Usp47 cDNA ORF clone, Mus pahari(shrew mouse)

The following Usp47 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Usp47 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
OMv46659 XM_021219841.2
Latest version!
Mus pahari ubiquitin specific peptidase 47 (Usp47), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv46660 XM_021219849.2
Latest version!
Mus pahari ubiquitin specific peptidase 47 (Usp47), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv46661 XM_021219859.1
Latest version!
Mus pahari ubiquitin specific peptidase 47 (Usp47), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv77626 XM_029548178.1
Latest version!
Mus pahari ubiquitin specific peptidase 47 (Usp47), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMv77627 XM_029548189.1
Latest version!
Mus pahari ubiquitin specific peptidase 47 (Usp47), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
View Old Accession Versions >>
OMv46659 XM_021219841.1 Mus pahari ubiquitin specific peptidase 47 (Usp47), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv46660 XM_021219849.1 Mus pahari ubiquitin specific peptidase 47 (Usp47), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
Hide Old Accession Versions >>

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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)
    CloneID OMv46659
    Clone ID Related Accession (Same CDS sequence) XM_021219841.2 , XM_021219841.1
    Accession Version XM_021219841.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4128bp)
    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 2019-06-17
    Organism Mus pahari(shrew mouse)
    Product ubiquitin carboxyl-terminal hydrolase 47 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034590.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 18, 2019 this sequence version replaced XM_021219841.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGTGCCCG GCGAGGAGAA CCAACTGGTC CCGAAGGAGG ATGTGTTTTG GAGATGCAGA 
    CAAAATATCT TTGATGAAAT GAAGAAGAAA TTTTTACAGA TAGAAAATGC TGCTGAAGAA
    CCTAGAGTCT TATGTATAAT ACAAGACACT ACTAACTCGA AGACAGTGAG TGAAAGGATC
    ACATTAAATT TACCAGCGTC TACCCCAGTC CGAAAGCTCT TTGAAGATGT GGCCAACAAA
    GTAGGCTACA TAAATGGAAC CTTTGATTTG ACATGGGGAA ATGGAGTCAA TACTGCTGAT
    ACGGCACCAC TGGATCACAC CAGTGACAAG TCTCTTCTTG ATGCTAATTT TGAGCCAGGA
    AAGAAGAACT TTCTGCATTT GACAGATAAA GATGGTGAAC CGCCTCAGAT GTTGCTGGAG
    GACTCCAATA ACGTGGATGA CAGCGTACAT GACAGGTTCA TAGGTCCACT TCCAAGAGAA
    GGTTCTGTGG CCTCTACCAA TGATTATGTC AGCCAGAGCT ACTCCTATTC ATCAATTTTG
    AGCAAGTCAG AAACTGGTTA TGTGGGATTA GTAAACCAGG CGATGACATG CTATTTGAAT
    AGCCTTTTGC AAACACTTTT TATGACTCCT GAATTTAGGA ATGCATTATA TAAGTGGGAA
    TTTGAAGACT CTGAAGAAGA TCCTGTGACG AGCATTCCAT ACCAGCTTCA AAGGCTTTTT
    GTTTTGTTAC AAACCAGCAA AAAGAGAGCA ATTGAGACCA CAGATGTTAC AAGGAGCTTT
    GGATGGGATA GCAGTGAGGC TTGGCAACAG CATGATGTAC AAGAACTGTG CCGTGTTATG
    TTTGATGCTT TGGAACAGAA ATGGAAGCAA ACAGAACAGG CTGATCTTAT AAATGAGCTG
    TACCAAGGCA AGCTGAAAGA CTATGTGAGG TGTCTGGAAT GCGGTTATGA AGGCTGGAGA
    ATTGACACAT ATCTTGATAT TCCACTGGTC ATCCGACCTT ATGGGTCTAG CCAAGCATTT
    GCTAGTGTGG AAGAAGCATT GCATGCATTT ATTCAACCAG AGATCTTGGA TGGCCCAAAT
    CAATATTTTT GTGAACGTTG TAAGAAGAAG TGTGATGCAC GTAAGGGCCT TCGGTTTTTG
    CATTTCCCCT ATCTGTTGAC CTTACAGTTG AAAAGGTTTG ATTTTGATTA TACAACCATG
    CATAGAATTA AACTCAATGA TCGAATGTCA TTTCCGGAGG AGCTGGATAT GAGCACATTT
    ATTGATATTG AAGATGAGAA ATCTCCTCAG ACTGAAAGTT GCACTGATAG TGGAGCAGAA
    AATGAAGGCA GTTGCCACAG CGACCAGATG AGTAATGATT TCTCCACGGA TGATGCGGTT
    GATGAAGGGA TTTGCCTGGA GAGCAGTAGT GGGAGTGAGA AGATTTCAAA ACCTGGCCTG
    GAAAAGAACT CTCTGATGTA TGAACTCTTC TCAGTGATGG TGCATTCAGG GAGTGCTGCT
    GGAGGACACT ATTATGCTTG CATAAAGTCT TTCAGTGATG ATCAATGGTA CAGTTTCAAT
    GACCAACATG TGAGCAGGAT AACACAAGAA GACATTAAGA AGACACATGG TGGGTCTTCA
    GGAAGCAGAG GCTACTACTC CAGTGCTTTT GCAAGCTCAA CAAATGCATA TATGCTGATA
    TACAGACTGA AGGATCCAAC AAGAAATGCA AAATTTCTAG AAGTGGACGA GTACCCAGAA
    CACATTAAGA ATCTGGTGCA GAAGGAGAGA GAATTGGAAG AACAGGAAAA GAGGCAACGA
    GAAATTGAAC GCAACACGTG CAAGATAAAA TTATTCTGTT TACATCCTGT GAAACAAGTA
    ATGATGGAAA ACAAGTTGGA GGTTCATAAG GATAAGACAT TAAAAGAAGC CGTGGAAATG
    GCTTATAAGA TGATGGATTT AGAAGATGTG ATTCCCCTGG ATTGCTGTCG CCTGGTAAAA
    TATGACGAGT TTCATGATTA CCTGGAACGA TCGTATGAGG GAGAAGAAGA TACGCCAATG
    GGGCTGCTTC TAGGAGGAGT CAAGTCCACA TACATGTTTG ATCTGCTGTT GGAAACAAGA
    AAGCCTGATC AAATTTTTCA GTCTTACAAA CCTGGAGAAG TGATGGTGAA AGTTCATGTT
    GTTGATCTGA AGGCAGAGAC TGTTGCTGCT CCTGTAACAG TGCGTGCGTA TTTAAATCAG
    ACAGTTACAG AGTTCAAACA GCTGATCTCA AAGGCCACAC ACTTACCTGC AGACTCCATG
    AGGATAGTGC TGGAACGCTG CTACAATGAC CTGCGCCTTC TCAGCATGCC CAGCAAGACC
    CTGAAGGCAG AAGGCTTCTT CAGAAGTAAC AAGGTGTTTG TTGAAAGCTC TGAGACAGTG
    GATCACCAGG CAGCCTTTAC AGACTCCCAC TTGTGGAAAC TCCTGGATCG ACATGCAAAT
    ACAATCCGGT TATTTGTTTT GCTGCCTGAA CAATCTCCAG GATCATATTC AAAAAGGACA
    GCATACCAGA AAGCTGGAGG TGATTCTGGT AATGTGGACG ATGATTGTGA AAGAGTCAAA
    GGACCTGCAG GGAATTTAAA GTCTGTGGAT GCTATTCTAG AAGAGAGCAC TGAAAAACTC
    AAAAGCTTGT CACTGCAGCA GCAGCAAGAT GGGGACAACG GAGACAGCAG CAAAAGCACT
    GAGACAAGTG ACTTTGAAAA TATTGAATCA CCTCTCAATG AGAGGGGCTC TTCCACCTCT
    GTGGATAATC GAGATCTTGA CCAGCACATT CAGACTTCTG ACCCAGAAAA CTTTCAGTCT
    GAAGAACGCT CAGACTCAGA TGTGAATAAT GACCGGAGTA CAAGTTCAGT AGACAGTGAT
    ATTCTTAGCT CCAGTCACAG CAGCGACACT CTGTGCAATG CAGACAGTGC TCAGATTCCT
    CTGGCCAATG GACTCGACTC TCACAGTATC ACAAGTAGTA GAAGAACTAA GGCAAACGAA
    GGGAAAAAGG AGACCTGGGA CACAGCTGAA GAAGACTCTG GGACTGACAG TGAATATGAC
    GAGAGTGGCA AGAGCAGGGG GGACATGCAG TACATGTACT TCAAAGCTGA CCCCTACACT
    GCGGACGAAG GCTCTGGGGA AGGACACAAA TGGTTGATGG TGCATGTTGA TAAGAGAATC
    ACCCTGGCAG CTTTCAAACA GCATTTAGAA CCCTTTGTTG GAGTCCTCTC CTCTCACTTC
    AAGGTTTTTC GAGTGTACAC CAGCAATCAA GAGTTTGAGA CCGTCCGGTT GAATGAGACC
    CTTTCATCAT TTTCAGATGA CAATAAGATC ACAATCCGAC TGGGGAGAGC ACTGAAGAAG
    GGAGAGTACA GAGTTAAAGT GTGCCAGCTC TTAGTCAATG AGCAAGAGCC ATGCAAGTTT
    CTGCTAGATG CTGTGTTTGC TAAAGGCATG ACTGTGCGGC AATCGAAAGA GGAGCTGATT
    CCTCAACTCA GGGAGCAGTG TGGCTTAGAC CTCAGCATCG ACAGGTTTCG TCTAAGGAAG
    AAAACATGGA AGAATCCTGG CACTGTCTTT TTGGATTATC ATATTTATGA AGAAGATATT
    AATATTTCCA GCAACTGGGA AGTTTTCCTG GAAGTTCTTG ATGGTGTGGA GAAGATGAAG
    TCCATGTCAC AGCTTGCCAT CTTAACAAGA CGCTGGAGGC CTGCAGAGAT GAAGTTGGAC
    CCCTTCCAGG AGCTTGTGTT GGAAAGCAAT AGTGTTGATG AACTCCGAGA GAAGCTAAGT
    GAAATCAGTG GGATTCCTTT GGAAGACATT GAATTTGCCA AGGGTAGGGG GACCTTCCCC
    TGTGATATTT CTGTCCTTGA TATTCATCAA GATTTGGACT GGAATCCTAA AGTCTCTACC
    CTGAATGTTT GGCCTCTTTA TATCTGTGAT GATGGTGCCG TCATATTTTA TAGGGATAAA
    ACAGAAGAAG TAATGGAATT GACAGATGAG CAAAGAAATG AATTGATGAA AAAGGAAAGC
    AGCCGACTGC AGAAGACAGG ACATCGTGTG ACATACTCCC CTCGAAAAGA GAAAGCACTC
    AAGATCTACC TGGATGGGGC GCCAAATAAA GATGTGGCTC AAGACTGA

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

    RefSeq XP_021075500.1
    CDS212..4339
    Translation

    Target ORF information:

