USP43 cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka)

Gene
Clones
gRNAs

Summary

Gene Symbol	USP43
Entrez Gene ID	105819406
Full Name	ubiquitin specific peptidase 43
Gene Type	protein-coding
Organism	Propithecus coquereli(Coquerel's sifaka)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012655628.1	XP_012511082.1	ubiquitin carboxyl-terminal hydrolase 43 isoform X1
XM_012655629.1	XP_012511083.1	ubiquitin carboxyl-terminal hydrolase 43 isoform X2

Pathways from BioSystems
Gene Ontology

The following USP43 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the USP43 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
OPr112811	XM_012655628.1 Latest version!	Propithecus coquereli ubiquitin specific peptidase 43 (USP43), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00
OPr112812	XM_012655629.1 Latest version!	Propithecus coquereli ubiquitin specific peptidase 43 (USP43), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00

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)

USP43 ( XM_012655628.1 ) cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka) -> XP_012511082.1 Propithecus coquereli ubiquitin specific peptidase 43 (USP43), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OPr112811
Clone ID Related Accession (Same CDS sequence)	XM_012655628.1
Accession Version	XM_012655628.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3405bp) 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	2015-05-31
Organism	Propithecus coquereli(Coquerel's sifaka)
Product	ubiquitin carboxyl-terminal hydrolase 43 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012150641.1) 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 :: Propithecus coquereli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAACCCGG GCTCCGGGGA CGCGGCAGGA GGGGGGCCGC CCGCGCCCCG GCCCCGCCGC 
CGCCGCTCCC TGCGCCGCCT ATTCAGCCGC TTCCTGCTAG CGCTGGGCAG CCGCTCCCGC 
CCCGGGGACT CGCCGCCCCG GCCCCCGCCC CAGCCGGGAC ACTGCGATGG CGACGGTGAG 
GGAGGCTTTG CCTGCGCCCC GGGCCCGGCC CCAGCGGTCC CCGGGAGCCC CGGGGAGGAG 
CGCCCGTCTG GACCCCAGCC CCAGTTCCCC GCGGGCGACG GGGCGCGGCC GCCGGGCGCG 
CAGGGCTTGA AGAACCACGG CAACACCTGT TTCATGAACG CCGTGGTGCA GTGTCTCAGC 
AACACCGACC TGCTGGCCGA GTTCCTGGCG CTGGGGCGCT ACCGGGCGGC GCCGGGCCGC 
GCCGAGGTCA CCGAGCAGCT GGCGGCGCTC GTGCGCGCGC TCTGGACGCG CGAATACACG 
CCCCAACTTT CCGCCGAGTT CAAGAATGCA GTTTCCAAGT ACGGCTCTCA GTTCCAAGGC 
AATTCCCAGC ACGATGCCCT GGAATTCCTG CTCTGGTTGC TGGATCGTGT GCACGAGGAC 
TTGGAGGGCT CGTCGCGAGG GCCGGTGCCC GAGAAGCTTC CACCTGAAGC CAGTAAAACC 
TCTGAGAACT GCCTGTCACC GTCGGCTCAG CTTTCTCTAG GTCAAAGCTT TGTGCAAAGC 
CACTTTCAAG CACAATACAG ATCTTCCTTG ACCTGTCCCC ACTGCCTGAA ACAGAGCAAC 
ACCTTCGATC CTTTCCTGTG TGTGTCCCTG CCCATCCCCC TGCGCCAGAC GAGATTCTTG 
AGCGTCACCT TGGTCTTCCC CTCTAAGAGC CAGCAGTTCC TGCGGGTTGG GCTGGCCGTG 
