCAGAGAAAG GCTACCAGCC TCCAGGTTCC 
CAGCAGCCAA ATGCAAGTGC AGTTGGAAAA GAGCAGCTTG TCTCCAAGGA CCCTGCTTCT 
GCTAAACATT CCCTGCTATC CGCTCGCAAA TCCAAGTCTT CCCAGCTAGA TTCTGGAGTG 
CCCTCGTCTC CTGGTGGCAG GCAGTCTGCT GAGAAATCCT CAAAAAAGTT ATCTTCTAGC 
ATGCAAACCT CTGCACGGCC TTCTCAAAAA CCTCAGTGA

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

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USP31 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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