USP53 cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum)

Gene
Clones
gRNAs

Summary

Gene Symbol	USP53
Entrez Gene ID	100018473
Full Name	ubiquitin specific peptidase 53
Gene Type	protein-coding
Organism	Monodelphis domestica(gray short-tailed opossum)

mRNA and Protein(s)

mRNA	Protein	Name
XM_016422916.1	XP_016278402.1	inactive ubiquitin carboxyl-terminal hydrolase 53 isoform X1
XM_016422917.1	XP_016278403.1	inactive ubiquitin carboxyl-terminal hydrolase 53 isoform X1
XM_016422918.1	XP_016278404.1	inactive ubiquitin carboxyl-terminal hydrolase 53 isoform X2
XM_007495549.2	XP_007495611.1	inactive ubiquitin carboxyl-terminal hydrolase 53 isoform X1
XM_001371653.3	XP_001371690.1	inactive ubiquitin carboxyl-terminal hydrolase 53 isoform X1

Pathways from BioSystems
Gene Ontology

The following USP53 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the USP53 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)
OMc43397	XM_016422918.1 Latest version!	Monodelphis domestica ubiquitin specific peptidase 53 (USP53), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OMc24239	XM_016422916.1 Latest version!	Monodelphis domestica ubiquitin specific peptidase 53 (USP53), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OMc24239	XM_007495549.2 Latest version!	Monodelphis domestica ubiquitin specific peptidase 53 (USP53), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OMc24239	XM_001371653.3 Latest version!	Monodelphis domestica ubiquitin specific peptidase 53 (USP53), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OMc24239	XM_016422917.1 Latest version!	Monodelphis domestica ubiquitin specific peptidase 53 (USP53), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
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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)

USP53 ( XM_016422918.1 ) cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum) -> XP_016278404.1 Monodelphis domestica ubiquitin specific peptidase 53 (USP53), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OMc43397
Clone ID Related Accession (Same CDS sequence)	XM_016422918.1
Accession Version	XM_016422918.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2700bp) 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	1461600000000
Organism	Monodelphis domestica(gray short-tailed opossum)
Product	inactive ubiquitin carboxyl-terminal hydrolase 53 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008805.1) 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 :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAGTGTA ATGAAGTAGA AAAAATGATT GAAAGACACG AACGTTTGAA GCCTGAAATG 
TTTGCGGAAT TGCTTCAGGC TGCAAATACC ACTGATGACT TTAGGAAATG CCCTAGTAAC 
TGTGGCCAAA AAATAAAAAT CCGCCGAGTT CTCATGAATT GCCCAGAGAT TGTCACAATT 
GGCTTAGTCT GGGATTCTGA GCATTCTGAC CTCACTGAAG AAGTGGTTCG CAATCTAGCC 
ACACACCTTT ATCTTCCAGG GTTGTTTTAT AGGGTAACTG ATGAAAGCGC CAAAACTAGT 
GAGCTTCATC TTGTTGGTAT GATCTGCTAC ACCAGCCGAC ATTACTGTGC CTTCGCTTTT 
CATACCAAGA GTTCCAAATG GGTCTTTTTT GATGACGCCA ATGTGAAGGA GGTTGGGACT 
AAATGGAAAG ACGTGGTCTC CAAGTGCACC AGATGTCATT TTCAGCCACT GCTTCTGTTT 
TATGCAAACC CGGACGGTTC TGCTGTGTCC ACTGAAGATG CTCTTAGGCA TGTCATCTAC 
TGGTCCCATT ATAAAACTAC TGCTGAGGAG GATGCAGGTG TTGAGAGGCC CTCAACTCAT 
AAACCAGAGA GTATCAAAGA AAATGGATTT GGTGACCAGG CAAAGCAGAG AACCAATCAG 
AAGTTACATG TAGATGACAC TGTGGGTGTG ATTCGCAGCC CTCTTCTGGC AAGTGGTGGC 
AGAGGACCAG TTAAGTTTGG TCCTAGTGAC CAGAGGGACA AGCTAAGGAA CATTTCCAGA 
GAATGTGCCC AAAAAGCTAT TGAGCAGAAA AACTTCCTCT CATCACAAAG AAGAGAGTTG 
GAGAAGGAGC AGAGGAGAGA GCTTGGGAAA CACCGAGATT TGTCCAGTGA GGACCTCTCT 
CGCCTCAAGT CTGGGTCACC TGTCATGGCC TCAGCAAATG GCTTCAGGCA ACACAGTGGC 
CAGCCTGGAT ACTCCAGCCA AGGTAGAGGG TCTTCCCGCC ATGACCGAGT CACGTCCCAG 
AGCCGGACCT CCACACAAGT ACCAAGTTCA GTTAAGCCAC AGCTCCTGGC TTCCGGGGAA 
AAGGCATCCA GCAAAGGTAA GGGAGATGGC GCCACTGGAT ATGATACAGA CAGCAGCCAG 
GACTCTCGGG ATAGGGGAAG TACCTGCAGT GGCGGCAGCA GCCGCAGCCG GACCCGCAGC 
TGGAAGCCAA TGCGAGAGAC ACTGAATGTG GACAGTGTGT TCAGTGATGC CGAAAAAAGA 
CATGCCGCTC CCAGGCACAG AGCAGCCAAC AAATCCAAAC ACAGCCAAGA GCAGAGAGTG 
AACAATTGGC CTAAAGAGCC ACCCAAGCAG AAAGGCCTGA TGACCATCTA TGAAGATGAA 
GGAAAGCAGG AGACTGGAAG CAGGAGTTCA CTGGAGTCTT CTGGGAAAGG CCCTGAGAAA 
GGGAAAGGCC CTATGGAGAC CAAGGCTCCC GGCGACAGTG GGCAGATGCA ACGGACTGAG 
TCTGGCTATG AGAGCAGCGA TCGGGTCAGC AATGGTTCCA CCAGCTTGGA CTCCCCACTC 
CTAGAAGGGA ACAGCACAGC CAACCTCAGT GGCACAAGGG AAACCTGCCC TGGCAGTAAC 
CAGATTCAAT CAAGTAAAGT GAACACAGAC AGCTTGCAGC ACATGTCCCA ACAGCGCAAA 
GACCATCTGG AAGATTTGAG AGAGAACATC AGGATTACAG AAGTGGCTGG TGGACCACCT 
GATTTCCACC CAGATTTGCA TCTACAAGTA GATAATCCTA TCATGAAGAG ATCTCATGTG 
CATGATACCA GTGAGAAGTT GTCTTCATCG AACCCACAGA TCTTCAAGGA CCATGATAGA 
AGAGAACACA TCCCACAACC AAATGAAAAG CAGCTTGAAA ATTCAAAAGA ATGCCATTTT 
TCTGAAAGGC CTGAAAAAAA TGGTCCATCT TTGCTTAGTG CTAAGGGTTC AGTCCCCTTT 
CACGTTCCTG TTAATTCTGC CTCAGCAAAA TTAGCTGACA GTGATGAGAA ACTTCCTTCA 
TCCCAACTGT TGTCAATACA CATGAGAGCA GTTGAGTCCC AGCCAGGGCT AAGCTCCTTT 
GCCCAGTCAG GCCTTGGGGA ACCATGCGGC CCCTCCGATA ACTGTGAGGT GCTAGAACCT 
GCCACCTGCC GGAGTCTGCC ACCTCCTTTG CCTCCAAAGA AGTATGCTAA ATCCATGGCA 
GGGTCACGGT CAGAGAAGAA GGAATCTAGC CCTGACCTGG AACTGTCAGG AAGGGGGAAA 
GCGAAGTCTC AGAATCTCCA AAAGCCTGCC GTCAGTGCCC CTTCCCAGAC TGGGGCAGAA 
ACAAGACTGA AGGAATCGGG ACAAGGGAAA GAACTCACAG AATGCAAACC CAGGACCCGA 
TCTAGCCCGT CCCCTGACTT CCAGACCCCA CTGGATACAG GGGTAGCAGT GGTTAGCAAA 
GGCATTCCCC AGACAGGACC ATGGCCTACG GTGCCACCAC CACAAGGGAC AGTTTCCCTG 
ACCACCTACT TTTCTGTTGA CAACTGTATG ACTGATACGT ACAGGTTGAA GTACCGCCAG 
AGACCCAAGC TAAATTTTTC TGAGAGCAGC AGCTTATCTG GCAGCAATAA GCCTCAATCC 
CAAACTGAAG TGAGGCTGAA AGCAGTGTTC CATGAAGATC TACAGCCAGC CAATGTATAG

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

RefSeq	XP_016278404.1
CDS	2017..4716
Translation	MKCNEVEKMIERHERLKPEMFAELLQAANTTDDFRKCPSNCGQKIKIRRVLMNCPEIVTIGLVWDSEHSDLTEEVVRNLATHLYLPGLFYRVTDESAKTSELHLVGMICYTSRHYCAFAFHTKSSKWVFFDDANVKEVGTKWKDVVSKCTRCHFQPLLLFYANPDGSAVSTEDALRHVIYWSHYKTTAEEDAGVERPSTHKPESIKENGFGDQAKQRTNQKLHVDDTVGVIRSPLLASGGRGPVKFGPSDQRDKLRNISRECAQKAIEQKNFLSSQRRELEKEQRRELGKHRDLSSEDLSRLKSGSPVMASANGFRQHSGQPGYSSQGRGSSRHDRVTSQSRTSTQVPSSVKPQLLASGEKASSKGKGDGATGYDTDSSQDSRDRGSTCSGGSSRSRTRSWKPMRETLNVDSVFSDAEKRHAAPRHRAANKSKHSQEQRVNNWPKEPPKQKGLMTIYEDEGKQETGSRSSLESSGKGPEKGKGPMETKAPGDSGQMQRTESGYESSDRVSNGSTSLDSPLLEGNSTANLSGTRETCPGSNQIQSSKVNTDSLQHMSQQRKDHLEDLRENIRITEVAGGPPDFHPDLHLQVDNPIMKRSHVHDTSEKLSSSNPQIFKDHDRREHIPQPNEKQLENSKECHFSERPEKNGPSLLSAKGSVPFHVPVNSASAKLADSDEKLPSSQLLSIHMRAVESQPGLSSFAQSGLGEPCGPSDNCEVLEPATCRSLPPPLPPKKYAKSMAGSRSEKKESSPDLELSGRGKAKSQNLQKPAVSAPSQTGAETRLKESGQGKELTECKPRTRSSPSPDFQTPLDTGVAVVSKGIPQTGPWPTVPPPQGTVSLTTYFSVDNCMTDTYRLKYRQRPKLNFSESSSLSGSNKPQSQTEVRLKAVFHEDLQPANV

Target ORF information:

RefSeq Version	XM_016422918.1
Organism	Monodelphis domestica(gray short-tailed opossum)
Definition	Monodelphis domestica ubiquitin specific peptidase 53 (USP53), transcript variant X5, mRNA.

