USP10 cDNA ORF clone, Python bivittatus(Burmese python)

Gene
Clones
gRNAs

Summary

Gene Symbol	USP10
Entrez Gene ID	103068186
Full Name	ubiquitin specific peptidase 10
Gene Type	protein-coding
Organism	Python bivittatus(Burmese python)

mRNA and Protein(s)

mRNA	Protein	Name
XM_025174077.1	XP_025029845.1	ubiquitin carboxyl-terminal hydrolase 10
XM_007439670.1	XP_007439732.1	ubiquitin carboxyl-terminal hydrolase 10

Pathways from BioSystems
Gene Ontology

The following USP10 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the USP10 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
OPy131543	XM_025174077.1 Latest version!	Python bivittatus ubiquitin specific peptidase 10 (USP10), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00
OPy16436	XM_007439670.1 Latest version!	Python bivittatus ubiquitin specific peptidase 10 (USP10), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$426.30 $609.00

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)

USP10 ( XM_025174077.1 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_025029845.1 Python bivittatus ubiquitin specific peptidase 10 (USP10), mRNA.

Price & Availability↑

CloneID	OPy131543
Clone ID Related Accession (Same CDS sequence)	XM_025174077.1
Accession Version	XM_025174077.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2352bp) 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	2018-05-23
Organism	Python bivittatus(Burmese python)
Product	ubiquitin carboxyl-terminal hydrolase 10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006536818.1) 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 Name :: Python bivittatus Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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##

