USP11 cDNA ORF clone, Rhinopithecus bieti(black snub-nosed monkey)

Gene
Clones
gRNAs

Summary

Gene Symbol	USP11
Entrez Gene ID	108523039
Full Name	ubiquitin specific peptidase 11
Gene Type	protein-coding
Organism	Rhinopithecus bieti(black snub-nosed monkey)

mRNA and Protein(s)

mRNA	Protein	Name
XM_017863505.1	XP_017718994.1	ubiquitin carboxyl-terminal hydrolase 11 isoform X1
XM_017863506.1	XP_017718995.1	ubiquitin carboxyl-terminal hydrolase 11 isoform X2

Pathways from BioSystems
Gene Ontology

The following USP11 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the USP11 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
ORh52275	XM_017863505.1 Latest version!	Rhinopithecus bieti ubiquitin specific peptidase 11 (USP11), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
ORh52276	XM_017863506.1 Latest version!	Rhinopithecus bieti ubiquitin specific peptidase 11 (USP11), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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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)

USP11 ( XM_017863505.1 ) cDNA ORF clone, Rhinopithecus bieti(black snub-nosed monkey) -> XP_017718994.1 Rhinopithecus bieti ubiquitin specific peptidase 11 (USP11), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ORh52275
Clone ID Related Accession (Same CDS sequence)	XM_017863505.1
Accession Version	XM_017863505.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2886bp) 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	2016-08-23
Organism	Rhinopithecus bieti(black snub-nosed monkey)
Product	ubiquitin carboxyl-terminal hydrolase 11 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_016826693.1) 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 :: Rhinopithecus bieti Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCAGTAG CCCCGCGACT GTTTGGGGGG CTCTGCTTCC GTTTCCGGGA CCAGAATCCG 
GAAGTGGCTG TTGAGGGGCG TCTTCCAATC TCGCACAGCT GCGTTGGCTG TAGAGGAGAA 
CGGACAGCGA TGGCGACGGT CGCAGCAAAT CCAGCTGCTG CTGCGGCGGC TGTGGCGGTG 
GCGGTGGCTG AGGATAGAGA GCCACAGCGC AAGGAGCTGC CAGGCCTAGA CAGCCAGTGG 
CGCCAGATAG AAAACGGCGA GAGTGGGCGA GAACGTCCAC TGCGGGCCGG CGAAAGCTGG 
TTCCTTGTGG AGAAGCACTG GTATAAGCAG TGGGAGGCAT ACGTGCAGGG AGGGGACCAG 
GACTCCAGCA CCTTTCCTGG CTGCATCAAC AATGCCGCAC TCTTTCAAGA TGAGATAAAC 
TGGCGCCTCA AGGAAGGACT GGTGGAAGGC GAGGATTATG TGCTGCTCCC AGCAGCTGCT 
TGGCATTACC TGGTCAGCTG GTATGGTCTA GAGCATGGCC AGCCACCCAT TGAACGCAAG 
GTCATAGAGC TGCCCAACAT CCAGAAAGTC GAAGTGTACC CAGTAGAACT GCTGCTTGTC 
CGGCACAATG ATTTGGGCAA ATCTCACACT GTTCAGTTCA GCCATACCGA TTCTATTGGC 