Target ORF information:

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

XM_016422918.1

ORF Insert Sequence:

ATGAAGTGTA ATGAAGTAGA AAAAATGATT GAAAGACACG AACGTTTGAA GCCTGAAATG 
TTTGCGGAAT TGCTTCAGGC TGCAAATACC ACTGATGACT TTAGGAAATG CCCTAGTAAC 
TGTGGCCAAA AAATAAAAAT CCGCCGAGTT CTCATGAATT GCCCAGAGAT TGTCACAATT 
GGCTTAGTCT GGGATTCTGA GCATTCTGAC CTCACTGAAG AAGTGGTTCG CAATCTAGCC 
ACACACCTTT ATCTTCCAGG GTTGTTTTAT AGGGTAACTG ATGAAAGCGC CAAAACTAGT 
GAGCTTCATC TTGTTGGTAT GATCTGCTAC ACCAGCCGAC ATTACTGTGC CTTCGCTTTT 
CATACCAAGA GTTCCAAATG GGTCTTTTTT GATGACGCCA ATGTGAAGGA GGTTGGGACT 
AAATGGAAAG ACGTGGTCTC CAAGTGCACC AGATGTCATT TTCAGCCACT GCTTCTGTTT 
TATGCAAACC CGGACGGTTC TGCTGTGTCC ACTGAAGATG CTCTTAGGCA TGTCATCTAC 
TGGTCCCATT ATAAAACTAC TGCTGAGGAG GATGCAGGTG TTGAGAGGCC CTCAACTCAT 
AAACCAGAGA GTATCAAAGA AAATGGATTT GGTGACCAGG CAAAGCAGAG AACCAATCAG 
AAGTTACATG TAGATGACAC TGTGGGTGTG ATTCGCAGCC CTCTTCTGGC AAGTGGTGGC 
AGAGGACCAG TTAAGTTTGG TCCTAGTGAC CAGAGGGACA AGCTAAGGAA CATTTCCAGA 
GAATGTGCCC AAAAAGCTAT TGAGCAGAAA AACTTCCTCT CATCACAAAG AAGAGAGTTG 
GAGAAGGAGC AGAGGAGAGA GCTTGGGAAA CACCGAGATT TGTCCAGTGA GGACCTCTCT 
CGCCTCAAGT CTGGGTCACC TGTCATGGCC TCAGCAAATG GCTTCAGGCA ACACAGTGGC 
CAGCCTGGAT ACTCCAGCCA AGGTAGAGGG TCTTCCCGCC ATGACCGAGT CACGTCCCAG 
AGCCGGACCT CCACACAAGT ACCAAGTTCA GTTAAGCCAC AGCTCCTGGC TTCCGGGGAA 
AAGGCATCCA GCAAAGGTAA GGGAGATGGC GCCACTGGAT ATGATACAGA CAGCAGCCAG 
GACTCTCGGG ATAGGGGAAG TACCTGCAGT GGCGGCAGCA GCCGCAGCCG GACCCGCAGC 
TGGAAGCCAA TGCGAGAGAC ACTGAATGTG GACAGTGTGT TCAGTGATGC CGAAAAAAGA 
CATGCCGCTC CCAGGCACAG AGCAGCCAAC AAATCCAAAC ACAGCCAAGA GCAGAGAGTG 
AACAATTGGC CTAAAGAGCC ACCCAAGCAG AAAGGCCTGA TGACCATCTA TGAAGATGAA 
GGAAAGCAGG AGACTGGAAG CAGGAGTTCA CTGGAGTCTT CTGGGAAAGG CCCTGAGAAA 
GGGAAAGGCC CTATGGAGAC CAAGGCTCCC GGCGACAGTG GGCAGATGCA ACGGACTGAG 
TCTGGCTATG AGAGCAGCGA TCGGGTCAGC AATGGTTCCA CCAGCTTGGA CTCCCCACTC 
CTAGAAGGGA ACAGCACAGC CAACCTCAGT GGCACAAGGG AAACCTGCCC TGGCAGTAAC 
CAGATTCAAT CAAGTAAAGT GAACACAGAC AGCTTGCAGC ACATGTCCCA ACAGCGCAAA 
GACCATCTGG AAGATTTGAG AGAGAACATC AGGATTACAG AAGTGGCTGG TGGACCACCT 
GATTTCCACC CAGATTTGCA TCTACAAGTA GATAATCCTA TCATGAAGAG ATCTCATGTG 
CATGATACCA GTGAGAAGTT GTCTTCATCG AACCCACAGA TCTTCAAGGA CCATGATAGA 
AGAGAACACA TCCCACAACC AAATGAAAAG CAGCTTGAAA ATTCAAAAGA ATGCCATTTT 
TCTGAAAGGC CTGAAAAAAA TGGTCCATCT TTGCTTAGTG CTAAGGGTTC AGTCCCCTTT 
CACGTTCCTG TTAATTCTGC CTCAGCAAAA TTAGCTGACA GTGATGAGAA ACTTCCTTCA 
TCCCAACTGT TGTCAATACA CATGAGAGCA GTTGAGTCCC AGCCAGGGCT AAGCTCCTTT 
GCCCAGTCAG GCCTTGGGGA ACCATGCGGC CCCTCCGATA ACTGTGAGGT GCTAGAACCT 
GCCACCTGCC GGAGTCTGCC ACCTCCTTTG CCTCCAAAGA AGTATGCTAA ATCCATGGCA 
GGGTCACGGT CAGAGAAGAA GGAATCTAGC CCTGACCTGG AACTGTCAGG AAGGGGGAAA 
GCGAAGTCTC AGAATCTCCA AAAGCCTGCC GTCAGTGCCC CTTCCCAGAC TGGGGCAGAA 
ACAAGACTGA AGGAATCGGG ACAAGGGAAA GAACTCACAG AATGCAAACC CAGGACCCGA 
TCTAGCCCGT CCCCTGACTT CCAGACCCCA CTGGATACAG GGGTAGCAGT GGTTAGCAAA 
GGCATTCCCC AGACAGGACC ATGGCCTACG GTGCCACCAC CACAAGGGAC AGTTTCCCTG 
ACCACCTACT TTTCTGTTGA CAACTGTATG ACTGATACGT ACAGGTTGAA GTACCGCCAG 
AGACCCAAGC TAAATTTTTC TGAGAGCAGC AGCTTATCTG GCAGCAATAA GCCTCAATCC 
CAAACTGAAG TGAGGCTGAA AGCAGTGTTC CATGAAGATC TACAGCCAGC CAATGTATAG

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

USP53 ( XM_016422916.1 ) cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum) -> XP_016278402.1 Monodelphis domestica ubiquitin specific peptidase 53 (USP53), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OMc24239
Clone ID Related Accession (Same CDS sequence)	XM_016422916.1 , XM_016422917.1 , XM_007495549.2 , XM_001371653.3
Accession Version	XM_016422916.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3261bp) 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	1461600000000
Organism	Monodelphis domestica(gray short-tailed opossum)
Product	inactive ubiquitin carboxyl-terminal hydrolase 53 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008805.1) 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 :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCTGGG TGAAGTTCTT ACGGAAACCC AGTGGCAATC TGGGCAAAGT TTATCAGCCT 
GGAAGTATGT TATCACTAGC ACCTACCAAG GGCTTATTAA ATGAACCAGG ACAAAATAGT 
TGCTTTCTCA ATAGTGCTGT ACAGGTTTTA TGGCAATTGG ATATATTCCG ACGGAGTTTA 
CGCATTCTTT CTGGACATGT TTGTCAGGGG GACGCCTGCA TATTTTGTGC TTTAAAGACG 
ATATTTGCAC AGTTTCAGCA CAGTCGAGAG AAAGCTCTTC CCTCTGATAA CATCAGGCAC 
GCCCTGGCAG AGAGCTTTAG AGATGAACAA CGATTTCAGC TTGGCTTTAT GGACGATGCT 
GCTGAGTGCT TTGAAAATAT CCTTGAGAAG ATTCATTTTC ACATTGTGCC AAACAGTGAC 
TCAGACATGT GCACCTCAAA GTCCTGCATC CCTCACCAGA AGTTTGCCAT GACTCTCTAT 
GAACAGTGTG TGTGCCGGAC CTGTGGAGCA TCCTCAGATC CTTTACCCTT CACAGAGTTT 
GTCCGATACA TTTCTACAAC CGCCCTCTGT AATGAAGTAG AAAAAATGAT TGAAAGACAC 
GAACGTTTGA AGCCTGAAAT GTTTGCGGAA TTGCTTCAGG CTGCAAATAC CACTGATGAC 
TTTAGGAAAT GCCCTAGTAA CTGTGGCCAA AAAATAAAAA TCCGCCGAGT TCTCATGAAT 
TGCCCAGAGA TTGTCACAAT TGGCTTAGTC TGGGATTCTG AGCATTCTGA CCTCACTGAA 
GAAGTGGTTC GCAATCTAGC CACACACCTT TATCTTCCAG GGTTGTTTTA TAGGGTAACT 
GATGAAAGCG CCAAAACTAG TGAGCTTCAT CTTGTTGGTA TGATCTGCTA CACCAGCCGA 
CATTACTGTG CCTTCGCTTT TCATACCAAG AGTTCCAAAT GGGTCTTTTT TGATGACGCC 
AATGTGAAGG AGGTTGGGAC TAAATGGAAA GACGTGGTCT CCAAGTGCAC CAGATGTCAT 
TTTCAGCCAC TGCTTCTGTT TTATGCAAAC CCGGACGGTT CTGCTGTGTC CACTGAAGAT 
GCTCTTAGGC ATGTCATCTA CTGGTCCCAT TATAAAACTA CTGCTGAGGA GGATGCAGGT 
GTTGAGAGGC CCTCAACTCA TAAACCAGAG AGTATCAAAG AAAATGGATT TGGTGACCAG 
GCAAAGCAGA GAACCAATCA GAAGTTACAT GTAGATGACA CTGTGGGTGT GATTCGCAGC 
CCTCTTCTGG CAAGTGGTGG CAGAGGACCA GTTAAGTTTG GTCCTAGTGA CCAGAGGGAC 
AAGCTAAGGA ACATTTCCAG AGAATGTGCC CAAAAAGCTA TTGAGCAGAA AAACTTCCTC 
TCATCACAAA GAAGAGAGTT GGAGAAGGAG CAGAGGAGAG AGCTTGGGAA ACACCGAGAT 
TTGTCCAGTG AGGACCTCTC TCGCCTCAAG TCTGGGTCAC CTGTCATGGC CTCAGCAAAT 
GGCTTCAGGC AACACAGTGG CCAGCCTGGA TACTCCAGCC AAGGTAGAGG GTCTTCCCGC 
CATGACCGAG TCACGTCCCA GAGCCGGACC TCCACACAAG TACCAAGTTC AGTTAAGCCA 
CAGCTCCTGG CTTCCGGGGA AAAGGCATCC AGCAAAGGTA AGGGAGATGG CGCCACTGGA 
TATGATACAG ACAGCAGCCA GGACTCTCGG GATAGGGGAA GTACCTGCAG TGGCGGCAGC 
AGCCGCAGCC GGACCCGCAG CTGGAAGCCA ATGCGAGAGA CACTGAATGT GGACAGTGTG 
TTCAGTGATG CCGAAAAAAG ACATGCCGCT CCCAGGCACA GAGCAGCCAA CAAATCCAAA 
CACAGCCAAG AGCAGAGAGT GAACAATTGG CCTAAAGAGC CACCCAAGCA GAAAGGCCTG 
ATGACCATCT ATGAAGATGA AGGAAAGCAG GAGACTGGAA GCAGGAGTTC ACTGGAGTCT 
TCTGGGAAAG GCCCTGAGAA AGGGAAAGGC CCTATGGAGA CCAAGGCTCC CGGCGACAGT 
GGGCAGATGC AACGGACTGA GTCTGGCTAT GAGAGCAGCG ATCGGGTCAG CAATGGTTCC 
ACCAGCTTGG ACTCCCCACT CCTAGAAGGG AACAGCACAG CCAACCTCAG TGGCACAAGG 
GAAACCTGCC CTGGCAGTAA CCAGATTCAA TCAAGTAAAG TGAACACAGA CAGCTTGCAG 
CACATGTCCC AACAGCGCAA AGACCATCTG GAAGATTTGA GAGAGAACAT CAGGATTACA 
GAAGTGGCTG GTGGACCACC TGATTTCCAC CCAGATTTGC ATCTACAAGT AGATAATCCT 
ATCATGAAGA GATCTCATGT GCATGATACC AGTGAGAAGT TGTCTTCATC GAACCCACAG 
ATCTTCAAGG ACCATGATAG AAGAGAACAC ATCCCACAAC CAAATGAAAA GCAGCTTGAA 
AATTCAAAAG AATGCCATTT TTCTGAAAGG CCTGAAAAAA ATGGTCCATC TTTGCTTAGT 
GCTAAGGGTT CAGTCCCCTT TCACGTTCCT GTTAATTCTG CCTCAGCAAA ATTAGCTGAC 
AGTGATGAGA AACTTCCTTC ATCCCAACTG TTGTCAATAC ACATGAGAGC AGTTGAGTCC 
CAGCCAGGGC TAAGCTCCTT TGCCCAGTCA GGCCTTGGGG AACCATGCGG CCCCTCCGAT 
AACTGTGAGG TGCTAGAACC TGCCACCTGC CGGAGTCTGC CACCTCCTTT GCCTCCAAAG 
AAGTATGCTA AATCCATGGC AGGGTCACGG TCAGAGAAGA AGGAATCTAG CCCTGACCTG 
GAACTGTCAG GAAGGGGGAA AGCGAAGTCT CAGAATCTCC AAAAGCCTGC CGTCAGTGCC 
CCTTCCCAGA CTGGGGCAGA AACAAGACTG AAGGAATCGG GACAAGGGAA AGAACTCACA 
GAATGCAAAC CCAGGACCCG ATCTAGCCCG TCCCCTGACT TCCAGACCCC ACTGGATACA 
GGGGTAGCAG TGGTTAGCAA AGGCATTCCC CAGACAGGAC CATGGCCTAC GGTGCCACCA 
CCACAAGGGA CAGTTTCCCT GACCACCTAC TTTTCTGTTG ACAACTGTAT GACTGATACG 
TACAGGTTGA AGTACCGCCA GAGACCCAAG CTAAATTTTT CTGAGAGCAG CAGCTTATCT 
GGCAGCAATA AGCCTCAATC CCAAACTGAA GTGAGGCTGA AAGCAGTGTT CCATGAAGAT 
CTACAGCCAG CCAATGTATA G