CCGATCCTCA GCACAGTGGC AGCCCTGAGG AAGATGGTTG CAGAGGAAGG AGGCGTCCCT 
GCAGATGAGG TGATCTTGGT TGAACTGTAT TCCAGTGGAT TCCAGCGGTC TTTCTTTGAT 
GAAGAGGACC TGAATACCAT TGCAGAAGGA GATAATGTGT ATGCCTTCCA AGTCTCTTCG 
TCACCTGGCC AGGGGACACT CTCAGCTCAT CCATCAGGGT TGTCGGTTTC CCCACGCTTG 
GCAGCCCGTG AGGGTCAGCG ATTCCCCCTG TCTCTCCACA GTGAGAACAA GGTGCTAATC 
CTCTTCTGTA ACTTGGTGGG GTCAGGGCAG CAGGCTAGCA GGTTTGGGCC ACCTTTCCTG 
ATAAGGGAAG ACAGAGCCAT ATCCTGGCCC CAGCTCCAGC AGTCTATTCT CAGTAAGGTT 
CGCTATCTCA TGAAGAGCGA GGCCTCTATA CAGAGCCTGG GGTCTCTGTT CTCCATCCGG 
GTTGTGGGGC TCTCCCTGGC CTGCAGCTAC TTATCGCCAC AGGACAGTCG GCCCCTCTGC 
CACTGGGCAG TGGACAGAGC TCTGCACCTC AGGAGGCCGG GAGGCCCCCC CCACGTCAAG 
CTGGCGGTGG AGTGGGACAG CTCTGCCAAG GAGCGCCTGT TCGGGAGCCT GCAGGAGGAG 
CGGGCCCGGG ACGCTGACAG CGTGTGGCAG CAGCAGCAGG CACACCAGCA GCACAGCTGC 
ACCCTGGACG AGTGCATTCA GTTCTACACC AAGGAGGAGC AGCTGGCCCA GGACGATGCC 
TGGAAGTGTC CCCATTGCAA AGTCCTCCAG CAGGGGATGG TGAAGCTGAG TTTGTGGACC 
CTGCCTGACA TCCTCATCAT CCACCTCAAA AGGTTCTGTC AGGTGGGGGA GAGAAGAAAC 
AAGCTCTCCA CGCTGGTGAA GTTTCCCCTC TCTGGACTCA ACATGGCTCC CCACGTGGCC 
CAGAGAAGCA CCAGCCCCAA GCCGGGGCCG GGCCCCTGGC CTCCCTGGAA GGAGCCGGGC 
TGCCTGCCCA CTGCCTACCC GCTGGACTTC CTGTACGACC TGTACGCCGT CTGCAACCAC 
CACGGCAGTC TGCAAGGTGG GCATTACACA GCCTACTGCC GGAACTCTCT GGATGGCCAG 
TGGTACAGTT ACGATGACAG CACGGTAGAA CCGCTTCGAG AAGACGAGGT CAGTACCAGA 
GGGGCTTACA TCCTGTTTTA TCAGAAGCGA AACAGCATCC CTCCCTGGTC AGCCAGCAGC 
TCCATGAGAG GCTCCACCAG CTCCTCCTTG TCTGACCACT GGCTCATGAG GCTTGGGAGC 
AACACCGGCA GCACGAGGGG CAGCCTGCTG TCCTGGAGCT CGGCCCCCGG CCCCTCCCTG 
CCCCAGCTTC CCGACCCTCC TGTCGTCACA AACAGCCTCT GCAATCAGGA CAAGGGGGGC 
CCGCAGTCCA GGCTTTTGGT ACGGGGTGTG CAAGGCAGAA GCATCAGCAT GAAGGTGCCC 
ACCTCTTCCC GAGCCAAGCA GGGGCCCTTC AAGACCATGC CGCTCCGGTG GTCCTTCGGA 
CCCCGGGAGA AACCACCCGG TGCGTCTGTC GAGTTGGTGG AGTATTTGGA GTCCAGACGG 
AGACCCCGAT CCACGAGCCA GTCCATCGTG CCACTGCTGA CGGGCGCTGC TGGTGAGGAG 
AAGTCGGCCT CGCCGAGGTC AACCGTCACC GTCTCTGCTA AAGGTGAAGA AGGTGGGCGA 
GCCAGCGAAA GAGGACTGGC CGAGGGGCCC TGTCCCTCGG GCCACCCCAA CCACTGCCTG 
GGCCCTGGAA GCTCAGATGG TCTAAACGCA GCAAGGAAAC TAAAGGAAAA TGCAGGTCAG 
GAAATCAGGC TTCCCAAAAA GTTCGACCTG CCCCTCACTG TGATGCCCTC CATGGAGAAC 
GAGAAGGCAG CTCGACCGGA GGGCCAGAAG GCCACGAACT GGAGGGGAAG TGGCCAGGTG 
GGAAGCAGGA ATGGCCCACC TTCCCCCTCC ATGGGACTGT CTGGAAACAG TAAGGACAGT 
TGGCGAGGAA CCCTAGCCAA GACAAGGGCT AATGCGGAGG AAAGGGACTC TGAGGGGGAC 
AGACCTCCGC AGGGAACACT CACCCTGCTG AGGTCTGTGT TTTGGAAGAA GGAGAGTAAG 
AGGAATGACA GGGCAGAGGT CTGCCCCCCG GCGCCCCCAG TGTCCCTGCT GAGTGGCAGG 
CTGAGCCCCG CCATGAACGA GCAGGCTCGA GGCTCATCTC CTTCCCTCCG GATCCGAGAG 
AGCCTGGCCA GGGGCCTGGG CAGCCATCTC GAGAGGGACG TCCGGTCGGC CCCCAGCTCT 
CTCCACCTCC CTCGCAAAGC CGGCAGGCCT CCGAGAGGCA GTGGCCTTGG CACGTCACAA 
AGGAGCGTTC TGGGGGACCA GACTTCTTAC GGCACCTTGC AGAAGGTCAA ATACCACACT 
CTGTCCTTAG GCCGAAAGAA AACCTTACCA GAGTCCAGCT TTTGA