ATGGCCATAT CAAAATATAT CTTTGGGGAA TTCAGCCCTG ATGAATTTAA TCAGTTTTTT 
GTGATTCCCC GTTGCTCTGT TGAGCTGCCT CCCTACAATG AAACCATTTC ATGTGGTCTT 
AAGTCTACAG GAGAACTCCA TGATGGGGAG GAATATCAGA GAATTGAATT TGGTGTTAAC 
GAAGTGATTG AGGCAGGTTC ATCTGTGCTG AATAACAGCG ACTACAGTAT TTCAAGTACT 
CTGAATCCTC AGGCACCAGA ATTCATTCTT GGTTGTGCAC CGACCCCCAA AACACCCAGT 
GATGTCCTCG GCGAAACCAA CTGTAACTCC GTTGACTGCC AGTTCACTGA TTCTTCTCTT 
GCTTTGGATA ATGGTTCTAA TGCTGAAAAC GACAGTTTCT CTGGGAGCCT GGGACAGCGG 
GAACGCAAAA AGAAAAAGAA AAGACCACCT GGATATTACA GTTACTTGGA AGATGTCAGC 
GATGGTGTTC CTGCTGAGGC TTTGATAAAC GGACATGCCA GTTCATCCAG ACTTAATAGC 
ATAAGCATAG ATGATGTAGA ATTTGCAGGT GATGTGCCAA GGACTTGTAA TAGCCCTGAA 
AATTCTCTGG ACTTCAGTGG CGAAGCTGTA TCAGAGGATT TGGTTTCTAG TGCTCTAGAT 
ACTACCAGGA CTGCAGGGCA GCCAGAAGTA TGCAGTGTTA CTAATTTGGA ACAATCTTGT 
GTCTCCTCTG ATCCTGAAAG GGACAGCCCG TTAAGGACAG CTGTTGTGCA GTCTTATACT 
GGTACTGATA CTACTGAAAA CCTTGGCGTT ACTAATGGGC AAACACTTGA ATCCTCTAGT 
GAGGGCACAG CTGCCAATGG GGTAGACTTG CAGACTGTGG AAAACACTGA CTCAGACCAA 
GCTAAGCTGG AGGATGCTTC TTCTTCTGCA GAGGCAGTCA CCCCTGTTCC AGGATCAATT 
GTGGTTAATC AGCCTGCAAA ATCATGGGCA AGTCTGTTTC ACAATTCCAA GCCCTCTGTT 
TCCACACCTA TGGCTTATGT GGAGACTAAG TATGTCCCTC CTGCTATATC TCCTGTGGTC 
CCTGAGAAAC AGGTTGACGT CAAAGAGGGG CCTGTTCCAG TTTCTGAGGA TCCTGTAGCC 
ATAAAGATTG CAGAATTACT GGAAAATGTA AAACTAATAC ATAAACCAGT ATCCTTGCAA 
CCACGAGGGC TGATCAATAA AGGAAACTGG TGTTATATCA ATGCTACACT GCAGGCTTTG 
GTAGCCTGCC CTCCCATGTA TCATCTGATG AAGTCCATTC CAATGTTTTC AAAATCACAG 
AGGCCATGTA CTTCTACGCC AATGATTGAC AGCTTTGTCC GCCTAATGAA TGAGTTTACA 
AACATGCCAG TCCCTCCTAA GGCAAAACAA GCTTTAAGTG ATAAAATTGC ACGAGACATC 
AGACCTGGAG CTGCCTTTGA ACCCATATAC ATTTATAGAT TGTTGACAGT GATCAAATCC 
AGTCTGTCAG AAAAGGGTAG ACAAGAAGAT GCCGAAGAGT ACCTAGGATT TATTCTAAAT 