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

RefSeq	XP_016278402.1
CDS	612..3872
Translation	MAWVKFLRKPSGNLGKVYQPGSMLSLAPTKGLLNEPGQNSCFLNSAVQVLWQLDIFRRSLRILSGHVCQGDACIFCALKTIFAQFQHSREKALPSDNIRHALAESFRDEQRFQLGFMDDAAECFENILEKIHFHIVPNSDSDMCTSKSCIPHQKFAMTLYEQCVCRTCGASSDPLPFTEFVRYISTTALCNEVEKMIERHERLKPEMFAELLQAANTTDDFRKCPSNCGQKIKIRRVLMNCPEIVTIGLVWDSEHSDLTEEVVRNLATHLYLPGLFYRVTDESAKTSELHLVGMICYTSRHYCAFAFHTKSSKWVFFDDANVKEVGTKWKDVVSKCTRCHFQPLLLFYANPDGSAVSTEDALRHVIYWSHYKTTAEEDAGVERPSTHKPESIKENGFGDQAKQRTNQKLHVDDTVGVIRSPLLASGGRGPVKFGPSDQRDKLRNISRECAQKAIEQKNFLSSQRRELEKEQRRELGKHRDLSSEDLSRLKSGSPVMASANGFRQHSGQPGYSSQGRGSSRHDRVTSQSRTSTQVPSSVKPQLLASGEKASSKGKGDGATGYDTDSSQDSRDRGSTCSGGSSRSRTRSWKPMRETLNVDSVFSDAEKRHAAPRHRAANKSKHSQEQRVNNWPKEPPKQKGLMTIYEDEGKQETGSRSSLESSGKGPEKGKGPMETKAPGDSGQMQRTESGYESSDRVSNGSTSLDSPLLEGNSTANLSGTRETCPGSNQIQSSKVNTDSLQHMSQQRKDHLEDLRENIRITEVAGGPPDFHPDLHLQVDNPIMKRSHVHDTSEKLSSSNPQIFKDHDRREHIPQPNEKQLENSKECHFSERPEKNGPSLLSAKGSVPFHVPVNSASAKLADSDEKLPSSQLLSIHMRAVESQPGLSSFAQSGLGEPCGPSDNCEVLEPATCRSLPPPLPPKKYAKSMAGSRSEKKESSPDLELSGRGKAKSQNLQKPAVSAPSQTGAETRLKESGQGKELTECKPRTRSSPSPDFQTPLDTGVAVVSKGIPQTGPWPTVPPPQGTVSLTTYFSVDNCMTDTYRLKYRQRPKLNFSESSSLSGSNKPQSQTEVRLKAVFHEDLQPANV

Target ORF information:

RefSeq Version	XM_016422916.1
Organism	Monodelphis domestica(gray short-tailed opossum)
Definition	Monodelphis domestica ubiquitin specific peptidase 53 (USP53), transcript variant X3, mRNA.

Target ORF information:

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

XM_016422916.1

ORF Insert Sequence:

ATGGCCTGGG TGAAGTTCTT ACGGAAACCC AGTGGCAATC TGGGCAAAGT TTATCAGCCT 
GGAAGTATGT TATCACTAGC ACCTACCAAG GGCTTATTAA ATGAACCAGG ACAAAATAGT 
TGCTTTCTCA ATAGTGCTGT ACAGGTTTTA TGGCAATTGG ATATATTCCG ACGGAGTTTA 
CGCATTCTTT CTGGACATGT TTGTCAGGGG GACGCCTGCA TATTTTGTGC TTTAAAGACG 
ATATTTGCAC AGTTTCAGCA CAGTCGAGAG AAAGCTCTTC CCTCTGATAA CATCAGGCAC 
GCCCTGGCAG AGAGCTTTAG AGATGAACAA CGATTTCAGC TTGGCTTTAT GGACGATGCT 
GCTGAGTGCT TTGAAAATAT CCTTGAGAAG ATTCATTTTC ACATTGTGCC AAACAGTGAC 
TCAGACATGT GCACCTCAAA GTCCTGCATC CCTCACCAGA AGTTTGCCAT GACTCTCTAT 
GAACAGTGTG TGTGCCGGAC CTGTGGAGCA TCCTCAGATC CTTTACCCTT CACAGAGTTT 
GTCCGATACA TTTCTACAAC CGCCCTCTGT AATGAAGTAG AAAAAATGAT TGAAAGACAC 
GAACGTTTGA AGCCTGAAAT GTTTGCGGAA TTGCTTCAGG CTGCAAATAC CACTGATGAC 
TTTAGGAAAT GCCCTAGTAA CTGTGGCCAA AAAATAAAAA TCCGCCGAGT TCTCATGAAT 
TGCCCAGAGA TTGTCACAAT TGGCTTAGTC TGGGATTCTG AGCATTCTGA CCTCACTGAA 
GAAGTGGTTC GCAATCTAGC CACACACCTT TATCTTCCAG GGTTGTTTTA TAGGGTAACT 
GATGAAAGCG CCAAAACTAG TGAGCTTCAT CTTGTTGGTA TGATCTGCTA CACCAGCCGA 
CATTACTGTG CCTTCGCTTT TCATACCAAG AGTTCCAAAT GGGTCTTTTT TGATGACGCC 
AATGTGAAGG AGGTTGGGAC TAAATGGAAA GACGTGGTCT CCAAGTGCAC CAGATGTCAT 
TTTCAGCCAC TGCTTCTGTT TTATGCAAAC CCGGACGGTT CTGCTGTGTC CACTGAAGAT 
GCTCTTAGGC ATGTCATCTA CTGGTCCCAT TATAAAACTA CTGCTGAGGA GGATGCAGGT 
GTTGAGAGGC CCTCAACTCA TAAACCAGAG AGTATCAAAG AAAATGGATT TGGTGACCAG 
GCAAAGCAGA GAACCAATCA GAAGTTACAT GTAGATGACA CTGTGGGTGT GATTCGCAGC 
CCTCTTCTGG CAAGTGGTGG CAGAGGACCA GTTAAGTTTG GTCCTAGTGA CCAGAGGGAC 
AAGCTAAGGA ACATTTCCAG AGAATGTGCC CAAAAAGCTA TTGAGCAGAA AAACTTCCTC 
TCATCACAAA GAAGAGAGTT GGAGAAGGAG CAGAGGAGAG AGCTTGGGAA ACACCGAGAT 
TTGTCCAGTG AGGACCTCTC TCGCCTCAAG TCTGGGTCAC CTGTCATGGC CTCAGCAAAT 
GGCTTCAGGC AACACAGTGG CCAGCCTGGA TACTCCAGCC AAGGTAGAGG GTCTTCCCGC 
CATGACCGAG TCACGTCCCA GAGCCGGACC TCCACACAAG TACCAAGTTC AGTTAAGCCA 
CAGCTCCTGG CTTCCGGGGA AAAGGCATCC AGCAAAGGTA AGGGAGATGG CGCCACTGGA 
TATGATACAG ACAGCAGCCA GGACTCTCGG GATAGGGGAA GTACCTGCAG TGGCGGCAGC 
AGCCGCAGCC GGACCCGCAG CTGGAAGCCA ATGCGAGAGA CACTGAATGT GGACAGTGTG 
TTCAGTGATG CCGAAAAAAG ACATGCCGCT CCCAGGCACA GAGCAGCCAA CAAATCCAAA 
CACAGCCAAG AGCAGAGAGT GAACAATTGG CCTAAAGAGC CACCCAAGCA GAAAGGCCTG 
ATGACCATCT ATGAAGATGA AGGAAAGCAG GAGACTGGAA GCAGGAGTTC ACTGGAGTCT 
TCTGGGAAAG GCCCTGAGAA AGGGAAAGGC CCTATGGAGA CCAAGGCTCC CGGCGACAGT 
GGGCAGATGC AACGGACTGA GTCTGGCTAT GAGAGCAGCG ATCGGGTCAG CAATGGTTCC 
ACCAGCTTGG ACTCCCCACT CCTAGAAGGG AACAGCACAG CCAACCTCAG TGGCACAAGG 
GAAACCTGCC CTGGCAGTAA CCAGATTCAA TCAAGTAAAG TGAACACAGA CAGCTTGCAG 
CACATGTCCC AACAGCGCAA AGACCATCTG GAAGATTTGA GAGAGAACAT CAGGATTACA 
GAAGTGGCTG GTGGACCACC TGATTTCCAC CCAGATTTGC ATCTACAAGT AGATAATCCT 
ATCATGAAGA GATCTCATGT GCATGATACC AGTGAGAAGT TGTCTTCATC GAACCCACAG 
ATCTTCAAGG ACCATGATAG AAGAGAACAC ATCCCACAAC CAAATGAAAA GCAGCTTGAA 
AATTCAAAAG AATGCCATTT TTCTGAAAGG CCTGAAAAAA ATGGTCCATC TTTGCTTAGT 
GCTAAGGGTT CAGTCCCCTT TCACGTTCCT GTTAATTCTG CCTCAGCAAA ATTAGCTGAC 
AGTGATGAGA AACTTCCTTC ATCCCAACTG TTGTCAATAC ACATGAGAGC AGTTGAGTCC 
CAGCCAGGGC TAAGCTCCTT TGCCCAGTCA GGCCTTGGGG AACCATGCGG CCCCTCCGAT 
AACTGTGAGG TGCTAGAACC TGCCACCTGC CGGAGTCTGC CACCTCCTTT GCCTCCAAAG 
AAGTATGCTA AATCCATGGC AGGGTCACGG TCAGAGAAGA AGGAATCTAG CCCTGACCTG 
GAACTGTCAG GAAGGGGGAA AGCGAAGTCT CAGAATCTCC AAAAGCCTGC CGTCAGTGCC 
CCTTCCCAGA CTGGGGCAGA AACAAGACTG AAGGAATCGG GACAAGGGAA AGAACTCACA 
GAATGCAAAC CCAGGACCCG ATCTAGCCCG TCCCCTGACT TCCAGACCCC ACTGGATACA 
GGGGTAGCAG TGGTTAGCAA AGGCATTCCC CAGACAGGAC CATGGCCTAC GGTGCCACCA 
CCACAAGGGA CAGTTTCCCT GACCACCTAC TTTTCTGTTG ACAACTGTAT GACTGATACG 
TACAGGTTGA AGTACCGCCA GAGACCCAAG CTAAATTTTT CTGAGAGCAG CAGCTTATCT 
GGCAGCAATA AGCCTCAATC CCAAACTGAA GTGAGGCTGA AAGCAGTGTT CCATGAAGAT 
CTACAGCCAG CCAATGTATA G