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

RefSeq	XP_012511082.1
CDS	1..3405
Translation	MNPGSGDAAGGGPPAPRPRRRRSLRRLFSRFLLALGSRSRPGDSPPRPPPQPGHCDGDGEGGFACAPGPAPAVPGSPGEERPSGPQPQFPAGDGARPPGAQGLKNHGNTCFMNAVVQCLSNTDLLAEFLALGRYRAAPGRAEVTEQLAALVRALWTREYTPQLSAEFKNAVSKYGSQFQGNSQHDALEFLLWLLDRVHEDLEGSSRGPVPEKLPPEASKTSENCLSPSAQLSLGQSFVQSHFQAQYRSSLTCPHCLKQSNTFDPFLCVSLPIPLRQTRFLSVTLVFPSKSQQFLRVGLAVPILSTVAALRKMVAEEGGVPADEVILVELYSSGFQRSFFDEEDLNTIAEGDNVYAFQVSSSPGQGTLSAHPSGLSVSPRLAAREGQRFPLSLHSENKVLILFCNLVGSGQQASRFGPPFLIREDRAISWPQLQQSILSKVRYLMKSEASIQSLGSLFSIRVVGLSLACSYLSPQDSRPLCHWAVDRALHLRRPGGPPHVKLAVEWDSSAKERLFGSLQEERARDADSVWQQQQAHQQHSCTLDECIQFYTKEEQLAQDDAWKCPHCKVLQQGMVKLSLWTLPDILIIHLKRFCQVGERRNKLSTLVKFPLSGLNMAPHVAQRSTSPKPGPGPWPPWKEPGCLPTAYPLDFLYDLYAVCNHHGSLQGGHYTAYCRNSLDGQWYSYDDSTVEPLREDEVSTRGAYILFYQKRNSIPPWSASSSMRGSTSSSLSDHWLMRLGSNTGSTRGSLLSWSSAPGPSLPQLPDPPVVTNSLCNQDKGGPQSRLLVRGVQGRSISMKVPTSSRAKQGPFKTMPLRWSFGPREKPPGASVELVEYLESRRRPRSTSQSIVPLLTGAAGEEKSASPRSTVTVSAKGEEGGRASERGLAEGPCPSGHPNHCLGPGSSDGLNAARKLKENAGQEIRLPKKFDLPLTVMPSMENEKAARPEGQKATNWRGSGQVGSRNGPPSPSMGLSGNSKDSWRGTLAKTRANAEERDSEGDRPPQGTLTLLRSVFWKKESKRNDRAEVCPPAPPVSLLSGRLSPAMNEQARGSSPSLRIRESLARGLGSHLERDVRSAPSSLHLPRKAGRPPRGSGLGTSQRSVLGDQTSYGTLQKVKYHTLSLGRKKTLPESSF

Target ORF information:

RefSeq Version	XM_012655628.1
Organism	Propithecus coquereli(Coquerel's sifaka)
Definition	Propithecus coquereli ubiquitin specific peptidase 43 (USP43), transcript variant X1, mRNA.

Target ORF information:

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

XM_012655628.1

ORF Insert Sequence:

ATGAACCCGG GCTCCGGGGA CGCGGCAGGA GGGGGGCCGC CCGCGCCCCG GCCCCGCCGC 
CGCCGCTCCC TGCGCCGCCT ATTCAGCCGC TTCCTGCTAG CGCTGGGCAG CCGCTCCCGC 
CCCGGGGACT CGCCGCCCCG GCCCCCGCCC CAGCCGGGAC ACTGCGATGG CGACGGTGAG 
GGAGGCTTTG CCTGCGCCCC GGGCCCGGCC CCAGCGGTCC CCGGGAGCCC CGGGGAGGAG 
CGCCCGTCTG GACCCCAGCC CCAGTTCCCC GCGGGCGACG GGGCGCGGCC GCCGGGCGCG 
CAGGGCTTGA AGAACCACGG CAACACCTGT TTCATGAACG CCGTGGTGCA GTGTCTCAGC 
AACACCGACC TGCTGGCCGA GTTCCTGGCG CTGGGGCGCT ACCGGGCGGC GCCGGGCCGC 
GCCGAGGTCA CCGAGCAGCT GGCGGCGCTC GTGCGCGCGC TCTGGACGCG CGAATACACG 
CCCCAACTTT CCGCCGAGTT CAAGAATGCA GTTTCCAAGT ACGGCTCTCA GTTCCAAGGC 
AATTCCCAGC ACGATGCCCT GGAATTCCTG CTCTGGTTGC TGGATCGTGT GCACGAGGAC 
TTGGAGGGCT CGTCGCGAGG GCCGGTGCCC GAGAAGCTTC CACCTGAAGC CAGTAAAACC 
TCTGAGAACT GCCTGTCACC GTCGGCTCAG CTTTCTCTAG GTCAAAGCTT TGTGCAAAGC 
CACTTTCAAG CACAATACAG ATCTTCCTTG ACCTGTCCCC ACTGCCTGAA ACAGAGCAAC 
ACCTTCGATC CTTTCCTGTG TGTGTCCCTG CCCATCCCCC TGCGCCAGAC GAGATTCTTG 
AGCGTCACCT TGGTCTTCCC CTCTAAGAGC CAGCAGTTCC TGCGGGTTGG GCTGGCCGTG 
CCGATCCTCA GCACAGTGGC AGCCCTGAGG AAGATGGTTG CAGAGGAAGG AGGCGTCCCT 
GCAGATGAGG TGATCTTGGT TGAACTGTAT TCCAGTGGAT TCCAGCGGTC TTTCTTTGAT 
GAAGAGGACC TGAATACCAT TGCAGAAGGA GATAATGTGT ATGCCTTCCA AGTCTCTTCG 
TCACCTGGCC AGGGGACACT CTCAGCTCAT CCATCAGGGT TGTCGGTTTC CCCACGCTTG 
GCAGCCCGTG AGGGTCAGCG ATTCCCCCTG TCTCTCCACA GTGAGAACAA GGTGCTAATC 
CTCTTCTGTA ACTTGGTGGG GTCAGGGCAG CAGGCTAGCA GGTTTGGGCC ACCTTTCCTG 
ATAAGGGAAG ACAGAGCCAT ATCCTGGCCC CAGCTCCAGC AGTCTATTCT CAGTAAGGTT 
CGCTATCTCA TGAAGAGCGA GGCCTCTATA CAGAGCCTGG GGTCTCTGTT CTCCATCCGG 
GTTGTGGGGC TCTCCCTGGC CTGCAGCTAC TTATCGCCAC AGGACAGTCG GCCCCTCTGC 
CACTGGGCAG TGGACAGAGC TCTGCACCTC AGGAGGCCGG GAGGCCCCCC CCACGTCAAG 
CTGGCGGTGG AGTGGGACAG CTCTGCCAAG GAGCGCCTGT TCGGGAGCCT GCAGGAGGAG 
CGGGCCCGGG ACGCTGACAG CGTGTGGCAG CAGCAGCAGG CACACCAGCA GCACAGCTGC 
ACCCTGGACG AGTGCATTCA GTTCTACACC AAGGAGGAGC AGCTGGCCCA GGACGATGCC 
TGGAAGTGTC CCCATTGCAA AGTCCTCCAG CAGGGGATGG TGAAGCTGAG TTTGTGGACC 
CTGCCTGACA TCCTCATCAT CCACCTCAAA AGGTTCTGTC AGGTGGGGGA GAGAAGAAAC 
AAGCTCTCCA CGCTGGTGAA GTTTCCCCTC TCTGGACTCA ACATGGCTCC CCACGTGGCC 
CAGAGAAGCA CCAGCCCCAA GCCGGGGCCG GGCCCCTGGC CTCCCTGGAA GGAGCCGGGC 
TGCCTGCCCA CTGCCTACCC GCTGGACTTC CTGTACGACC TGTACGCCGT CTGCAACCAC 
CACGGCAGTC TGCAAGGTGG GCATTACACA GCCTACTGCC GGAACTCTCT GGATGGCCAG 
TGGTACAGTT ACGATGACAG CACGGTAGAA CCGCTTCGAG AAGACGAGGT CAGTACCAGA 
GGGGCTTACA TCCTGTTTTA TCAGAAGCGA AACAGCATCC CTCCCTGGTC AGCCAGCAGC 
TCCATGAGAG GCTCCACCAG CTCCTCCTTG TCTGACCACT GGCTCATGAG GCTTGGGAGC 
AACACCGGCA GCACGAGGGG CAGCCTGCTG TCCTGGAGCT CGGCCCCCGG CCCCTCCCTG 
CCCCAGCTTC CCGACCCTCC TGTCGTCACA AACAGCCTCT GCAATCAGGA CAAGGGGGGC 
CCGCAGTCCA GGCTTTTGGT ACGGGGTGTG CAAGGCAGAA GCATCAGCAT GAAGGTGCCC 
ACCTCTTCCC GAGCCAAGCA GGGGCCCTTC AAGACCATGC CGCTCCGGTG GTCCTTCGGA 
CCCCGGGAGA AACCACCCGG TGCGTCTGTC GAGTTGGTGG AGTATTTGGA GTCCAGACGG 
AGACCCCGAT CCACGAGCCA GTCCATCGTG CCACTGCTGA CGGGCGCTGC TGGTGAGGAG 
AAGTCGGCCT CGCCGAGGTC AACCGTCACC GTCTCTGCTA AAGGTGAAGA AGGTGGGCGA 
GCCAGCGAAA GAGGACTGGC CGAGGGGCCC TGTCCCTCGG GCCACCCCAA CCACTGCCTG 
GGCCCTGGAA GCTCAGATGG TCTAAACGCA GCAAGGAAAC TAAAGGAAAA TGCAGGTCAG 
GAAATCAGGC TTCCCAAAAA GTTCGACCTG CCCCTCACTG TGATGCCCTC CATGGAGAAC 
GAGAAGGCAG CTCGACCGGA GGGCCAGAAG GCCACGAACT GGAGGGGAAG TGGCCAGGTG 
GGAAGCAGGA ATGGCCCACC TTCCCCCTCC ATGGGACTGT CTGGAAACAG TAAGGACAGT 
TGGCGAGGAA CCCTAGCCAA GACAAGGGCT AATGCGGAGG AAAGGGACTC TGAGGGGGAC 
AGACCTCCGC AGGGAACACT CACCCTGCTG AGGTCTGTGT TTTGGAAGAA GGAGAGTAAG 
AGGAATGACA GGGCAGAGGT CTGCCCCCCG GCGCCCCCAG TGTCCCTGCT GAGTGGCAGG 
CTGAGCCCCG CCATGAACGA GCAGGCTCGA GGCTCATCTC CTTCCCTCCG GATCCGAGAG 
AGCCTGGCCA GGGGCCTGGG CAGCCATCTC GAGAGGGACG TCCGGTCGGC CCCCAGCTCT 
CTCCACCTCC CTCGCAAAGC CGGCAGGCCT CCGAGAGGCA GTGGCCTTGG CACGTCACAA 
AGGAGCGTTC TGGGGGACCA GACTTCTTAC GGCACCTTGC AGAAGGTCAA ATACCACACT 
CTGTCCTTAG GCCGAAAGAA AACCTTACCA GAGTCCAGCT TTTGA