GGCCTACATG AGGAAATGCT GATTCTGAAG AAATTGCTAT CTCCACATAG CGAAATTTCC 
AATGGACCAG AGACCCAGCT TGTAAATGAA GAGGATGAGC AGGAAGAACA AGGTGAAGGC 
AGTGAAGACG AATGGGAGCA AGTCGGTCCA CGTAACAAAT CCTCTGTCAC TCGACAGGCA 
GATTTTGTCC AGACACCAAT AACAGACATA TTTGGTGGGC ACATAAGGTC TGTGGTTTAC 
CAACAGAGTT TGAAAGAATC TGCCACTTTG CAGCCATTTT TCACTCTGCA ATTGGATATC 
CAGTCTGATA AGATACGTAC TGTTCAGGAT GCCCTAGAAA GCTTGGTGGC AAGAGAGTCG 
GTCCAGGGGT ATACCACGAA AACTAAGCAA GAGGTAGAGA TTAGTCGAAG AGTAACGTTG 
GAAGAGCTCC CTCCCGTTCT TGTTCTACAC CTCAAGCGAT TTGTCTATGA AAAAACAGGA 
GGGTGCCAGA AGCTCATTAA AAACATTGAA TATCCTGTTG ACCTGGAAAT AAGTAAAGAG 
TTGCTGTCAC CAGGAGTCAA AAGTAAGATT TTTAAAGGCC AAAGAACCTA CCGGCTCTTT 
GCAGTTGTCT ACCATCATGG AAACAGTGCA ACTGGTGGAC ACTATACTAC AGATGTCTTC 
CAGATTGGTC TTAATGGCTG GTTGCGCATA GATGACCAAG CTGTCAAAGT AGTTACTCAA 
CACCAGGTGG TAAAACCGTC TGCTGAGCGC ACAGCCTACC TCCTGTACTA TCGTCGAGTT 
GACCTGCTTT GA

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

RefSeq	XP_025029845.1
CDS	1..2352
Translation	MAISKYIFGEFSPDEFNQFFVIPRCSVELPPYNETISCGLKSTGELHDGEEYQRIEFGVNEVIEAGSSVLNNSDYSISSTLNPQAPEFILGCAPTPKTPSDVLGETNCNSVDCQFTDSSLALDNGSNAENDSFSGSLGQRERKKKKKRPPGYYSYLEDVSDGVPAEALINGHASSSRLNSISIDDVEFAGDVPRTCNSPENSLDFSGEAVSEDLVSSALDTTRTAGQPEVCSVTNLEQSCVSSDPERDSPLRTAVVQSYTGTDTTENLGVTNGQTLESSSEGTAANGVDLQTVENTDSDQAKLEDASSSAEAVTPVPGSIVVNQPAKSWASLFHNSKPSVSTPMAYVETKYVPPAISPVVPEKQVDVKEGPVPVSEDPVAIKIAELLENVKLIHKPVSLQPRGLINKGNWCYINATLQALVACPPMYHLMKSIPMFSKSQRPCTSTPMIDSFVRLMNEFTNMPVPPKAKQALSDKIARDIRPGAAFEPIYIYRLLTVIKSSLSEKGRQEDAEEYLGFILNGLHEEMLILKKLLSPHSEISNGPETQLVNEEDEQEEQGEGSEDEWEQVGPRNKSSVTRQADFVQTPITDIFGGHIRSVVYQQSLKESATLQPFFTLQLDIQSDKIRTVQDALESLVARESVQGYTTKTKQEVEISRRVTLEELPPVLVLHLKRFVYEKTGGCQKLIKNIEYPVDLEISKELLSPGVKSKIFKGQRTYRLFAVVYHHGNSATGGHYTTDVFQIGLNGWLRIDDQAVKVVTQHQVVKPSAERTAYLLYYRRVDLL

