USP15 cDNA ORF clone, Phalacrocorax carbo(great cormorant)

Gene
Clones
gRNAs

Summary

Gene Symbol	USP15
Entrez Gene ID	104052690
Full Name	ubiquitin specific peptidase 15
Gene Type	protein-coding
Organism	Phalacrocorax carbo(great cormorant)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009514009.1	XP_009512304.1	ubiquitin carboxyl-terminal hydrolase 15

Pathways from BioSystems
Gene Ontology

The following USP15 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the USP15 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
OPh212019	XM_009514009.1 Latest version!	Phalacrocorax carbo ubiquitin specific peptidase 15 (USP15), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00

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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)

USP15 ( XM_009514009.1 ) cDNA ORF clone, Phalacrocorax carbo(great cormorant) -> XP_009512304.1 Phalacrocorax carbo ubiquitin specific peptidase 15 (USP15), mRNA.

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CloneID	OPh212019
Clone ID Related Accession (Same CDS sequence)	XM_009514009.1
Accession Version	XM_009514009.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2925bp) 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	2014-10-07
Organism	Phalacrocorax carbo(great cormorant)
Product	ubiquitin carboxyl-terminal hydrolase 15
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_009128547.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Phalacrocorax carbo Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases ##RefSeq-Attributes-END##