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

USP43 ( XM_012655629.1 ) cDNA ORF clone, Propithecus coquereli(Coquerel's sifaka) -> XP_012511083.1 Propithecus coquereli ubiquitin specific peptidase 43 (USP43), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OPr112812
Clone ID Related Accession (Same CDS sequence)	XM_012655629.1
Accession Version	XM_012655629.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3390bp) 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	2015-05-31
Organism	Propithecus coquereli(Coquerel's sifaka)
Product	ubiquitin carboxyl-terminal hydrolase 43 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012150641.1) 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 :: Propithecus coquereli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAACCCGG GCTCCGGGGA CGCGGCAGGA GGGGGGCCGC CCGCGCCCCG GCCCCGCCGC 
CGCCGCTCCC TGCGCCGCCT ATTCAGCCGC TTCCTGCTAG CGCTGGGCAG CCGCTCCCGC 
CCCGGGGACT CGCCGCCCCG GCCCCCGCCC CAGCCGGGAC ACTGCGATGG CGACGGTGAG 
GGAGGCTTTG CCTGCGCCCC GGGCCCGGCC CCAGCGGTCC CCGGGAGCCC CGGGGAGGAG 
CGCCCGTCTG GACCCCAGCC CCAGTTCCCC GCGGGCGACG GGGCGCGGCC GCCGGGCGCG 
CAGGGCTTGA AGAACCACGG CAACACCTGT TTCATGAACG CCGTGGTGCA GTGTCTCAGC 
AACACCGACC TGCTGGCCGA GTTCCTGGCG CTGGGGCGCT ACCGGGCGGC GCCGGGCCGC 
GCCGAGGTCA CCGAGCAGCT GGCGGCGCTC GTGCGCGCGC TCTGGACGCG CGAATACACG 
CCCCAACTTT CCGCCGAGTT CAAGAATGCA GTTTCCAAGT ACGGCTCTCA GTTCCAAGGC 
AATTCCCAGC ACGATGCCCT GGAATTCCTG CTCTGGTTGC TGGATCGTGT GCACGAGGAC 
TTGGAGGGCT CGTCGCGAGG GCCGGTGCCC GAGAAGCTTC CACCTGAAGC CAGTAAAACC 
TCTGAGAACT GCCTGTCACC GTCGGCTCAG CTTTCTCTAG GTCAAAGCTT TGTGCAAAGC 
CACTTTCAAG CACAATACAG ATCTTCCTTG ACCTGTCCCC ACTGCCTGAA ACAGAGCAAC 
ACCTTCGATC CTTTCCTGTG TGTGTCCCTG CCCATCCCCC TGCGCCAGAC GAGATTCTTG 
AGCGTCACCT TGGTCTTCCC CTCTAAGAGC CAGCAGTTCC TGCGGGTTGG GCTGGCCGTG 
CCGATCCTCA GCACAGTGGC AGCCCTGAGG AAGATGGTTG CAGAGGAAGG AGGCGTCCCT 
GCAGATGAGG TGATCTTGGT TGAACTGTAT TCCAGTGGAT TCCAGCGGTC TTTCTTTGAT 
GAAGAGGACC TGAATACCAT TGCAGAAGGA GATAATGTGT ATGCCTTCCA AGTCTCTTCG 
TCACCTGGCC AGGGGACACT CTCAGCTCAT CCATCAGGGT TGTCGGTTTC CCCACGCTTG 
GCAGCCCGTG AGGGTCAGCG ATTCCCCCTG TCTCTCCACA GTGAGAACAA GGTGCTAATC 
CTCTTCTGTA ACTTGGTGGG GTCAGGGCAG CAGGCTAGCA GGTTTGGGCC ACCTTTCCTG 
ATAAGGGAAG ACAGAGCCAT ATCCTGGCCC CAGCTCCAGC AGTCTATTCT CAGTAAGGTT 