CTGGTATTGC GCACAGCTCG GGAGCGGTTT CTGGTGGAGC CCCAGGAAGA TACGCGGCTT 
TGGGCCAAGA ACTCAGAAGG CTCTTTGGAT AGGTTGTATG ACACACACAT TACGGTTCTT 
GATGCGGCCC TTGAGACTGG GCAGTTGATC ATCATGGAGA CCCGCAAGAA AGATGGCACT 
TGGCCCAGCG CACAGCTGCA TGTCATGAAC AACAACATGT CGGAAGAGGA TGAGGACTTC 
AAGGGCCAGC CAGGCATCTG TGGCCTCACC AATCTGGGCA ACACGTGCTT CATGAACTCA 
GCCCTGCAGT GCCTCAGCAA TGTGCCACAG CTCACCGAGT ACTTCCTCAA CAACTGCTAC 
CTGGAGGAGC TCAACTTCCG CAACCCACTG GGCATGAAGG GTGAGATTGC AGAGGCCTAT 
GCAGACCTGG TGAAGCAGGC GTGGTCTGGC CACCACCGCT CCATCGTGCC ACATGTGTTC 
AAGAACAAGG TCGGCCATTT TGCGTCCCAA TTTCTGGGCT ACCAGCAGCA TGACTCTCAG 
GAGTTGCTGT CATTCCTCCT GGACGGGCTG CATGAGGACC TTAATCGGGT GAAGAAGAAG 
GAGTATGTGG AGCTGTGTGA TGCTGCTGGG CGGCCGGATC AGGAGGTGGC ACAGGAGGCG 
TGGCAAAACC ACAAACGGCG GAACGATTCT GTGATCGTGG ACACTTTCCA TGGCCTCTTC 
AAGTCCACGC TGGTGTGCCC CGATTGTGGC AACGTATCTG TGACCTTCGA CCCCTTCTGC 
TACCTCAGTG TTCCACTGCC TATCAGCCAC AAGAGGGTCT TGGAGGTCTT CTTTATCCCC 
ATGGATCCGC GCCGCAAGCC AGAGCAGCAC CGGCTCGTGG TCCCCAAGAA AGGCAAGATC 
TCGGATCTGT GTGTGGCTCT GTCCAAACAC ACTGGCATCT CGCCAGAGAG GATGATGGTG 
GCTGATGTCT TCAGTCACCG CTTCTATAAG CTCTATCAGC TGGAGGAGCC TCTGAGCAGC 
ATCTTGGACC GCGATGATAT CTTCGTCTAT GAGGTGTCAG GTCGCATTGA GGCCATCGAG 
GGCTCGAGAG AGGACATCGT GGTTCCTGTC TACCTGCGGG AACGCACCCC TGCCCGTGAC 
TACAACAATT CCTACTATGG CCTGATGCTT TTTGGGCACC CCCTCCTGGT ATCAGTGCCC 
CGGGACCGCT TCACCTGGGA GGGCCTGTAT AACGTCCTGA TGTACCGGCT CTCACGCTAT 
GTGACCAAAC CCAACTCAGA TGATGAGGAC GATGGGGATG AGAAAGAAGA TGACGAAGAG 
GATAAAGATG ACATCCCTGG GCCCTCAACT GGGGGCAGCC TCCGAGACCC TGAGCCAGAG 
CAGGCTGGGC CCAGCTCTGG AGTCACCAAC AGGTGCCCAT TCCTCCTGGA CAATTGCCTT 
GGCACATCTC AGTGGCCCCC AAGGCGACGG CGCAAGCAGC TATTCACCCT GCAGACGGTG 
AACTCCAATG GGACCAGTGA CCGCACAACC TCCCCTGAAG AAGTCCATGC CCAGCCATAC 
ATTGCTATTG ACTGGGAGCC AGAGATGAAG AAGCGTTACT ATGACGAGGT AGAGGCTGAG 
GGCTACGTGA AGCATGACTG CGTTGGGTAC GTGATGAAGA AGGCTCCCGT GCGGCTGCAG 
GAGTGCATTG AGCTCTTCAC CACTGTGGAG ACCCTGGAGA AGGAAAACCC CTGGTACTGC 
CCCTCCTGCA AGCAGCACCA GCTGGCCACC AAGAAGCTGG ACCTGTGGAT GCTGCCGGAG 
ATTCTCATCA TCCACCTGAA ACGCTTTTCC TACACCAAGT TCTCCCGAGA GAAGCTGGAC 
ACCCTCGTGG AGTTTCCTAT CCGGGACCTG GACTTCTCTG AGTTTGTCAT CCAGCCACAG 
AATGAGTTGA ATCCAGAGCT GTACAAATAC GACCTCATCG CGGTTTCCAA CCATTATGGG 
GGCATGCGTG ATGGACACTA CACAACATTT GCCTGCAATA AGGACAGCGG CCAGTGGCAC 
TACTTTGATG ACAACAGTGT CTCCCCTGTG AATGAGAATC AGATTGAGTC CAAGGCAGCC 
TATGTCCTCT TCTACCAACG CCAGGACGTG GCGCGACGCC TGCTGTCCCC AGCCGGCTCA 
TCTGGCGCCC CAGCCTCCCC TGCCTGCAGC TCCCCACCCA GCTCTGAGTT CATGGATGTT 
AATTGA

