Usp48 cDNA ORF clone, Chinchilla lanigera(long-tailed chinchilla)

Gene
Clones
gRNAs

Summary

Gene Symbol	Usp48
Entrez Gene ID	102003720
Full Name	ubiquitin specific peptidase 48
Gene Type	protein-coding
Organism	Chinchilla lanigera(long-tailed chinchilla)

mRNA and Protein(s)

mRNA	Protein	Name
XM_013519603.1	XP_013375057.1	ubiquitin carboxyl-terminal hydrolase 48 isoform X2
XM_013519602.1	XP_013375056.1	ubiquitin carboxyl-terminal hydrolase 48 isoform X1

Pathways from BioSystems
Gene Ontology

The following Usp48 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Usp48 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
OCh218768	XM_013519603.1 Latest version!	Chinchilla lanigera ubiquitin specific peptidase 48 (Usp48), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OCh218767	XM_013519602.1 Latest version!	Chinchilla lanigera ubiquitin specific peptidase 48 (Usp48), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

ORF Online Only Promotion

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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)

Usp48 ( XM_013519603.1 ) cDNA ORF clone, Chinchilla lanigera(long-tailed chinchilla) -> XP_013375057.1 Chinchilla lanigera ubiquitin specific peptidase 48 (Usp48), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OCh218768
Clone ID Related Accession (Same CDS sequence)	XM_013519603.1
Accession Version	XM_013519603.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2910bp) 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	2015-08-18
Organism	Chinchilla lanigera(long-tailed chinchilla)
Product	ubiquitin carboxyl-terminal hydrolase 48 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004955452.1) 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 :: Chinchilla lanigera Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGAACAG TTTTCATAAC ATTGATGATC CCAACTGTGA GAGGAGAAAA AAAGAACTCC 
TTTGTGGGCC TGACAAACCT CGGAGCCACA TGTTACGTCA ACACATTTCT TCAAGTGTGG 
TTTCTCAACC TGGAGCTTCG ACAGGCGCTG TACTTGTGTC CAAGCACCTG CAGCGACTAC 
ATGAGGGGAG ATGGTGTCCA GGAGGAGAAA GATTATGAAC CTCAGACTAT TTGCGAGCAT 
CTCCAGTACT TATTTGCTTT GTTGCAAAAC AGTAACAGAC GATACATTGA CCCATCAGGG 
TTTGTTAAAG CCTTGGGCTT AGACACTGGC CAGCAACAGG ATGCTCAGGA ATTTTCAAAG 
CTGTTTATGT CTCTATTGGA AGATACTTTG TCTAAACAGA AGAATCCAGA TGTACAGAAC 
ATTGTGCAGC AGCAGTTCTG TGGGGAATAT GCTTATGTAA CTGTTTGCAA TCAGTGTGGC 
AGAGAATCTA AGCTGTCATC AAAGTTCTAT GAACTGGAGC TAAATATCCA AGGCCACAAA 
CAGTTAACAG ATTGTATCTC AGAATTTTTA AAGGAAGAAA AATTAGAAGG AGACAATCGA 
TACTTCTGTG AAAATTGTCA AAGCAAACAG AATGCTACAA GGAAGATTCG GCTTCTCAGC 