CGCTATCTCA TGAAGAGCGA GGCCTCTATA CAGAGCCTGG GGTCTCTGTT CTCCATCCGG 
GTTGTGGGGC TCTCCCTGGC CTGCAGCTAC TTATCGCCAC AGGACAGTCG GCCCCTCTGC 
CACTGGGCAG TGGACAGAGC TCTGCACCTC AGGAGGCCGG GAGGCCCCCC CCACGTCAAG 
CTGGCGGTGG AGTGGGACAG CTCTGCCAAG GAGCGCCTGT TCGGGAGCCT GCAGGAGGAG 
CGGGCCCGGG ACGCTGACAG CGTGTGGCAG CAGCAGCAGG CACACCAGCA GCACAGCTGC 
ACCCTGGACG AGTGCATTCA GTTCTACACC AAGGAGGAGC AGCTGGCCCA GGACGATGCC 
TGGAAGTGTC CCCATTGCAA AGTCCTCCAG CAGGGGATGG TGAAGCTGAG TTTGTGGACC 
CTGCCTGACA TCCTCATCAT CCACCTCAAA AGGTTCTGTC AGGTGGGGGA GAGAAGAAAC 
AAGCTCTCCA CGCTGGTGAA GTTTCCCCTC TCTGGACTCA ACATGGCTCC CCACGTGGCC 
CAGAGAAGCA CCAGCCCCAA GCCGGGGCCG GGCCCCTGGC CTCCCTGGAA GGAGCCGGGC 
TGCCTGCCCA CTGCCTACCC GCTGGACTTC CTGTACGACC TGTACGCCGT CTGCAACCAC 
CACGGCAGTC TGCAAGCCTA CTGCCGGAAC TCTCTGGATG GCCAGTGGTA CAGTTACGAT 
GACAGCACGG TAGAACCGCT TCGAGAAGAC GAGGTCAGTA CCAGAGGGGC TTACATCCTG 
TTTTATCAGA AGCGAAACAG CATCCCTCCC TGGTCAGCCA GCAGCTCCAT GAGAGGCTCC 
ACCAGCTCCT CCTTGTCTGA CCACTGGCTC ATGAGGCTTG GGAGCAACAC CGGCAGCACG 
AGGGGCAGCC TGCTGTCCTG GAGCTCGGCC CCCGGCCCCT CCCTGCCCCA GCTTCCCGAC 
CCTCCTGTCG TCACAAACAG CCTCTGCAAT CAGGACAAGG GGGGCCCGCA GTCCAGGCTT 
TTGGTACGGG GTGTGCAAGG CAGAAGCATC AGCATGAAGG TGCCCACCTC TTCCCGAGCC 
AAGCAGGGGC CCTTCAAGAC CATGCCGCTC CGGTGGTCCT TCGGACCCCG GGAGAAACCA 
CCCGGTGCGT CTGTCGAGTT GGTGGAGTAT TTGGAGTCCA GACGGAGACC CCGATCCACG 
AGCCAGTCCA TCGTGCCACT GCTGACGGGC GCTGCTGGTG AGGAGAAGTC GGCCTCGCCG 
AGGTCAACCG TCACCGTCTC TGCTAAAGGT GAAGAAGGTG GGCGAGCCAG CGAAAGAGGA 
CTGGCCGAGG GGCCCTGTCC CTCGGGCCAC CCCAACCACT GCCTGGGCCC TGGAAGCTCA 
GATGGTCTAA ACGCAGCAAG GAAACTAAAG GAAAATGCAG GTCAGGAAAT CAGGCTTCCC 
AAAAAGTTCG ACCTGCCCCT CACTGTGATG CCCTCCATGG AGAACGAGAA GGCAGCTCGA 
CCGGAGGGCC AGAAGGCCAC GAACTGGAGG GGAAGTGGCC AGGTGGGAAG CAGGAATGGC 
CCACCTTCCC CCTCCATGGG ACTGTCTGGA AACAGTAAGG ACAGTTGGCG AGGAACCCTA 
GCCAAGACAA GGGCTAATGC GGAGGAAAGG GACTCTGAGG GGGACAGACC TCCGCAGGGA 
ACACTCACCC TGCTGAGGTC TGTGTTTTGG AAGAAGGAGA GTAAGAGGAA TGACAGGGCA 
GAGGTCTGCC CCCCGGCGCC CCCAGTGTCC CTGCTGAGTG GCAGGCTGAG CCCCGCCATG 
AACGAGCAGG CTCGAGGCTC ATCTCCTTCC CTCCGGATCC GAGAGAGCCT GGCCAGGGGC 
CTGGGCAGCC ATCTCGAGAG GGACGTCCGG TCGGCCCCCA GCTCTCTCCA CCTCCCTCGC 
AAAGCCGGCA GGCCTCCGAG AGGCAGTGGC CTTGGCACGT CACAAAGGAG CGTTCTGGGG 
GACCAGACTT CTTACGGCAC CTTGCAGAAG GTCAAATACC ACACTCTGTC CTTAGGCCGA 
AAGAAAACCT TACCAGAGTC CAGCTTTTGA