ATGTTCATAA CCACACGCAG TTACGGCTGT CATGGAATAG TGCTCAATGG CCACAGCAGA 
AGAGAAAGGT ATCTAGTGGA TAGTCGCTGG TTCAAACAGT GGAAAAAATA TGTTGGCTTT 
GATAGCTGGG ACAAATACCA GATGGGAGAT CAGAATGTGT ACCCTGGTCC TATTGATAAT 
TCTGGACTTC TCAAAGATGG TGATTCTCAG TCTCTCAAGG AACATCTCAT TGATGAGCTG 
GACTACATCC TTTTGCCAAC TGAAGGCTGG AATAGGCTAG TTAGCTGGTA CACACTGATG 
GAAGGTCAAG AGCCAATAGC ACGCAAGGTC GTTGAACAGG GTATGTTTGT AAAGCACTGC 
AAAGTAGAAG TATATCTAAC AGAATTAAAG CTCTGTGAAA ATGGAAATAT GAACAATGTT 
GTCACACGAA GATTTAGTAA AGCTGATACA ATAGATACAA TTGAAAAAGA GATAAGAAAA 
ATCTTCAATA TTCCAGGTGA AAAAGAGACC AGATTGTGGA ACAAATACAT GAGTAACACT 
TTTGAACCTT TGAATAAACC AGACAGTACC ATACAGGATG CTGGTTTATA CCAGGGACAG 
GTACTGGTGA TAGAACAGAA GAATGAGGAT GGAACATGGC CAAGAGGTCC TTCAACTCCT 
AAGTCCCCAG GTGCATCCAA TTTTTCAACT TTACAAAAGA TCTCTCCATC TCTATCAAAT 
AATTATAACA ACATGAACAA CAGAAATGTG AAAAATTCAA ACTATTGTCT CCCATCATAT 
ACGGCTTATA AGAATTATGA TTATTCAGAG CCAGGAAGAC ACAATGAGCA GCCAGGCCTA 
TGTGGCCTGA GTAACTTGGG AAATACATGT TTCATGAATT CCGCAATTCA GTGTCTGAGC 
AACACACCTC CTCTTACAGA ATACTTCCTC AATGATAAAT ACCAAGAAGA GCTGAACTTT 
GACAATCCTT TAGGAATGCG AGGTGAAATA GCAAAATCTT ATGCAGAGCT TATCAAGCAA 
ATGTGGTCAG GAAAATTCAG CTACGTTACC CCAAGAGCAT TTAAGACACA AGTGGGACGA 
TTTGCACCAC AATTTTCTGG TTATCAGCAA CAAGATTGTC AAGAGCTACT GGCTTTTCTT 
TTGGATGGAT TACATGAAGA TTTGAATCGA ATTAGGAAAA AGCCTTACAT TCAGTTAAAG 
GATGCAGACG GGAGACCAGA CAAGGTGGTT GCTGAAGAAG CCTGGGAAAA CCATTTAAAA 
AGAAATGATT CCATCATTGT AGATATATTT CATGGCCTTT TTAAGTCCAC CCTAGTTTGT 
CCTGAATGTG CTAAGATATC TGTAACCTTT GATCCCTTTT GTTACTTGAC ACTTCCATTA 
CCCATGAAGA AGGAACGCAC TTTGGAAGTT TATTTAGTTA GAATGGATCC ACTTGCAAAG 
CCTATGCAGT ACAAAGTAGT TGTTCCCAAA ATTGGAAATA TATTGGATCT TTGCACAGCA 
TTGTCAACTT TGTCTGGTGT TGCTGCAGAT AAGATGATCG TTACTGATAT ATACAATCAC 
AGGTTCCACA GGATATTTGG CATGGATGAA AATCTAAGTA GTATTATGGA ACGCGATGAC 
ATTTATGTAT TTGAAATTGC TATCAACAGA ACAGAAGATA CGGAACAAGT TATAATTCCT 
GTTTGTTTAA GGGAGAAGTG CAGGCACAGT AGCTACAGCC ATAGTGGTTC TTCACTGTTT 
GGCCAACCTT TTCTCATAGC AGTGCCTAGA AACAATACTG AAGATAAACT GTATAACCTG 
CTGCTGCTAA GAATGTGCCG ATATGTAAAA ACATGTACTG AAAGTGAAGA CACTGAAGGA 
TCCCTACATT GCTGTAAGGA CCATGGTATC AACGGTAATG GCCCAAATGG AATACATGAA 
GAAGGATCTC CAAGTGAAAT GGAAACAGAT GAACAAGATG ATGAATCCAG CCAGGATCAG 
GAACTTCCTT CAGAGAATGA AAACAGCCAG TCAGAAGACT CAGTTGGGGG TGACAATGAC 
TCTGAAAATG GATTATGTAC AGAGGATACT TGCAAGGGTC AGCCACTGAC GGGACACAAA 
AAGAGATTGT TTACATTCCA GTTCAATAAT TTAGGCAATA CTGACATAAA CTACATCAAA 
GATGATACCA GGCATATTAG ATTTGATGAT AGGCAACCTA GGCTTGACGA AAGATCTTTC 
CTTGCTTTGG ATTGGGATCC TGAATTGAAG AAGAGATACT TTGATGATAG TGCAGCAGAG 
GATTTTGAAA AACATGAAAG TGTGGAATAT AAGCCTCCCA AAAAGCCTTT TGTGAAATTA 
AAAGATTGCA TTGAGCTGTT CACAACAAAG GAAAAACTAG GTGCTGAAGA CCCATGGTAT 
TGTCCAAACT GTAAAGAACA TCAGCAAGCT ACCAAGAAGT TAGACTTGTG GTCACTGCCC 
CCTGTACTGG TAGTTCATCT AAAGCGCTTT TCCTACAGCA GATATATGAG GGACAAGTTG 
GATACATTGG TTGACTTTCC AATAAATGAC TTGGACATGT CAGAGTTCCT TATTAATCCC 
AATGCAGGCC CTTGCCGCTA CAACTTGATT GCTGTCTCCA ACCACTATGG AGGAATGGGA 
GGAGGGCATT ATACTGCTTT TGCAAAAAAT AAGGATGATG GAAAATGGTA CTACTTTGAT 
GACAGTAGTG TGTCCACTGC ATGTGAGGAC CAAATAGTGT CCAAAGCAGC ATATGTGCTC 
TTCTACCAGA GGCAGGACAC GATCAGTGGA ACTGGCTTTT TCCCTCTTGA CCGGGAAACT 
AAACAAGGTG CTTCAGCTGC CACAGGCATC CCACTAGAAA GTGATGAAGA CAGCAATGAA 
AATGATAATG ATATAGAAAA TGAAAATTGT ATGCACACTA ACTAA