    RefSeq Version XM_021219841.2
    Organism Mus pahari(shrew mouse)
    Definition Mus pahari ubiquitin specific peptidase 47 (Usp47), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021219841.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGTGCCCG GCGAGGAGAA CCAACTGGTC CCGAAGGAGG ATGTGTTTTG GAGATGCAGA 
    CAAAATATCT TTGATGAAAT GAAGAAGAAA TTTTTACAGA TAGAAAATGC TGCTGAAGAA
    CCTAGAGTCT TATGTATAAT ACAAGACACT ACTAACTCGA AGACAGTGAG TGAAAGGATC
    ACATTAAATT TACCAGCGTC TACCCCAGTC CGAAAGCTCT TTGAAGATGT GGCCAACAAA
    GTAGGCTACA TAAATGGAAC CTTTGATTTG ACATGGGGAA ATGGAGTCAA TACTGCTGAT
    ACGGCACCAC TGGATCACAC CAGTGACAAG TCTCTTCTTG ATGCTAATTT TGAGCCAGGA
    AAGAAGAACT TTCTGCATTT GACAGATAAA GATGGTGAAC CGCCTCAGAT GTTGCTGGAG
    GACTCCAATA ACGTGGATGA CAGCGTACAT GACAGGTTCA TAGGTCCACT TCCAAGAGAA
    GGTTCTGTGG CCTCTACCAA TGATTATGTC AGCCAGAGCT ACTCCTATTC ATCAATTTTG
    AGCAAGTCAG AAACTGGTTA TGTGGGATTA GTAAACCAGG CGATGACATG CTATTTGAAT
    AGCCTTTTGC AAACACTTTT TATGACTCCT GAATTTAGGA ATGCATTATA TAAGTGGGAA
    TTTGAAGACT CTGAAGAAGA TCCTGTGACG AGCATTCCAT ACCAGCTTCA AAGGCTTTTT
    GTTTTGTTAC AAACCAGCAA AAAGAGAGCA ATTGAGACCA CAGATGTTAC AAGGAGCTTT
    GGATGGGATA GCAGTGAGGC TTGGCAACAG CATGATGTAC AAGAACTGTG CCGTGTTATG
    TTTGATGCTT TGGAACAGAA ATGGAAGCAA ACAGAACAGG CTGATCTTAT AAATGAGCTG
    TACCAAGGCA AGCTGAAAGA CTATGTGAGG TGTCTGGAAT GCGGTTATGA AGGCTGGAGA
    ATTGACACAT ATCTTGATAT TCCACTGGTC ATCCGACCTT ATGGGTCTAG CCAAGCATTT
    GCTAGTGTGG AAGAAGCATT GCATGCATTT ATTCAACCAG AGATCTTGGA TGGCCCAAAT
    CAATATTTTT GTGAACGTTG TAAGAAGAAG TGTGATGCAC GTAAGGGCCT TCGGTTTTTG
    CATTTCCCCT ATCTGTTGAC CTTACAGTTG AAAAGGTTTG ATTTTGATTA TACAACCATG
    CATAGAATTA AACTCAATGA TCGAATGTCA TTTCCGGAGG AGCTGGATAT GAGCACATTT
    ATTGATATTG AAGATGAGAA ATCTCCTCAG ACTGAAAGTT GCACTGATAG TGGAGCAGAA
    AATGAAGGCA GTTGCCACAG CGACCAGATG AGTAATGATT TCTCCACGGA TGATGCGGTT
    GATGAAGGGA TTTGCCTGGA GAGCAGTAGT GGGAGTGAGA AGATTTCAAA ACCTGGCCTG
    GAAAAGAACT CTCTGATGTA TGAACTCTTC TCAGTGATGG TGCATTCAGG GAGTGCTGCT
    GGAGGACACT ATTATGCTTG CATAAAGTCT TTCAGTGATG ATCAATGGTA CAGTTTCAAT
    GACCAACATG TGAGCAGGAT AACACAAGAA GACATTAAGA AGACACATGG TGGGTCTTCA
    GGAAGCAGAG GCTACTACTC CAGTGCTTTT GCAAGCTCAA CAAATGCATA TATGCTGATA
    TACAGACTGA AGGATCCAAC AAGAAATGCA AAATTTCTAG AAGTGGACGA GTACCCAGAA
    CACATTAAGA ATCTGGTGCA GAAGGAGAGA GAATTGGAAG AACAGGAAAA GAGGCAACGA
    GAAATTGAAC GCAACACGTG CAAGATAAAA TTATTCTGTT TACATCCTGT GAAACAAGTA
    ATGATGGAAA ACAAGTTGGA GGTTCATAAG GATAAGACAT TAAAAGAAGC CGTGGAAATG
    GCTTATAAGA TGATGGATTT AGAAGATGTG ATTCCCCTGG ATTGCTGTCG CCTGGTAAAA
    TATGACGAGT TTCATGATTA CCTGGAACGA TCGTATGAGG GAGAAGAAGA TACGCCAATG
    GGGCTGCTTC TAGGAGGAGT CAAGTCCACA TACATGTTTG ATCTGCTGTT GGAAACAAGA
    AAGCCTGATC AAATTTTTCA GTCTTACAAA CCTGGAGAAG TGATGGTGAA AGTTCATGTT
    GTTGATCTGA AGGCAGAGAC TGTTGCTGCT CCTGTAACAG TGCGTGCGTA TTTAAATCAG
    ACAGTTACAG AGTTCAAACA GCTGATCTCA AAGGCCACAC ACTTACCTGC AGACTCCATG
    AGGATAGTGC TGGAACGCTG CTACAATGAC CTGCGCCTTC TCAGCATGCC CAGCAAGACC
    CTGAAGGCAG AAGGCTTCTT CAGAAGTAAC AAGGTGTTTG TTGAAAGCTC TGAGACAGTG
    GATCACCAGG CAGCCTTTAC AGACTCCCAC TTGTGGAAAC TCCTGGATCG ACATGCAAAT
    ACAATCCGGT TATTTGTTTT GCTGCCTGAA CAATCTCCAG GATCATATTC AAAAAGGACA
    GCATACCAGA AAGCTGGAGG TGATTCTGGT AATGTGGACG ATGATTGTGA AAGAGTCAAA
    GGACCTGCAG GGAATTTAAA GTCTGTGGAT GCTATTCTAG AAGAGAGCAC TGAAAAACTC
    AAAAGCTTGT CACTGCAGCA GCAGCAAGAT GGGGACAACG GAGACAGCAG CAAAAGCACT
    GAGACAAGTG ACTTTGAAAA TATTGAATCA CCTCTCAATG AGAGGGGCTC TTCCACCTCT
    GTGGATAATC GAGATCTTGA CCAGCACATT CAGACTTCTG ACCCAGAAAA CTTTCAGTCT
    GAAGAACGCT CAGACTCAGA TGTGAATAAT GACCGGAGTA CAAGTTCAGT AGACAGTGAT
    ATTCTTAGCT CCAGTCACAG CAGCGACACT CTGTGCAATG CAGACAGTGC TCAGATTCCT
    CTGGCCAATG GACTCGACTC TCACAGTATC ACAAGTAGTA GAAGAACTAA GGCAAACGAA
    GGGAAAAAGG AGACCTGGGA CACAGCTGAA GAAGACTCTG GGACTGACAG TGAATATGAC
    GAGAGTGGCA AGAGCAGGGG GGACATGCAG TACATGTACT TCAAAGCTGA CCCCTACACT
    GCGGACGAAG GCTCTGGGGA AGGACACAAA TGGTTGATGG TGCATGTTGA TAAGAGAATC
    ACCCTGGCAG CTTTCAAACA GCATTTAGAA CCCTTTGTTG GAGTCCTCTC CTCTCACTTC
    AAGGTTTTTC GAGTGTACAC CAGCAATCAA GAGTTTGAGA CCGTCCGGTT GAATGAGACC
    CTTTCATCAT TTTCAGATGA CAATAAGATC ACAATCCGAC TGGGGAGAGC ACTGAAGAAG
    GGAGAGTACA GAGTTAAAGT GTGCCAGCTC TTAGTCAATG AGCAAGAGCC ATGCAAGTTT
    CTGCTAGATG CTGTGTTTGC TAAAGGCATG ACTGTGCGGC AATCGAAAGA GGAGCTGATT
    CCTCAACTCA GGGAGCAGTG TGGCTTAGAC CTCAGCATCG ACAGGTTTCG TCTAAGGAAG
    AAAACATGGA AGAATCCTGG CACTGTCTTT TTGGATTATC ATATTTATGA AGAAGATATT
    AATATTTCCA GCAACTGGGA AGTTTTCCTG GAAGTTCTTG ATGGTGTGGA GAAGATGAAG
    TCCATGTCAC AGCTTGCCAT CTTAACAAGA CGCTGGAGGC CTGCAGAGAT GAAGTTGGAC
    CCCTTCCAGG AGCTTGTGTT GGAAAGCAAT AGTGTTGATG AACTCCGAGA GAAGCTAAGT
    GAAATCAGTG GGATTCCTTT GGAAGACATT GAATTTGCCA AGGGTAGGGG GACCTTCCCC
    TGTGATATTT CTGTCCTTGA TATTCATCAA GATTTGGACT GGAATCCTAA AGTCTCTACC
    CTGAATGTTT GGCCTCTTTA TATCTGTGAT GATGGTGCCG TCATATTTTA TAGGGATAAA
    ACAGAAGAAG TAATGGAATT GACAGATGAG CAAAGAAATG AATTGATGAA AAAGGAAAGC
    AGCCGACTGC AGAAGACAGG ACATCGTGTG ACATACTCCC CTCGAAAAGA GAAAGCACTC
    AAGATCTACC TGGATGGGGC GCCAAATAAA GATGTGGCTC AAGACTGA

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

    CloneID OMv46659
    Clone ID Related Accession (Same CDS sequence) XM_021219841.2 , XM_021219841.1
    Accession Version XM_021219841.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4128bp)
    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 2017-05-18
    Organism Mus pahari(shrew mouse)
    Product ubiquitin carboxyl-terminal hydrolase 47 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034590.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus pahari Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGTGCCCG GCGAGGAGAA CCAACTGGTC CCGAAGGAGG ATGTGTTTTG GAGATGCAGA 
    CAAAATATCT TTGATGAAAT GAAGAAGAAA TTTTTACAGA TAGAAAATGC TGCTGAAGAA
    CCTAGAGTCT TATGTATAAT ACAAGACACT ACTAACTCGA AGACAGTGAG TGAAAGGATC
    ACATTAAATT TACCAGCGTC TACCCCAGTC CGAAAGCTCT TTGAAGATGT GGCCAACAAA
    GTAGGCTACA TAAATGGAAC CTTTGATTTG ACATGGGGAA ATGGAGTCAA TACTGCTGAT
    ACGGCACCAC TGGATCACAC CAGTGACAAG TCTCTTCTTG ATGCTAATTT TGAGCCAGGA
    AAGAAGAACT TTCTGCATTT GACAGATAAA GATGGTGAAC CGCCTCAGAT GTTGCTGGAG
    GACTCCAATA ACGTGGATGA CAGCGTACAT GACAGGTTCA TAGGTCCACT TCCAAGAGAA
    GGTTCTGTGG CCTCTACCAA TGATTATGTC AGCCAGAGCT ACTCCTATTC ATCAATTTTG
    AGCAAGTCAG AAACTGGTTA TGTGGGATTA GTAAACCAGG CGATGACATG CTATTTGAAT
    AGCCTTTTGC AAACACTTTT TATGACTCCT GAATTTAGGA ATGCATTATA TAAGTGGGAA
    TTTGAAGACT CTGAAGAAGA TCCTGTGACG AGCATTCCAT ACCAGCTTCA AAGGCTTTTT
    GTTTTGTTAC AAACCAGCAA AAAGAGAGCA ATTGAGACCA CAGATGTTAC AAGGAGCTTT
    GGATGGGATA GCAGTGAGGC TTGGCAACAG CATGATGTAC AAGAACTGTG CCGTGTTATG
    TTTGATGCTT TGGAACAGAA ATGGAAGCAA ACAGAACAGG CTGATCTTAT AAATGAGCTG
    TACCAAGGCA AGCTGAAAGA CTATGTGAGG TGTCTGGAAT GCGGTTATGA AGGCTGGAGA
    ATTGACACAT ATCTTGATAT TCCACTGGTC ATCCGACCTT ATGGGTCTAG CCAAGCATTT
    GCTAGTGTGG AAGAAGCATT GCATGCATTT ATTCAACCAG AGATCTTGGA TGGCCCAAAT
    CAATATTTTT GTGAACGTTG TAAGAAGAAG TGTGATGCAC GTAAGGGCCT TCGGTTTTTG
    CATTTCCCCT ATCTGTTGAC CTTACAGTTG AAAAGGTTTG ATTTTGATTA TACAACCATG
    CATAGAATTA AACTCAATGA TCGAATGTCA TTTCCGGAGG AGCTGGATAT GAGCACATTT
    ATTGATATTG AAGATGAGAA ATCTCCTCAG ACTGAAAGTT GCACTGATAG TGGAGCAGAA
    AATGAAGGCA GTTGCCACAG CGACCAGATG AGTAATGATT TCTCCACGGA TGATGCGGTT
    GATGAAGGGA TTTGCCTGGA GAGCAGTAGT GGGAGTGAGA AGATTTCAAA ACCTGGCCTG
    GAAAAGAACT CTCTGATGTA TGAACTCTTC TCAGTGATGG TGCATTCAGG GAGTGCTGCT
    GGAGGACACT ATTATGCTTG CATAAAGTCT TTCAGTGATG ATCAATGGTA CAGTTTCAAT
    GACCAACATG TGAGCAGGAT AACACAAGAA GACATTAAGA AGACACATGG TGGGTCTTCA
    GGAAGCAGAG GCTACTACTC CAGTGCTTTT GCAAGCTCAA CAAATGCATA TATGCTGATA
    TACAGACTGA AGGATCCAAC AAGAAATGCA AAATTTCTAG AAGTGGACGA GTACCCAGAA
    CACATTAAGA ATCTGGTGCA GAAGGAGAGA GAATTGGAAG AACAGGAAAA GAGGCAACGA
    GAAATTGAAC GCAACACGTG CAAGATAAAA TTATTCTGTT TACATCCTGT GAAACAAGTA
    ATGATGGAAA ACAAGTTGGA GGTTCATAAG GATAAGACAT TAAAAGAAGC CGTGGAAATG
    GCTTATAAGA TGATGGATTT AGAAGATGTG ATTCCCCTGG ATTGCTGTCG CCTGGTAAAA
    TATGACGAGT TTCATGATTA CCTGGAACGA TCGTATGAGG GAGAAGAAGA TACGCCAATG
    GGGCTGCTTC TAGGAGGAGT CAAGTCCACA TACATGTTTG ATCTGCTGTT GGAAACAAGA
    AAGCCTGATC AAATTTTTCA GTCTTACAAA CCTGGAGAAG TGATGGTGAA AGTTCATGTT
    GTTGATCTGA AGGCAGAGAC TGTTGCTGCT CCTGTAACAG TGCGTGCGTA TTTAAATCAG
    ACAGTTACAG AGTTCAAACA GCTGATCTCA AAGGCCACAC ACTTACCTGC AGACTCCATG
    AGGATAGTGC TGGAACGCTG CTACAATGAC CTGCGCCTTC TCAGCATGCC CAGCAAGACC
    CTGAAGGCAG AAGGCTTCTT CAGAAGTAAC AAGGTGTTTG TTGAAAGCTC TGAGACAGTG
    GATCACCAGG CAGCCTTTAC AGACTCCCAC TTGTGGAAAC TCCTGGATCG ACATGCAAAT
    ACAATCCGGT TATTTGTTTT GCTGCCTGAA CAATCTCCAG GATCATATTC AAAAAGGACA
    GCATACCAGA AAGCTGGAGG TGATTCTGGT AATGTGGACG ATGATTGTGA AAGAGTCAAA
    GGACCTGCAG GGAATTTAAA GTCTGTGGAT GCTATTCTAG AAGAGAGCAC TGAAAAACTC
    AAAAGCTTGT CACTGCAGCA GCAGCAAGAT GGGGACAACG GAGACAGCAG CAAAAGCACT
    GAGACAAGTG ACTTTGAAAA TATTGAATCA CCTCTCAATG AGAGGGGCTC TTCCACCTCT
    GTGGATAATC GAGATCTTGA CCAGCACATT CAGACTTCTG ACCCAGAAAA CTTTCAGTCT
    GAAGAACGCT CAGACTCAGA TGTGAATAAT GACCGGAGTA CAAGTTCAGT AGACAGTGAT
    ATTCTTAGCT CCAGTCACAG CAGCGACACT CTGTGCAATG CAGACAGTGC TCAGATTCCT
    CTGGCCAATG GACTCGACTC TCACAGTATC ACAAGTAGTA GAAGAACTAA GGCAAACGAA
    GGGAAAAAGG AGACCTGGGA CACAGCTGAA GAAGACTCTG GGACTGACAG TGAATATGAC
    GAGAGTGGCA AGAGCAGGGG GGACATGCAG TACATGTACT TCAAAGCTGA CCCCTACACT
    GCGGACGAAG GCTCTGGGGA AGGACACAAA TGGTTGATGG TGCATGTTGA TAAGAGAATC
    ACCCTGGCAG CTTTCAAACA GCATTTAGAA CCCTTTGTTG GAGTCCTCTC CTCTCACTTC
    AAGGTTTTTC GAGTGTACAC CAGCAATCAA GAGTTTGAGA CCGTCCGGTT GAATGAGACC
    CTTTCATCAT TTTCAGATGA CAATAAGATC ACAATCCGAC TGGGGAGAGC ACTGAAGAAG
    GGAGAGTACA GAGTTAAAGT GTGCCAGCTC TTAGTCAATG AGCAAGAGCC ATGCAAGTTT
    CTGCTAGATG CTGTGTTTGC TAAAGGCATG ACTGTGCGGC AATCGAAAGA GGAGCTGATT
    CCTCAACTCA GGGAGCAGTG TGGCTTAGAC CTCAGCATCG ACAGGTTTCG TCTAAGGAAG
    AAAACATGGA AGAATCCTGG CACTGTCTTT TTGGATTATC ATATTTATGA AGAAGATATT
    AATATTTCCA GCAACTGGGA AGTTTTCCTG GAAGTTCTTG ATGGTGTGGA GAAGATGAAG
    TCCATGTCAC AGCTTGCCAT CTTAACAAGA CGCTGGAGGC CTGCAGAGAT GAAGTTGGAC
    CCCTTCCAGG AGCTTGTGTT GGAAAGCAAT AGTGTTGATG AACTCCGAGA GAAGCTAAGT
    GAAATCAGTG GGATTCCTTT GGAAGACATT GAATTTGCCA AGGGTAGGGG GACCTTCCCC
    TGTGATATTT CTGTCCTTGA TATTCATCAA GATTTGGACT GGAATCCTAA AGTCTCTACC
    CTGAATGTTT GGCCTCTTTA TATCTGTGAT GATGGTGCCG TCATATTTTA TAGGGATAAA
    ACAGAAGAAG TAATGGAATT GACAGATGAG CAAAGAAATG AATTGATGAA AAAGGAAAGC
    AGCCGACTGC AGAAGACAGG ACATCGTGTG ACATACTCCC CTCGAAAAGA GAAAGCACTC
    AAGATCTACC TGGATGGGGC GCCAAATAAA GATGTGGCTC AAGACTGA