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

USP53 ( XM_016422917.1 ) cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum) -> XP_016278403.1 Monodelphis domestica ubiquitin specific peptidase 53 (USP53), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OMc24239
Clone ID Related Accession (Same CDS sequence)	XM_016422916.1 , XM_016422917.1 , XM_007495549.2 , XM_001371653.3
Accession Version	XM_016422917.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3261bp) 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	1461600000000
Organism	Monodelphis domestica(gray short-tailed opossum)
Product	inactive ubiquitin carboxyl-terminal hydrolase 53 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008805.1) 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 :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCTGGG TGAAGTTCTT ACGGAAACCC AGTGGCAATC TGGGCAAAGT TTATCAGCCT 
GGAAGTATGT TATCACTAGC ACCTACCAAG GGCTTATTAA ATGAACCAGG ACAAAATAGT 
TGCTTTCTCA ATAGTGCTGT ACAGGTTTTA TGGCAATTGG ATATATTCCG ACGGAGTTTA 
CGCATTCTTT CTGGACATGT TTGTCAGGGG GACGCCTGCA TATTTTGTGC TTTAAAGACG 
ATATTTGCAC AGTTTCAGCA CAGTCGAGAG AAAGCTCTTC CCTCTGATAA CATCAGGCAC 
GCCCTGGCAG AGAGCTTTAG AGATGAACAA CGATTTCAGC TTGGCTTTAT GGACGATGCT 
GCTGAGTGCT TTGAAAATAT CCTTGAGAAG ATTCATTTTC ACATTGTGCC AAACAGTGAC 
TCAGACATGT GCACCTCAAA GTCCTGCATC CCTCACCAGA AGTTTGCCAT GACTCTCTAT 
GAACAGTGTG TGTGCCGGAC CTGTGGAGCA TCCTCAGATC CTTTACCCTT CACAGAGTTT 
GTCCGATACA TTTCTACAAC CGCCCTCTGT AATGAAGTAG AAAAAATGAT TGAAAGACAC 
GAACGTTTGA AGCCTGAAAT GTTTGCGGAA TTGCTTCAGG CTGCAAATAC CACTGATGAC 
TTTAGGAAAT GCCCTAGTAA CTGTGGCCAA AAAATAAAAA TCCGCCGAGT TCTCATGAAT 
TGCCCAGAGA TTGTCACAAT TGGCTTAGTC TGGGATTCTG AGCATTCTGA CCTCACTGAA 
GAAGTGGTTC GCAATCTAGC CACACACCTT TATCTTCCAG GGTTGTTTTA TAGGGTAACT 
GATGAAAGCG CCAAAACTAG TGAGCTTCAT CTTGTTGGTA TGATCTGCTA CACCAGCCGA 
CATTACTGTG CCTTCGCTTT TCATACCAAG AGTTCCAAAT GGGTCTTTTT TGATGACGCC 
AATGTGAAGG AGGTTGGGAC TAAATGGAAA GACGTGGTCT CCAAGTGCAC CAGATGTCAT 
TTTCAGCCAC TGCTTCTGTT TTATGCAAAC CCGGACGGTT CTGCTGTGTC CACTGAAGAT 
GCTCTTAGGC ATGTCATCTA CTGGTCCCAT TATAAAACTA CTGCTGAGGA GGATGCAGGT 
GTTGAGAGGC CCTCAACTCA TAAACCAGAG AGTATCAAAG AAAATGGATT TGGTGACCAG 
GCAAAGCAGA GAACCAATCA GAAGTTACAT GTAGATGACA CTGTGGGTGT GATTCGCAGC 
CCTCTTCTGG CAAGTGGTGG CAGAGGACCA GTTAAGTTTG GTCCTAGTGA CCAGAGGGAC 
AAGCTAAGGA ACATTTCCAG AGAATGTGCC CAAAAAGCTA TTGAGCAGAA AAACTTCCTC 
TCATCACAAA GAAGAGAGTT GGAGAAGGAG CAGAGGAGAG AGCTTGGGAA ACACCGAGAT 
TTGTCCAGTG AGGACCTCTC TCGCCTCAAG TCTGGGTCAC CTGTCATGGC CTCAGCAAAT 
GGCTTCAGGC AACACAGTGG CCAGCCTGGA TACTCCAGCC AAGGTAGAGG GTCTTCCCGC 
CATGACCGAG TCACGTCCCA GAGCCGGACC TCCACACAAG TACCAAGTTC AGTTAAGCCA 
CAGCTCCTGG CTTCCGGGGA AAAGGCATCC AGCAAAGGTA AGGGAGATGG CGCCACTGGA 
TATGATACAG ACAGCAGCCA GGACTCTCGG GATAGGGGAA GTACCTGCAG TGGCGGCAGC 
AGCCGCAGCC GGACCCGCAG CTGGAAGCCA ATGCGAGAGA CACTGAATGT GGACAGTGTG 
TTCAGTGATG CCGAAAAAAG ACATGCCGCT CCCAGGCACA GAGCAGCCAA CAAATCCAAA 
CACAGCCAAG AGCAGAGAGT GAACAATTGG CCTAAAGAGC CACCCAAGCA GAAAGGCCTG 
ATGACCATCT ATGAAGATGA AGGAAAGCAG GAGACTGGAA GCAGGAGTTC ACTGGAGTCT 
TCTGGGAAAG GCCCTGAGAA AGGGAAAGGC CCTATGGAGA CCAAGGCTCC CGGCGACAGT 
GGGCAGATGC AACGGACTGA GTCTGGCTAT GAGAGCAGCG ATCGGGTCAG CAATGGTTCC 
ACCAGCTTGG ACTCCCCACT CCTAGAAGGG AACAGCACAG CCAACCTCAG TGGCACAAGG 
GAAACCTGCC CTGGCAGTAA CCAGATTCAA TCAAGTAAAG TGAACACAGA CAGCTTGCAG 
CACATGTCCC AACAGCGCAA AGACCATCTG GAAGATTTGA GAGAGAACAT CAGGATTACA 
GAAGTGGCTG GTGGACCACC TGATTTCCAC CCAGATTTGC ATCTACAAGT AGATAATCCT 
ATCATGAAGA GATCTCATGT GCATGATACC AGTGAGAAGT TGTCTTCATC GAACCCACAG 
ATCTTCAAGG ACCATGATAG AAGAGAACAC ATCCCACAAC CAAATGAAAA GCAGCTTGAA 
AATTCAAAAG AATGCCATTT TTCTGAAAGG CCTGAAAAAA ATGGTCCATC TTTGCTTAGT 
GCTAAGGGTT CAGTCCCCTT TCACGTTCCT GTTAATTCTG CCTCAGCAAA ATTAGCTGAC 
AGTGATGAGA AACTTCCTTC ATCCCAACTG TTGTCAATAC ACATGAGAGC AGTTGAGTCC 
CAGCCAGGGC TAAGCTCCTT TGCCCAGTCA GGCCTTGGGG AACCATGCGG CCCCTCCGAT 
AACTGTGAGG TGCTAGAACC TGCCACCTGC CGGAGTCTGC CACCTCCTTT GCCTCCAAAG 
AAGTATGCTA AATCCATGGC AGGGTCACGG TCAGAGAAGA AGGAATCTAG CCCTGACCTG 
GAACTGTCAG GAAGGGGGAA AGCGAAGTCT CAGAATCTCC AAAAGCCTGC CGTCAGTGCC 
CCTTCCCAGA CTGGGGCAGA AACAAGACTG AAGGAATCGG GACAAGGGAA AGAACTCACA 
GAATGCAAAC CCAGGACCCG ATCTAGCCCG TCCCCTGACT TCCAGACCCC ACTGGATACA 
GGGGTAGCAG TGGTTAGCAA AGGCATTCCC CAGACAGGAC CATGGCCTAC GGTGCCACCA 
CCACAAGGGA CAGTTTCCCT GACCACCTAC TTTTCTGTTG ACAACTGTAT GACTGATACG 
TACAGGTTGA AGTACCGCCA GAGACCCAAG CTAAATTTTT CTGAGAGCAG CAGCTTATCT 
GGCAGCAATA AGCCTCAATC CCAAACTGAA GTGAGGCTGA AAGCAGTGTT CCATGAAGAT 
CTACAGCCAG CCAATGTATA G

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

RefSeq	XP_016278403.1
CDS	872..4132
Translation	MAWVKFLRKPSGNLGKVYQPGSMLSLAPTKGLLNEPGQNSCFLNSAVQVLWQLDIFRRSLRILSGHVCQGDACIFCALKTIFAQFQHSREKALPSDNIRHALAESFRDEQRFQLGFMDDAAECFENILEKIHFHIVPNSDSDMCTSKSCIPHQKFAMTLYEQCVCRTCGASSDPLPFTEFVRYISTTALCNEVEKMIERHERLKPEMFAELLQAANTTDDFRKCPSNCGQKIKIRRVLMNCPEIVTIGLVWDSEHSDLTEEVVRNLATHLYLPGLFYRVTDESAKTSELHLVGMICYTSRHYCAFAFHTKSSKWVFFDDANVKEVGTKWKDVVSKCTRCHFQPLLLFYANPDGSAVSTEDALRHVIYWSHYKTTAEEDAGVERPSTHKPESIKENGFGDQAKQRTNQKLHVDDTVGVIRSPLLASGGRGPVKFGPSDQRDKLRNISRECAQKAIEQKNFLSSQRRELEKEQRRELGKHRDLSSEDLSRLKSGSPVMASANGFRQHSGQPGYSSQGRGSSRHDRVTSQSRTSTQVPSSVKPQLLASGEKASSKGKGDGATGYDTDSSQDSRDRGSTCSGGSSRSRTRSWKPMRETLNVDSVFSDAEKRHAAPRHRAANKSKHSQEQRVNNWPKEPPKQKGLMTIYEDEGKQETGSRSSLESSGKGPEKGKGPMETKAPGDSGQMQRTESGYESSDRVSNGSTSLDSPLLEGNSTANLSGTRETCPGSNQIQSSKVNTDSLQHMSQQRKDHLEDLRENIRITEVAGGPPDFHPDLHLQVDNPIMKRSHVHDTSEKLSSSNPQIFKDHDRREHIPQPNEKQLENSKECHFSERPEKNGPSLLSAKGSVPFHVPVNSASAKLADSDEKLPSSQLLSIHMRAVESQPGLSSFAQSGLGEPCGPSDNCEVLEPATCRSLPPPLPPKKYAKSMAGSRSEKKESSPDLELSGRGKAKSQNLQKPAVSAPSQTGAETRLKESGQGKELTECKPRTRSSPSPDFQTPLDTGVAVVSKGIPQTGPWPTVPPPQGTVSLTTYFSVDNCMTDTYRLKYRQRPKLNFSESSSLSGSNKPQSQTEVRLKAVFHEDLQPANV

Target ORF information:

RefSeq Version	XM_016422917.1
Organism	Monodelphis domestica(gray short-tailed opossum)
Definition	Monodelphis domestica ubiquitin specific peptidase 53 (USP53), transcript variant X4, mRNA.