Target ORF information:

RefSeq Version	XM_025174077.1
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus ubiquitin specific peptidase 10 (USP10), mRNA.

Target ORF information:

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

XM_025174077.1

ORF Insert Sequence:

ATGGCCATAT CAAAATATAT CTTTGGGGAA TTCAGCCCTG ATGAATTTAA TCAGTTTTTT 
GTGATTCCCC GTTGCTCTGT TGAGCTGCCT CCCTACAATG AAACCATTTC ATGTGGTCTT 
AAGTCTACAG GAGAACTCCA TGATGGGGAG GAATATCAGA GAATTGAATT TGGTGTTAAC 
GAAGTGATTG AGGCAGGTTC ATCTGTGCTG AATAACAGCG ACTACAGTAT TTCAAGTACT 
CTGAATCCTC AGGCACCAGA ATTCATTCTT GGTTGTGCAC CGACCCCCAA AACACCCAGT 
GATGTCCTCG GCGAAACCAA CTGTAACTCC GTTGACTGCC AGTTCACTGA TTCTTCTCTT 
GCTTTGGATA ATGGTTCTAA TGCTGAAAAC GACAGTTTCT CTGGGAGCCT GGGACAGCGG 
GAACGCAAAA AGAAAAAGAA AAGACCACCT GGATATTACA GTTACTTGGA AGATGTCAGC 
GATGGTGTTC CTGCTGAGGC TTTGATAAAC GGACATGCCA GTTCATCCAG ACTTAATAGC 
ATAAGCATAG ATGATGTAGA ATTTGCAGGT GATGTGCCAA GGACTTGTAA TAGCCCTGAA 
AATTCTCTGG ACTTCAGTGG CGAAGCTGTA TCAGAGGATT TGGTTTCTAG TGCTCTAGAT 
ACTACCAGGA CTGCAGGGCA GCCAGAAGTA TGCAGTGTTA CTAATTTGGA ACAATCTTGT 
GTCTCCTCTG ATCCTGAAAG GGACAGCCCG TTAAGGACAG CTGTTGTGCA GTCTTATACT 
GGTACTGATA CTACTGAAAA CCTTGGCGTT ACTAATGGGC AAACACTTGA ATCCTCTAGT 
GAGGGCACAG CTGCCAATGG GGTAGACTTG CAGACTGTGG AAAACACTGA CTCAGACCAA 
GCTAAGCTGG AGGATGCTTC TTCTTCTGCA GAGGCAGTCA CCCCTGTTCC AGGATCAATT 
GTGGTTAATC AGCCTGCAAA ATCATGGGCA AGTCTGTTTC ACAATTCCAA GCCCTCTGTT 
TCCACACCTA TGGCTTATGT GGAGACTAAG TATGTCCCTC CTGCTATATC TCCTGTGGTC 
CCTGAGAAAC AGGTTGACGT CAAAGAGGGG CCTGTTCCAG TTTCTGAGGA TCCTGTAGCC 
ATAAAGATTG CAGAATTACT GGAAAATGTA AAACTAATAC ATAAACCAGT ATCCTTGCAA 
CCACGAGGGC TGATCAATAA AGGAAACTGG TGTTATATCA ATGCTACACT GCAGGCTTTG 
GTAGCCTGCC CTCCCATGTA TCATCTGATG AAGTCCATTC CAATGTTTTC AAAATCACAG 
AGGCCATGTA CTTCTACGCC AATGATTGAC AGCTTTGTCC GCCTAATGAA TGAGTTTACA 
AACATGCCAG TCCCTCCTAA GGCAAAACAA GCTTTAAGTG ATAAAATTGC ACGAGACATC 
AGACCTGGAG CTGCCTTTGA ACCCATATAC ATTTATAGAT TGTTGACAGT GATCAAATCC 
AGTCTGTCAG AAAAGGGTAG ACAAGAAGAT GCCGAAGAGT ACCTAGGATT TATTCTAAAT 
GGCCTACATG AGGAAATGCT GATTCTGAAG AAATTGCTAT CTCCACATAG CGAAATTTCC 
AATGGACCAG AGACCCAGCT TGTAAATGAA GAGGATGAGC AGGAAGAACA AGGTGAAGGC 
AGTGAAGACG AATGGGAGCA AGTCGGTCCA CGTAACAAAT CCTCTGTCAC TCGACAGGCA 
GATTTTGTCC AGACACCAAT AACAGACATA TTTGGTGGGC ACATAAGGTC TGTGGTTTAC 
CAACAGAGTT TGAAAGAATC TGCCACTTTG CAGCCATTTT TCACTCTGCA ATTGGATATC 
CAGTCTGATA AGATACGTAC TGTTCAGGAT GCCCTAGAAA GCTTGGTGGC AAGAGAGTCG 
GTCCAGGGGT ATACCACGAA AACTAAGCAA GAGGTAGAGA TTAGTCGAAG AGTAACGTTG 
GAAGAGCTCC CTCCCGTTCT TGTTCTACAC CTCAAGCGAT TTGTCTATGA AAAAACAGGA 
GGGTGCCAGA AGCTCATTAA AAACATTGAA TATCCTGTTG ACCTGGAAAT AAGTAAAGAG 
TTGCTGTCAC CAGGAGTCAA AAGTAAGATT TTTAAAGGCC AAAGAACCTA CCGGCTCTTT 
GCAGTTGTCT ACCATCATGG AAACAGTGCA ACTGGTGGAC ACTATACTAC AGATGTCTTC 
CAGATTGGTC TTAATGGCTG GTTGCGCATA GATGACCAAG CTGTCAAAGT AGTTACTCAA 
CACCAGGTGG TAAAACCGTC TGCTGAGCGC ACAGCCTACC TCCTGTACTA TCGTCGAGTT 
GACCTGCTTT GA