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

RefSeq	XP_017718994.1
CDS	50..2935
Translation	MAVAPRLFGGLCFRFRDQNPEVAVEGRLPISHSCVGCRGERTAMATVAANPAAAAAAVAVAVAEDREPQRKELPGLDSQWRQIENGESGRERPLRAGESWFLVEKHWYKQWEAYVQGGDQDSSTFPGCINNAALFQDEINWRLKEGLVEGEDYVLLPAAAWHYLVSWYGLEHGQPPIERKVIELPNIQKVEVYPVELLLVRHNDLGKSHTVQFSHTDSIGLVLRTARERFLVEPQEDTRLWAKNSEGSLDRLYDTHITVLDAALETGQLIIMETRKKDGTWPSAQLHVMNNNMSEEDEDFKGQPGICGLTNLGNTCFMNSALQCLSNVPQLTEYFLNNCYLEELNFRNPLGMKGEIAEAYADLVKQAWSGHHRSIVPHVFKNKVGHFASQFLGYQQHDSQELLSFLLDGLHEDLNRVKKKEYVELCDAAGRPDQEVAQEAWQNHKRRNDSVIVDTFHGLFKSTLVCPDCGNVSVTFDPFCYLSVPLPISHKRVLEVFFIPMDPRRKPEQHRLVVPKKGKISDLCVALSKHTGISPERMMVADVFSHRFYKLYQLEEPLSSILDRDDIFVYEVSGRIEAIEGSREDIVVPVYLRERTPARDYNNSYYGLMLFGHPLLVSVPRDRFTWEGLYNVLMYRLSRYVTKPNSDDEDDGDEKEDDEEDKDDIPGPSTGGSLRDPEPEQAGPSSGVTNRCPFLLDNCLGTSQWPPRRRRKQLFTLQTVNSNGTSDRTTSPEEVHAQPYIAIDWEPEMKKRYYDEVEAEGYVKHDCVGYVMKKAPVRLQECIELFTTVETLEKENPWYCPSCKQHQLATKKLDLWMLPEILIIHLKRFSYTKFSREKLDTLVEFPIRDLDFSEFVIQPQNELNPELYKYDLIAVSNHYGGMRDGHYTTFACNKDSGQWHYFDDNSVSPVNENQIESKAAYVLFYQRQDVARRLLSPAGSSGAPASPACSSPPSSEFMDVN

Target ORF information:

RefSeq Version	XM_017863505.1
Organism	Rhinopithecus bieti(black snub-nosed monkey)
Definition	Rhinopithecus bieti ubiquitin specific peptidase 11 (USP11), transcript variant X1, mRNA.

Target ORF information:

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

XM_017863505.1

ORF Insert Sequence:

ATGGCAGTAG CCCCGCGACT GTTTGGGGGG CTCTGCTTCC GTTTCCGGGA CCAGAATCCG 
GAAGTGGCTG TTGAGGGGCG TCTTCCAATC TCGCACAGCT GCGTTGGCTG TAGAGGAGAA 
CGGACAGCGA TGGCGACGGT CGCAGCAAAT CCAGCTGCTG CTGCGGCGGC TGTGGCGGTG 
GCGGTGGCTG AGGATAGAGA GCCACAGCGC AAGGAGCTGC CAGGCCTAGA CAGCCAGTGG 
CGCCAGATAG AAAACGGCGA GAGTGGGCGA GAACGTCCAC TGCGGGCCGG CGAAAGCTGG 
TTCCTTGTGG AGAAGCACTG GTATAAGCAG TGGGAGGCAT ACGTGCAGGG AGGGGACCAG 
GACTCCAGCA CCTTTCCTGG CTGCATCAAC AATGCCGCAC TCTTTCAAGA TGAGATAAAC 
TGGCGCCTCA AGGAAGGACT GGTGGAAGGC GAGGATTATG TGCTGCTCCC AGCAGCTGCT 
TGGCATTACC TGGTCAGCTG GTATGGTCTA GAGCATGGCC AGCCACCCAT TGAACGCAAG 
GTCATAGAGC TGCCCAACAT CCAGAAAGTC GAAGTGTACC CAGTAGAACT GCTGCTTGTC 
CGGCACAATG ATTTGGGCAA ATCTCACACT GTTCAGTTCA GCCATACCGA TTCTATTGGC 
CTGGTATTGC GCACAGCTCG GGAGCGGTTT CTGGTGGAGC CCCAGGAAGA TACGCGGCTT 
TGGGCCAAGA ACTCAGAAGG CTCTTTGGAT AGGTTGTATG ACACACACAT TACGGTTCTT 
GATGCGGCCC TTGAGACTGG GCAGTTGATC ATCATGGAGA CCCGCAAGAA AGATGGCACT 
TGGCCCAGCG CACAGCTGCA TGTCATGAAC AACAACATGT CGGAAGAGGA TGAGGACTTC 
AAGGGCCAGC CAGGCATCTG TGGCCTCACC AATCTGGGCA ACACGTGCTT CATGAACTCA 
GCCCTGCAGT GCCTCAGCAA TGTGCCACAG CTCACCGAGT ACTTCCTCAA CAACTGCTAC 
CTGGAGGAGC TCAACTTCCG CAACCCACTG GGCATGAAGG GTGAGATTGC AGAGGCCTAT 
GCAGACCTGG TGAAGCAGGC GTGGTCTGGC CACCACCGCT CCATCGTGCC ACATGTGTTC 
AAGAACAAGG TCGGCCATTT TGCGTCCCAA TTTCTGGGCT ACCAGCAGCA TGACTCTCAG 
GAGTTGCTGT CATTCCTCCT GGACGGGCTG CATGAGGACC TTAATCGGGT GAAGAAGAAG 
GAGTATGTGG AGCTGTGTGA TGCTGCTGGG CGGCCGGATC AGGAGGTGGC ACAGGAGGCG 
TGGCAAAACC ACAAACGGCG GAACGATTCT GTGATCGTGG ACACTTTCCA TGGCCTCTTC 
AAGTCCACGC TGGTGTGCCC CGATTGTGGC AACGTATCTG TGACCTTCGA CCCCTTCTGC 
TACCTCAGTG TTCCACTGCC TATCAGCCAC AAGAGGGTCT TGGAGGTCTT CTTTATCCCC 
ATGGATCCGC GCCGCAAGCC AGAGCAGCAC CGGCTCGTGG TCCCCAAGAA AGGCAAGATC 
TCGGATCTGT GTGTGGCTCT GTCCAAACAC ACTGGCATCT CGCCAGAGAG GATGATGGTG 
GCTGATGTCT TCAGTCACCG CTTCTATAAG CTCTATCAGC TGGAGGAGCC TCTGAGCAGC 
ATCTTGGACC GCGATGATAT CTTCGTCTAT GAGGTGTCAG GTCGCATTGA GGCCATCGAG 
GGCTCGAGAG AGGACATCGT GGTTCCTGTC TACCTGCGGG AACGCACCCC TGCCCGTGAC 
TACAACAATT CCTACTATGG CCTGATGCTT TTTGGGCACC CCCTCCTGGT ATCAGTGCCC 
CGGGACCGCT TCACCTGGGA GGGCCTGTAT AACGTCCTGA TGTACCGGCT CTCACGCTAT 
GTGACCAAAC CCAACTCAGA TGATGAGGAC GATGGGGATG AGAAAGAAGA TGACGAAGAG 
GATAAAGATG ACATCCCTGG GCCCTCAACT GGGGGCAGCC TCCGAGACCC TGAGCCAGAG 
CAGGCTGGGC CCAGCTCTGG AGTCACCAAC AGGTGCCCAT TCCTCCTGGA CAATTGCCTT 
GGCACATCTC AGTGGCCCCC AAGGCGACGG CGCAAGCAGC TATTCACCCT GCAGACGGTG 
AACTCCAATG GGACCAGTGA CCGCACAACC TCCCCTGAAG AAGTCCATGC CCAGCCATAC 
ATTGCTATTG ACTGGGAGCC AGAGATGAAG AAGCGTTACT ATGACGAGGT AGAGGCTGAG 
GGCTACGTGA AGCATGACTG CGTTGGGTAC GTGATGAAGA AGGCTCCCGT GCGGCTGCAG 
GAGTGCATTG AGCTCTTCAC CACTGTGGAG ACCCTGGAGA AGGAAAACCC CTGGTACTGC 
CCCTCCTGCA AGCAGCACCA GCTGGCCACC AAGAAGCTGG ACCTGTGGAT GCTGCCGGAG 
ATTCTCATCA TCCACCTGAA ACGCTTTTCC TACACCAAGT TCTCCCGAGA GAAGCTGGAC 
ACCCTCGTGG AGTTTCCTAT CCGGGACCTG GACTTCTCTG AGTTTGTCAT CCAGCCACAG 
AATGAGTTGA ATCCAGAGCT GTACAAATAC GACCTCATCG CGGTTTCCAA CCATTATGGG 
GGCATGCGTG ATGGACACTA CACAACATTT GCCTGCAATA AGGACAGCGG CCAGTGGCAC 
TACTTTGATG ACAACAGTGT CTCCCCTGTG AATGAGAATC AGATTGAGTC CAAGGCAGCC 
TATGTCCTCT TCTACCAACG CCAGGACGTG GCGCGACGCC TGCTGTCCCC AGCCGGCTCA 
TCTGGCGCCC CAGCCTCCCC TGCCTGCAGC TCCCCACCCA GCTCTGAGTT CATGGATGTT 
AATTGA