CTCCCTTGCA CCCTGAACTT GCAGCTGATG CGTTTCGTCT TTGACAGGCA AACTGGACAT 
AAGAAAAAGC TGAATGCCTA CATAGGCTTC TCCGAGATTT TGGATATGGA ACCTTACGTG 
GAACATAAAG GTGGGTCCTA CGTGTATGAG CTCAGTGCCG TCCTTATACA CAGAGGCGTG 
AGCGCTTACT CCGGACACTA CATCGCCCAC GTGAAAGACC CACAGTCCGG CGAATGGTAC 
AAGTTTAATG ATGAAGACAT AGAAAAGATG GAGGGGAAGA AATTACAATT AGGGATTGAG 
GAAGATCTAG CGGAACCCTC AAAGTCGCAG ACACGCAGAC CCAAGTGTGG CAAAGGGACT 
CATTGCTCGC GAAATGCGTA TATGTTGGTT TACAGACTGC AAAGCCAAGA GAAGCCCAAC 
ACGACGGTGG AAGTTCCAGC CTTTCTTCAA GAGTTGGTGG ATCGAGATAA TTCCAAGTTT 
GAGGAGTGGT GTGTTGAAAT GGCCGAGATG CGTAAACAGA GTGTGGACAA AGGAAAAGCA 
AAGCATGAAG AGGTTAAGGA GCTGTACCAA AGGTTACCTG CTGGAGCTGA GCCCTATGAG 
TTTGTCTCTC TTGAATGGCT GCAGAAGTGG TTGGATGAAT CGACACCTAC CAAGCCTATT 
GATAATCATG CTTGCCTGTG CTCCCATGAC AAGCTTCATC CAGATAAAAT CTCAATTATG 
AAGAGAATTT CTGAATATGC AGCAGACATT TTCTACAGTA GATATGGAGG TGGTCCAAGA 
CTAACTGTGA AAGCACTGTG TAAGGAGTGT GTAGTAGAAC GTTGTCGAGT GTTACGTCTG 
AAGAACCAGC TAAATGAAGA TTATAAAATG GTTAATAATC TGCTGAAAGC AACAGGAAAG 
GGCAATGATG GATTTTGGGT GGGAAAGTCA TCCTTGCGGA GTTGGCGCCA GCTAGCCCTC 
GAGCAACTAG ACGAGCAAGA TGGGGATGTA GACCAAAGCA ACGGGAAAAT GAACGGCAAC 
ACCTTTAATA AAGATGAATC AAAGGAGGAA AGAAAAGAAG AAGAAGAAGA ATTAAATTTT 
AATGAAGACA TTCTGTGTCC ACATGGGGAA TTGTGCATCT CTGAGAATGA ACGAAGGCTG 
GTCTCTAAAG AGGCATGGAG CAAGCTGCAG CAGTACTTCC CGAAGGCTCC CGAGTTTCCA 
AGTTACAGAG AGTGCTGTTC GCAGTGCAAG ATTTTAGAAA GAGAAGGAGA AGAAAACGAA 
GCCTTACATA AGATGATCGC AAATGAACAA AAGACTTCTC TTCCGAATTT GTTCCAGGAC 
AAAAACAGAC CTTGTCTCAG TAACTGGCCG GAGGATACGG ACGTCCTGTA TATCGTGTCA 
CAGTTCTTTG TAGAAGAATG GCGGAAATTT GTTAGAAAGC CTACAAGATG TAGTCCTGTG 
TCGTCGGTTG GAAATAGCGC CCTTCTGTGT CCCCATGGGG GACTTATGTT TACATTTGCT 
TCCATGACCA AAGAAGATTC TAAACTTATA GCTCTGATAT GGCCCAGCGA GTGGCAGATG 
ATACAAAAGC TGTTTGTGGT GGATCATATA ATTAAAATCA CAAGAATTGA AGTGGGAGAT 
GTAAACCCTT CAGAAACACA ATATATTTCT GAACCTAAGC TCTGTCTGGA CTGCAGAGAG 
GGCCTGCTGT GCCAGCAGCA GAGGGACCTG CGGGAGTACA CTCAGGCCAC CATCTATGTC 
CACAAAGTTG TGGACAATAA AAAGGTGATG AAGGATTCAG CTCCGGAGCT GAATGTGAGC 
AGTTCCGAAA CAGAGGAGGA CAAGGAAGAA GCTAAACCAG ATGGAGAGAA AGACCCAGAT 
TTTAATCAAA GCAACGGAGG GACAAAGCGG CAAAAGATAT CCCATCAAAA CTATATAGCC 
TATCAAAAGC AAGTCATTCG ACGGAGTATG CGACATAGAA AAGTTCGCGG TGAGAAAGCA 
CTTCTCGTTT CTGCTAATCA AACATTAAAA GAATTGAAAA TTCAGATCAT GCATGCGTTT 
TCAGTTGCTC CTTTTGACCA GAATTTATCA ATTGATGGAA AGATTTTAAG TGATGATTGT 
GCCACTCTTG GTACCCTTGG CGTCATACCT GAATCTGTGA TTTTATTAAA GGCTGATGAA 
CCAATTGCAG ATTATGCTGC AATGGATGAC GTCATGCAAG TCTGTATGCC AGAGGAAGGA 
TTTAAAGGTA CTGGTCTACT TGGACATTAA