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

    RefSeq XP_021075500.1
    CDS202..4329
    Translation

    Target ORF information:

    RefSeq Version XM_021219841.1
    Organism Mus pahari(shrew mouse)
    Definition Mus pahari ubiquitin specific peptidase 47 (Usp47), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021219841.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGTGCCCG GCGAGGAGAA CCAACTGGTC CCGAAGGAGG ATGTGTTTTG GAGATGCAGA 
    CAAAATATCT TTGATGAAAT GAAGAAGAAA TTTTTACAGA TAGAAAATGC TGCTGAAGAA
    CCTAGAGTCT TATGTATAAT ACAAGACACT ACTAACTCGA AGACAGTGAG TGAAAGGATC
    ACATTAAATT TACCAGCGTC TACCCCAGTC CGAAAGCTCT TTGAAGATGT GGCCAACAAA
    GTAGGCTACA TAAATGGAAC CTTTGATTTG ACATGGGGAA ATGGAGTCAA TACTGCTGAT
    ACGGCACCAC TGGATCACAC CAGTGACAAG TCTCTTCTTG ATGCTAATTT TGAGCCAGGA
    AAGAAGAACT TTCTGCATTT GACAGATAAA GATGGTGAAC CGCCTCAGAT GTTGCTGGAG
    GACTCCAATA ACGTGGATGA CAGCGTACAT GACAGGTTCA TAGGTCCACT TCCAAGAGAA
    GGTTCTGTGG CCTCTACCAA TGATTATGTC AGCCAGAGCT ACTCCTATTC ATCAATTTTG
    AGCAAGTCAG AAACTGGTTA TGTGGGATTA GTAAACCAGG CGATGACATG CTATTTGAAT
    AGCCTTTTGC AAACACTTTT TATGACTCCT GAATTTAGGA ATGCATTATA TAAGTGGGAA
    TTTGAAGACT CTGAAGAAGA TCCTGTGACG AGCATTCCAT ACCAGCTTCA AAGGCTTTTT
    GTTTTGTTAC AAACCAGCAA AAAGAGAGCA ATTGAGACCA CAGATGTTAC AAGGAGCTTT
    GGATGGGATA GCAGTGAGGC TTGGCAACAG CATGATGTAC AAGAACTGTG CCGTGTTATG
    TTTGATGCTT TGGAACAGAA ATGGAAGCAA ACAGAACAGG CTGATCTTAT AAATGAGCTG
    TACCAAGGCA AGCTGAAAGA CTATGTGAGG TGTCTGGAAT GCGGTTATGA AGGCTGGAGA
    ATTGACACAT ATCTTGATAT TCCACTGGTC ATCCGACCTT ATGGGTCTAG CCAAGCATTT
    GCTAGTGTGG AAGAAGCATT GCATGCATTT ATTCAACCAG AGATCTTGGA TGGCCCAAAT
    CAATATTTTT GTGAACGTTG TAAGAAGAAG TGTGATGCAC GTAAGGGCCT TCGGTTTTTG
    CATTTCCCCT ATCTGTTGAC CTTACAGTTG AAAAGGTTTG ATTTTGATTA TACAACCATG
    CATAGAATTA AACTCAATGA TCGAATGTCA TTTCCGGAGG AGCTGGATAT GAGCACATTT
    ATTGATATTG AAGATGAGAA ATCTCCTCAG ACTGAAAGTT GCACTGATAG TGGAGCAGAA
    AATGAAGGCA GTTGCCACAG CGACCAGATG AGTAATGATT TCTCCACGGA TGATGCGGTT
    GATGAAGGGA TTTGCCTGGA GAGCAGTAGT GGGAGTGAGA AGATTTCAAA ACCTGGCCTG
    GAAAAGAACT CTCTGATGTA TGAACTCTTC TCAGTGATGG TGCATTCAGG GAGTGCTGCT
    GGAGGACACT ATTATGCTTG CATAAAGTCT TTCAGTGATG ATCAATGGTA CAGTTTCAAT
    GACCAACATG TGAGCAGGAT AACACAAGAA GACATTAAGA AGACACATGG TGGGTCTTCA
    GGAAGCAGAG GCTACTACTC CAGTGCTTTT GCAAGCTCAA CAAATGCATA TATGCTGATA
    TACAGACTGA AGGATCCAAC AAGAAATGCA AAATTTCTAG AAGTGGACGA GTACCCAGAA
    CACATTAAGA ATCTGGTGCA GAAGGAGAGA GAATTGGAAG AACAGGAAAA GAGGCAACGA
    GAAATTGAAC GCAACACGTG CAAGATAAAA TTATTCTGTT TACATCCTGT GAAACAAGTA
    ATGATGGAAA ACAAGTTGGA GGTTCATAAG GATAAGACAT TAAAAGAAGC CGTGGAAATG
    GCTTATAAGA TGATGGATTT AGAAGATGTG ATTCCCCTGG ATTGCTGTCG CCTGGTAAAA
    TATGACGAGT TTCATGATTA CCTGGAACGA TCGTATGAGG GAGAAGAAGA TACGCCAATG
    GGGCTGCTTC TAGGAGGAGT CAAGTCCACA TACATGTTTG ATCTGCTGTT GGAAACAAGA
    AAGCCTGATC AAATTTTTCA GTCTTACAAA CCTGGAGAAG TGATGGTGAA AGTTCATGTT
    GTTGATCTGA AGGCAGAGAC TGTTGCTGCT CCTGTAACAG TGCGTGCGTA TTTAAATCAG
    ACAGTTACAG AGTTCAAACA GCTGATCTCA AAGGCCACAC ACTTACCTGC AGACTCCATG
    AGGATAGTGC TGGAACGCTG CTACAATGAC CTGCGCCTTC TCAGCATGCC CAGCAAGACC
    CTGAAGGCAG AAGGCTTCTT CAGAAGTAAC AAGGTGTTTG TTGAAAGCTC TGAGACAGTG
    GATCACCAGG CAGCCTTTAC AGACTCCCAC TTGTGGAAAC TCCTGGATCG ACATGCAAAT
    ACAATCCGGT TATTTGTTTT GCTGCCTGAA CAATCTCCAG GATCATATTC AAAAAGGACA
    GCATACCAGA AAGCTGGAGG TGATTCTGGT AATGTGGACG ATGATTGTGA AAGAGTCAAA
    GGACCTGCAG GGAATTTAAA GTCTGTGGAT GCTATTCTAG AAGAGAGCAC TGAAAAACTC
    AAAAGCTTGT CACTGCAGCA GCAGCAAGAT GGGGACAACG GAGACAGCAG CAAAAGCACT
    GAGACAAGTG ACTTTGAAAA TATTGAATCA CCTCTCAATG AGAGGGGCTC TTCCACCTCT
    GTGGATAATC GAGATCTTGA CCAGCACATT CAGACTTCTG ACCCAGAAAA CTTTCAGTCT
    GAAGAACGCT CAGACTCAGA TGTGAATAAT GACCGGAGTA CAAGTTCAGT AGACAGTGAT
    ATTCTTAGCT CCAGTCACAG CAGCGACACT CTGTGCAATG CAGACAGTGC TCAGATTCCT
    CTGGCCAATG GACTCGACTC TCACAGTATC ACAAGTAGTA GAAGAACTAA GGCAAACGAA
    GGGAAAAAGG AGACCTGGGA CACAGCTGAA GAAGACTCTG GGACTGACAG TGAATATGAC
    GAGAGTGGCA AGAGCAGGGG GGACATGCAG TACATGTACT TCAAAGCTGA CCCCTACACT
    GCGGACGAAG GCTCTGGGGA AGGACACAAA TGGTTGATGG TGCATGTTGA TAAGAGAATC
    ACCCTGGCAG CTTTCAAACA GCATTTAGAA CCCTTTGTTG GAGTCCTCTC CTCTCACTTC
    AAGGTTTTTC GAGTGTACAC CAGCAATCAA GAGTTTGAGA CCGTCCGGTT GAATGAGACC
    CTTTCATCAT TTTCAGATGA CAATAAGATC ACAATCCGAC TGGGGAGAGC ACTGAAGAAG
    GGAGAGTACA GAGTTAAAGT GTGCCAGCTC TTAGTCAATG AGCAAGAGCC ATGCAAGTTT
    CTGCTAGATG CTGTGTTTGC TAAAGGCATG ACTGTGCGGC AATCGAAAGA GGAGCTGATT
    CCTCAACTCA GGGAGCAGTG TGGCTTAGAC CTCAGCATCG ACAGGTTTCG TCTAAGGAAG
    AAAACATGGA AGAATCCTGG CACTGTCTTT TTGGATTATC ATATTTATGA AGAAGATATT
    AATATTTCCA GCAACTGGGA AGTTTTCCTG GAAGTTCTTG ATGGTGTGGA GAAGATGAAG
    TCCATGTCAC AGCTTGCCAT CTTAACAAGA CGCTGGAGGC CTGCAGAGAT GAAGTTGGAC
    CCCTTCCAGG AGCTTGTGTT GGAAAGCAAT AGTGTTGATG AACTCCGAGA GAAGCTAAGT
    GAAATCAGTG GGATTCCTTT GGAAGACATT GAATTTGCCA AGGGTAGGGG GACCTTCCCC
    TGTGATATTT CTGTCCTTGA TATTCATCAA GATTTGGACT GGAATCCTAA AGTCTCTACC
    CTGAATGTTT GGCCTCTTTA TATCTGTGAT GATGGTGCCG TCATATTTTA TAGGGATAAA
    ACAGAAGAAG TAATGGAATT GACAGATGAG CAAAGAAATG AATTGATGAA AAAGGAAAGC
    AGCCGACTGC AGAAGACAGG ACATCGTGTG ACATACTCCC CTCGAAAAGA GAAAGCACTC
    AAGATCTACC TGGATGGGGC GCCAAATAAA GATGTGGCTC AAGACTGA