Target ORF information:

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

XM_016422917.1

ORF Insert Sequence:

ATGGCCTGGG TGAAGTTCTT ACGGAAACCC AGTGGCAATC TGGGCAAAGT TTATCAGCCT 
GGAAGTATGT TATCACTAGC ACCTACCAAG GGCTTATTAA ATGAACCAGG ACAAAATAGT 
TGCTTTCTCA ATAGTGCTGT ACAGGTTTTA TGGCAATTGG ATATATTCCG ACGGAGTTTA 
CGCATTCTTT CTGGACATGT TTGTCAGGGG GACGCCTGCA TATTTTGTGC TTTAAAGACG 
ATATTTGCAC AGTTTCAGCA CAGTCGAGAG AAAGCTCTTC CCTCTGATAA CATCAGGCAC 
GCCCTGGCAG AGAGCTTTAG AGATGAACAA CGATTTCAGC TTGGCTTTAT GGACGATGCT 
GCTGAGTGCT TTGAAAATAT CCTTGAGAAG ATTCATTTTC ACATTGTGCC AAACAGTGAC 
TCAGACATGT GCACCTCAAA GTCCTGCATC CCTCACCAGA AGTTTGCCAT GACTCTCTAT 
GAACAGTGTG TGTGCCGGAC CTGTGGAGCA TCCTCAGATC CTTTACCCTT CACAGAGTTT 
GTCCGATACA TTTCTACAAC CGCCCTCTGT AATGAAGTAG AAAAAATGAT TGAAAGACAC 
GAACGTTTGA AGCCTGAAAT GTTTGCGGAA TTGCTTCAGG CTGCAAATAC CACTGATGAC 
TTTAGGAAAT GCCCTAGTAA CTGTGGCCAA AAAATAAAAA TCCGCCGAGT TCTCATGAAT 
TGCCCAGAGA TTGTCACAAT TGGCTTAGTC TGGGATTCTG AGCATTCTGA CCTCACTGAA 
GAAGTGGTTC GCAATCTAGC CACACACCTT TATCTTCCAG GGTTGTTTTA TAGGGTAACT 
GATGAAAGCG CCAAAACTAG TGAGCTTCAT CTTGTTGGTA TGATCTGCTA CACCAGCCGA 
CATTACTGTG CCTTCGCTTT TCATACCAAG AGTTCCAAAT GGGTCTTTTT TGATGACGCC 
AATGTGAAGG AGGTTGGGAC TAAATGGAAA GACGTGGTCT CCAAGTGCAC CAGATGTCAT 
TTTCAGCCAC TGCTTCTGTT TTATGCAAAC CCGGACGGTT CTGCTGTGTC CACTGAAGAT 
GCTCTTAGGC ATGTCATCTA CTGGTCCCAT TATAAAACTA CTGCTGAGGA GGATGCAGGT 
GTTGAGAGGC CCTCAACTCA TAAACCAGAG AGTATCAAAG AAAATGGATT TGGTGACCAG 
GCAAAGCAGA GAACCAATCA GAAGTTACAT GTAGATGACA CTGTGGGTGT GATTCGCAGC 
CCTCTTCTGG CAAGTGGTGG CAGAGGACCA GTTAAGTTTG GTCCTAGTGA CCAGAGGGAC 
AAGCTAAGGA ACATTTCCAG AGAATGTGCC CAAAAAGCTA TTGAGCAGAA AAACTTCCTC 
TCATCACAAA GAAGAGAGTT GGAGAAGGAG CAGAGGAGAG AGCTTGGGAA ACACCGAGAT 
TTGTCCAGTG AGGACCTCTC TCGCCTCAAG TCTGGGTCAC CTGTCATGGC CTCAGCAAAT 
GGCTTCAGGC AACACAGTGG CCAGCCTGGA TACTCCAGCC AAGGTAGAGG GTCTTCCCGC 
CATGACCGAG TCACGTCCCA GAGCCGGACC TCCACACAAG TACCAAGTTC AGTTAAGCCA 
CAGCTCCTGG CTTCCGGGGA AAAGGCATCC AGCAAAGGTA AGGGAGATGG CGCCACTGGA 
TATGATACAG ACAGCAGCCA GGACTCTCGG GATAGGGGAA GTACCTGCAG TGGCGGCAGC 
AGCCGCAGCC GGACCCGCAG CTGGAAGCCA ATGCGAGAGA CACTGAATGT GGACAGTGTG 
TTCAGTGATG CCGAAAAAAG ACATGCCGCT CCCAGGCACA GAGCAGCCAA CAAATCCAAA 
CACAGCCAAG AGCAGAGAGT GAACAATTGG CCTAAAGAGC CACCCAAGCA GAAAGGCCTG 
ATGACCATCT ATGAAGATGA AGGAAAGCAG GAGACTGGAA GCAGGAGTTC ACTGGAGTCT 
TCTGGGAAAG GCCCTGAGAA AGGGAAAGGC CCTATGGAGA CCAAGGCTCC CGGCGACAGT 
GGGCAGATGC AACGGACTGA GTCTGGCTAT GAGAGCAGCG ATCGGGTCAG CAATGGTTCC 
ACCAGCTTGG ACTCCCCACT CCTAGAAGGG AACAGCACAG CCAACCTCAG TGGCACAAGG 
GAAACCTGCC CTGGCAGTAA CCAGATTCAA TCAAGTAAAG TGAACACAGA CAGCTTGCAG 
CACATGTCCC AACAGCGCAA AGACCATCTG GAAGATTTGA GAGAGAACAT CAGGATTACA 
GAAGTGGCTG GTGGACCACC TGATTTCCAC CCAGATTTGC ATCTACAAGT AGATAATCCT 
ATCATGAAGA GATCTCATGT GCATGATACC AGTGAGAAGT TGTCTTCATC GAACCCACAG 
ATCTTCAAGG ACCATGATAG AAGAGAACAC ATCCCACAAC CAAATGAAAA GCAGCTTGAA 
AATTCAAAAG AATGCCATTT TTCTGAAAGG CCTGAAAAAA ATGGTCCATC TTTGCTTAGT 
GCTAAGGGTT CAGTCCCCTT TCACGTTCCT GTTAATTCTG CCTCAGCAAA ATTAGCTGAC 
AGTGATGAGA AACTTCCTTC ATCCCAACTG TTGTCAATAC ACATGAGAGC AGTTGAGTCC 
CAGCCAGGGC TAAGCTCCTT TGCCCAGTCA GGCCTTGGGG AACCATGCGG CCCCTCCGAT 
AACTGTGAGG TGCTAGAACC TGCCACCTGC CGGAGTCTGC CACCTCCTTT GCCTCCAAAG 
AAGTATGCTA AATCCATGGC AGGGTCACGG TCAGAGAAGA AGGAATCTAG CCCTGACCTG 
GAACTGTCAG GAAGGGGGAA AGCGAAGTCT CAGAATCTCC AAAAGCCTGC CGTCAGTGCC 
CCTTCCCAGA CTGGGGCAGA AACAAGACTG AAGGAATCGG GACAAGGGAA AGAACTCACA 
GAATGCAAAC CCAGGACCCG ATCTAGCCCG TCCCCTGACT TCCAGACCCC ACTGGATACA 
GGGGTAGCAG TGGTTAGCAA AGGCATTCCC CAGACAGGAC CATGGCCTAC GGTGCCACCA 
CCACAAGGGA CAGTTTCCCT GACCACCTAC TTTTCTGTTG ACAACTGTAT GACTGATACG 
TACAGGTTGA AGTACCGCCA GAGACCCAAG CTAAATTTTT CTGAGAGCAG CAGCTTATCT 
GGCAGCAATA AGCCTCAATC CCAAACTGAA GTGAGGCTGA AAGCAGTGTT CCATGAAGAT 
CTACAGCCAG CCAATGTATA G