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

RefSeq	XP_013375057.1
CDS	32..2941
Translation	MRTVFITLMIPTVRGEKKNSFVGLTNLGATCYVNTFLQVWFLNLELRQALYLCPSTCSDYMRGDGVQEEKDYEPQTICEHLQYLFALLQNSNRRYIDPSGFVKALGLDTGQQQDAQEFSKLFMSLLEDTLSKQKNPDVQNIVQQQFCGEYAYVTVCNQCGRESKLSSKFYELELNIQGHKQLTDCISEFLKEEKLEGDNRYFCENCQSKQNATRKIRLLSLPCTLNLQLMRFVFDRQTGHKKKLNAYIGFSEILDMEPYVEHKGGSYVYELSAVLIHRGVSAYSGHYIAHVKDPQSGEWYKFNDEDIEKMEGKKLQLGIEEDLAEPSKSQTRRPKCGKGTHCSRNAYMLVYRLQSQEKPNTTVEVPAFLQELVDRDNSKFEEWCVEMAEMRKQSVDKGKAKHEEVKELYQRLPAGAEPYEFVSLEWLQKWLDESTPTKPIDNHACLCSHDKLHPDKISIMKRISEYAADIFYSRYGGGPRLTVKALCKECVVERCRVLRLKNQLNEDYKMVNNLLKATGKGNDGFWVGKSSLRSWRQLALEQLDEQDGDVDQSNGKMNGNTFNKDESKEERKEEEEELNFNEDILCPHGELCISENERRLVSKEAWSKLQQYFPKAPEFPSYRECCSQCKILEREGEENEALHKMIANEQKTSLPNLFQDKNRPCLSNWPEDTDVLYIVSQFFVEEWRKFVRKPTRCSPVSSVGNSALLCPHGGLMFTFASMTKEDSKLIALIWPSEWQMIQKLFVVDHIIKITRIEVGDVNPSETQYISEPKLCLDCREGLLCQQQRDLREYTQATIYVHKVVDNKKVMKDSAPELNVSSSETEEDKEEAKPDGEKDPDFNQSNGGTKRQKISHQNYIAYQKQVIRRSMRHRKVRGEKALLVSANQTLKELKIQIMHAFSVAPFDQNLSIDGKILSDDCATLGTLGVIPESVILLKADEPIADYAAMDDVMQVCMPEEGFKGTGLLGH

Target ORF information:

RefSeq Version	XM_013519603.1
Organism	Chinchilla lanigera(long-tailed chinchilla)
Definition	Chinchilla lanigera ubiquitin specific peptidase 48 (Usp48), transcript variant X2, mRNA.

Target ORF information:

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

XM_013519603.1

ORF Insert Sequence:

ATGAGAACAG TTTTCATAAC ATTGATGATC CCAACTGTGA GAGGAGAAAA AAAGAACTCC 
TTTGTGGGCC TGACAAACCT CGGAGCCACA TGTTACGTCA ACACATTTCT TCAAGTGTGG 
TTTCTCAACC TGGAGCTTCG ACAGGCGCTG TACTTGTGTC CAAGCACCTG CAGCGACTAC 
ATGAGGGGAG ATGGTGTCCA GGAGGAGAAA GATTATGAAC CTCAGACTAT TTGCGAGCAT 
CTCCAGTACT TATTTGCTTT GTTGCAAAAC AGTAACAGAC GATACATTGA CCCATCAGGG 
TTTGTTAAAG CCTTGGGCTT AGACACTGGC CAGCAACAGG ATGCTCAGGA ATTTTCAAAG 
CTGTTTATGT CTCTATTGGA AGATACTTTG TCTAAACAGA AGAATCCAGA TGTACAGAAC 
ATTGTGCAGC AGCAGTTCTG TGGGGAATAT GCTTATGTAA CTGTTTGCAA TCAGTGTGGC 
AGAGAATCTA AGCTGTCATC AAAGTTCTAT GAACTGGAGC TAAATATCCA AGGCCACAAA 
CAGTTAACAG ATTGTATCTC AGAATTTTTA AAGGAAGAAA AATTAGAAGG AGACAATCGA 
TACTTCTGTG AAAATTGTCA AAGCAAACAG AATGCTACAA GGAAGATTCG GCTTCTCAGC 
CTCCCTTGCA CCCTGAACTT GCAGCTGATG CGTTTCGTCT TTGACAGGCA AACTGGACAT 
AAGAAAAAGC TGAATGCCTA CATAGGCTTC TCCGAGATTT TGGATATGGA ACCTTACGTG 
GAACATAAAG GTGGGTCCTA CGTGTATGAG CTCAGTGCCG TCCTTATACA CAGAGGCGTG 
AGCGCTTACT CCGGACACTA CATCGCCCAC GTGAAAGACC CACAGTCCGG CGAATGGTAC 
AAGTTTAATG ATGAAGACAT AGAAAAGATG GAGGGGAAGA AATTACAATT AGGGATTGAG 
GAAGATCTAG CGGAACCCTC AAAGTCGCAG ACACGCAGAC CCAAGTGTGG CAAAGGGACT 
CATTGCTCGC GAAATGCGTA TATGTTGGTT TACAGACTGC AAAGCCAAGA GAAGCCCAAC 
ACGACGGTGG AAGTTCCAGC CTTTCTTCAA GAGTTGGTGG ATCGAGATAA TTCCAAGTTT 
GAGGAGTGGT GTGTTGAAAT GGCCGAGATG CGTAAACAGA GTGTGGACAA AGGAAAAGCA 
AAGCATGAAG AGGTTAAGGA GCTGTACCAA AGGTTACCTG CTGGAGCTGA GCCCTATGAG 
TTTGTCTCTC TTGAATGGCT GCAGAAGTGG TTGGATGAAT CGACACCTAC CAAGCCTATT 
GATAATCATG CTTGCCTGTG CTCCCATGAC AAGCTTCATC CAGATAAAAT CTCAATTATG 
AAGAGAATTT CTGAATATGC AGCAGACATT TTCTACAGTA GATATGGAGG TGGTCCAAGA 
CTAACTGTGA AAGCACTGTG TAAGGAGTGT GTAGTAGAAC GTTGTCGAGT GTTACGTCTG 
AAGAACCAGC TAAATGAAGA TTATAAAATG GTTAATAATC TGCTGAAAGC AACAGGAAAG 
GGCAATGATG GATTTTGGGT GGGAAAGTCA TCCTTGCGGA GTTGGCGCCA GCTAGCCCTC 
GAGCAACTAG ACGAGCAAGA TGGGGATGTA GACCAAAGCA ACGGGAAAAT GAACGGCAAC 
ACCTTTAATA AAGATGAATC AAAGGAGGAA AGAAAAGAAG AAGAAGAAGA ATTAAATTTT 
AATGAAGACA TTCTGTGTCC ACATGGGGAA TTGTGCATCT CTGAGAATGA ACGAAGGCTG 
GTCTCTAAAG AGGCATGGAG CAAGCTGCAG CAGTACTTCC CGAAGGCTCC CGAGTTTCCA 
AGTTACAGAG AGTGCTGTTC GCAGTGCAAG ATTTTAGAAA GAGAAGGAGA AGAAAACGAA 
GCCTTACATA AGATGATCGC AAATGAACAA AAGACTTCTC TTCCGAATTT GTTCCAGGAC 
AAAAACAGAC CTTGTCTCAG TAACTGGCCG GAGGATACGG ACGTCCTGTA TATCGTGTCA 
CAGTTCTTTG TAGAAGAATG GCGGAAATTT GTTAGAAAGC CTACAAGATG TAGTCCTGTG 
TCGTCGGTTG GAAATAGCGC CCTTCTGTGT CCCCATGGGG GACTTATGTT TACATTTGCT 
TCCATGACCA AAGAAGATTC TAAACTTATA GCTCTGATAT GGCCCAGCGA GTGGCAGATG 
ATACAAAAGC TGTTTGTGGT GGATCATATA ATTAAAATCA CAAGAATTGA AGTGGGAGAT 
GTAAACCCTT CAGAAACACA ATATATTTCT GAACCTAAGC TCTGTCTGGA CTGCAGAGAG 
GGCCTGCTGT GCCAGCAGCA GAGGGACCTG CGGGAGTACA CTCAGGCCAC CATCTATGTC 
CACAAAGTTG TGGACAATAA AAAGGTGATG AAGGATTCAG CTCCGGAGCT GAATGTGAGC 
AGTTCCGAAA CAGAGGAGGA CAAGGAAGAA GCTAAACCAG ATGGAGAGAA AGACCCAGAT 
TTTAATCAAA GCAACGGAGG GACAAAGCGG CAAAAGATAT CCCATCAAAA CTATATAGCC 
TATCAAAAGC AAGTCATTCG ACGGAGTATG CGACATAGAA AAGTTCGCGG TGAGAAAGCA 
CTTCTCGTTT CTGCTAATCA AACATTAAAA GAATTGAAAA TTCAGATCAT GCATGCGTTT 
TCAGTTGCTC CTTTTGACCA GAATTTATCA ATTGATGGAA AGATTTTAAG TGATGATTGT 
GCCACTCTTG GTACCCTTGG CGTCATACCT GAATCTGTGA TTTTATTAAA GGCTGATGAA 
CCAATTGCAG ATTATGCTGC AATGGATGAC GTCATGCAAG TCTGTATGCC AGAGGAAGGA 
TTTAAAGGTA CTGGTCTACT TGGACATTAA