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

    CloneID OMv46660
    Clone ID Related Accession (Same CDS sequence) XM_021219849.2 , XM_021219849.1
    Accession Version XM_021219849.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4068bp)
    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 2019-06-17
    Organism Mus pahari(shrew mouse)
    Product ubiquitin carboxyl-terminal hydrolase 47 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034590.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 18, 2019 this sequence version replaced XM_021219849.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGGTGCCCG GCGAGGAGAA CCAACTGGTC CCGAAGGAGA TAGAAAATGC TGCTGAAGAA 
    CCTAGAGTCT TATGTATAAT ACAAGACACT ACTAACTCGA AGACAGTGAG TGAAAGGATC
    ACATTAAATT TACCAGCGTC TACCCCAGTC CGAAAGCTCT TTGAAGATGT GGCCAACAAA
    GTAGGCTACA TAAATGGAAC CTTTGATTTG ACATGGGGAA ATGGAGTCAA TACTGCTGAT
    ACGGCACCAC TGGATCACAC CAGTGACAAG TCTCTTCTTG ATGCTAATTT TGAGCCAGGA
    AAGAAGAACT TTCTGCATTT GACAGATAAA GATGGTGAAC CGCCTCAGAT GTTGCTGGAG
    GACTCCAATA ACGTGGATGA CAGCGTACAT GACAGGTTCA TAGGTCCACT TCCAAGAGAA
    GGTTCTGTGG CCTCTACCAA TGATTATGTC AGCCAGAGCT ACTCCTATTC ATCAATTTTG
    AGCAAGTCAG AAACTGGTTA TGTGGGATTA GTAAACCAGG CGATGACATG CTATTTGAAT
    AGCCTTTTGC AAACACTTTT TATGACTCCT GAATTTAGGA ATGCATTATA TAAGTGGGAA
    TTTGAAGACT CTGAAGAAGA TCCTGTGACG AGCATTCCAT ACCAGCTTCA AAGGCTTTTT
    GTTTTGTTAC AAACCAGCAA AAAGAGAGCA ATTGAGACCA CAGATGTTAC AAGGAGCTTT
    GGATGGGATA GCAGTGAGGC TTGGCAACAG CATGATGTAC AAGAACTGTG CCGTGTTATG
    TTTGATGCTT TGGAACAGAA ATGGAAGCAA ACAGAACAGG CTGATCTTAT AAATGAGCTG
    TACCAAGGCA AGCTGAAAGA CTATGTGAGG TGTCTGGAAT GCGGTTATGA AGGCTGGAGA
    ATTGACACAT ATCTTGATAT TCCACTGGTC ATCCGACCTT ATGGGTCTAG CCAAGCATTT
    GCTAGTGTGG AAGAAGCATT GCATGCATTT ATTCAACCAG AGATCTTGGA TGGCCCAAAT
    CAATATTTTT GTGAACGTTG TAAGAAGAAG TGTGATGCAC GTAAGGGCCT TCGGTTTTTG
    CATTTCCCCT ATCTGTTGAC CTTACAGTTG AAAAGGTTTG ATTTTGATTA TACAACCATG
    CATAGAATTA AACTCAATGA TCGAATGTCA TTTCCGGAGG AGCTGGATAT GAGCACATTT
    ATTGATATTG AAGATGAGAA ATCTCCTCAG ACTGAAAGTT GCACTGATAG TGGAGCAGAA
    AATGAAGGCA GTTGCCACAG CGACCAGATG AGTAATGATT TCTCCACGGA TGATGCGGTT
    GATGAAGGGA TTTGCCTGGA GAGCAGTAGT GGGAGTGAGA AGATTTCAAA ACCTGGCCTG
    GAAAAGAACT CTCTGATGTA TGAACTCTTC TCAGTGATGG TGCATTCAGG GAGTGCTGCT
    GGAGGACACT ATTATGCTTG CATAAAGTCT TTCAGTGATG ATCAATGGTA CAGTTTCAAT
    GACCAACATG TGAGCAGGAT AACACAAGAA GACATTAAGA AGACACATGG TGGGTCTTCA
    GGAAGCAGAG GCTACTACTC CAGTGCTTTT GCAAGCTCAA CAAATGCATA TATGCTGATA
    TACAGACTGA AGGATCCAAC AAGAAATGCA AAATTTCTAG AAGTGGACGA GTACCCAGAA
    CACATTAAGA ATCTGGTGCA GAAGGAGAGA GAATTGGAAG AACAGGAAAA GAGGCAACGA
    GAAATTGAAC GCAACACGTG CAAGATAAAA TTATTCTGTT TACATCCTGT GAAACAAGTA
    ATGATGGAAA ACAAGTTGGA GGTTCATAAG GATAAGACAT TAAAAGAAGC CGTGGAAATG
    GCTTATAAGA TGATGGATTT AGAAGATGTG ATTCCCCTGG ATTGCTGTCG CCTGGTAAAA
    TATGACGAGT TTCATGATTA CCTGGAACGA TCGTATGAGG GAGAAGAAGA TACGCCAATG
    GGGCTGCTTC TAGGAGGAGT CAAGTCCACA TACATGTTTG ATCTGCTGTT GGAAACAAGA
    AAGCCTGATC AAATTTTTCA GTCTTACAAA CCTGGAGAAG TGATGGTGAA AGTTCATGTT
    GTTGATCTGA AGGCAGAGAC TGTTGCTGCT CCTGTAACAG TGCGTGCGTA TTTAAATCAG
    ACAGTTACAG AGTTCAAACA GCTGATCTCA AAGGCCACAC ACTTACCTGC AGACTCCATG
    AGGATAGTGC TGGAACGCTG CTACAATGAC CTGCGCCTTC TCAGCATGCC CAGCAAGACC
    CTGAAGGCAG AAGGCTTCTT CAGAAGTAAC AAGGTGTTTG TTGAAAGCTC TGAGACAGTG
    GATCACCAGG CAGCCTTTAC AGACTCCCAC TTGTGGAAAC TCCTGGATCG ACATGCAAAT
    ACAATCCGGT TATTTGTTTT GCTGCCTGAA CAATCTCCAG GATCATATTC AAAAAGGACA
    GCATACCAGA AAGCTGGAGG TGATTCTGGT AATGTGGACG ATGATTGTGA AAGAGTCAAA
    GGACCTGCAG GGAATTTAAA GTCTGTGGAT GCTATTCTAG AAGAGAGCAC TGAAAAACTC
    AAAAGCTTGT CACTGCAGCA GCAGCAAGAT GGGGACAACG GAGACAGCAG CAAAAGCACT
    GAGACAAGTG ACTTTGAAAA TATTGAATCA CCTCTCAATG AGAGGGGCTC TTCCACCTCT
    GTGGATAATC GAGATCTTGA CCAGCACATT CAGACTTCTG ACCCAGAAAA CTTTCAGTCT
    GAAGAACGCT CAGACTCAGA TGTGAATAAT GACCGGAGTA CAAGTTCAGT AGACAGTGAT
    ATTCTTAGCT CCAGTCACAG CAGCGACACT CTGTGCAATG CAGACAGTGC TCAGATTCCT
    CTGGCCAATG GACTCGACTC TCACAGTATC ACAAGTAGTA GAAGAACTAA GGCAAACGAA
    GGGAAAAAGG AGACCTGGGA CACAGCTGAA GAAGACTCTG GGACTGACAG TGAATATGAC
    GAGAGTGGCA AGAGCAGGGG GGACATGCAG TACATGTACT TCAAAGCTGA CCCCTACACT
    GCGGACGAAG GCTCTGGGGA AGGACACAAA TGGTTGATGG TGCATGTTGA TAAGAGAATC
    ACCCTGGCAG CTTTCAAACA GCATTTAGAA CCCTTTGTTG GAGTCCTCTC CTCTCACTTC
    AAGGTTTTTC GAGTGTACAC CAGCAATCAA GAGTTTGAGA CCGTCCGGTT GAATGAGACC
    CTTTCATCAT TTTCAGATGA CAATAAGATC ACAATCCGAC TGGGGAGAGC ACTGAAGAAG
    GGAGAGTACA GAGTTAAAGT GTGCCAGCTC TTAGTCAATG AGCAAGAGCC ATGCAAGTTT
    CTGCTAGATG CTGTGTTTGC TAAAGGCATG ACTGTGCGGC AATCGAAAGA GGAGCTGATT
    CCTCAACTCA GGGAGCAGTG TGGCTTAGAC CTCAGCATCG ACAGGTTTCG TCTAAGGAAG
    AAAACATGGA AGAATCCTGG CACTGTCTTT TTGGATTATC ATATTTATGA AGAAGATATT
    AATATTTCCA GCAACTGGGA AGTTTTCCTG GAAGTTCTTG ATGGTGTGGA GAAGATGAAG
    TCCATGTCAC AGCTTGCCAT CTTAACAAGA CGCTGGAGGC CTGCAGAGAT GAAGTTGGAC
    CCCTTCCAGG AGCTTGTGTT GGAAAGCAAT AGTGTTGATG AACTCCGAGA GAAGCTAAGT
    GAAATCAGTG GGATTCCTTT GGAAGACATT GAATTTGCCA AGGGTAGGGG GACCTTCCCC
    TGTGATATTT CTGTCCTTGA TATTCATCAA GATTTGGACT GGAATCCTAA AGTCTCTACC
    CTGAATGTTT GGCCTCTTTA TATCTGTGAT GATGGTGCCG TCATATTTTA TAGGGATAAA
    ACAGAAGAAG TAATGGAATT GACAGATGAG CAAAGAAATG AATTGATGAA AAAGGAAAGC
    AGCCGACTGC AGAAGACAGG ACATCGTGTG ACATACTCCC CTCGAAAAGA GAAAGCACTC
    AAGATCTACC TGGATGGGGC GCCAAATAAA GATGTGGCTC AAGACTGA

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

    RefSeq XP_021075508.1
    CDS239..4306
    Translation

    Target ORF information:

    RefSeq Version XM_021219849.2
    Organism Mus pahari(shrew mouse)
    Definition Mus pahari ubiquitin specific peptidase 47 (Usp47), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021219849.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGGTGCCCG GCGAGGAGAA CCAACTGGTC CCGAAGGAGA TAGAAAATGC TGCTGAAGAA 
    CCTAGAGTCT TATGTATAAT ACAAGACACT ACTAACTCGA AGACAGTGAG TGAAAGGATC
    ACATTAAATT TACCAGCGTC TACCCCAGTC CGAAAGCTCT TTGAAGATGT GGCCAACAAA
    GTAGGCTACA TAAATGGAAC CTTTGATTTG ACATGGGGAA ATGGAGTCAA TACTGCTGAT
    ACGGCACCAC TGGATCACAC CAGTGACAAG TCTCTTCTTG ATGCTAATTT TGAGCCAGGA
    AAGAAGAACT TTCTGCATTT GACAGATAAA GATGGTGAAC CGCCTCAGAT GTTGCTGGAG
    GACTCCAATA ACGTGGATGA CAGCGTACAT GACAGGTTCA TAGGTCCACT TCCAAGAGAA
    GGTTCTGTGG CCTCTACCAA TGATTATGTC AGCCAGAGCT ACTCCTATTC ATCAATTTTG
    AGCAAGTCAG AAACTGGTTA TGTGGGATTA GTAAACCAGG CGATGACATG CTATTTGAAT
    AGCCTTTTGC AAACACTTTT TATGACTCCT GAATTTAGGA ATGCATTATA TAAGTGGGAA
    TTTGAAGACT CTGAAGAAGA TCCTGTGACG AGCATTCCAT ACCAGCTTCA AAGGCTTTTT
    GTTTTGTTAC AAACCAGCAA AAAGAGAGCA ATTGAGACCA CAGATGTTAC AAGGAGCTTT
    GGATGGGATA GCAGTGAGGC TTGGCAACAG CATGATGTAC AAGAACTGTG CCGTGTTATG
    TTTGATGCTT TGGAACAGAA ATGGAAGCAA ACAGAACAGG CTGATCTTAT AAATGAGCTG
    TACCAAGGCA AGCTGAAAGA CTATGTGAGG TGTCTGGAAT GCGGTTATGA AGGCTGGAGA
    ATTGACACAT ATCTTGATAT TCCACTGGTC ATCCGACCTT ATGGGTCTAG CCAAGCATTT
    GCTAGTGTGG AAGAAGCATT GCATGCATTT ATTCAACCAG AGATCTTGGA TGGCCCAAAT
    CAATATTTTT GTGAACGTTG TAAGAAGAAG TGTGATGCAC GTAAGGGCCT TCGGTTTTTG
    CATTTCCCCT ATCTGTTGAC CTTACAGTTG AAAAGGTTTG ATTTTGATTA TACAACCATG
    CATAGAATTA AACTCAATGA TCGAATGTCA TTTCCGGAGG AGCTGGATAT GAGCACATTT
    ATTGATATTG AAGATGAGAA ATCTCCTCAG ACTGAAAGTT GCACTGATAG TGGAGCAGAA
    AATGAAGGCA GTTGCCACAG CGACCAGATG AGTAATGATT TCTCCACGGA TGATGCGGTT
    GATGAAGGGA TTTGCCTGGA GAGCAGTAGT GGGAGTGAGA AGATTTCAAA ACCTGGCCTG
    GAAAAGAACT CTCTGATGTA TGAACTCTTC TCAGTGATGG TGCATTCAGG GAGTGCTGCT
    GGAGGACACT ATTATGCTTG CATAAAGTCT TTCAGTGATG ATCAATGGTA CAGTTTCAAT
    GACCAACATG TGAGCAGGAT AACACAAGAA GACATTAAGA AGACACATGG TGGGTCTTCA
    GGAAGCAGAG GCTACTACTC CAGTGCTTTT GCAAGCTCAA CAAATGCATA TATGCTGATA
    TACAGACTGA AGGATCCAAC AAGAAATGCA AAATTTCTAG AAGTGGACGA GTACCCAGAA
    CACATTAAGA ATCTGGTGCA GAAGGAGAGA GAATTGGAAG AACAGGAAAA GAGGCAACGA
    GAAATTGAAC GCAACACGTG CAAGATAAAA TTATTCTGTT TACATCCTGT GAAACAAGTA
    ATGATGGAAA ACAAGTTGGA GGTTCATAAG GATAAGACAT TAAAAGAAGC CGTGGAAATG
    GCTTATAAGA TGATGGATTT AGAAGATGTG ATTCCCCTGG ATTGCTGTCG CCTGGTAAAA
    TATGACGAGT TTCATGATTA CCTGGAACGA TCGTATGAGG GAGAAGAAGA TACGCCAATG
    GGGCTGCTTC TAGGAGGAGT CAAGTCCACA TACATGTTTG ATCTGCTGTT GGAAACAAGA
    AAGCCTGATC AAATTTTTCA GTCTTACAAA CCTGGAGAAG TGATGGTGAA AGTTCATGTT
    GTTGATCTGA AGGCAGAGAC TGTTGCTGCT CCTGTAACAG TGCGTGCGTA TTTAAATCAG
    ACAGTTACAG AGTTCAAACA GCTGATCTCA AAGGCCACAC ACTTACCTGC AGACTCCATG
    AGGATAGTGC TGGAACGCTG CTACAATGAC CTGCGCCTTC TCAGCATGCC CAGCAAGACC
    CTGAAGGCAG AAGGCTTCTT CAGAAGTAAC AAGGTGTTTG TTGAAAGCTC TGAGACAGTG
    GATCACCAGG CAGCCTTTAC AGACTCCCAC TTGTGGAAAC TCCTGGATCG ACATGCAAAT
    ACAATCCGGT TATTTGTTTT GCTGCCTGAA CAATCTCCAG GATCATATTC AAAAAGGACA
    GCATACCAGA AAGCTGGAGG TGATTCTGGT AATGTGGACG ATGATTGTGA AAGAGTCAAA
    GGACCTGCAG GGAATTTAAA GTCTGTGGAT GCTATTCTAG AAGAGAGCAC TGAAAAACTC
    AAAAGCTTGT CACTGCAGCA GCAGCAAGAT GGGGACAACG GAGACAGCAG CAAAAGCACT
    GAGACAAGTG ACTTTGAAAA TATTGAATCA CCTCTCAATG AGAGGGGCTC TTCCACCTCT
    GTGGATAATC GAGATCTTGA CCAGCACATT CAGACTTCTG ACCCAGAAAA CTTTCAGTCT
    GAAGAACGCT CAGACTCAGA TGTGAATAAT GACCGGAGTA CAAGTTCAGT AGACAGTGAT
    ATTCTTAGCT CCAGTCACAG CAGCGACACT CTGTGCAATG CAGACAGTGC TCAGATTCCT
    CTGGCCAATG GACTCGACTC TCACAGTATC ACAAGTAGTA GAAGAACTAA GGCAAACGAA
    GGGAAAAAGG AGACCTGGGA CACAGCTGAA GAAGACTCTG GGACTGACAG TGAATATGAC
    GAGAGTGGCA AGAGCAGGGG GGACATGCAG TACATGTACT TCAAAGCTGA CCCCTACACT
    GCGGACGAAG GCTCTGGGGA AGGACACAAA TGGTTGATGG TGCATGTTGA TAAGAGAATC
    ACCCTGGCAG CTTTCAAACA GCATTTAGAA CCCTTTGTTG GAGTCCTCTC CTCTCACTTC
    AAGGTTTTTC GAGTGTACAC CAGCAATCAA GAGTTTGAGA CCGTCCGGTT GAATGAGACC
    CTTTCATCAT TTTCAGATGA CAATAAGATC ACAATCCGAC TGGGGAGAGC ACTGAAGAAG
    GGAGAGTACA GAGTTAAAGT GTGCCAGCTC TTAGTCAATG AGCAAGAGCC ATGCAAGTTT
    CTGCTAGATG CTGTGTTTGC TAAAGGCATG ACTGTGCGGC AATCGAAAGA GGAGCTGATT
    CCTCAACTCA GGGAGCAGTG TGGCTTAGAC CTCAGCATCG ACAGGTTTCG TCTAAGGAAG
    AAAACATGGA AGAATCCTGG CACTGTCTTT TTGGATTATC ATATTTATGA AGAAGATATT
    AATATTTCCA GCAACTGGGA AGTTTTCCTG GAAGTTCTTG ATGGTGTGGA GAAGATGAAG
    TCCATGTCAC AGCTTGCCAT CTTAACAAGA CGCTGGAGGC CTGCAGAGAT GAAGTTGGAC
    CCCTTCCAGG AGCTTGTGTT GGAAAGCAAT AGTGTTGATG AACTCCGAGA GAAGCTAAGT
    GAAATCAGTG GGATTCCTTT GGAAGACATT GAATTTGCCA AGGGTAGGGG GACCTTCCCC
    TGTGATATTT CTGTCCTTGA TATTCATCAA GATTTGGACT GGAATCCTAA AGTCTCTACC
    CTGAATGTTT GGCCTCTTTA TATCTGTGAT GATGGTGCCG TCATATTTTA TAGGGATAAA
    ACAGAAGAAG TAATGGAATT GACAGATGAG CAAAGAAATG AATTGATGAA AAAGGAAAGC
    AGCCGACTGC AGAAGACAGG ACATCGTGTG ACATACTCCC CTCGAAAAGA GAAAGCACTC
    AAGATCTACC TGGATGGGGC GCCAAATAAA GATGTGGCTC AAGACTGA

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

    CloneID OMv46660
    Clone ID Related Accession (Same CDS sequence) XM_021219849.2 , XM_021219849.1
    Accession Version XM_021219849.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4068bp)
    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 2017-05-18
    Organism Mus pahari(shrew mouse)
    Product ubiquitin carboxyl-terminal hydrolase 47 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034590.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus pahari Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGGTGCCCG GCGAGGAGAA CCAACTGGTC CCGAAGGAGA TAGAAAATGC TGCTGAAGAA 
    CCTAGAGTCT TATGTATAAT ACAAGACACT ACTAACTCGA AGACAGTGAG TGAAAGGATC
    ACATTAAATT TACCAGCGTC TACCCCAGTC CGAAAGCTCT TTGAAGATGT GGCCAACAAA
    GTAGGCTACA TAAATGGAAC CTTTGATTTG ACATGGGGAA ATGGAGTCAA TACTGCTGAT
    ACGGCACCAC TGGATCACAC CAGTGACAAG TCTCTTCTTG ATGCTAATTT TGAGCCAGGA
    AAGAAGAACT TTCTGCATTT GACAGATAAA GATGGTGAAC CGCCTCAGAT GTTGCTGGAG
    GACTCCAATA ACGTGGATGA CAGCGTACAT GACAGGTTCA TAGGTCCACT TCCAAGAGAA
    GGTTCTGTGG CCTCTACCAA TGATTATGTC AGCCAGAGCT ACTCCTATTC ATCAATTTTG
    AGCAAGTCAG AAACTGGTTA TGTGGGATTA GTAAACCAGG CGATGACATG CTATTTGAAT
    AGCCTTTTGC AAACACTTTT TATGACTCCT GAATTTAGGA ATGCATTATA TAAGTGGGAA
    TTTGAAGACT CTGAAGAAGA TCCTGTGACG AGCATTCCAT ACCAGCTTCA AAGGCTTTTT
    GTTTTGTTAC AAACCAGCAA AAAGAGAGCA ATTGAGACCA CAGATGTTAC AAGGAGCTTT
    GGATGGGATA GCAGTGAGGC TTGGCAACAG CATGATGTAC AAGAACTGTG CCGTGTTATG
    TTTGATGCTT TGGAACAGAA ATGGAAGCAA ACAGAACAGG CTGATCTTAT AAATGAGCTG
    TACCAAGGCA AGCTGAAAGA CTATGTGAGG TGTCTGGAAT GCGGTTATGA AGGCTGGAGA
    ATTGACACAT ATCTTGATAT TCCACTGGTC ATCCGACCTT ATGGGTCTAG CCAAGCATTT
    GCTAGTGTGG AAGAAGCATT GCATGCATTT ATTCAACCAG AGATCTTGGA TGGCCCAAAT
    CAATATTTTT GTGAACGTTG TAAGAAGAAG TGTGATGCAC GTAAGGGCCT TCGGTTTTTG
    CATTTCCCCT ATCTGTTGAC CTTACAGTTG AAAAGGTTTG ATTTTGATTA TACAACCATG
    CATAGAATTA AACTCAATGA TCGAATGTCA TTTCCGGAGG AGCTGGATAT GAGCACATTT
    ATTGATATTG AAGATGAGAA ATCTCCTCAG ACTGAAAGTT GCACTGATAG TGGAGCAGAA
    AATGAAGGCA GTTGCCACAG CGACCAGATG AGTAATGATT TCTCCACGGA TGATGCGGTT
    GATGAAGGGA TTTGCCTGGA GAGCAGTAGT GGGAGTGAGA AGATTTCAAA ACCTGGCCTG
    GAAAAGAACT CTCTGATGTA TGAACTCTTC TCAGTGATGG TGCATTCAGG GAGTGCTGCT
    GGAGGACACT ATTATGCTTG CATAAAGTCT TTCAGTGATG ATCAATGGTA CAGTTTCAAT
    GACCAACATG TGAGCAGGAT AACACAAGAA GACATTAAGA AGACACATGG TGGGTCTTCA
    GGAAGCAGAG GCTACTACTC CAGTGCTTTT GCAAGCTCAA CAAATGCATA TATGCTGATA
    TACAGACTGA AGGATCCAAC AAGAAATGCA AAATTTCTAG AAGTGGACGA GTACCCAGAA
    CACATTAAGA ATCTGGTGCA GAAGGAGAGA GAATTGGAAG AACAGGAAAA GAGGCAACGA
    GAAATTGAAC GCAACACGTG CAAGATAAAA TTATTCTGTT TACATCCTGT GAAACAAGTA
    ATGATGGAAA ACAAGTTGGA GGTTCATAAG GATAAGACAT TAAAAGAAGC CGTGGAAATG
    GCTTATAAGA TGATGGATTT AGAAGATGTG ATTCCCCTGG ATTGCTGTCG CCTGGTAAAA
    TATGACGAGT TTCATGATTA CCTGGAACGA TCGTATGAGG GAGAAGAAGA TACGCCAATG
    GGGCTGCTTC TAGGAGGAGT CAAGTCCACA TACATGTTTG ATCTGCTGTT GGAAACAAGA
    AAGCCTGATC AAATTTTTCA GTCTTACAAA CCTGGAGAAG TGATGGTGAA AGTTCATGTT
    GTTGATCTGA AGGCAGAGAC TGTTGCTGCT CCTGTAACAG TGCGTGCGTA TTTAAATCAG
    ACAGTTACAG AGTTCAAACA GCTGATCTCA AAGGCCACAC ACTTACCTGC AGACTCCATG
    AGGATAGTGC TGGAACGCTG CTACAATGAC CTGCGCCTTC TCAGCATGCC CAGCAAGACC
    CTGAAGGCAG AAGGCTTCTT CAGAAGTAAC AAGGTGTTTG TTGAAAGCTC TGAGACAGTG
    GATCACCAGG CAGCCTTTAC AGACTCCCAC TTGTGGAAAC TCCTGGATCG ACATGCAAAT
    ACAATCCGGT TATTTGTTTT GCTGCCTGAA CAATCTCCAG GATCATATTC AAAAAGGACA
    GCATACCAGA AAGCTGGAGG TGATTCTGGT AATGTGGACG ATGATTGTGA AAGAGTCAAA
    GGACCTGCAG GGAATTTAAA GTCTGTGGAT GCTATTCTAG AAGAGAGCAC TGAAAAACTC
    AAAAGCTTGT CACTGCAGCA GCAGCAAGAT GGGGACAACG GAGACAGCAG CAAAAGCACT
    GAGACAAGTG ACTTTGAAAA TATTGAATCA CCTCTCAATG AGAGGGGCTC TTCCACCTCT
    GTGGATAATC GAGATCTTGA CCAGCACATT CAGACTTCTG ACCCAGAAAA CTTTCAGTCT
    GAAGAACGCT CAGACTCAGA TGTGAATAAT GACCGGAGTA CAAGTTCAGT AGACAGTGAT
    ATTCTTAGCT CCAGTCACAG CAGCGACACT CTGTGCAATG CAGACAGTGC TCAGATTCCT
    CTGGCCAATG GACTCGACTC TCACAGTATC ACAAGTAGTA GAAGAACTAA GGCAAACGAA
    GGGAAAAAGG AGACCTGGGA CACAGCTGAA GAAGACTCTG GGACTGACAG TGAATATGAC
    GAGAGTGGCA AGAGCAGGGG GGACATGCAG TACATGTACT TCAAAGCTGA CCCCTACACT
    GCGGACGAAG GCTCTGGGGA AGGACACAAA TGGTTGATGG TGCATGTTGA TAAGAGAATC
    ACCCTGGCAG CTTTCAAACA GCATTTAGAA CCCTTTGTTG GAGTCCTCTC CTCTCACTTC
    AAGGTTTTTC GAGTGTACAC CAGCAATCAA GAGTTTGAGA CCGTCCGGTT GAATGAGACC
    CTTTCATCAT TTTCAGATGA CAATAAGATC ACAATCCGAC TGGGGAGAGC ACTGAAGAAG
    GGAGAGTACA GAGTTAAAGT GTGCCAGCTC TTAGTCAATG AGCAAGAGCC ATGCAAGTTT
    CTGCTAGATG CTGTGTTTGC TAAAGGCATG ACTGTGCGGC AATCGAAAGA GGAGCTGATT
    CCTCAACTCA GGGAGCAGTG TGGCTTAGAC CTCAGCATCG ACAGGTTTCG TCTAAGGAAG
    AAAACATGGA AGAATCCTGG CACTGTCTTT TTGGATTATC ATATTTATGA AGAAGATATT
    AATATTTCCA GCAACTGGGA AGTTTTCCTG GAAGTTCTTG ATGGTGTGGA GAAGATGAAG
    TCCATGTCAC AGCTTGCCAT CTTAACAAGA CGCTGGAGGC CTGCAGAGAT GAAGTTGGAC
    CCCTTCCAGG AGCTTGTGTT GGAAAGCAAT AGTGTTGATG AACTCCGAGA GAAGCTAAGT
    GAAATCAGTG GGATTCCTTT GGAAGACATT GAATTTGCCA AGGGTAGGGG GACCTTCCCC
    TGTGATATTT CTGTCCTTGA TATTCATCAA GATTTGGACT GGAATCCTAA AGTCTCTACC
    CTGAATGTTT GGCCTCTTTA TATCTGTGAT GATGGTGCCG TCATATTTTA TAGGGATAAA
    ACAGAAGAAG TAATGGAATT GACAGATGAG CAAAGAAATG AATTGATGAA AAAGGAAAGC
    AGCCGACTGC AGAAGACAGG ACATCGTGTG ACATACTCCC CTCGAAAAGA GAAAGCACTC
    AAGATCTACC TGGATGGGGC GCCAAATAAA GATGTGGCTC AAGACTGA