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

USP10 ( XM_007439670.1 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_007439732.1 Python bivittatus ubiquitin specific peptidase 10 (USP10), mRNA.

Price & Availability↑

CloneID	OPy16436
Clone ID Related Accession (Same CDS sequence)	XM_007439670.1
Accession Version	XM_007439670.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2436bp) 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	2016-03-10
Organism	Python bivittatus(Burmese python)
Product	ubiquitin carboxyl-terminal hydrolase 10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006536818.1) 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 :: Python bivittatus Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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##

ATGGCCATAT CAAAACTTCT TGAGGCTTTG GACAGAGAAG CTGGTTGGTT GTCAGTTTCC 
CAAGATCCTC CTATTTTTCT GGTAAAGGAA CTGCTGAAGT ATATCTTTGG GGAATTCAGC 
CCTGATGAAT TTAATCAGTT TTTTGTGATT CCCCGTTGCT CTGTTGAGCT GCCTCCCTAC 
AATGAAACCA TTTCATGTGG TCTTAAGTCT ACAGGAGAAC TCCATGATGG GGAGGAATAT 
CAGAGAATTG AATTTGGTGT TAACGAAGTG ATTGAGGCAG GTTCATCTGT GCTGAATAAC 
AGCGACTACA GTATTTCAAG TACTCTGAAT CCTCAGGCAC CAGAATTCAT TCTTGGTTGT 
GCACCGACCC CCAAAACACC CAGTGATGTC CTCGGCGAAA CCAACTGTAA CTCCGTTGAC 
TGCCAGTTCA CTGATTCTTC TCTTGCTTTG GATAATGGTT CTAATGCTGA AAACGACAGT 
TTCTCTGGGA GCCTGGGACA GCGGGAACGC AAAAAGAAAA AGAAAAGACC ACCTGGATAT 
TACAGTTACT TGGAAGATGT CAGCGATGGT GTTCCTGCTG AGGCTTTGAT AAACGGACAT 
GCCAGTTCAT CCAGACTTAA TAGCATAAGC ATAGATGATG TAGAATTTGC AGGTGATGTG 
CCAAGGACTT GTAATAGCCC TGAAAATTCT CTGGACTTCA GTGGCGAAGC TGTATCAGAG 
GATTTGGTTT CTAGTGCTCT AGATACTACC AGGACTGCAG GGCAGCCAGA AGTATGCAGT 
GTTACTAATT TGGAACAATC TTGTGTCTCC TCTGATCCTG AAAGGGACAG CCCGTTAAGG 
ACAGCTGTTG TGCAGTCTTA TACTGGTACT GATACTACTG AAAACCTTGG CGTTACTAAT 
GGGCAAACAC TTGAATCCTC TAGTGAGGGC ACAGCTGCCA ATGGGGTAGA CTTGCAGACT 
GTGGAAAACA CTGACTCAGA CCAAGCTAAG CTGGAGGATG CTTCTTCTTC TGCAGAGGCA 
GTCACCCCTG TTCCAGGATC AATTGTGGTT AATCAGCCTG CAAAATCATG GGCAAGTCTG 
TTTCACAATT CCAAGCCCTC TGTTTCCACA CCTATGGCTT ATGTGGAGAC TAAGTATGTC 
CCTCCTGCTA TATCTCCTGT GGTCCCTGAG AAACAGGTTG ACGTCAAAGA GGGGCCTGTT 
CCAGTTTCTG AGGATCCTGT AGCCATAAAG ATTGCAGAAT TACTGGAAAA TGTAAAACTA 
ATACATAAAC CAGTATCCTT GCAACCACGA GGGCTGATCA ATAAAGGAAA CTGGTGTTAT 
ATCAATGCTA CACTGCAGGC TTTGGTAGCC TGCCCTCCCA TGTATCATCT GATGAAGTCC 
ATTCCAATGT TTTCAAAATC ACAGAGGCCA TGTACTTCTA CGCCAATGAT TGACAGCTTT 
GTCCGCCTAA TGAATGAGTT TACAAACATG CCAGTCCCTC CTAAGGCAAA ACAAGCTTTA 
AGTGATAAAA TTGCACGAGA CATCAGACCT GGAGCTGCCT TTGAACCCAT ATACATTTAT 
AGATTGTTGA CAGTGATCAA ATCCAGTCTG TCAGAAAAGG GTAGACAAGA AGATGCCGAA 
GAGTACCTAG GATTTATTCT AAATGGCCTA CATGAGGAAA TGCTGATTCT GAAGAAATTG 
CTATCTCCAC ATAGCGAAAT TTCCAATGGA CCAGAGACCC AGCTTGTAAA TGAAGAGGAT 
GAGCAGGAAG AACAAGGTGA AGGCAGTGAA GACGAATGGG AGCAAGTCGG TCCACGTAAC 
AAATCCTCTG TCACTCGACA GGCAGATTTT GTCCAGACAC CAATAACAGA CATATTTGGT 
GGGCACATAA GGTCTGTGGT TTACCAACAG AGTTTGAAAG AATCTGCCAC TTTGCAGCCA 
TTTTTCACTC TGCAATTGGA TATCCAGTCT GATAAGATAC GTACTGTTCA GGATGCCCTA 
GAAAGCTTGG TGGCAAGAGA GTCGGTCCAG GGGTATACCA CGAAAACTAA GCAAGAGGTA 
GAGATTAGTC GAAGAGTAAC GTTGGAAGAG CTCCCTCCCG TTCTTGTTCT ACACCTCAAG 
CGATTTGTCT ATGAAAAAAC AGGAGGGTGC CAGAAGCTCA TTAAAAACAT TGAATATCCT 
GTTGACCTGG AAATAAGTAA AGAGTTGCTG TCACCAGGAG TCAAAAGTAA GATTTTTAAA 
GGCCAAAGAA CCTACCGGCT CTTTGCAGTT GTCTACCATC ATGGAAACAG TGCAACTGGT 
GGACACTATA CTACAGATGT CTTCCAGATT GGTCTTAATG GCTGGTTGCG CATAGATGAC 
CAAGCTGTCA AAGTAGTTAC TCAACACCAG GTGGTAAAAC CGTCTGCTGA GCGCACAGCC 
TACCTCCTGT ACTATCGTCG AGTTGACCTG CTTTGA