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

Usp48 ( XM_013519602.1 ) cDNA ORF clone, Chinchilla lanigera(long-tailed chinchilla) -> XP_013375056.1 Chinchilla lanigera ubiquitin specific peptidase 48 (Usp48), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OCh218767
Clone ID Related Accession (Same CDS sequence)	XM_013519602.1
Accession Version	XM_013519602.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3111bp) 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	2015-08-18
Organism	Chinchilla lanigera(long-tailed chinchilla)
Product	ubiquitin carboxyl-terminal hydrolase 48 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004955452.1) 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 :: Chinchilla lanigera Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCCGC GGCTGCAGTT GGAGAAGGCG GCCTGGCGCT GGGCGGAGAC GGTGCGGCCC 
GAGGAGGTGT CGCAGGAGCA CATCGAGACC GCCTACCGCA TCTGGCTGGA GCCCTGCATC 
CGCGGCGTTT GCAGGCGAAA CTGCAAAGGA AATCCGAATT GCTTGGTTGG GATTGGTGAG 
CATATTTGGT TAGGAGAAAT AGATGAGAAC AGTTTTCATA ACATTGATGA TCCCAACTGT 
GAGAGGAGAA AAAAGAACTC CTTTGTGGGC CTGACAAACC TCGGAGCCAC ATGTTACGTC 
AACACATTTC TTCAAGTGTG GTTTCTCAAC CTGGAGCTTC GACAGGCGCT GTACTTGTGT 
CCAAGCACCT GCAGCGACTA CATGAGGGGA GATGGTGTCC AGGAGGAGAA AGATTATGAA 
CCTCAGACTA TTTGCGAGCA TCTCCAGTAC TTATTTGCTT TGTTGCAAAA CAGTAACAGA 
CGATACATTG ACCCATCAGG GTTTGTTAAA GCCTTGGGCT TAGACACTGG CCAGCAACAG 
GATGCTCAGG AATTTTCAAA GCTGTTTATG TCTCTATTGG AAGATACTTT GTCTAAACAG 
AAGAATCCAG ATGTACAGAA CATTGTGCAG CAGCAGTTCT GTGGGGAATA TGCTTATGTA 
ACTGTTTGCA ATCAGTGTGG CAGAGAATCT AAGCTGTCAT CAAAGTTCTA TGAACTGGAG 
CTAAATATCC AAGGCCACAA ACAGTTAACA GATTGTATCT CAGAATTTTT AAAGGAAGAA 
AAATTAGAAG GAGACAATCG ATACTTCTGT GAAAATTGTC AAAGCAAACA GAATGCTACA 
AGGAAGATTC GGCTTCTCAG CCTCCCTTGC ACCCTGAACT TGCAGCTGAT GCGTTTCGTC 
TTTGACAGGC AAACTGGACA TAAGAAAAAG CTGAATGCCT ACATAGGCTT CTCCGAGATT 
TTGGATATGG AACCTTACGT GGAACATAAA GGTGGGTCCT ACGTGTATGA GCTCAGTGCC 
GTCCTTATAC ACAGAGGCGT GAGCGCTTAC TCCGGACACT ACATCGCCCA CGTGAAAGAC 
CCACAGTCCG GCGAATGGTA CAAGTTTAAT GATGAAGACA TAGAAAAGAT GGAGGGGAAG 
AAATTACAAT TAGGGATTGA GGAAGATCTA GCGGAACCCT CAAAGTCGCA GACACGCAGA 