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

    RefSeq XP_021075508.1
    CDS244..4311
    Translation

    Target ORF information:

    RefSeq Version XM_021219849.1
    Organism Mus pahari(shrew mouse)
    Definition Mus pahari ubiquitin specific peptidase 47 (Usp47), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021219849.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGGTGCCCG GCGAGGAGAA CCAACTGGTC CCGAAGGAGA TAGAAAATGC TGCTGAAGAA 
    CCTAGAGTCT TATGTATAAT ACAAGACACT ACTAACTCGA AGACAGTGAG TGAAAGGATC
    ACATTAAATT TACCAGCGTC TACCCCAGTC CGAAAGCTCT TTGAAGATGT GGCCAACAAA
    GTAGGCTACA TAAATGGAAC CTTTGATTTG ACATGGGGAA ATGGAGTCAA TACTGCTGAT
    ACGGCACCAC TGGATCACAC CAGTGACAAG TCTCTTCTTG ATGCTAATTT TGAGCCAGGA
    AAGAAGAACT TTCTGCATTT GACAGATAAA GATGGTGAAC CGCCTCAGAT GTTGCTGGAG
    GACTCCAATA ACGTGGATGA CAGCGTACAT GACAGGTTCA TAGGTCCACT TCCAAGAGAA
    GGTTCTGTGG CCTCTACCAA TGATTATGTC AGCCAGAGCT ACTCCTATTC ATCAATTTTG
    AGCAAGTCAG AAACTGGTTA TGTGGGATTA GTAAACCAGG CGATGACATG CTATTTGAAT
    AGCCTTTTGC AAACACTTTT TATGACTCCT GAATTTAGGA ATGCATTATA TAAGTGGGAA
    TTTGAAGACT CTGAAGAAGA TCCTGTGACG AGCATTCCAT ACCAGCTTCA AAGGCTTTTT
    GTTTTGTTAC AAACCAGCAA AAAGAGAGCA ATTGAGACCA CAGATGTTAC AAGGAGCTTT
    GGATGGGATA GCAGTGAGGC TTGGCAACAG CATGATGTAC AAGAACTGTG CCGTGTTATG
    TTTGATGCTT TGGAACAGAA ATGGAAGCAA ACAGAACAGG CTGATCTTAT AAATGAGCTG
    TACCAAGGCA AGCTGAAAGA CTATGTGAGG TGTCTGGAAT GCGGTTATGA AGGCTGGAGA
    ATTGACACAT ATCTTGATAT TCCACTGGTC ATCCGACCTT ATGGGTCTAG CCAAGCATTT
    GCTAGTGTGG AAGAAGCATT GCATGCATTT ATTCAACCAG AGATCTTGGA TGGCCCAAAT
    CAATATTTTT GTGAACGTTG TAAGAAGAAG TGTGATGCAC GTAAGGGCCT TCGGTTTTTG
    CATTTCCCCT ATCTGTTGAC CTTACAGTTG AAAAGGTTTG ATTTTGATTA TACAACCATG
    CATAGAATTA AACTCAATGA TCGAATGTCA TTTCCGGAGG AGCTGGATAT GAGCACATTT
    ATTGATATTG AAGATGAGAA ATCTCCTCAG ACTGAAAGTT GCACTGATAG TGGAGCAGAA
    AATGAAGGCA GTTGCCACAG CGACCAGATG AGTAATGATT TCTCCACGGA TGATGCGGTT
    GATGAAGGGA TTTGCCTGGA GAGCAGTAGT GGGAGTGAGA AGATTTCAAA ACCTGGCCTG
    GAAAAGAACT CTCTGATGTA TGAACTCTTC TCAGTGATGG TGCATTCAGG GAGTGCTGCT
    GGAGGACACT ATTATGCTTG CATAAAGTCT TTCAGTGATG ATCAATGGTA CAGTTTCAAT
    GACCAACATG TGAGCAGGAT AACACAAGAA GACATTAAGA AGACACATGG TGGGTCTTCA
    GGAAGCAGAG GCTACTACTC CAGTGCTTTT GCAAGCTCAA CAAATGCATA TATGCTGATA
    TACAGACTGA AGGATCCAAC AAGAAATGCA AAATTTCTAG AAGTGGACGA GTACCCAGAA
    CACATTAAGA ATCTGGTGCA GAAGGAGAGA GAATTGGAAG AACAGGAAAA GAGGCAACGA
    GAAATTGAAC GCAACACGTG CAAGATAAAA TTATTCTGTT TACATCCTGT GAAACAAGTA
    ATGATGGAAA ACAAGTTGGA GGTTCATAAG GATAAGACAT TAAAAGAAGC CGTGGAAATG
    GCTTATAAGA TGATGGATTT AGAAGATGTG ATTCCCCTGG ATTGCTGTCG CCTGGTAAAA
    TATGACGAGT TTCATGATTA CCTGGAACGA TCGTATGAGG GAGAAGAAGA TACGCCAATG
    GGGCTGCTTC TAGGAGGAGT CAAGTCCACA TACATGTTTG ATCTGCTGTT GGAAACAAGA
    AAGCCTGATC AAATTTTTCA GTCTTACAAA CCTGGAGAAG TGATGGTGAA AGTTCATGTT
    GTTGATCTGA AGGCAGAGAC TGTTGCTGCT CCTGTAACAG TGCGTGCGTA TTTAAATCAG
    ACAGTTACAG AGTTCAAACA GCTGATCTCA AAGGCCACAC ACTTACCTGC AGACTCCATG
    AGGATAGTGC TGGAACGCTG CTACAATGAC CTGCGCCTTC TCAGCATGCC CAGCAAGACC
    CTGAAGGCAG AAGGCTTCTT CAGAAGTAAC AAGGTGTTTG TTGAAAGCTC TGAGACAGTG
    GATCACCAGG CAGCCTTTAC AGACTCCCAC TTGTGGAAAC TCCTGGATCG ACATGCAAAT
    ACAATCCGGT TATTTGTTTT GCTGCCTGAA CAATCTCCAG GATCATATTC AAAAAGGACA
    GCATACCAGA AAGCTGGAGG TGATTCTGGT AATGTGGACG ATGATTGTGA AAGAGTCAAA
    GGACCTGCAG GGAATTTAAA GTCTGTGGAT GCTATTCTAG AAGAGAGCAC TGAAAAACTC
    AAAAGCTTGT CACTGCAGCA GCAGCAAGAT GGGGACAACG GAGACAGCAG CAAAAGCACT
    GAGACAAGTG ACTTTGAAAA TATTGAATCA CCTCTCAATG AGAGGGGCTC TTCCACCTCT
    GTGGATAATC GAGATCTTGA CCAGCACATT CAGACTTCTG ACCCAGAAAA CTTTCAGTCT
    GAAGAACGCT CAGACTCAGA TGTGAATAAT GACCGGAGTA CAAGTTCAGT AGACAGTGAT
    ATTCTTAGCT CCAGTCACAG CAGCGACACT CTGTGCAATG CAGACAGTGC TCAGATTCCT
    CTGGCCAATG GACTCGACTC TCACAGTATC ACAAGTAGTA GAAGAACTAA GGCAAACGAA
    GGGAAAAAGG AGACCTGGGA CACAGCTGAA GAAGACTCTG GGACTGACAG TGAATATGAC
    GAGAGTGGCA AGAGCAGGGG GGACATGCAG TACATGTACT TCAAAGCTGA CCCCTACACT
    GCGGACGAAG GCTCTGGGGA AGGACACAAA TGGTTGATGG TGCATGTTGA TAAGAGAATC
    ACCCTGGCAG CTTTCAAACA GCATTTAGAA CCCTTTGTTG GAGTCCTCTC CTCTCACTTC
    AAGGTTTTTC GAGTGTACAC CAGCAATCAA GAGTTTGAGA CCGTCCGGTT GAATGAGACC
    CTTTCATCAT TTTCAGATGA CAATAAGATC ACAATCCGAC TGGGGAGAGC ACTGAAGAAG
    GGAGAGTACA GAGTTAAAGT GTGCCAGCTC TTAGTCAATG AGCAAGAGCC ATGCAAGTTT
    CTGCTAGATG CTGTGTTTGC TAAAGGCATG ACTGTGCGGC AATCGAAAGA GGAGCTGATT
    CCTCAACTCA GGGAGCAGTG TGGCTTAGAC CTCAGCATCG ACAGGTTTCG TCTAAGGAAG
    AAAACATGGA AGAATCCTGG CACTGTCTTT TTGGATTATC ATATTTATGA AGAAGATATT
    AATATTTCCA GCAACTGGGA AGTTTTCCTG GAAGTTCTTG ATGGTGTGGA GAAGATGAAG
    TCCATGTCAC AGCTTGCCAT CTTAACAAGA CGCTGGAGGC CTGCAGAGAT GAAGTTGGAC
    CCCTTCCAGG AGCTTGTGTT GGAAAGCAAT AGTGTTGATG AACTCCGAGA GAAGCTAAGT
    GAAATCAGTG GGATTCCTTT GGAAGACATT GAATTTGCCA AGGGTAGGGG GACCTTCCCC
    TGTGATATTT CTGTCCTTGA TATTCATCAA GATTTGGACT GGAATCCTAA AGTCTCTACC
    CTGAATGTTT GGCCTCTTTA TATCTGTGAT GATGGTGCCG TCATATTTTA TAGGGATAAA
    ACAGAAGAAG TAATGGAATT GACAGATGAG CAAAGAAATG AATTGATGAA AAAGGAAAGC
    AGCCGACTGC AGAAGACAGG ACATCGTGTG ACATACTCCC CTCGAAAAGA GAAAGCACTC
    AAGATCTACC TGGATGGGGC GCCAAATAAA GATGTGGCTC AAGACTGA