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

RefSeq	XP_009512304.1
CDS	1..2925
Translation	MFITTRSYGCHGIVLNGHSRRERYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKDGDSQSLKEHLIDELDYILLPTEGWNRLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYLTELKLCENGNMNNVVTRRFSKADTIDTIEKEIRKIFNIPGEKETRLWNKYMSNTFEPLNKPDSTIQDAGLYQGQVLVIEQKNEDGTWPRGPSTPKSPGASNFSTLQKISPSLSNNYNNMNNRNVKNSNYCLPSYTAYKNYDYSEPGRHNEQPGLCGLSNLGNTCFMNSAIQCLSNTPPLTEYFLNDKYQEELNFDNPLGMRGEIAKSYAELIKQMWSGKFSYVTPRAFKTQVGRFAPQFSGYQQQDCQELLAFLLDGLHEDLNRIRKKPYIQLKDADGRPDKVVAEEAWENHLKRNDSIIVDIFHGLFKSTLVCPECAKISVTFDPFCYLTLPLPMKKERTLEVYLVRMDPLAKPMQYKVVVPKIGNILDLCTALSTLSGVAADKMIVTDIYNHRFHRIFGMDENLSSIMERDDIYVFEIAINRTEDTEQVIIPVCLREKCRHSSYSHSGSSLFGQPFLIAVPRNNTEDKLYNLLLLRMCRYVKTCTESEDTEGSLHCCKDHGINGNGPNGIHEEGSPSEMETDEQDDESSQDQELPSENENSQSEDSVGGDNDSENGLCTEDTCKGQPLTGHKKRLFTFQFNNLGNTDINYIKDDTRHIRFDDRQPRLDERSFLALDWDPELKKRYFDDSAAEDFEKHESVEYKPPKKPFVKLKDCIELFTTKEKLGAEDPWYCPNCKEHQQATKKLDLWSLPPVLVVHLKRFSYSRYMRDKLDTLVDFPINDLDMSEFLINPNAGPCRYNLIAVSNHYGGMGGGHYTAFAKNKDDGKWYYFDDSSVSTACEDQIVSKAAYVLFYQRQDTISGTGFFPLDRETKQGASAATGIPLESDEDSNENDNDIENENCMHTN

Target ORF information:

RefSeq Version	XM_009514009.1
Organism	Phalacrocorax carbo(great cormorant)
Definition	Phalacrocorax carbo ubiquitin specific peptidase 15 (USP15), mRNA.

Target ORF information:

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

XM_009514009.1

ORF Insert Sequence:

ATGTTCATAA CCACACGCAG TTACGGCTGT CATGGAATAG TGCTCAATGG CCACAGCAGA 
AGAGAAAGGT ATCTAGTGGA TAGTCGCTGG TTCAAACAGT GGAAAAAATA TGTTGGCTTT 
GATAGCTGGG ACAAATACCA GATGGGAGAT CAGAATGTGT ACCCTGGTCC TATTGATAAT 
TCTGGACTTC TCAAAGATGG TGATTCTCAG TCTCTCAAGG AACATCTCAT TGATGAGCTG 
GACTACATCC TTTTGCCAAC TGAAGGCTGG AATAGGCTAG TTAGCTGGTA CACACTGATG 
GAAGGTCAAG AGCCAATAGC ACGCAAGGTC GTTGAACAGG GTATGTTTGT AAAGCACTGC 
AAAGTAGAAG TATATCTAAC AGAATTAAAG CTCTGTGAAA ATGGAAATAT GAACAATGTT 
GTCACACGAA GATTTAGTAA AGCTGATACA ATAGATACAA TTGAAAAAGA GATAAGAAAA 
ATCTTCAATA TTCCAGGTGA AAAAGAGACC AGATTGTGGA ACAAATACAT GAGTAACACT 
TTTGAACCTT TGAATAAACC AGACAGTACC ATACAGGATG CTGGTTTATA CCAGGGACAG 
GTACTGGTGA TAGAACAGAA GAATGAGGAT GGAACATGGC CAAGAGGTCC TTCAACTCCT 
AAGTCCCCAG GTGCATCCAA TTTTTCAACT TTACAAAAGA TCTCTCCATC TCTATCAAAT 
AATTATAACA ACATGAACAA CAGAAATGTG AAAAATTCAA ACTATTGTCT CCCATCATAT 
ACGGCTTATA AGAATTATGA TTATTCAGAG CCAGGAAGAC ACAATGAGCA GCCAGGCCTA 
TGTGGCCTGA GTAACTTGGG AAATACATGT TTCATGAATT CCGCAATTCA GTGTCTGAGC 
AACACACCTC CTCTTACAGA ATACTTCCTC AATGATAAAT ACCAAGAAGA GCTGAACTTT 
GACAATCCTT TAGGAATGCG AGGTGAAATA GCAAAATCTT ATGCAGAGCT TATCAAGCAA 
ATGTGGTCAG GAAAATTCAG CTACGTTACC CCAAGAGCAT TTAAGACACA AGTGGGACGA 
TTTGCACCAC AATTTTCTGG TTATCAGCAA CAAGATTGTC AAGAGCTACT GGCTTTTCTT 
TTGGATGGAT TACATGAAGA TTTGAATCGA ATTAGGAAAA AGCCTTACAT TCAGTTAAAG 
GATGCAGACG GGAGACCAGA CAAGGTGGTT GCTGAAGAAG CCTGGGAAAA CCATTTAAAA 
AGAAATGATT CCATCATTGT AGATATATTT CATGGCCTTT TTAAGTCCAC CCTAGTTTGT 
CCTGAATGTG CTAAGATATC TGTAACCTTT GATCCCTTTT GTTACTTGAC ACTTCCATTA 
CCCATGAAGA AGGAACGCAC TTTGGAAGTT TATTTAGTTA GAATGGATCC ACTTGCAAAG 
CCTATGCAGT ACAAAGTAGT TGTTCCCAAA ATTGGAAATA TATTGGATCT TTGCACAGCA 
TTGTCAACTT TGTCTGGTGT TGCTGCAGAT AAGATGATCG TTACTGATAT ATACAATCAC 
AGGTTCCACA GGATATTTGG CATGGATGAA AATCTAAGTA GTATTATGGA ACGCGATGAC 
ATTTATGTAT TTGAAATTGC TATCAACAGA ACAGAAGATA CGGAACAAGT TATAATTCCT 
GTTTGTTTAA GGGAGAAGTG CAGGCACAGT AGCTACAGCC ATAGTGGTTC TTCACTGTTT 
GGCCAACCTT TTCTCATAGC AGTGCCTAGA AACAATACTG AAGATAAACT GTATAACCTG 
CTGCTGCTAA GAATGTGCCG ATATGTAAAA ACATGTACTG AAAGTGAAGA CACTGAAGGA 
TCCCTACATT GCTGTAAGGA CCATGGTATC AACGGTAATG GCCCAAATGG AATACATGAA 
GAAGGATCTC CAAGTGAAAT GGAAACAGAT GAACAAGATG ATGAATCCAG CCAGGATCAG 
GAACTTCCTT CAGAGAATGA AAACAGCCAG TCAGAAGACT CAGTTGGGGG TGACAATGAC 
TCTGAAAATG GATTATGTAC AGAGGATACT TGCAAGGGTC AGCCACTGAC GGGACACAAA 
AAGAGATTGT TTACATTCCA GTTCAATAAT TTAGGCAATA CTGACATAAA CTACATCAAA 
GATGATACCA GGCATATTAG ATTTGATGAT AGGCAACCTA GGCTTGACGA AAGATCTTTC 
CTTGCTTTGG ATTGGGATCC TGAATTGAAG AAGAGATACT TTGATGATAG TGCAGCAGAG 
GATTTTGAAA AACATGAAAG TGTGGAATAT AAGCCTCCCA AAAAGCCTTT TGTGAAATTA 
AAAGATTGCA TTGAGCTGTT CACAACAAAG GAAAAACTAG GTGCTGAAGA CCCATGGTAT 
TGTCCAAACT GTAAAGAACA TCAGCAAGCT ACCAAGAAGT TAGACTTGTG GTCACTGCCC 
CCTGTACTGG TAGTTCATCT AAAGCGCTTT TCCTACAGCA GATATATGAG GGACAAGTTG 
GATACATTGG TTGACTTTCC AATAAATGAC TTGGACATGT CAGAGTTCCT TATTAATCCC 
AATGCAGGCC CTTGCCGCTA CAACTTGATT GCTGTCTCCA ACCACTATGG AGGAATGGGA 
GGAGGGCATT ATACTGCTTT TGCAAAAAAT AAGGATGATG GAAAATGGTA CTACTTTGAT 
GACAGTAGTG TGTCCACTGC ATGTGAGGAC CAAATAGTGT CCAAAGCAGC ATATGTGCTC 
TTCTACCAGA GGCAGGACAC GATCAGTGGA ACTGGCTTTT TCCCTCTTGA CCGGGAAACT 
AAACAAGGTG CTTCAGCTGC CACAGGCATC CCACTAGAAA GTGATGAAGA CAGCAATGAA 
AATGATAATG ATATAGAAAA TGAAAATTGT ATGCACACTA ACTAA