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

USP53 ( XM_007495549.2 ) cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum) -> XP_007495611.1 Monodelphis domestica ubiquitin specific peptidase 53 (USP53), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OMc24239
Clone ID Related Accession (Same CDS sequence)	XM_016422916.1 , XM_016422917.1 , XM_007495549.2 , XM_001371653.3
Accession Version	XM_007495549.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3261bp) 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	1461600000000
Organism	Monodelphis domestica(gray short-tailed opossum)
Product	inactive ubiquitin carboxyl-terminal hydrolase 53 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008805.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007495549.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCTGGG TGAAGTTCTT ACGGAAACCC AGTGGCAATC TGGGCAAAGT TTATCAGCCT 
GGAAGTATGT TATCACTAGC ACCTACCAAG GGCTTATTAA ATGAACCAGG ACAAAATAGT 
TGCTTTCTCA ATAGTGCTGT ACAGGTTTTA TGGCAATTGG ATATATTCCG ACGGAGTTTA 
CGCATTCTTT CTGGACATGT TTGTCAGGGG GACGCCTGCA TATTTTGTGC TTTAAAGACG 
ATATTTGCAC AGTTTCAGCA CAGTCGAGAG AAAGCTCTTC CCTCTGATAA CATCAGGCAC 
GCCCTGGCAG AGAGCTTTAG AGATGAACAA CGATTTCAGC TTGGCTTTAT GGACGATGCT 
GCTGAGTGCT TTGAAAATAT CCTTGAGAAG ATTCATTTTC ACATTGTGCC AAACAGTGAC 
TCAGACATGT GCACCTCAAA GTCCTGCATC CCTCACCAGA AGTTTGCCAT GACTCTCTAT 
GAACAGTGTG TGTGCCGGAC CTGTGGAGCA TCCTCAGATC CTTTACCCTT CACAGAGTTT 
GTCCGATACA TTTCTACAAC CGCCCTCTGT AATGAAGTAG AAAAAATGAT TGAAAGACAC 
GAACGTTTGA AGCCTGAAAT GTTTGCGGAA TTGCTTCAGG CTGCAAATAC CACTGATGAC 
TTTAGGAAAT GCCCTAGTAA CTGTGGCCAA AAAATAAAAA TCCGCCGAGT TCTCATGAAT 
TGCCCAGAGA TTGTCACAAT TGGCTTAGTC TGGGATTCTG AGCATTCTGA CCTCACTGAA 
GAAGTGGTTC GCAATCTAGC CACACACCTT TATCTTCCAG GGTTGTTTTA TAGGGTAACT 
GATGAAAGCG CCAAAACTAG TGAGCTTCAT CTTGTTGGTA TGATCTGCTA CACCAGCCGA 
CATTACTGTG CCTTCGCTTT TCATACCAAG AGTTCCAAAT GGGTCTTTTT TGATGACGCC 
AATGTGAAGG AGGTTGGGAC TAAATGGAAA GACGTGGTCT CCAAGTGCAC CAGATGTCAT 
TTTCAGCCAC TGCTTCTGTT TTATGCAAAC CCGGACGGTT CTGCTGTGTC CACTGAAGAT 
GCTCTTAGGC ATGTCATCTA CTGGTCCCAT TATAAAACTA CTGCTGAGGA GGATGCAGGT 
GTTGAGAGGC CCTCAACTCA TAAACCAGAG AGTATCAAAG AAAATGGATT TGGTGACCAG 
GCAAAGCAGA GAACCAATCA GAAGTTACAT GTAGATGACA CTGTGGGTGT GATTCGCAGC 
CCTCTTCTGG CAAGTGGTGG CAGAGGACCA GTTAAGTTTG GTCCTAGTGA CCAGAGGGAC 
AAGCTAAGGA ACATTTCCAG AGAATGTGCC CAAAAAGCTA TTGAGCAGAA AAACTTCCTC 
TCATCACAAA GAAGAGAGTT GGAGAAGGAG CAGAGGAGAG AGCTTGGGAA ACACCGAGAT 
TTGTCCAGTG AGGACCTCTC TCGCCTCAAG TCTGGGTCAC CTGTCATGGC CTCAGCAAAT 
GGCTTCAGGC AACACAGTGG CCAGCCTGGA TACTCCAGCC AAGGTAGAGG GTCTTCCCGC 
CATGACCGAG TCACGTCCCA GAGCCGGACC TCCACACAAG TACCAAGTTC AGTTAAGCCA 
CAGCTCCTGG CTTCCGGGGA AAAGGCATCC AGCAAAGGTA AGGGAGATGG CGCCACTGGA 
TATGATACAG ACAGCAGCCA GGACTCTCGG GATAGGGGAA GTACCTGCAG TGGCGGCAGC 
AGCCGCAGCC GGACCCGCAG CTGGAAGCCA ATGCGAGAGA CACTGAATGT GGACAGTGTG 
TTCAGTGATG CCGAAAAAAG ACATGCCGCT CCCAGGCACA GAGCAGCCAA CAAATCCAAA 
CACAGCCAAG AGCAGAGAGT GAACAATTGG CCTAAAGAGC CACCCAAGCA GAAAGGCCTG 
ATGACCATCT ATGAAGATGA AGGAAAGCAG GAGACTGGAA GCAGGAGTTC ACTGGAGTCT 
TCTGGGAAAG GCCCTGAGAA AGGGAAAGGC CCTATGGAGA CCAAGGCTCC CGGCGACAGT 
GGGCAGATGC AACGGACTGA GTCTGGCTAT GAGAGCAGCG ATCGGGTCAG CAATGGTTCC 
ACCAGCTTGG ACTCCCCACT CCTAGAAGGG AACAGCACAG CCAACCTCAG TGGCACAAGG 
GAAACCTGCC CTGGCAGTAA CCAGATTCAA TCAAGTAAAG TGAACACAGA CAGCTTGCAG 
CACATGTCCC AACAGCGCAA AGACCATCTG GAAGATTTGA GAGAGAACAT CAGGATTACA 
GAAGTGGCTG GTGGACCACC TGATTTCCAC CCAGATTTGC ATCTACAAGT AGATAATCCT 
ATCATGAAGA GATCTCATGT GCATGATACC AGTGAGAAGT TGTCTTCATC GAACCCACAG 
ATCTTCAAGG ACCATGATAG AAGAGAACAC ATCCCACAAC CAAATGAAAA GCAGCTTGAA 
AATTCAAAAG AATGCCATTT TTCTGAAAGG CCTGAAAAAA ATGGTCCATC TTTGCTTAGT 
GCTAAGGGTT CAGTCCCCTT TCACGTTCCT GTTAATTCTG CCTCAGCAAA ATTAGCTGAC 
AGTGATGAGA AACTTCCTTC ATCCCAACTG TTGTCAATAC ACATGAGAGC AGTTGAGTCC 
CAGCCAGGGC TAAGCTCCTT TGCCCAGTCA GGCCTTGGGG AACCATGCGG CCCCTCCGAT 
AACTGTGAGG TGCTAGAACC TGCCACCTGC CGGAGTCTGC CACCTCCTTT GCCTCCAAAG 
AAGTATGCTA AATCCATGGC AGGGTCACGG TCAGAGAAGA AGGAATCTAG CCCTGACCTG 
GAACTGTCAG GAAGGGGGAA AGCGAAGTCT CAGAATCTCC AAAAGCCTGC CGTCAGTGCC 
CCTTCCCAGA CTGGGGCAGA AACAAGACTG AAGGAATCGG GACAAGGGAA AGAACTCACA 
GAATGCAAAC CCAGGACCCG ATCTAGCCCG TCCCCTGACT TCCAGACCCC ACTGGATACA 
GGGGTAGCAG TGGTTAGCAA AGGCATTCCC CAGACAGGAC CATGGCCTAC GGTGCCACCA 
CCACAAGGGA CAGTTTCCCT GACCACCTAC TTTTCTGTTG ACAACTGTAT GACTGATACG 
TACAGGTTGA AGTACCGCCA GAGACCCAAG CTAAATTTTT CTGAGAGCAG CAGCTTATCT 
GGCAGCAATA AGCCTCAATC CCAAACTGAA GTGAGGCTGA AAGCAGTGTT CCATGAAGAT 
CTACAGCCAG CCAATGTATA G

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

RefSeq	XP_007495611.1
CDS	741..4001
Translation	MAWVKFLRKPSGNLGKVYQPGSMLSLAPTKGLLNEPGQNSCFLNSAVQVLWQLDIFRRSLRILSGHVCQGDACIFCALKTIFAQFQHSREKALPSDNIRHALAESFRDEQRFQLGFMDDAAECFENILEKIHFHIVPNSDSDMCTSKSCIPHQKFAMTLYEQCVCRTCGASSDPLPFTEFVRYISTTALCNEVEKMIERHERLKPEMFAELLQAANTTDDFRKCPSNCGQKIKIRRVLMNCPEIVTIGLVWDSEHSDLTEEVVRNLATHLYLPGLFYRVTDESAKTSELHLVGMICYTSRHYCAFAFHTKSSKWVFFDDANVKEVGTKWKDVVSKCTRCHFQPLLLFYANPDGSAVSTEDALRHVIYWSHYKTTAEEDAGVERPSTHKPESIKENGFGDQAKQRTNQKLHVDDTVGVIRSPLLASGGRGPVKFGPSDQRDKLRNISRECAQKAIEQKNFLSSQRRELEKEQRRELGKHRDLSSEDLSRLKSGSPVMASANGFRQHSGQPGYSSQGRGSSRHDRVTSQSRTSTQVPSSVKPQLLASGEKASSKGKGDGATGYDTDSSQDSRDRGSTCSGGSSRSRTRSWKPMRETLNVDSVFSDAEKRHAAPRHRAANKSKHSQEQRVNNWPKEPPKQKGLMTIYEDEGKQETGSRSSLESSGKGPEKGKGPMETKAPGDSGQMQRTESGYESSDRVSNGSTSLDSPLLEGNSTANLSGTRETCPGSNQIQSSKVNTDSLQHMSQQRKDHLEDLRENIRITEVAGGPPDFHPDLHLQVDNPIMKRSHVHDTSEKLSSSNPQIFKDHDRREHIPQPNEKQLENSKECHFSERPEKNGPSLLSAKGSVPFHVPVNSASAKLADSDEKLPSSQLLSIHMRAVESQPGLSSFAQSGLGEPCGPSDNCEVLEPATCRSLPPPLPPKKYAKSMAGSRSEKKESSPDLELSGRGKAKSQNLQKPAVSAPSQTGAETRLKESGQGKELTECKPRTRSSPSPDFQTPLDTGVAVVSKGIPQTGPWPTVPPPQGTVSLTTYFSVDNCMTDTYRLKYRQRPKLNFSESSSLSGSNKPQSQTEVRLKAVFHEDLQPANV

Target ORF information:

RefSeq Version	XM_007495549.2
Organism	Monodelphis domestica(gray short-tailed opossum)
Definition	Monodelphis domestica ubiquitin specific peptidase 53 (USP53), transcript variant X1, mRNA.

Target ORF information:

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

XM_007495549.2

ORF Insert Sequence:

ATGGCCTGGG TGAAGTTCTT ACGGAAACCC AGTGGCAATC TGGGCAAAGT TTATCAGCCT 
GGAAGTATGT TATCACTAGC ACCTACCAAG GGCTTATTAA ATGAACCAGG ACAAAATAGT 
TGCTTTCTCA ATAGTGCTGT ACAGGTTTTA TGGCAATTGG ATATATTCCG ACGGAGTTTA 
CGCATTCTTT CTGGACATGT TTGTCAGGGG GACGCCTGCA TATTTTGTGC TTTAAAGACG 
ATATTTGCAC AGTTTCAGCA CAGTCGAGAG AAAGCTCTTC CCTCTGATAA CATCAGGCAC 
GCCCTGGCAG AGAGCTTTAG AGATGAACAA CGATTTCAGC TTGGCTTTAT GGACGATGCT 
GCTGAGTGCT TTGAAAATAT CCTTGAGAAG ATTCATTTTC ACATTGTGCC AAACAGTGAC 
TCAGACATGT GCACCTCAAA GTCCTGCATC CCTCACCAGA AGTTTGCCAT GACTCTCTAT 
GAACAGTGTG TGTGCCGGAC CTGTGGAGCA TCCTCAGATC CTTTACCCTT CACAGAGTTT 
GTCCGATACA TTTCTACAAC CGCCCTCTGT AATGAAGTAG AAAAAATGAT TGAAAGACAC 
GAACGTTTGA AGCCTGAAAT GTTTGCGGAA TTGCTTCAGG CTGCAAATAC CACTGATGAC 
TTTAGGAAAT GCCCTAGTAA CTGTGGCCAA AAAATAAAAA TCCGCCGAGT TCTCATGAAT 
TGCCCAGAGA TTGTCACAAT TGGCTTAGTC TGGGATTCTG AGCATTCTGA CCTCACTGAA 
GAAGTGGTTC GCAATCTAGC CACACACCTT TATCTTCCAG GGTTGTTTTA TAGGGTAACT 
GATGAAAGCG CCAAAACTAG TGAGCTTCAT CTTGTTGGTA TGATCTGCTA CACCAGCCGA 
CATTACTGTG CCTTCGCTTT TCATACCAAG AGTTCCAAAT GGGTCTTTTT TGATGACGCC 
AATGTGAAGG AGGTTGGGAC TAAATGGAAA GACGTGGTCT CCAAGTGCAC CAGATGTCAT 
TTTCAGCCAC TGCTTCTGTT TTATGCAAAC CCGGACGGTT CTGCTGTGTC CACTGAAGAT 
GCTCTTAGGC ATGTCATCTA CTGGTCCCAT TATAAAACTA CTGCTGAGGA GGATGCAGGT 
GTTGAGAGGC CCTCAACTCA TAAACCAGAG AGTATCAAAG AAAATGGATT TGGTGACCAG 
GCAAAGCAGA GAACCAATCA GAAGTTACAT GTAGATGACA CTGTGGGTGT GATTCGCAGC 
CCTCTTCTGG CAAGTGGTGG CAGAGGACCA GTTAAGTTTG GTCCTAGTGA CCAGAGGGAC 
AAGCTAAGGA ACATTTCCAG AGAATGTGCC CAAAAAGCTA TTGAGCAGAA AAACTTCCTC 
TCATCACAAA GAAGAGAGTT GGAGAAGGAG CAGAGGAGAG AGCTTGGGAA ACACCGAGAT 
TTGTCCAGTG AGGACCTCTC TCGCCTCAAG TCTGGGTCAC CTGTCATGGC CTCAGCAAAT 
GGCTTCAGGC AACACAGTGG CCAGCCTGGA TACTCCAGCC AAGGTAGAGG GTCTTCCCGC 
CATGACCGAG TCACGTCCCA GAGCCGGACC TCCACACAAG TACCAAGTTC AGTTAAGCCA 
CAGCTCCTGG CTTCCGGGGA AAAGGCATCC AGCAAAGGTA AGGGAGATGG CGCCACTGGA 
TATGATACAG ACAGCAGCCA GGACTCTCGG GATAGGGGAA GTACCTGCAG TGGCGGCAGC 
AGCCGCAGCC GGACCCGCAG CTGGAAGCCA ATGCGAGAGA CACTGAATGT GGACAGTGTG 
TTCAGTGATG CCGAAAAAAG ACATGCCGCT CCCAGGCACA GAGCAGCCAA CAAATCCAAA 
CACAGCCAAG AGCAGAGAGT GAACAATTGG CCTAAAGAGC CACCCAAGCA GAAAGGCCTG 
ATGACCATCT ATGAAGATGA AGGAAAGCAG GAGACTGGAA GCAGGAGTTC ACTGGAGTCT 
TCTGGGAAAG GCCCTGAGAA AGGGAAAGGC CCTATGGAGA CCAAGGCTCC CGGCGACAGT 
GGGCAGATGC AACGGACTGA GTCTGGCTAT GAGAGCAGCG ATCGGGTCAG CAATGGTTCC 
ACCAGCTTGG ACTCCCCACT CCTAGAAGGG AACAGCACAG CCAACCTCAG TGGCACAAGG 
GAAACCTGCC CTGGCAGTAA CCAGATTCAA TCAAGTAAAG TGAACACAGA CAGCTTGCAG 
CACATGTCCC AACAGCGCAA AGACCATCTG GAAGATTTGA GAGAGAACAT CAGGATTACA 
GAAGTGGCTG GTGGACCACC TGATTTCCAC CCAGATTTGC ATCTACAAGT AGATAATCCT 
ATCATGAAGA GATCTCATGT GCATGATACC AGTGAGAAGT TGTCTTCATC GAACCCACAG 
ATCTTCAAGG ACCATGATAG AAGAGAACAC ATCCCACAAC CAAATGAAAA GCAGCTTGAA 
AATTCAAAAG AATGCCATTT TTCTGAAAGG CCTGAAAAAA ATGGTCCATC TTTGCTTAGT 
GCTAAGGGTT CAGTCCCCTT TCACGTTCCT GTTAATTCTG CCTCAGCAAA ATTAGCTGAC 
AGTGATGAGA AACTTCCTTC ATCCCAACTG TTGTCAATAC ACATGAGAGC AGTTGAGTCC 
CAGCCAGGGC TAAGCTCCTT TGCCCAGTCA GGCCTTGGGG AACCATGCGG CCCCTCCGAT 
AACTGTGAGG TGCTAGAACC TGCCACCTGC CGGAGTCTGC CACCTCCTTT GCCTCCAAAG 
AAGTATGCTA AATCCATGGC AGGGTCACGG TCAGAGAAGA AGGAATCTAG CCCTGACCTG 
GAACTGTCAG GAAGGGGGAA AGCGAAGTCT CAGAATCTCC AAAAGCCTGC CGTCAGTGCC 
CCTTCCCAGA CTGGGGCAGA AACAAGACTG AAGGAATCGG GACAAGGGAA AGAACTCACA 
GAATGCAAAC CCAGGACCCG ATCTAGCCCG TCCCCTGACT TCCAGACCCC ACTGGATACA 
GGGGTAGCAG TGGTTAGCAA AGGCATTCCC CAGACAGGAC CATGGCCTAC GGTGCCACCA 
CCACAAGGGA CAGTTTCCCT GACCACCTAC TTTTCTGTTG ACAACTGTAT GACTGATACG 
TACAGGTTGA AGTACCGCCA GAGACCCAAG CTAAATTTTT CTGAGAGCAG CAGCTTATCT 
GGCAGCAATA AGCCTCAATC CCAAACTGAA GTGAGGCTGA AAGCAGTGTT CCATGAAGAT 
CTACAGCCAG CCAATGTATA G

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

USP53 ( XM_001371653.3 ) cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum) -> XP_001371690.1 Monodelphis domestica ubiquitin specific peptidase 53 (USP53), transcript variant X2, mRNA.

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CloneID	OMc24239
Clone ID Related Accession (Same CDS sequence)	XM_016422916.1 , XM_016422917.1 , XM_007495549.2 , XM_001371653.3
Accession Version	XM_001371653.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3261bp) 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	1461600000000
Organism	Monodelphis domestica(gray short-tailed opossum)
Product	inactive ubiquitin carboxyl-terminal hydrolase 53 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008805.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_001371653.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCTGGG TGAAGTTCTT ACGGAAACCC AGTGGCAATC TGGGCAAAGT TTATCAGCCT 
GGAAGTATGT TATCACTAGC ACCTACCAAG GGCTTATTAA ATGAACCAGG ACAAAATAGT 
TGCTTTCTCA ATAGTGCTGT ACAGGTTTTA TGGCAATTGG ATATATTCCG ACGGAGTTTA 
CGCATTCTTT CTGGACATGT TTGTCAGGGG GACGCCTGCA TATTTTGTGC TTTAAAGACG 
ATATTTGCAC AGTTTCAGCA CAGTCGAGAG AAAGCTCTTC CCTCTGATAA CATCAGGCAC 
GCCCTGGCAG AGAGCTTTAG AGATGAACAA CGATTTCAGC TTGGCTTTAT GGACGATGCT 
GCTGAGTGCT TTGAAAATAT CCTTGAGAAG ATTCATTTTC ACATTGTGCC AAACAGTGAC 
TCAGACATGT GCACCTCAAA GTCCTGCATC CCTCACCAGA AGTTTGCCAT GACTCTCTAT 
GAACAGTGTG TGTGCCGGAC CTGTGGAGCA TCCTCAGATC CTTTACCCTT CACAGAGTTT 
GTCCGATACA TTTCTACAAC CGCCCTCTGT AATGAAGTAG AAAAAATGAT TGAAAGACAC 
GAACGTTTGA AGCCTGAAAT GTTTGCGGAA TTGCTTCAGG CTGCAAATAC CACTGATGAC 
TTTAGGAAAT GCCCTAGTAA CTGTGGCCAA AAAATAAAAA TCCGCCGAGT TCTCATGAAT 
TGCCCAGAGA TTGTCACAAT TGGCTTAGTC TGGGATTCTG AGCATTCTGA CCTCACTGAA 
GAAGTGGTTC GCAATCTAGC CACACACCTT TATCTTCCAG GGTTGTTTTA TAGGGTAACT 
GATGAAAGCG CCAAAACTAG TGAGCTTCAT CTTGTTGGTA TGATCTGCTA CACCAGCCGA 
CATTACTGTG CCTTCGCTTT TCATACCAAG AGTTCCAAAT GGGTCTTTTT TGATGACGCC 
AATGTGAAGG AGGTTGGGAC TAAATGGAAA GACGTGGTCT CCAAGTGCAC CAGATGTCAT 
TTTCAGCCAC TGCTTCTGTT TTATGCAAAC CCGGACGGTT CTGCTGTGTC CACTGAAGAT 
GCTCTTAGGC ATGTCATCTA CTGGTCCCAT TATAAAACTA CTGCTGAGGA GGATGCAGGT 
GTTGAGAGGC CCTCAACTCA TAAACCAGAG AGTATCAAAG AAAATGGATT TGGTGACCAG 
GCAAAGCAGA GAACCAATCA GAAGTTACAT GTAGATGACA CTGTGGGTGT GATTCGCAGC 
CCTCTTCTGG CAAGTGGTGG CAGAGGACCA GTTAAGTTTG GTCCTAGTGA CCAGAGGGAC 
AAGCTAAGGA ACATTTCCAG AGAATGTGCC CAAAAAGCTA TTGAGCAGAA AAACTTCCTC 
TCATCACAAA GAAGAGAGTT GGAGAAGGAG CAGAGGAGAG AGCTTGGGAA ACACCGAGAT 
TTGTCCAGTG AGGACCTCTC TCGCCTCAAG TCTGGGTCAC CTGTCATGGC CTCAGCAAAT 
GGCTTCAGGC AACACAGTGG CCAGCCTGGA TACTCCAGCC AAGGTAGAGG GTCTTCCCGC 
CATGACCGAG TCACGTCCCA GAGCCGGACC TCCACACAAG TACCAAGTTC AGTTAAGCCA 
CAGCTCCTGG CTTCCGGGGA AAAGGCATCC AGCAAAGGTA AGGGAGATGG CGCCACTGGA 
TATGATACAG ACAGCAGCCA GGACTCTCGG GATAGGGGAA GTACCTGCAG TGGCGGCAGC 
AGCCGCAGCC GGACCCGCAG CTGGAAGCCA ATGCGAGAGA CACTGAATGT GGACAGTGTG 
TTCAGTGATG CCGAAAAAAG ACATGCCGCT CCCAGGCACA GAGCAGCCAA CAAATCCAAA 
CACAGCCAAG AGCAGAGAGT GAACAATTGG CCTAAAGAGC CACCCAAGCA GAAAGGCCTG 
ATGACCATCT ATGAAGATGA AGGAAAGCAG GAGACTGGAA GCAGGAGTTC ACTGGAGTCT 
TCTGGGAAAG GCCCTGAGAA AGGGAAAGGC CCTATGGAGA CCAAGGCTCC CGGCGACAGT 
GGGCAGATGC AACGGACTGA GTCTGGCTAT GAGAGCAGCG ATCGGGTCAG CAATGGTTCC 
ACCAGCTTGG ACTCCCCACT CCTAGAAGGG AACAGCACAG CCAACCTCAG TGGCACAAGG 
GAAACCTGCC CTGGCAGTAA CCAGATTCAA TCAAGTAAAG TGAACACAGA CAGCTTGCAG 
CACATGTCCC AACAGCGCAA AGACCATCTG GAAGATTTGA GAGAGAACAT CAGGATTACA 
GAAGTGGCTG GTGGACCACC TGATTTCCAC CCAGATTTGC ATCTACAAGT AGATAATCCT 
ATCATGAAGA GATCTCATGT GCATGATACC AGTGAGAAGT TGTCTTCATC GAACCCACAG 
ATCTTCAAGG ACCATGATAG AAGAGAACAC ATCCCACAAC CAAATGAAAA GCAGCTTGAA 
AATTCAAAAG AATGCCATTT TTCTGAAAGG CCTGAAAAAA ATGGTCCATC TTTGCTTAGT 
GCTAAGGGTT CAGTCCCCTT TCACGTTCCT GTTAATTCTG CCTCAGCAAA ATTAGCTGAC 
AGTGATGAGA AACTTCCTTC ATCCCAACTG TTGTCAATAC ACATGAGAGC AGTTGAGTCC 
CAGCCAGGGC TAAGCTCCTT TGCCCAGTCA GGCCTTGGGG AACCATGCGG CCCCTCCGAT 
AACTGTGAGG TGCTAGAACC TGCCACCTGC CGGAGTCTGC CACCTCCTTT GCCTCCAAAG 
AAGTATGCTA AATCCATGGC AGGGTCACGG TCAGAGAAGA AGGAATCTAG CCCTGACCTG 
GAACTGTCAG GAAGGGGGAA AGCGAAGTCT CAGAATCTCC AAAAGCCTGC CGTCAGTGCC 
CCTTCCCAGA CTGGGGCAGA AACAAGACTG AAGGAATCGG GACAAGGGAA AGAACTCACA 
GAATGCAAAC CCAGGACCCG ATCTAGCCCG TCCCCTGACT TCCAGACCCC ACTGGATACA 
GGGGTAGCAG TGGTTAGCAA AGGCATTCCC CAGACAGGAC CATGGCCTAC GGTGCCACCA 
CCACAAGGGA CAGTTTCCCT GACCACCTAC TTTTCTGTTG ACAACTGTAT GACTGATACG 
TACAGGTTGA AGTACCGCCA GAGACCCAAG CTAAATTTTT CTGAGAGCAG CAGCTTATCT 
GGCAGCAATA AGCCTCAATC CCAAACTGAA GTGAGGCTGA AAGCAGTGTT CCATGAAGAT 
CTACAGCCAG CCAATGTATA G