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

    CloneID OMv46661
    Clone ID Related Accession (Same CDS sequence) XM_021219859.1
    Accession Version XM_021219859.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3864bp)
    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 2017-05-18
    Organism Mus pahari(shrew mouse)
    Product ubiquitin carboxyl-terminal hydrolase 47 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034590.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus pahari Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGTGCCCG GCGAGGAGAA CCAACTGGTC CCGAAGGAGG CACCACTGGA TCACACCAGT 
    GACAAGTCTC TTCTTGATGC TAATTTTGAG CCAGGAAAGA AGAACTTTCT GCATTTGACA
    GATAAAGATG GTGAACCGCC TCAGATGTTG CTGGAGGACT CCAATAACGT GGATGACAGC
    GTACATGACA GGTTCATAGG TCCACTTCCA AGAGAAGGTT CTGTGGCCTC TACCAATGAT
    TATGTCAGCC AGAGCTACTC CTATTCATCA ATTTTGAGCA AGTCAGAAAC TGGTTATGTG
    GGATTAGTAA ACCAGGCGAT GACATGCTAT TTGAATAGCC TTTTGCAAAC ACTTTTTATG
    ACTCCTGAAT TTAGGAATGC ATTATATAAG TGGGAATTTG AAGACTCTGA AGAAGATCCT
    GTGACGAGCA TTCCATACCA GCTTCAAAGG CTTTTTGTTT TGTTACAAAC CAGCAAAAAG
    AGAGCAATTG AGACCACAGA TGTTACAAGG AGCTTTGGAT GGGATAGCAG TGAGGCTTGG
    CAACAGCATG ATGTACAAGA ACTGTGCCGT GTTATGTTTG ATGCTTTGGA ACAGAAATGG
    AAGCAAACAG AACAGGCTGA TCTTATAAAT GAGCTGTACC AAGGCAAGCT GAAAGACTAT
    GTGAGGTGTC TGGAATGCGG TTATGAAGGC TGGAGAATTG ACACATATCT TGATATTCCA
    CTGGTCATCC GACCTTATGG GTCTAGCCAA GCATTTGCTA GTGTGGAAGA AGCATTGCAT
    GCATTTATTC AACCAGAGAT CTTGGATGGC CCAAATCAAT ATTTTTGTGA ACGTTGTAAG
    AAGAAGTGTG ATGCACGTAA GGGCCTTCGG TTTTTGCATT TCCCCTATCT GTTGACCTTA
    CAGTTGAAAA GGTTTGATTT TGATTATACA ACCATGCATA GAATTAAACT CAATGATCGA
    ATGTCATTTC CGGAGGAGCT GGATATGAGC ACATTTATTG ATATTGAAGA TGAGAAATCT
    CCTCAGACTG AAAGTTGCAC TGATAGTGGA GCAGAAAATG AAGGCAGTTG CCACAGCGAC
    CAGATGAGTA ATGATTTCTC CACGGATGAT GCGGTTGATG AAGGGATTTG CCTGGAGAGC
    AGTAGTGGGA GTGAGAAGAT TTCAAAACCT GGCCTGGAAA AGAACTCTCT GATGTATGAA
    CTCTTCTCAG TGATGGTGCA TTCAGGGAGT GCTGCTGGAG GACACTATTA TGCTTGCATA
    AAGTCTTTCA GTGATGATCA ATGGTACAGT TTCAATGACC AACATGTGAG CAGGATAACA
    CAAGAAGACA TTAAGAAGAC ACATGGTGGG TCTTCAGGAA GCAGAGGCTA CTACTCCAGT
    GCTTTTGCAA GCTCAACAAA TGCATATATG CTGATATACA GACTGAAGGA TCCAACAAGA
    AATGCAAAAT TTCTAGAAGT GGACGAGTAC CCAGAACACA TTAAGAATCT GGTGCAGAAG
    GAGAGAGAAT TGGAAGAACA GGAAAAGAGG CAACGAGAAA TTGAACGCAA CACGTGCAAG
    ATAAAATTAT TCTGTTTACA TCCTGTGAAA CAAGTAATGA TGGAAAACAA GTTGGAGGTT
    CATAAGGATA AGACATTAAA AGAAGCCGTG GAAATGGCTT ATAAGATGAT GGATTTAGAA
    GATGTGATTC CCCTGGATTG CTGTCGCCTG GTAAAATATG ACGAGTTTCA TGATTACCTG
    GAACGATCGT ATGAGGGAGA AGAAGATACG CCAATGGGGC TGCTTCTAGG AGGAGTCAAG
    TCCACATACA TGTTTGATCT GCTGTTGGAA ACAAGAAAGC CTGATCAAAT TTTTCAGTCT
    TACAAACCTG GAGAAGTGAT GGTGAAAGTT CATGTTGTTG ATCTGAAGGC AGAGACTGTT
    GCTGCTCCTG TAACAGTGCG TGCGTATTTA AATCAGACAG TTACAGAGTT CAAACAGCTG
    ATCTCAAAGG CCACACACTT ACCTGCAGAC TCCATGAGGA TAGTGCTGGA ACGCTGCTAC
    AATGACCTGC GCCTTCTCAG CATGCCCAGC AAGACCCTGA AGGCAGAAGG CTTCTTCAGA
    AGTAACAAGG TGTTTGTTGA AAGCTCTGAG ACAGTGGATC ACCAGGCAGC CTTTACAGAC
    TCCCACTTGT GGAAACTCCT GGATCGACAT GCAAATACAA TCCGGTTATT TGTTTTGCTG
    CCTGAACAAT CTCCAGGATC ATATTCAAAA AGGACAGCAT ACCAGAAAGC TGGAGGTGAT
    TCTGGTAATG TGGACGATGA TTGTGAAAGA GTCAAAGGAC CTGCAGGGAA TTTAAAGTCT
    GTGGATGCTA TTCTAGAAGA GAGCACTGAA AAACTCAAAA GCTTGTCACT GCAGCAGCAG
    CAAGATGGGG ACAACGGAGA CAGCAGCAAA AGCACTGAGA CAAGTGACTT TGAAAATATT
    GAATCACCTC TCAATGAGAG GGGCTCTTCC ACCTCTGTGG ATAATCGAGA TCTTGACCAG
    CACATTCAGA CTTCTGACCC AGAAAACTTT CAGTCTGAAG AACGCTCAGA CTCAGATGTG
    AATAATGACC GGAGTACAAG TTCAGTAGAC AGTGATATTC TTAGCTCCAG TCACAGCAGC
    GACACTCTGT GCAATGCAGA CAGTGCTCAG ATTCCTCTGG CCAATGGACT CGACTCTCAC
    AGTATCACAA GTAGTAGAAG AACTAAGGCA AACGAAGGGA AAAAGGAGAC CTGGGACACA
    GCTGAAGAAG ACTCTGGGAC TGACAGTGAA TATGACGAGA GTGGCAAGAG CAGGGGGGAC
    ATGCAGTACA TGTACTTCAA AGCTGACCCC TACACTGCGG ACGAAGGCTC TGGGGAAGGA
    CACAAATGGT TGATGGTGCA TGTTGATAAG AGAATCACCC TGGCAGCTTT CAAACAGCAT
    TTAGAACCCT TTGTTGGAGT CCTCTCCTCT CACTTCAAGG TTTTTCGAGT GTACACCAGC
    AATCAAGAGT TTGAGACCGT CCGGTTGAAT GAGACCCTTT CATCATTTTC AGATGACAAT
    AAGATCACAA TCCGACTGGG GAGAGCACTG AAGAAGGGAG AGTACAGAGT TAAAGTGTGC
    CAGCTCTTAG TCAATGAGCA AGAGCCATGC AAGTTTCTGC TAGATGCTGT GTTTGCTAAA
    GGCATGACTG TGCGGCAATC GAAAGAGGAG CTGATTCCTC AACTCAGGGA GCAGTGTGGC
    TTAGACCTCA GCATCGACAG GTTTCGTCTA AGGAAGAAAA CATGGAAGAA TCCTGGCACT
    GTCTTTTTGG ATTATCATAT TTATGAAGAA GATATTAATA TTTCCAGCAA CTGGGAAGTT
    TTCCTGGAAG TTCTTGATGG TGTGGAGAAG ATGAAGTCCA TGTCACAGCT TGCCATCTTA
    ACAAGACGCT GGAGGCCTGC AGAGATGAAG TTGGACCCCT TCCAGGAGCT TGTGTTGGAA
    AGCAATAGTG TTGATGAACT CCGAGAGAAG CTAAGTGAAA TCAGTGGGAT TCCTTTGGAA
    GACATTGAAT TTGCCAAGGG TAGGGGGACC TTCCCCTGTG ATATTTCTGT CCTTGATATT
    CATCAAGATT TGGACTGGAA TCCTAAAGTC TCTACCCTGA ATGTTTGGCC TCTTTATATC
    TGTGATGATG GTGCCGTCAT ATTTTATAGG GATAAAACAG AAGAAGTAAT GGAATTGACA
    GATGAGCAAA GAAATGAATT GATGAAAAAG GAAAGCAGCC GACTGCAGAA GACAGGACAT
    CGTGTGACAT ACTCCCCTCG AAAAGAGAAA GCACTCAAGA TCTACCTGGA TGGGGCGCCA
    AATAAAGATG TGGCTCAAGA CTGA

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

    RefSeq XP_021075518.1
    CDS192..4055
    Translation

    Target ORF information:

    RefSeq Version XM_021219859.1
    Organism Mus pahari(shrew mouse)
    Definition Mus pahari ubiquitin specific peptidase 47 (Usp47), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021219859.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGTGCCCG GCGAGGAGAA CCAACTGGTC CCGAAGGAGG CACCACTGGA TCACACCAGT 
    GACAAGTCTC TTCTTGATGC TAATTTTGAG CCAGGAAAGA AGAACTTTCT GCATTTGACA
    GATAAAGATG GTGAACCGCC TCAGATGTTG CTGGAGGACT CCAATAACGT GGATGACAGC
    GTACATGACA GGTTCATAGG TCCACTTCCA AGAGAAGGTT CTGTGGCCTC TACCAATGAT
    TATGTCAGCC AGAGCTACTC CTATTCATCA ATTTTGAGCA AGTCAGAAAC TGGTTATGTG
    GGATTAGTAA ACCAGGCGAT GACATGCTAT TTGAATAGCC TTTTGCAAAC ACTTTTTATG
    ACTCCTGAAT TTAGGAATGC ATTATATAAG TGGGAATTTG AAGACTCTGA AGAAGATCCT
    GTGACGAGCA TTCCATACCA GCTTCAAAGG CTTTTTGTTT TGTTACAAAC CAGCAAAAAG
    AGAGCAATTG AGACCACAGA TGTTACAAGG AGCTTTGGAT GGGATAGCAG TGAGGCTTGG
    CAACAGCATG ATGTACAAGA ACTGTGCCGT GTTATGTTTG ATGCTTTGGA ACAGAAATGG
    AAGCAAACAG AACAGGCTGA TCTTATAAAT GAGCTGTACC AAGGCAAGCT GAAAGACTAT
    GTGAGGTGTC TGGAATGCGG TTATGAAGGC TGGAGAATTG ACACATATCT TGATATTCCA
    CTGGTCATCC GACCTTATGG GTCTAGCCAA GCATTTGCTA GTGTGGAAGA AGCATTGCAT
    GCATTTATTC AACCAGAGAT CTTGGATGGC CCAAATCAAT ATTTTTGTGA ACGTTGTAAG
    AAGAAGTGTG ATGCACGTAA GGGCCTTCGG TTTTTGCATT TCCCCTATCT GTTGACCTTA
    CAGTTGAAAA GGTTTGATTT TGATTATACA ACCATGCATA GAATTAAACT CAATGATCGA
    ATGTCATTTC CGGAGGAGCT GGATATGAGC ACATTTATTG ATATTGAAGA TGAGAAATCT
    CCTCAGACTG AAAGTTGCAC TGATAGTGGA GCAGAAAATG AAGGCAGTTG CCACAGCGAC
    CAGATGAGTA ATGATTTCTC CACGGATGAT GCGGTTGATG AAGGGATTTG CCTGGAGAGC
    AGTAGTGGGA GTGAGAAGAT TTCAAAACCT GGCCTGGAAA AGAACTCTCT GATGTATGAA
    CTCTTCTCAG TGATGGTGCA TTCAGGGAGT GCTGCTGGAG GACACTATTA TGCTTGCATA
    AAGTCTTTCA GTGATGATCA ATGGTACAGT TTCAATGACC AACATGTGAG CAGGATAACA
    CAAGAAGACA TTAAGAAGAC ACATGGTGGG TCTTCAGGAA GCAGAGGCTA CTACTCCAGT
    GCTTTTGCAA GCTCAACAAA TGCATATATG CTGATATACA GACTGAAGGA TCCAACAAGA
    AATGCAAAAT TTCTAGAAGT GGACGAGTAC CCAGAACACA TTAAGAATCT GGTGCAGAAG
    GAGAGAGAAT TGGAAGAACA GGAAAAGAGG CAACGAGAAA TTGAACGCAA CACGTGCAAG
    ATAAAATTAT TCTGTTTACA TCCTGTGAAA CAAGTAATGA TGGAAAACAA GTTGGAGGTT
    CATAAGGATA AGACATTAAA AGAAGCCGTG GAAATGGCTT ATAAGATGAT GGATTTAGAA
    GATGTGATTC CCCTGGATTG CTGTCGCCTG GTAAAATATG ACGAGTTTCA TGATTACCTG
    GAACGATCGT ATGAGGGAGA AGAAGATACG CCAATGGGGC TGCTTCTAGG AGGAGTCAAG
    TCCACATACA TGTTTGATCT GCTGTTGGAA ACAAGAAAGC CTGATCAAAT TTTTCAGTCT
    TACAAACCTG GAGAAGTGAT GGTGAAAGTT CATGTTGTTG ATCTGAAGGC AGAGACTGTT
    GCTGCTCCTG TAACAGTGCG TGCGTATTTA AATCAGACAG TTACAGAGTT CAAACAGCTG
    ATCTCAAAGG CCACACACTT ACCTGCAGAC TCCATGAGGA TAGTGCTGGA ACGCTGCTAC
    AATGACCTGC GCCTTCTCAG CATGCCCAGC AAGACCCTGA AGGCAGAAGG CTTCTTCAGA
    AGTAACAAGG TGTTTGTTGA AAGCTCTGAG ACAGTGGATC ACCAGGCAGC CTTTACAGAC
    TCCCACTTGT GGAAACTCCT GGATCGACAT GCAAATACAA TCCGGTTATT TGTTTTGCTG
    CCTGAACAAT CTCCAGGATC ATATTCAAAA AGGACAGCAT ACCAGAAAGC TGGAGGTGAT
    TCTGGTAATG TGGACGATGA TTGTGAAAGA GTCAAAGGAC CTGCAGGGAA TTTAAAGTCT
    GTGGATGCTA TTCTAGAAGA GAGCACTGAA AAACTCAAAA GCTTGTCACT GCAGCAGCAG
    CAAGATGGGG ACAACGGAGA CAGCAGCAAA AGCACTGAGA CAAGTGACTT TGAAAATATT
    GAATCACCTC TCAATGAGAG GGGCTCTTCC ACCTCTGTGG ATAATCGAGA TCTTGACCAG
    CACATTCAGA CTTCTGACCC AGAAAACTTT CAGTCTGAAG AACGCTCAGA CTCAGATGTG
    AATAATGACC GGAGTACAAG TTCAGTAGAC AGTGATATTC TTAGCTCCAG TCACAGCAGC
    GACACTCTGT GCAATGCAGA CAGTGCTCAG ATTCCTCTGG CCAATGGACT CGACTCTCAC
    AGTATCACAA GTAGTAGAAG AACTAAGGCA AACGAAGGGA AAAAGGAGAC CTGGGACACA
    GCTGAAGAAG ACTCTGGGAC TGACAGTGAA TATGACGAGA GTGGCAAGAG CAGGGGGGAC
    ATGCAGTACA TGTACTTCAA AGCTGACCCC TACACTGCGG ACGAAGGCTC TGGGGAAGGA
    CACAAATGGT TGATGGTGCA TGTTGATAAG AGAATCACCC TGGCAGCTTT CAAACAGCAT
    TTAGAACCCT TTGTTGGAGT CCTCTCCTCT CACTTCAAGG TTTTTCGAGT GTACACCAGC
    AATCAAGAGT TTGAGACCGT CCGGTTGAAT GAGACCCTTT CATCATTTTC AGATGACAAT
    AAGATCACAA TCCGACTGGG GAGAGCACTG AAGAAGGGAG AGTACAGAGT TAAAGTGTGC
    CAGCTCTTAG TCAATGAGCA AGAGCCATGC AAGTTTCTGC TAGATGCTGT GTTTGCTAAA
    GGCATGACTG TGCGGCAATC GAAAGAGGAG CTGATTCCTC AACTCAGGGA GCAGTGTGGC
    TTAGACCTCA GCATCGACAG GTTTCGTCTA AGGAAGAAAA CATGGAAGAA TCCTGGCACT
    GTCTTTTTGG ATTATCATAT TTATGAAGAA GATATTAATA TTTCCAGCAA CTGGGAAGTT
    TTCCTGGAAG TTCTTGATGG TGTGGAGAAG ATGAAGTCCA TGTCACAGCT TGCCATCTTA
    ACAAGACGCT GGAGGCCTGC AGAGATGAAG TTGGACCCCT TCCAGGAGCT TGTGTTGGAA
    AGCAATAGTG TTGATGAACT CCGAGAGAAG CTAAGTGAAA TCAGTGGGAT TCCTTTGGAA
    GACATTGAAT TTGCCAAGGG TAGGGGGACC TTCCCCTGTG ATATTTCTGT CCTTGATATT
    CATCAAGATT TGGACTGGAA TCCTAAAGTC TCTACCCTGA ATGTTTGGCC TCTTTATATC
    TGTGATGATG GTGCCGTCAT ATTTTATAGG GATAAAACAG AAGAAGTAAT GGAATTGACA
    GATGAGCAAA GAAATGAATT GATGAAAAAG GAAAGCAGCC GACTGCAGAA GACAGGACAT
    CGTGTGACAT ACTCCCCTCG AAAAGAGAAA GCACTCAAGA TCTACCTGGA TGGGGCGCCA
    AATAAAGATG TGGCTCAAGA CTGA