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

USP11 ( XM_017863506.1 ) cDNA ORF clone, Rhinopithecus bieti(black snub-nosed monkey) -> XP_017718995.1 Rhinopithecus bieti ubiquitin specific peptidase 11 (USP11), transcript variant X2, mRNA.

Price & Availability↑

CloneID	ORh52276
Clone ID Related Accession (Same CDS sequence)	XM_017863506.1
Accession Version	XM_017863506.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2883bp) 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	2016-08-23
Organism	Rhinopithecus bieti(black snub-nosed monkey)
Product	ubiquitin carboxyl-terminal hydrolase 11 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_016826693.1) 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 :: Rhinopithecus bieti Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCAGTAG CCCCGCGACT GTTTGGGGGG CTCTGCTTCC GTTTCCGGGA CCAGAATCCG 
GAAGTGGCTG TTGAGGGGCG TCTTCCAATC TCGCACAGCT GCGTTGGCTG TAGAGGAGAA 
CGGACAGCGA TGGCGACGGT CGCAGCAAAT CCAGCTGCTG CTGCGGCGGC TGTGGCGGTG 
GCGGTGGCTG AGGATAGAGA GCCACAGCGC AAGGAGCTGC CAGGCCTAGA CAGCCAGTGG 
CGCCAGATAG AAAACGGCGA GAGTGGGCGA GAACGTCCAC TGCGGGCCGG CGAAAGCTGG 
TTCCTTGTGG AGAAGCACTG GTATAAGCAG TGGGAGGCAT ACGTGCAGGG AGGGGACCAG 
GACTCCAGCA CCTTTCCTGG CTGCATCAAC AATGCCGCAC TCTTTCAAGA TGAGATAAAC 
TGGCGCCTCA AGGAAGGACT GGTGGAAGGC GAGGATTATG TGCTGCTCCC AGCAGCTGCT 
TGGCATTACC TGGTCAGCTG GTATGGTCTA GAGCATGGCC AGCCACCCAT TGAACGCAAG 
GTCATAGAGC TGCCCAACAT CCAGAAAGTC GAAGTGTACC CAGTAGAACT GCTGCTTGTC 
CGGCACAATG ATTTGGGCAA ATCTCACACT GTTCAGTTCA GCCATACCGA TTCTATTGGC 
CTGGTATTGC GCACAGCTCG GGAGCGGTTT CTGGTGGAGC CCCAGGAAGA TACGCGGCTT 
TGGGCCAAGA ACTCAGAAGG CTCTTTGGAT AGGTTGTATG ACACACACAT TACGGTTCTT 
GATGCGGCCC TTGAGACTGG GCAGTTGATC ATCATGGAGA CCCGCAAGAA AGATGGCACT 
TGGCCCAGCG CACAGCTGCA TGTCATGAAC AACAACATGT CGGAAGAGGA TGAGGACTTC 
AAGGGCCAGC CAGGCATCTG TGGCCTCACC AATCTGGGCA ACACGTGCTT CATGAACTCA 
GCCCTGCAGT GCCTCAGCAA TGTGCCACAG CTCACCGAGT ACTTCCTCAA CAACTGCTAC 
CTGGAGGAGC TCAACTTCCG CAACCCACTG GGCATGAAGG GTGAGATTGC AGAGGCCTAT 