CCCAAGTGTG GCAAAGGGAC TCATTGCTCG CGAAATGCGT ATATGTTGGT TTACAGACTG 
CAAAGCCAAG AGAAGCCCAA CACGACGGTG GAAGTTCCAG CCTTTCTTCA AGAGTTGGTG 
GATCGAGATA ATTCCAAGTT TGAGGAGTGG TGTGTTGAAA TGGCCGAGAT GCGTAAACAG 
AGTGTGGACA AAGGAAAAGC AAAGCATGAA GAGGTTAAGG AGCTGTACCA AAGGTTACCT 
GCTGGAGCTG AGCCCTATGA GTTTGTCTCT CTTGAATGGC TGCAGAAGTG GTTGGATGAA 
TCGACACCTA CCAAGCCTAT TGATAATCAT GCTTGCCTGT GCTCCCATGA CAAGCTTCAT 
CCAGATAAAA TCTCAATTAT GAAGAGAATT TCTGAATATG CAGCAGACAT TTTCTACAGT 
AGATATGGAG GTGGTCCAAG ACTAACTGTG AAAGCACTGT GTAAGGAGTG TGTAGTAGAA 
CGTTGTCGAG TGTTACGTCT GAAGAACCAG CTAAATGAAG ATTATAAAAT GGTTAATAAT 
CTGCTGAAAG CAACAGGAAA GGGCAATGAT GGATTTTGGG TGGGAAAGTC ATCCTTGCGG 
AGTTGGCGCC AGCTAGCCCT CGAGCAACTA GACGAGCAAG ATGGGGATGT AGACCAAAGC 
AACGGGAAAA TGAACGGCAA CACCTTTAAT AAAGATGAAT CAAAGGAGGA AAGAAAAGAA 
GAAGAAGAAG AATTAAATTT TAATGAAGAC ATTCTGTGTC CACATGGGGA ATTGTGCATC 
TCTGAGAATG AACGAAGGCT GGTCTCTAAA GAGGCATGGA GCAAGCTGCA GCAGTACTTC 
CCGAAGGCTC CCGAGTTTCC AAGTTACAGA GAGTGCTGTT CGCAGTGCAA GATTTTAGAA 
AGAGAAGGAG AAGAAAACGA AGCCTTACAT AAGATGATCG CAAATGAACA AAAGACTTCT 
CTTCCGAATT TGTTCCAGGA CAAAAACAGA CCTTGTCTCA GTAACTGGCC GGAGGATACG 
GACGTCCTGT ATATCGTGTC ACAGTTCTTT GTAGAAGAAT GGCGGAAATT TGTTAGAAAG 
CCTACAAGAT GTAGTCCTGT GTCGTCGGTT GGAAATAGCG CCCTTCTGTG TCCCCATGGG 
GGACTTATGT TTACATTTGC TTCCATGACC AAAGAAGATT CTAAACTTAT AGCTCTGATA 
TGGCCCAGCG AGTGGCAGAT GATACAAAAG CTGTTTGTGG TGGATCATAT AATTAAAATC 
ACAAGAATTG AAGTGGGAGA TGTAAACCCT TCAGAAACAC AATATATTTC TGAACCTAAG 
CTCTGTCTGG ACTGCAGAGA GGGCCTGCTG TGCCAGCAGC AGAGGGACCT GCGGGAGTAC 
ACTCAGGCCA CCATCTATGT CCACAAAGTT GTGGACAATA AAAAGGTGAT GAAGGATTCA 
GCTCCGGAGC TGAATGTGAG CAGTTCCGAA ACAGAGGAGG ACAAGGAAGA AGCTAAACCA 
GATGGAGAGA AAGACCCAGA TTTTAATCAA AGCAACGGAG GGACAAAGCG GCAAAAGATA 
TCCCATCAAA ACTATATAGC CTATCAAAAG CAAGTCATTC GACGGAGTAT GCGACATAGA 
AAAGTTCGCG GTGAGAAAGC ACTTCTCGTT TCTGCTAATC AAACATTAAA AGAATTGAAA 
ATTCAGATCA TGCATGCGTT TTCAGTTGCT CCTTTTGACC AGAATTTATC AATTGATGGA 
AAGATTTTAA GTGATGATTG TGCCACTCTT GGTACCCTTG GCGTCATACC TGAATCTGTG 
ATTTTATTAA AGGCTGATGA ACCAATTGCA GATTATGCTG CAATGGATGA CGTCATGCAA 
GTCTGTATGC CAGAGGAAGG ATTTAAAGGT ACTGGTCTAC TTGGACATTA A