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

RefSeq	XP_001371690.1
CDS	692..3952
Translation	MAWVKFLRKPSGNLGKVYQPGSMLSLAPTKGLLNEPGQNSCFLNSAVQVLWQLDIFRRSLRILSGHVCQGDACIFCALKTIFAQFQHSREKALPSDNIRHALAESFRDEQRFQLGFMDDAAECFENILEKIHFHIVPNSDSDMCTSKSCIPHQKFAMTLYEQCVCRTCGASSDPLPFTEFVRYISTTALCNEVEKMIERHERLKPEMFAELLQAANTTDDFRKCPSNCGQKIKIRRVLMNCPEIVTIGLVWDSEHSDLTEEVVRNLATHLYLPGLFYRVTDESAKTSELHLVGMICYTSRHYCAFAFHTKSSKWVFFDDANVKEVGTKWKDVVSKCTRCHFQPLLLFYANPDGSAVSTEDALRHVIYWSHYKTTAEEDAGVERPSTHKPESIKENGFGDQAKQRTNQKLHVDDTVGVIRSPLLASGGRGPVKFGPSDQRDKLRNISRECAQKAIEQKNFLSSQRRELEKEQRRELGKHRDLSSEDLSRLKSGSPVMASANGFRQHSGQPGYSSQGRGSSRHDRVTSQSRTSTQVPSSVKPQLLASGEKASSKGKGDGATGYDTDSSQDSRDRGSTCSGGSSRSRTRSWKPMRETLNVDSVFSDAEKRHAAPRHRAANKSKHSQEQRVNNWPKEPPKQKGLMTIYEDEGKQETGSRSSLESSGKGPEKGKGPMETKAPGDSGQMQRTESGYESSDRVSNGSTSLDSPLLEGNSTANLSGTRETCPGSNQIQSSKVNTDSLQHMSQQRKDHLEDLRENIRITEVAGGPPDFHPDLHLQVDNPIMKRSHVHDTSEKLSSSNPQIFKDHDRREHIPQPNEKQLENSKECHFSERPEKNGPSLLSAKGSVPFHVPVNSASAKLADSDEKLPSSQLLSIHMRAVESQPGLSSFAQSGLGEPCGPSDNCEVLEPATCRSLPPPLPPKKYAKSMAGSRSEKKESSPDLELSGRGKAKSQNLQKPAVSAPSQTGAETRLKESGQGKELTECKPRTRSSPSPDFQTPLDTGVAVVSKGIPQTGPWPTVPPPQGTVSLTTYFSVDNCMTDTYRLKYRQRPKLNFSESSSLSGSNKPQSQTEVRLKAVFHEDLQPANV

Target ORF information:

RefSeq Version	XM_001371653.3
Organism	Monodelphis domestica(gray short-tailed opossum)
Definition	Monodelphis domestica ubiquitin specific peptidase 53 (USP53), transcript variant X2, mRNA.

Target ORF information:

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

XM_001371653.3

ORF Insert Sequence:

ATGGCCTGGG TGAAGTTCTT ACGGAAACCC AGTGGCAATC TGGGCAAAGT TTATCAGCCT 
GGAAGTATGT TATCACTAGC ACCTACCAAG GGCTTATTAA ATGAACCAGG ACAAAATAGT 
TGCTTTCTCA ATAGTGCTGT ACAGGTTTTA TGGCAATTGG ATATATTCCG ACGGAGTTTA 
CGCATTCTTT CTGGACATGT TTGTCAGGGG GACGCCTGCA TATTTTGTGC TTTAAAGACG 
ATATTTGCAC AGTTTCAGCA CAGTCGAGAG AAAGCTCTTC CCTCTGATAA CATCAGGCAC 
GCCCTGGCAG AGAGCTTTAG AGATGAACAA CGATTTCAGC TTGGCTTTAT GGACGATGCT 
GCTGAGTGCT TTGAAAATAT CCTTGAGAAG ATTCATTTTC ACATTGTGCC AAACAGTGAC 
TCAGACATGT GCACCTCAAA GTCCTGCATC CCTCACCAGA AGTTTGCCAT GACTCTCTAT 
GAACAGTGTG TGTGCCGGAC CTGTGGAGCA TCCTCAGATC CTTTACCCTT CACAGAGTTT 
GTCCGATACA TTTCTACAAC CGCCCTCTGT AATGAAGTAG AAAAAATGAT TGAAAGACAC 
GAACGTTTGA AGCCTGAAAT GTTTGCGGAA TTGCTTCAGG CTGCAAATAC CACTGATGAC 
TTTAGGAAAT GCCCTAGTAA CTGTGGCCAA AAAATAAAAA TCCGCCGAGT TCTCATGAAT 
TGCCCAGAGA TTGTCACAAT TGGCTTAGTC TGGGATTCTG AGCATTCTGA CCTCACTGAA 
GAAGTGGTTC GCAATCTAGC CACACACCTT TATCTTCCAG GGTTGTTTTA TAGGGTAACT 
GATGAAAGCG CCAAAACTAG TGAGCTTCAT CTTGTTGGTA TGATCTGCTA CACCAGCCGA 
CATTACTGTG CCTTCGCTTT TCATACCAAG AGTTCCAAAT GGGTCTTTTT TGATGACGCC 
AATGTGAAGG AGGTTGGGAC TAAATGGAAA GACGTGGTCT CCAAGTGCAC CAGATGTCAT 
TTTCAGCCAC TGCTTCTGTT TTATGCAAAC CCGGACGGTT CTGCTGTGTC CACTGAAGAT 
GCTCTTAGGC ATGTCATCTA CTGGTCCCAT TATAAAACTA CTGCTGAGGA GGATGCAGGT 
GTTGAGAGGC CCTCAACTCA TAAACCAGAG AGTATCAAAG AAAATGGATT TGGTGACCAG 
GCAAAGCAGA GAACCAATCA GAAGTTACAT GTAGATGACA CTGTGGGTGT GATTCGCAGC 
CCTCTTCTGG CAAGTGGTGG CAGAGGACCA GTTAAGTTTG GTCCTAGTGA CCAGAGGGAC 
AAGCTAAGGA ACATTTCCAG AGAATGTGCC CAAAAAGCTA TTGAGCAGAA AAACTTCCTC 
TCATCACAAA GAAGAGAGTT GGAGAAGGAG CAGAGGAGAG AGCTTGGGAA ACACCGAGAT 
TTGTCCAGTG AGGACCTCTC TCGCCTCAAG TCTGGGTCAC CTGTCATGGC CTCAGCAAAT 
GGCTTCAGGC AACACAGTGG CCAGCCTGGA TACTCCAGCC AAGGTAGAGG GTCTTCCCGC 
CATGACCGAG TCACGTCCCA GAGCCGGACC TCCACACAAG TACCAAGTTC AGTTAAGCCA 
CAGCTCCTGG CTTCCGGGGA AAAGGCATCC AGCAAAGGTA AGGGAGATGG CGCCACTGGA 
TATGATACAG ACAGCAGCCA GGACTCTCGG GATAGGGGAA GTACCTGCAG TGGCGGCAGC 
AGCCGCAGCC GGACCCGCAG CTGGAAGCCA ATGCGAGAGA CACTGAATGT GGACAGTGTG 
TTCAGTGATG CCGAAAAAAG ACATGCCGCT CCCAGGCACA GAGCAGCCAA CAAATCCAAA 
CACAGCCAAG AGCAGAGAGT GAACAATTGG CCTAAAGAGC CACCCAAGCA GAAAGGCCTG 
ATGACCATCT ATGAAGATGA AGGAAAGCAG GAGACTGGAA GCAGGAGTTC ACTGGAGTCT 
TCTGGGAAAG GCCCTGAGAA AGGGAAAGGC CCTATGGAGA CCAAGGCTCC CGGCGACAGT 
GGGCAGATGC AACGGACTGA GTCTGGCTAT GAGAGCAGCG ATCGGGTCAG CAATGGTTCC 
ACCAGCTTGG ACTCCCCACT CCTAGAAGGG AACAGCACAG CCAACCTCAG TGGCACAAGG 
GAAACCTGCC CTGGCAGTAA CCAGATTCAA TCAAGTAAAG TGAACACAGA CAGCTTGCAG 
CACATGTCCC AACAGCGCAA AGACCATCTG GAAGATTTGA GAGAGAACAT CAGGATTACA 
GAAGTGGCTG GTGGACCACC TGATTTCCAC CCAGATTTGC ATCTACAAGT AGATAATCCT 
ATCATGAAGA GATCTCATGT GCATGATACC AGTGAGAAGT TGTCTTCATC GAACCCACAG 
ATCTTCAAGG ACCATGATAG AAGAGAACAC ATCCCACAAC CAAATGAAAA GCAGCTTGAA 
AATTCAAAAG AATGCCATTT TTCTGAAAGG CCTGAAAAAA ATGGTCCATC TTTGCTTAGT 
GCTAAGGGTT CAGTCCCCTT TCACGTTCCT GTTAATTCTG CCTCAGCAAA ATTAGCTGAC 
AGTGATGAGA AACTTCCTTC ATCCCAACTG TTGTCAATAC ACATGAGAGC AGTTGAGTCC 
CAGCCAGGGC TAAGCTCCTT TGCCCAGTCA GGCCTTGGGG AACCATGCGG CCCCTCCGAT 
AACTGTGAGG TGCTAGAACC TGCCACCTGC CGGAGTCTGC CACCTCCTTT GCCTCCAAAG 
AAGTATGCTA AATCCATGGC AGGGTCACGG TCAGAGAAGA AGGAATCTAG CCCTGACCTG 
GAACTGTCAG GAAGGGGGAA AGCGAAGTCT CAGAATCTCC AAAAGCCTGC CGTCAGTGCC 
CCTTCCCAGA CTGGGGCAGA AACAAGACTG AAGGAATCGG GACAAGGGAA AGAACTCACA 
GAATGCAAAC CCAGGACCCG ATCTAGCCCG TCCCCTGACT TCCAGACCCC ACTGGATACA 
GGGGTAGCAG TGGTTAGCAA AGGCATTCCC CAGACAGGAC CATGGCCTAC GGTGCCACCA 
CCACAAGGGA CAGTTTCCCT GACCACCTAC TTTTCTGTTG ACAACTGTAT GACTGATACG 
TACAGGTTGA AGTACCGCCA GAGACCCAAG CTAAATTTTT CTGAGAGCAG CAGCTTATCT 
GGCAGCAATA AGCCTCAATC CCAAACTGAA GTGAGGCTGA AAGCAGTGTT CCATGAAGAT 
CTACAGCCAG CCAATGTATA G

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

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USP53 cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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