GCAGACCTGG TGAAGCAGGC GTGGTCTGGC CACCACCGCT CCATCGTGCC ACATGTGTTC 
AAGAACAAGG TCGGCCATTT TGCGTCCCAA TTTCTGGGCT ACCAGCAGCA TGACTCTCAG 
GAGTTGCTGT CATTCCTCCT GGACGGGCTG CATGAGGACC TTAATCGGGT GAAGAAGAAG 
GAGTATGTGG AGCTGTGTGA TGCTGCTGGG CGGCCGGATC AGGAGGTGGC ACAGGAGGCG 
TGGCAAAACC ACAAACGGCG GAACGATTCT GTGATCGTGG ACACTTTCCA TGGCCTCTTC 
AAGTCCACGC TGGTGTGCCC CGATTGTGGC AACGTATCTG TGACCTTCGA CCCCTTCTGC 
TACCTCAGTG TTCCACTGCC TATCAGCCAC AAGAGGGTCT TGGAGGTCTT CTTTATCCCC 
ATGGATCCGC GCCGCAAGCC AGAGCAGCAC CGGCTCGTGG TCCCCAAGAA AGGCAAGATC 
TCGGATCTGT GTGTGGCTCT GTCCAAACAC ACTGGCATCT CGCCAGAGAG GATGATGGTG 
GCTGATGTCT TCAGTCACCG CTTCTATAAG CTCTATCAGC TGGAGGAGCC TCTGAGCAGC 
ATCTTGGACC GCGATGATAT CTTCGTCTAT GAGGTGTCAG GTCGCATTGA GGCCATCGAG 
GGCTCGAGAG AGGACATCGT GGTTCCTGTC TACCTGCGGG AACGCACCCC TGCCCGTGAC 
TACAACAATT CCTACTATGG CCTGATGCTT TTTGGGCACC CCCTCCTGGT ATCAGTGCCC 
CGGGACCGCT TCACCTGGGA GGGCCTGTAT AACGTCCTGA TGTACCGGCT CTCACGCTAT 
GTGACCAAAC CCAACTCAGA TGATGAGGAC GATGGGGATG AGAAAGATGA CGAAGAGGAT 
AAAGATGACA TCCCTGGGCC CTCAACTGGG GGCAGCCTCC GAGACCCTGA GCCAGAGCAG 
GCTGGGCCCA GCTCTGGAGT CACCAACAGG TGCCCATTCC TCCTGGACAA TTGCCTTGGC 
ACATCTCAGT GGCCCCCAAG GCGACGGCGC AAGCAGCTAT TCACCCTGCA GACGGTGAAC 
TCCAATGGGA CCAGTGACCG CACAACCTCC CCTGAAGAAG TCCATGCCCA GCCATACATT 
GCTATTGACT GGGAGCCAGA GATGAAGAAG CGTTACTATG ACGAGGTAGA GGCTGAGGGC 
TACGTGAAGC ATGACTGCGT TGGGTACGTG ATGAAGAAGG CTCCCGTGCG GCTGCAGGAG 
TGCATTGAGC TCTTCACCAC TGTGGAGACC CTGGAGAAGG AAAACCCCTG GTACTGCCCC 
TCCTGCAAGC AGCACCAGCT GGCCACCAAG AAGCTGGACC TGTGGATGCT GCCGGAGATT 
CTCATCATCC ACCTGAAACG CTTTTCCTAC ACCAAGTTCT CCCGAGAGAA GCTGGACACC 
CTCGTGGAGT TTCCTATCCG GGACCTGGAC TTCTCTGAGT TTGTCATCCA GCCACAGAAT 
GAGTTGAATC CAGAGCTGTA CAAATACGAC CTCATCGCGG TTTCCAACCA TTATGGGGGC 
ATGCGTGATG GACACTACAC AACATTTGCC TGCAATAAGG ACAGCGGCCA GTGGCACTAC 
TTTGATGACA ACAGTGTCTC CCCTGTGAAT GAGAATCAGA TTGAGTCCAA GGCAGCCTAT 
GTCCTCTTCT ACCAACGCCA GGACGTGGCG CGACGCCTGC TGTCCCCAGC CGGCTCATCT 
GGCGCCCCAG CCTCCCCTGC CTGCAGCTCC CCACCCAGCT CTGAGTTCAT GGATGTTAAT 
TGA