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

RefSeq	XP_012511083.1
CDS	1..3390
Translation	MNPGSGDAAGGGPPAPRPRRRRSLRRLFSRFLLALGSRSRPGDSPPRPPPQPGHCDGDGEGGFACAPGPAPAVPGSPGEERPSGPQPQFPAGDGARPPGAQGLKNHGNTCFMNAVVQCLSNTDLLAEFLALGRYRAAPGRAEVTEQLAALVRALWTREYTPQLSAEFKNAVSKYGSQFQGNSQHDALEFLLWLLDRVHEDLEGSSRGPVPEKLPPEASKTSENCLSPSAQLSLGQSFVQSHFQAQYRSSLTCPHCLKQSNTFDPFLCVSLPIPLRQTRFLSVTLVFPSKSQQFLRVGLAVPILSTVAALRKMVAEEGGVPADEVILVELYSSGFQRSFFDEEDLNTIAEGDNVYAFQVSSSPGQGTLSAHPSGLSVSPRLAAREGQRFPLSLHSENKVLILFCNLVGSGQQASRFGPPFLIREDRAISWPQLQQSILSKVRYLMKSEASIQSLGSLFSIRVVGLSLACSYLSPQDSRPLCHWAVDRALHLRRPGGPPHVKLAVEWDSSAKERLFGSLQEERARDADSVWQQQQAHQQHSCTLDECIQFYTKEEQLAQDDAWKCPHCKVLQQGMVKLSLWTLPDILIIHLKRFCQVGERRNKLSTLVKFPLSGLNMAPHVAQRSTSPKPGPGPWPPWKEPGCLPTAYPLDFLYDLYAVCNHHGSLQAYCRNSLDGQWYSYDDSTVEPLREDEVSTRGAYILFYQKRNSIPPWSASSSMRGSTSSSLSDHWLMRLGSNTGSTRGSLLSWSSAPGPSLPQLPDPPVVTNSLCNQDKGGPQSRLLVRGVQGRSISMKVPTSSRAKQGPFKTMPLRWSFGPREKPPGASVELVEYLESRRRPRSTSQSIVPLLTGAAGEEKSASPRSTVTVSAKGEEGGRASERGLAEGPCPSGHPNHCLGPGSSDGLNAARKLKENAGQEIRLPKKFDLPLTVMPSMENEKAARPEGQKATNWRGSGQVGSRNGPPSPSMGLSGNSKDSWRGTLAKTRANAEERDSEGDRPPQGTLTLLRSVFWKKESKRNDRAEVCPPAPPVSLLSGRLSPAMNEQARGSSPSLRIRESLARGLGSHLERDVRSAPSSLHLPRKAGRPPRGSGLGTSQRSVLGDQTSYGTLQKVKYHTLSLGRKKTLPESSF

Target ORF information:

RefSeq Version	XM_012655629.1
Organism	Propithecus coquereli(Coquerel's sifaka)
Definition	Propithecus coquereli ubiquitin specific peptidase 43 (USP43), transcript variant X2, mRNA.

Target ORF information:

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

XM_012655629.1

ORF Insert Sequence:

ATGAACCCGG GCTCCGGGGA CGCGGCAGGA GGGGGGCCGC CCGCGCCCCG GCCCCGCCGC 
CGCCGCTCCC TGCGCCGCCT ATTCAGCCGC TTCCTGCTAG CGCTGGGCAG CCGCTCCCGC 
CCCGGGGACT CGCCGCCCCG GCCCCCGCCC CAGCCGGGAC ACTGCGATGG CGACGGTGAG 
GGAGGCTTTG CCTGCGCCCC GGGCCCGGCC CCAGCGGTCC CCGGGAGCCC CGGGGAGGAG 
CGCCCGTCTG GACCCCAGCC CCAGTTCCCC GCGGGCGACG GGGCGCGGCC GCCGGGCGCG 
CAGGGCTTGA AGAACCACGG CAACACCTGT TTCATGAACG CCGTGGTGCA GTGTCTCAGC 
AACACCGACC TGCTGGCCGA GTTCCTGGCG CTGGGGCGCT ACCGGGCGGC GCCGGGCCGC 
GCCGAGGTCA CCGAGCAGCT GGCGGCGCTC GTGCGCGCGC TCTGGACGCG CGAATACACG 
CCCCAACTTT CCGCCGAGTT CAAGAATGCA GTTTCCAAGT ACGGCTCTCA GTTCCAAGGC 
AATTCCCAGC ACGATGCCCT GGAATTCCTG CTCTGGTTGC TGGATCGTGT GCACGAGGAC 
TTGGAGGGCT CGTCGCGAGG GCCGGTGCCC GAGAAGCTTC CACCTGAAGC CAGTAAAACC 
TCTGAGAACT GCCTGTCACC GTCGGCTCAG CTTTCTCTAG GTCAAAGCTT TGTGCAAAGC 
CACTTTCAAG CACAATACAG ATCTTCCTTG ACCTGTCCCC ACTGCCTGAA ACAGAGCAAC 
ACCTTCGATC CTTTCCTGTG TGTGTCCCTG CCCATCCCCC TGCGCCAGAC GAGATTCTTG 
AGCGTCACCT TGGTCTTCCC CTCTAAGAGC CAGCAGTTCC TGCGGGTTGG GCTGGCCGTG 
CCGATCCTCA GCACAGTGGC AGCCCTGAGG AAGATGGTTG CAGAGGAAGG AGGCGTCCCT 
GCAGATGAGG TGATCTTGGT TGAACTGTAT TCCAGTGGAT TCCAGCGGTC TTTCTTTGAT 
GAAGAGGACC TGAATACCAT TGCAGAAGGA GATAATGTGT ATGCCTTCCA AGTCTCTTCG 
TCACCTGGCC AGGGGACACT CTCAGCTCAT CCATCAGGGT TGTCGGTTTC CCCACGCTTG 
GCAGCCCGTG AGGGTCAGCG ATTCCCCCTG TCTCTCCACA GTGAGAACAA GGTGCTAATC 
CTCTTCTGTA ACTTGGTGGG GTCAGGGCAG CAGGCTAGCA GGTTTGGGCC ACCTTTCCTG 
ATAAGGGAAG ACAGAGCCAT ATCCTGGCCC CAGCTCCAGC AGTCTATTCT CAGTAAGGTT 
CGCTATCTCA TGAAGAGCGA GGCCTCTATA CAGAGCCTGG GGTCTCTGTT CTCCATCCGG 
GTTGTGGGGC TCTCCCTGGC CTGCAGCTAC TTATCGCCAC AGGACAGTCG GCCCCTCTGC 
CACTGGGCAG TGGACAGAGC TCTGCACCTC AGGAGGCCGG GAGGCCCCCC CCACGTCAAG 
CTGGCGGTGG AGTGGGACAG CTCTGCCAAG GAGCGCCTGT TCGGGAGCCT GCAGGAGGAG 
CGGGCCCGGG ACGCTGACAG CGTGTGGCAG CAGCAGCAGG CACACCAGCA GCACAGCTGC 
ACCCTGGACG AGTGCATTCA GTTCTACACC AAGGAGGAGC AGCTGGCCCA GGACGATGCC 
TGGAAGTGTC CCCATTGCAA AGTCCTCCAG CAGGGGATGG TGAAGCTGAG TTTGTGGACC 
CTGCCTGACA TCCTCATCAT CCACCTCAAA AGGTTCTGTC AGGTGGGGGA GAGAAGAAAC 
AAGCTCTCCA CGCTGGTGAA GTTTCCCCTC TCTGGACTCA ACATGGCTCC CCACGTGGCC 
CAGAGAAGCA CCAGCCCCAA GCCGGGGCCG GGCCCCTGGC CTCCCTGGAA GGAGCCGGGC 
TGCCTGCCCA CTGCCTACCC GCTGGACTTC CTGTACGACC TGTACGCCGT CTGCAACCAC 
CACGGCAGTC TGCAAGCCTA CTGCCGGAAC TCTCTGGATG GCCAGTGGTA CAGTTACGAT 
GACAGCACGG TAGAACCGCT TCGAGAAGAC GAGGTCAGTA CCAGAGGGGC TTACATCCTG 
TTTTATCAGA AGCGAAACAG CATCCCTCCC TGGTCAGCCA GCAGCTCCAT GAGAGGCTCC 
ACCAGCTCCT CCTTGTCTGA CCACTGGCTC ATGAGGCTTG GGAGCAACAC CGGCAGCACG 
AGGGGCAGCC TGCTGTCCTG GAGCTCGGCC CCCGGCCCCT CCCTGCCCCA GCTTCCCGAC 
CCTCCTGTCG TCACAAACAG CCTCTGCAAT CAGGACAAGG GGGGCCCGCA GTCCAGGCTT 
TTGGTACGGG GTGTGCAAGG CAGAAGCATC AGCATGAAGG TGCCCACCTC TTCCCGAGCC 
AAGCAGGGGC CCTTCAAGAC CATGCCGCTC CGGTGGTCCT TCGGACCCCG GGAGAAACCA 
CCCGGTGCGT CTGTCGAGTT GGTGGAGTAT TTGGAGTCCA GACGGAGACC CCGATCCACG 
AGCCAGTCCA TCGTGCCACT GCTGACGGGC GCTGCTGGTG AGGAGAAGTC GGCCTCGCCG 
AGGTCAACCG TCACCGTCTC TGCTAAAGGT GAAGAAGGTG GGCGAGCCAG CGAAAGAGGA 
CTGGCCGAGG GGCCCTGTCC CTCGGGCCAC CCCAACCACT GCCTGGGCCC TGGAAGCTCA 
GATGGTCTAA ACGCAGCAAG GAAACTAAAG GAAAATGCAG GTCAGGAAAT CAGGCTTCCC 
AAAAAGTTCG ACCTGCCCCT CACTGTGATG CCCTCCATGG AGAACGAGAA GGCAGCTCGA 
CCGGAGGGCC AGAAGGCCAC GAACTGGAGG GGAAGTGGCC AGGTGGGAAG CAGGAATGGC 
CCACCTTCCC CCTCCATGGG ACTGTCTGGA AACAGTAAGG ACAGTTGGCG AGGAACCCTA 
GCCAAGACAA GGGCTAATGC GGAGGAAAGG GACTCTGAGG GGGACAGACC TCCGCAGGGA 
ACACTCACCC TGCTGAGGTC TGTGTTTTGG AAGAAGGAGA GTAAGAGGAA TGACAGGGCA 
GAGGTCTGCC CCCCGGCGCC CCCAGTGTCC CTGCTGAGTG GCAGGCTGAG CCCCGCCATG 
AACGAGCAGG CTCGAGGCTC ATCTCCTTCC CTCCGGATCC GAGAGAGCCT GGCCAGGGGC 
CTGGGCAGCC ATCTCGAGAG GGACGTCCGG TCGGCCCCCA GCTCTCTCCA CCTCCCTCGC 
AAAGCCGGCA GGCCTCCGAG AGGCAGTGGC CTTGGCACGT CACAAAGGAG CGTTCTGGGG 
GACCAGACTT CTTACGGCAC CTTGCAGAAG GTCAAATACC ACACTCTGTC CTTAGGCCGA 
AAGAAAACCT TACCAGAGTC CAGCTTTTGA