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

RefSeq	XP_007439732.1
CDS	1..2436
Translation	MAISKLLEALDREAGWLSVSQDPPIFLVKELLKYIFGEFSPDEFNQFFVIPRCSVELPPYNETISCGLKSTGELHDGEEYQRIEFGVNEVIEAGSSVLNNSDYSISSTLNPQAPEFILGCAPTPKTPSDVLGETNCNSVDCQFTDSSLALDNGSNAENDSFSGSLGQRERKKKKKRPPGYYSYLEDVSDGVPAEALINGHASSSRLNSISIDDVEFAGDVPRTCNSPENSLDFSGEAVSEDLVSSALDTTRTAGQPEVCSVTNLEQSCVSSDPERDSPLRTAVVQSYTGTDTTENLGVTNGQTLESSSEGTAANGVDLQTVENTDSDQAKLEDASSSAEAVTPVPGSIVVNQPAKSWASLFHNSKPSVSTPMAYVETKYVPPAISPVVPEKQVDVKEGPVPVSEDPVAIKIAELLENVKLIHKPVSLQPRGLINKGNWCYINATLQALVACPPMYHLMKSIPMFSKSQRPCTSTPMIDSFVRLMNEFTNMPVPPKAKQALSDKIARDIRPGAAFEPIYIYRLLTVIKSSLSEKGRQEDAEEYLGFILNGLHEEMLILKKLLSPHSEISNGPETQLVNEEDEQEEQGEGSEDEWEQVGPRNKSSVTRQADFVQTPITDIFGGHIRSVVYQQSLKESATLQPFFTLQLDIQSDKIRTVQDALESLVARESVQGYTTKTKQEVEISRRVTLEELPPVLVLHLKRFVYEKTGGCQKLIKNIEYPVDLEISKELLSPGVKSKIFKGQRTYRLFAVVYHHGNSATGGHYTTDVFQIGLNGWLRIDDQAVKVVTQHQVVKPSAERTAYLLYYRRVDLL

Target ORF information:

RefSeq Version	XM_007439670.1
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus ubiquitin specific peptidase 10 (USP10), mRNA.

Target ORF information:

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

XM_007439670.1

ORF Insert Sequence:

ATGGCCATAT CAAAACTTCT TGAGGCTTTG GACAGAGAAG CTGGTTGGTT GTCAGTTTCC 
CAAGATCCTC CTATTTTTCT GGTAAAGGAA CTGCTGAAGT ATATCTTTGG GGAATTCAGC 
CCTGATGAAT TTAATCAGTT TTTTGTGATT CCCCGTTGCT CTGTTGAGCT GCCTCCCTAC 
AATGAAACCA TTTCATGTGG TCTTAAGTCT ACAGGAGAAC TCCATGATGG GGAGGAATAT 
CAGAGAATTG AATTTGGTGT TAACGAAGTG ATTGAGGCAG GTTCATCTGT GCTGAATAAC 
AGCGACTACA GTATTTCAAG TACTCTGAAT CCTCAGGCAC CAGAATTCAT TCTTGGTTGT 
GCACCGACCC CCAAAACACC CAGTGATGTC CTCGGCGAAA CCAACTGTAA CTCCGTTGAC 
TGCCAGTTCA CTGATTCTTC TCTTGCTTTG GATAATGGTT CTAATGCTGA AAACGACAGT 
TTCTCTGGGA GCCTGGGACA GCGGGAACGC AAAAAGAAAA AGAAAAGACC ACCTGGATAT 
TACAGTTACT TGGAAGATGT CAGCGATGGT GTTCCTGCTG AGGCTTTGAT AAACGGACAT 
GCCAGTTCAT CCAGACTTAA TAGCATAAGC ATAGATGATG TAGAATTTGC AGGTGATGTG 
CCAAGGACTT GTAATAGCCC TGAAAATTCT CTGGACTTCA GTGGCGAAGC TGTATCAGAG 
GATTTGGTTT CTAGTGCTCT AGATACTACC AGGACTGCAG GGCAGCCAGA AGTATGCAGT 
GTTACTAATT TGGAACAATC TTGTGTCTCC TCTGATCCTG AAAGGGACAG CCCGTTAAGG 
ACAGCTGTTG TGCAGTCTTA TACTGGTACT GATACTACTG AAAACCTTGG CGTTACTAAT 
GGGCAAACAC TTGAATCCTC TAGTGAGGGC ACAGCTGCCA ATGGGGTAGA CTTGCAGACT 
GTGGAAAACA CTGACTCAGA CCAAGCTAAG CTGGAGGATG CTTCTTCTTC TGCAGAGGCA 
GTCACCCCTG TTCCAGGATC AATTGTGGTT AATCAGCCTG CAAAATCATG GGCAAGTCTG 
TTTCACAATT CCAAGCCCTC TGTTTCCACA CCTATGGCTT ATGTGGAGAC TAAGTATGTC 
CCTCCTGCTA TATCTCCTGT GGTCCCTGAG AAACAGGTTG ACGTCAAAGA GGGGCCTGTT 
CCAGTTTCTG AGGATCCTGT AGCCATAAAG ATTGCAGAAT TACTGGAAAA TGTAAAACTA 
ATACATAAAC CAGTATCCTT GCAACCACGA GGGCTGATCA ATAAAGGAAA CTGGTGTTAT 
ATCAATGCTA CACTGCAGGC TTTGGTAGCC TGCCCTCCCA TGTATCATCT GATGAAGTCC 
ATTCCAATGT TTTCAAAATC ACAGAGGCCA TGTACTTCTA CGCCAATGAT TGACAGCTTT 
GTCCGCCTAA TGAATGAGTT TACAAACATG CCAGTCCCTC CTAAGGCAAA ACAAGCTTTA 
AGTGATAAAA TTGCACGAGA CATCAGACCT GGAGCTGCCT TTGAACCCAT ATACATTTAT 
AGATTGTTGA CAGTGATCAA ATCCAGTCTG TCAGAAAAGG GTAGACAAGA AGATGCCGAA 
GAGTACCTAG GATTTATTCT AAATGGCCTA CATGAGGAAA TGCTGATTCT GAAGAAATTG 
CTATCTCCAC ATAGCGAAAT TTCCAATGGA CCAGAGACCC AGCTTGTAAA TGAAGAGGAT 
GAGCAGGAAG AACAAGGTGA AGGCAGTGAA GACGAATGGG AGCAAGTCGG TCCACGTAAC 
AAATCCTCTG TCACTCGACA GGCAGATTTT GTCCAGACAC CAATAACAGA CATATTTGGT 
GGGCACATAA GGTCTGTGGT TTACCAACAG AGTTTGAAAG AATCTGCCAC TTTGCAGCCA 
TTTTTCACTC TGCAATTGGA TATCCAGTCT GATAAGATAC GTACTGTTCA GGATGCCCTA 
GAAAGCTTGG TGGCAAGAGA GTCGGTCCAG GGGTATACCA CGAAAACTAA GCAAGAGGTA 
GAGATTAGTC GAAGAGTAAC GTTGGAAGAG CTCCCTCCCG TTCTTGTTCT ACACCTCAAG 
CGATTTGTCT ATGAAAAAAC AGGAGGGTGC CAGAAGCTCA TTAAAAACAT TGAATATCCT 
GTTGACCTGG AAATAAGTAA AGAGTTGCTG TCACCAGGAG TCAAAAGTAA GATTTTTAAA 
GGCCAAAGAA CCTACCGGCT CTTTGCAGTT GTCTACCATC ATGGAAACAG TGCAACTGGT 
GGACACTATA CTACAGATGT CTTCCAGATT GGTCTTAATG GCTGGTTGCG CATAGATGAC 
CAAGCTGTCA AAGTAGTTAC TCAACACCAG GTGGTAAAAC CGTCTGCTGA GCGCACAGCC 
TACCTCCTGT ACTATCGTCG AGTTGACCTG CTTTGA