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

RefSeq	XP_013375056.1
CDS	224..3334
Translation	MAPRLQLEKAAWRWAETVRPEEVSQEHIETAYRIWLEPCIRGVCRRNCKGNPNCLVGIGEHIWLGEIDENSFHNIDDPNCERRKKNSFVGLTNLGATCYVNTFLQVWFLNLELRQALYLCPSTCSDYMRGDGVQEEKDYEPQTICEHLQYLFALLQNSNRRYIDPSGFVKALGLDTGQQQDAQEFSKLFMSLLEDTLSKQKNPDVQNIVQQQFCGEYAYVTVCNQCGRESKLSSKFYELELNIQGHKQLTDCISEFLKEEKLEGDNRYFCENCQSKQNATRKIRLLSLPCTLNLQLMRFVFDRQTGHKKKLNAYIGFSEILDMEPYVEHKGGSYVYELSAVLIHRGVSAYSGHYIAHVKDPQSGEWYKFNDEDIEKMEGKKLQLGIEEDLAEPSKSQTRRPKCGKGTHCSRNAYMLVYRLQSQEKPNTTVEVPAFLQELVDRDNSKFEEWCVEMAEMRKQSVDKGKAKHEEVKELYQRLPAGAEPYEFVSLEWLQKWLDESTPTKPIDNHACLCSHDKLHPDKISIMKRISEYAADIFYSRYGGGPRLTVKALCKECVVERCRVLRLKNQLNEDYKMVNNLLKATGKGNDGFWVGKSSLRSWRQLALEQLDEQDGDVDQSNGKMNGNTFNKDESKEERKEEEEELNFNEDILCPHGELCISENERRLVSKEAWSKLQQYFPKAPEFPSYRECCSQCKILEREGEENEALHKMIANEQKTSLPNLFQDKNRPCLSNWPEDTDVLYIVSQFFVEEWRKFVRKPTRCSPVSSVGNSALLCPHGGLMFTFASMTKEDSKLIALIWPSEWQMIQKLFVVDHIIKITRIEVGDVNPSETQYISEPKLCLDCREGLLCQQQRDLREYTQATIYVHKVVDNKKVMKDSAPELNVSSSETEEDKEEAKPDGEKDPDFNQSNGGTKRQKISHQNYIAYQKQVIRRSMRHRKVRGEKALLVSANQTLKELKIQIMHAFSVAPFDQNLSIDGKILSDDCATLGTLGVIPESVILLKADEPIADYAAMDDVMQVCMPEEGFKGTGLLGH

Target ORF information:

RefSeq Version	XM_013519602.1
Organism	Chinchilla lanigera(long-tailed chinchilla)
Definition	Chinchilla lanigera ubiquitin specific peptidase 48 (Usp48), transcript variant X1, mRNA.

Target ORF information:

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

XM_013519602.1

ORF Insert Sequence:

ATGGCTCCGC GGCTGCAGTT GGAGAAGGCG GCCTGGCGCT GGGCGGAGAC GGTGCGGCCC 
GAGGAGGTGT CGCAGGAGCA CATCGAGACC GCCTACCGCA TCTGGCTGGA GCCCTGCATC 
CGCGGCGTTT GCAGGCGAAA CTGCAAAGGA AATCCGAATT GCTTGGTTGG GATTGGTGAG 
CATATTTGGT TAGGAGAAAT AGATGAGAAC AGTTTTCATA ACATTGATGA TCCCAACTGT 
GAGAGGAGAA AAAAGAACTC CTTTGTGGGC CTGACAAACC TCGGAGCCAC ATGTTACGTC 
AACACATTTC TTCAAGTGTG GTTTCTCAAC CTGGAGCTTC GACAGGCGCT GTACTTGTGT 
CCAAGCACCT GCAGCGACTA CATGAGGGGA GATGGTGTCC AGGAGGAGAA AGATTATGAA 
CCTCAGACTA TTTGCGAGCA TCTCCAGTAC TTATTTGCTT TGTTGCAAAA CAGTAACAGA 
CGATACATTG ACCCATCAGG GTTTGTTAAA GCCTTGGGCT TAGACACTGG CCAGCAACAG 
GATGCTCAGG AATTTTCAAA GCTGTTTATG TCTCTATTGG AAGATACTTT GTCTAAACAG 
AAGAATCCAG ATGTACAGAA CATTGTGCAG CAGCAGTTCT GTGGGGAATA TGCTTATGTA 
ACTGTTTGCA ATCAGTGTGG CAGAGAATCT AAGCTGTCAT CAAAGTTCTA TGAACTGGAG 
CTAAATATCC AAGGCCACAA ACAGTTAACA GATTGTATCT CAGAATTTTT AAAGGAAGAA 
AAATTAGAAG GAGACAATCG ATACTTCTGT GAAAATTGTC AAAGCAAACA GAATGCTACA 
AGGAAGATTC GGCTTCTCAG CCTCCCTTGC ACCCTGAACT TGCAGCTGAT GCGTTTCGTC 
TTTGACAGGC AAACTGGACA TAAGAAAAAG CTGAATGCCT ACATAGGCTT CTCCGAGATT 
TTGGATATGG AACCTTACGT GGAACATAAA GGTGGGTCCT ACGTGTATGA GCTCAGTGCC 
GTCCTTATAC ACAGAGGCGT GAGCGCTTAC TCCGGACACT ACATCGCCCA CGTGAAAGAC 
CCACAGTCCG GCGAATGGTA CAAGTTTAAT GATGAAGACA TAGAAAAGAT GGAGGGGAAG 
AAATTACAAT TAGGGATTGA GGAAGATCTA GCGGAACCCT CAAAGTCGCA GACACGCAGA 
CCCAAGTGTG GCAAAGGGAC TCATTGCTCG CGAAATGCGT ATATGTTGGT TTACAGACTG 
CAAAGCCAAG AGAAGCCCAA CACGACGGTG GAAGTTCCAG CCTTTCTTCA AGAGTTGGTG 
GATCGAGATA ATTCCAAGTT TGAGGAGTGG TGTGTTGAAA TGGCCGAGAT GCGTAAACAG 
AGTGTGGACA AAGGAAAAGC AAAGCATGAA GAGGTTAAGG AGCTGTACCA AAGGTTACCT 
GCTGGAGCTG AGCCCTATGA GTTTGTCTCT CTTGAATGGC TGCAGAAGTG GTTGGATGAA 
TCGACACCTA CCAAGCCTAT TGATAATCAT GCTTGCCTGT GCTCCCATGA CAAGCTTCAT 
CCAGATAAAA TCTCAATTAT GAAGAGAATT TCTGAATATG CAGCAGACAT TTTCTACAGT 
AGATATGGAG GTGGTCCAAG ACTAACTGTG AAAGCACTGT GTAAGGAGTG TGTAGTAGAA 
CGTTGTCGAG TGTTACGTCT GAAGAACCAG CTAAATGAAG ATTATAAAAT GGTTAATAAT 
CTGCTGAAAG CAACAGGAAA GGGCAATGAT GGATTTTGGG TGGGAAAGTC ATCCTTGCGG 
AGTTGGCGCC AGCTAGCCCT CGAGCAACTA GACGAGCAAG ATGGGGATGT AGACCAAAGC 
AACGGGAAAA TGAACGGCAA CACCTTTAAT AAAGATGAAT CAAAGGAGGA AAGAAAAGAA 
GAAGAAGAAG AATTAAATTT TAATGAAGAC ATTCTGTGTC CACATGGGGA ATTGTGCATC 
TCTGAGAATG AACGAAGGCT GGTCTCTAAA GAGGCATGGA GCAAGCTGCA GCAGTACTTC 
CCGAAGGCTC CCGAGTTTCC AAGTTACAGA GAGTGCTGTT CGCAGTGCAA GATTTTAGAA 
AGAGAAGGAG AAGAAAACGA AGCCTTACAT AAGATGATCG CAAATGAACA AAAGACTTCT 
CTTCCGAATT TGTTCCAGGA CAAAAACAGA CCTTGTCTCA GTAACTGGCC GGAGGATACG 
GACGTCCTGT ATATCGTGTC ACAGTTCTTT GTAGAAGAAT GGCGGAAATT TGTTAGAAAG 
CCTACAAGAT GTAGTCCTGT GTCGTCGGTT GGAAATAGCG CCCTTCTGTG TCCCCATGGG 
GGACTTATGT TTACATTTGC TTCCATGACC AAAGAAGATT CTAAACTTAT AGCTCTGATA 
TGGCCCAGCG AGTGGCAGAT GATACAAAAG CTGTTTGTGG TGGATCATAT AATTAAAATC 
ACAAGAATTG AAGTGGGAGA TGTAAACCCT TCAGAAACAC AATATATTTC TGAACCTAAG 
CTCTGTCTGG ACTGCAGAGA GGGCCTGCTG TGCCAGCAGC AGAGGGACCT GCGGGAGTAC 
ACTCAGGCCA CCATCTATGT CCACAAAGTT GTGGACAATA AAAAGGTGAT GAAGGATTCA 
GCTCCGGAGC TGAATGTGAG CAGTTCCGAA ACAGAGGAGG ACAAGGAAGA AGCTAAACCA 
GATGGAGAGA AAGACCCAGA TTTTAATCAA AGCAACGGAG GGACAAAGCG GCAAAAGATA 
TCCCATCAAA ACTATATAGC CTATCAAAAG CAAGTCATTC GACGGAGTAT GCGACATAGA 
AAAGTTCGCG GTGAGAAAGC ACTTCTCGTT TCTGCTAATC AAACATTAAA AGAATTGAAA 
ATTCAGATCA TGCATGCGTT TTCAGTTGCT CCTTTTGACC AGAATTTATC AATTGATGGA 
AAGATTTTAA GTGATGATTG TGCCACTCTT GGTACCCTTG GCGTCATACC TGAATCTGTG 
ATTTTATTAA AGGCTGATGA ACCAATTGCA GATTATGCTG CAATGGATGA CGTCATGCAA 
GTCTGTATGC CAGAGGAAGG ATTTAAAGGT ACTGGTCTAC TTGGACATTA A