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

RefSeq	XP_017718995.1
CDS	29..2911
Translation	MAVAPRLFGGLCFRFRDQNPEVAVEGRLPISHSCVGCRGERTAMATVAANPAAAAAAVAVAVAEDREPQRKELPGLDSQWRQIENGESGRERPLRAGESWFLVEKHWYKQWEAYVQGGDQDSSTFPGCINNAALFQDEINWRLKEGLVEGEDYVLLPAAAWHYLVSWYGLEHGQPPIERKVIELPNIQKVEVYPVELLLVRHNDLGKSHTVQFSHTDSIGLVLRTARERFLVEPQEDTRLWAKNSEGSLDRLYDTHITVLDAALETGQLIIMETRKKDGTWPSAQLHVMNNNMSEEDEDFKGQPGICGLTNLGNTCFMNSALQCLSNVPQLTEYFLNNCYLEELNFRNPLGMKGEIAEAYADLVKQAWSGHHRSIVPHVFKNKVGHFASQFLGYQQHDSQELLSFLLDGLHEDLNRVKKKEYVELCDAAGRPDQEVAQEAWQNHKRRNDSVIVDTFHGLFKSTLVCPDCGNVSVTFDPFCYLSVPLPISHKRVLEVFFIPMDPRRKPEQHRLVVPKKGKISDLCVALSKHTGISPERMMVADVFSHRFYKLYQLEEPLSSILDRDDIFVYEVSGRIEAIEGSREDIVVPVYLRERTPARDYNNSYYGLMLFGHPLLVSVPRDRFTWEGLYNVLMYRLSRYVTKPNSDDEDDGDEKDDEEDKDDIPGPSTGGSLRDPEPEQAGPSSGVTNRCPFLLDNCLGTSQWPPRRRRKQLFTLQTVNSNGTSDRTTSPEEVHAQPYIAIDWEPEMKKRYYDEVEAEGYVKHDCVGYVMKKAPVRLQECIELFTTVETLEKENPWYCPSCKQHQLATKKLDLWMLPEILIIHLKRFSYTKFSREKLDTLVEFPIRDLDFSEFVIQPQNELNPELYKYDLIAVSNHYGGMRDGHYTTFACNKDSGQWHYFDDNSVSPVNENQIESKAAYVLFYQRQDVARRLLSPAGSSGAPASPACSSPPSSEFMDVN

Target ORF information:

RefSeq Version	XM_017863506.1
Organism	Rhinopithecus bieti(black snub-nosed monkey)
Definition	Rhinopithecus bieti ubiquitin specific peptidase 11 (USP11), transcript variant X2, mRNA.

Target ORF information:

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

XM_017863506.1

ORF Insert Sequence:

ATGGCAGTAG CCCCGCGACT GTTTGGGGGG CTCTGCTTCC GTTTCCGGGA CCAGAATCCG 
GAAGTGGCTG TTGAGGGGCG TCTTCCAATC TCGCACAGCT GCGTTGGCTG TAGAGGAGAA 
CGGACAGCGA TGGCGACGGT CGCAGCAAAT CCAGCTGCTG CTGCGGCGGC TGTGGCGGTG 
GCGGTGGCTG AGGATAGAGA GCCACAGCGC AAGGAGCTGC CAGGCCTAGA CAGCCAGTGG 
CGCCAGATAG AAAACGGCGA GAGTGGGCGA GAACGTCCAC TGCGGGCCGG CGAAAGCTGG 
TTCCTTGTGG AGAAGCACTG GTATAAGCAG TGGGAGGCAT ACGTGCAGGG AGGGGACCAG 
GACTCCAGCA CCTTTCCTGG CTGCATCAAC AATGCCGCAC TCTTTCAAGA TGAGATAAAC 
TGGCGCCTCA AGGAAGGACT GGTGGAAGGC GAGGATTATG TGCTGCTCCC AGCAGCTGCT 
TGGCATTACC TGGTCAGCTG GTATGGTCTA GAGCATGGCC AGCCACCCAT TGAACGCAAG 
GTCATAGAGC TGCCCAACAT CCAGAAAGTC GAAGTGTACC CAGTAGAACT GCTGCTTGTC 
CGGCACAATG ATTTGGGCAA ATCTCACACT GTTCAGTTCA GCCATACCGA TTCTATTGGC 
CTGGTATTGC GCACAGCTCG GGAGCGGTTT CTGGTGGAGC CCCAGGAAGA TACGCGGCTT 
TGGGCCAAGA ACTCAGAAGG CTCTTTGGAT AGGTTGTATG ACACACACAT TACGGTTCTT 
GATGCGGCCC TTGAGACTGG GCAGTTGATC ATCATGGAGA CCCGCAAGAA AGATGGCACT 
TGGCCCAGCG CACAGCTGCA TGTCATGAAC AACAACATGT CGGAAGAGGA TGAGGACTTC 
AAGGGCCAGC CAGGCATCTG TGGCCTCACC AATCTGGGCA ACACGTGCTT CATGAACTCA 
GCCCTGCAGT GCCTCAGCAA TGTGCCACAG CTCACCGAGT ACTTCCTCAA CAACTGCTAC 
CTGGAGGAGC TCAACTTCCG CAACCCACTG GGCATGAAGG GTGAGATTGC AGAGGCCTAT 
GCAGACCTGG TGAAGCAGGC GTGGTCTGGC CACCACCGCT CCATCGTGCC ACATGTGTTC 
AAGAACAAGG TCGGCCATTT TGCGTCCCAA TTTCTGGGCT ACCAGCAGCA TGACTCTCAG 
GAGTTGCTGT CATTCCTCCT GGACGGGCTG CATGAGGACC TTAATCGGGT GAAGAAGAAG 
GAGTATGTGG AGCTGTGTGA TGCTGCTGGG CGGCCGGATC AGGAGGTGGC ACAGGAGGCG 
TGGCAAAACC ACAAACGGCG GAACGATTCT GTGATCGTGG ACACTTTCCA TGGCCTCTTC 
AAGTCCACGC TGGTGTGCCC CGATTGTGGC AACGTATCTG TGACCTTCGA CCCCTTCTGC 
TACCTCAGTG TTCCACTGCC TATCAGCCAC AAGAGGGTCT TGGAGGTCTT CTTTATCCCC 
ATGGATCCGC GCCGCAAGCC AGAGCAGCAC CGGCTCGTGG TCCCCAAGAA AGGCAAGATC 
TCGGATCTGT GTGTGGCTCT GTCCAAACAC ACTGGCATCT CGCCAGAGAG GATGATGGTG 
GCTGATGTCT TCAGTCACCG CTTCTATAAG CTCTATCAGC TGGAGGAGCC TCTGAGCAGC 
ATCTTGGACC GCGATGATAT CTTCGTCTAT GAGGTGTCAG GTCGCATTGA GGCCATCGAG 
GGCTCGAGAG AGGACATCGT GGTTCCTGTC TACCTGCGGG AACGCACCCC TGCCCGTGAC 
TACAACAATT CCTACTATGG CCTGATGCTT TTTGGGCACC CCCTCCTGGT ATCAGTGCCC 
CGGGACCGCT TCACCTGGGA GGGCCTGTAT AACGTCCTGA TGTACCGGCT CTCACGCTAT 
GTGACCAAAC CCAACTCAGA TGATGAGGAC GATGGGGATG AGAAAGATGA CGAAGAGGAT 
AAAGATGACA TCCCTGGGCC CTCAACTGGG GGCAGCCTCC GAGACCCTGA GCCAGAGCAG 
GCTGGGCCCA GCTCTGGAGT CACCAACAGG TGCCCATTCC TCCTGGACAA TTGCCTTGGC 
ACATCTCAGT GGCCCCCAAG GCGACGGCGC AAGCAGCTAT TCACCCTGCA GACGGTGAAC 
TCCAATGGGA CCAGTGACCG CACAACCTCC CCTGAAGAAG TCCATGCCCA GCCATACATT 
GCTATTGACT GGGAGCCAGA GATGAAGAAG CGTTACTATG ACGAGGTAGA GGCTGAGGGC 
TACGTGAAGC ATGACTGCGT TGGGTACGTG ATGAAGAAGG CTCCCGTGCG GCTGCAGGAG 
TGCATTGAGC TCTTCACCAC TGTGGAGACC CTGGAGAAGG AAAACCCCTG GTACTGCCCC 
TCCTGCAAGC AGCACCAGCT GGCCACCAAG AAGCTGGACC TGTGGATGCT GCCGGAGATT 
CTCATCATCC ACCTGAAACG CTTTTCCTAC ACCAAGTTCT CCCGAGAGAA GCTGGACACC 
CTCGTGGAGT TTCCTATCCG GGACCTGGAC TTCTCTGAGT TTGTCATCCA GCCACAGAAT 
GAGTTGAATC CAGAGCTGTA CAAATACGAC CTCATCGCGG TTTCCAACCA TTATGGGGGC 
ATGCGTGATG GACACTACAC AACATTTGCC TGCAATAAGG ACAGCGGCCA GTGGCACTAC 
TTTGATGACA ACAGTGTCTC CCCTGTGAAT GAGAATCAGA TTGAGTCCAA GGCAGCCTAT 
GTCCTCTTCT ACCAACGCCA GGACGTGGCG CGACGCCTGC TGTCCCCAGC CGGCTCATCT 
GGCGCCCCAG CCTCCCCTGC CTGCAGCTCC CCACCCAGCT CTGAGTTCAT GGATGTTAAT 
TGA