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

    CloneID OMv77626
    Clone ID Related Accession (Same CDS sequence) XM_029548178.1
    Accession Version XM_029548178.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4188bp)
    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 2019-06-17
    Organism Mus pahari(shrew mouse)
    Product ubiquitin carboxyl-terminal hydrolase 47 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034590.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGTGCCCG GCGAGGAGAA CCAACTGGTC CCGAAGGAGG ATGTGTTTTG GAGATGCAGA 
    CAAAATATCT TTGATGAAAT GAAGAAGAAA TTTTTACAGA TAGAAAATGC TGCTGAAGAA
    CCTAGAGTCT TATGTATAAT ACAAGACACT ACTAACTCGA AGACAGTGAG TGAAAGGATC
    ACATTAAATT TACCAGCGTC TACCCCAGTC CGAAAGCTCT TTGAAGATGT GGCCAACAAA
    GTAGGCTACA TAAATGGAAC CTTTGATTTG ACATGGGGAA ATGGAGTCAA TACTGCTGAT
    ACGGCACCAC TGGATCACAC CAGTGACAAG TCTCTTCTTG ATGCTAATTT TGAGCCAGGA
    AAGAAGAACT TTCTGCATTT GACAGATAAA GATGGTGAAC CGCCTCAGAT GTTGCTGGAG
    GACTCCAATA ACGTGGATGA CAGCGTACAT GACAGGTTCA TAGGTCCACT TCCAAGAGAA
    GGTTCTGTGG CCTCTACCAA TGATTATGTC AGCCAGAGCT ACTCCTATTC ATCAATTTTG
    AGCAAGTCAG AAACTGGTTA TGTGGGATTA GTAAACCAGG CGATGACATG CTATTTGAAT
    AGCCTTTTGC AAACACTTTT TATGACTCCT GAATTTAGGA ATGCATTATA TAAGTGGGAA
    TTTGAAGACT CTGAAGAAGA TCCTGTGACG AGCATTCCAT ACCAGCTTCA AAGGCTTTTT
    GTTTTGTTAC AAACCAGCAA AAAGAGAGCA ATTGAGACCA CAGATGTTAC AAGGAGCTTT
    GGATGGGATA GCAGTGAGGC TTGGCAACAG CATGATGTAC AAGAACTGTG CCGTGTTATG
    TTTGATGCTT TGGAACAGAA ATGGAAGCAA ACAGAACAGG CTGATCTTAT AAATGAGCTG
    TACCAAGGCA AGCTGAAAGA CTATGTGAGG TGTCTGGAAT GCGGTTATGA AGGCTGGAGA
    ATTGACACAT ATCTTGATAT TCCACTGGTC ATCCGACCTT ATGGGTCTAG CCAAGCATTT
    GCTAGTGTGG AAGAAGCATT GCATGCATTT ATTCAACCAG AGATCTTGGA TGGCCCAAAT
    CAATATTTTT GTGAACGTTG TAAGAAGAAG TGTGATGCAC GTAAGGGCCT TCGGTTTTTG
    CATTTCCCCT ATCTGTTGAC CTTACAGTTG AAAAGGTTTG ATTTTGATTA TACAACCATG
    CATAGAATTA AACTCAATGA TCGAATGTCA TTTCCGGAGG AGCTGGATAT GAGCACATTT
    ATTGATATTG AAGATGAGAA ATCTCCTCAG ACTGAAAGTT GCACTGATAG TGGAGCAGAA
    AATGAAGGCA GTTGCCACAG CGACCAGATG AGTAATGATT TCTCCACGGA TGATGCGGTT
    GATGAAGGGA TTTGCCTGGA GAGCAGTAGT GGGAGTGAGA AGATTTCAAA ACCTGGCCTG
    GAAAAGGTAG AGATGGCGGA GACAGACCAG AGAAAGGATC CCATCCAATT CCAGCTTGGT
    GAACCAAACT CTCTGATGTA TGAACTCTTC TCAGTGATGG TGCATTCAGG GAGTGCTGCT
    GGAGGACACT ATTATGCTTG CATAAAGTCT TTCAGTGATG ATCAATGGTA CAGTTTCAAT
    GACCAACATG TGAGCAGGAT AACACAAGAA GACATTAAGA AGACACATGG TGGGTCTTCA
    GGAAGCAGAG GCTACTACTC CAGTGCTTTT GCAAGCTCAA CAAATGCATA TATGCTGATA
    TACAGACTGA AGGATCCAAC AAGAAATGCA AAATTTCTAG AAGTGGACGA GTACCCAGAA
    CACATTAAGA ATCTGGTGCA GAAGGAGAGA GAATTGGAAG AACAGGAAAA GAGGCAACGA
    GAAATTGAAC GCAACACGTG CAAGATAAAA TTATTCTGTT TACATCCTGT GAAACAAGTA
    ATGATGGAAA ACAAGTTGGA GGTTCATAAG GATAAGACAT TAAAAGAAGC CGTGGAAATG
    GCTTATAAGA TGATGGATTT AGAAGATGTG ATTCCCCTGG ATTGCTGTCG CCTGGTAAAA
    TATGACGAGT TTCATGATTA CCTGGAACGA TCGTATGAGG GAGAAGAAGA TACGCCAATG
    GGGCTGCTTC TAGGAGGAGT CAAGTCCACA TACATGTTTG ATCTGCTGTT GGAAACAAGA
    AAGCCTGATC AAATTTTTCA GTCTTACAAA CCTGGAGAAG TGATGGTGAA AGTTCATGTT
    GTTGATCTGA AGGCAGAGAC TGTTGCTGCT CCTGTAACAG TGCGTGCGTA TTTAAATCAG
    ACAGTTACAG AGTTCAAACA GCTGATCTCA AAGGCCACAC ACTTACCTGC AGACTCCATG
    AGGATAGTGC TGGAACGCTG CTACAATGAC CTGCGCCTTC TCAGCATGCC CAGCAAGACC
    CTGAAGGCAG AAGGCTTCTT CAGAAGTAAC AAGGTGTTTG TTGAAAGCTC TGAGACAGTG
    GATCACCAGG CAGCCTTTAC AGACTCCCAC TTGTGGAAAC TCCTGGATCG ACATGCAAAT
    ACAATCCGGT TATTTGTTTT GCTGCCTGAA CAATCTCCAG GATCATATTC AAAAAGGACA
    GCATACCAGA AAGCTGGAGG TGATTCTGGT AATGTGGACG ATGATTGTGA AAGAGTCAAA
    GGACCTGCAG GGAATTTAAA GTCTGTGGAT GCTATTCTAG AAGAGAGCAC TGAAAAACTC
    AAAAGCTTGT CACTGCAGCA GCAGCAAGAT GGGGACAACG GAGACAGCAG CAAAAGCACT
    GAGACAAGTG ACTTTGAAAA TATTGAATCA CCTCTCAATG AGAGGGGCTC TTCCACCTCT
    GTGGATAATC GAGATCTTGA CCAGCACATT CAGACTTCTG ACCCAGAAAA CTTTCAGTCT
    GAAGAACGCT CAGACTCAGA TGTGAATAAT GACCGGAGTA CAAGTTCAGT AGACAGTGAT
    ATTCTTAGCT CCAGTCACAG CAGCGACACT CTGTGCAATG CAGACAGTGC TCAGATTCCT
    CTGGCCAATG GACTCGACTC TCACAGTATC ACAAGTAGTA GAAGAACTAA GGCAAACGAA
    GGGAAAAAGG AGACCTGGGA CACAGCTGAA GAAGACTCTG GGACTGACAG TGAATATGAC
    GAGAGTGGCA AGAGCAGGGG GGACATGCAG TACATGTACT TCAAAGCTGA CCCCTACACT
    GCGGACGAAG GCTCTGGGGA AGGACACAAA TGGTTGATGG TGCATGTTGA TAAGAGAATC
    ACCCTGGCAG CTTTCAAACA GCATTTAGAA CCCTTTGTTG GAGTCCTCTC CTCTCACTTC
    AAGGTTTTTC GAGTGTACAC CAGCAATCAA GAGTTTGAGA CCGTCCGGTT GAATGAGACC
    CTTTCATCAT TTTCAGATGA CAATAAGATC ACAATCCGAC TGGGGAGAGC ACTGAAGAAG
    GGAGAGTACA GAGTTAAAGT GTGCCAGCTC TTAGTCAATG AGCAAGAGCC ATGCAAGTTT
    CTGCTAGATG CTGTGTTTGC TAAAGGCATG ACTGTGCGGC AATCGAAAGA GGAGCTGATT
    CCTCAACTCA GGGAGCAGTG TGGCTTAGAC CTCAGCATCG ACAGGTTTCG TCTAAGGAAG
    AAAACATGGA AGAATCCTGG CACTGTCTTT TTGGATTATC ATATTTATGA AGAAGATATT
    AATATTTCCA GCAACTGGGA AGTTTTCCTG GAAGTTCTTG ATGGTGTGGA GAAGATGAAG
    TCCATGTCAC AGCTTGCCAT CTTAACAAGA CGCTGGAGGC CTGCAGAGAT GAAGTTGGAC
    CCCTTCCAGG AGCTTGTGTT GGAAAGCAAT AGTGTTGATG AACTCCGAGA GAAGCTAAGT
    GAAATCAGTG GGATTCCTTT GGAAGACATT GAATTTGCCA AGGGTAGGGG GACCTTCCCC
    TGTGATATTT CTGTCCTTGA TATTCATCAA GATTTGGACT GGAATCCTAA AGTCTCTACC
    CTGAATGTTT GGCCTCTTTA TATCTGTGAT GATGGTGCCG TCATATTTTA TAGGGATAAA
    ACAGAAGAAG TAATGGAATT GACAGATGAG CAAAGAAATG AATTGATGAA AAAGGAAAGC
    AGCCGACTGC AGAAGACAGG ACATCGTGTG ACATACTCCC CTCGAAAAGA GAAAGCACTC
    AAGATCTACC TGGATGGGGC GCCAAATAAA GATGTGGCTC AAGACTGA

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

    RefSeq XP_029404038.1
    CDS212..4399
    Translation

    Target ORF information:

    RefSeq Version XM_029548178.1
    Organism Mus pahari(shrew mouse)
    Definition Mus pahari ubiquitin specific peptidase 47 (Usp47), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029548178.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGTGCCCG GCGAGGAGAA CCAACTGGTC CCGAAGGAGG ATGTGTTTTG GAGATGCAGA 
    CAAAATATCT TTGATGAAAT GAAGAAGAAA TTTTTACAGA TAGAAAATGC TGCTGAAGAA
    CCTAGAGTCT TATGTATAAT ACAAGACACT ACTAACTCGA AGACAGTGAG TGAAAGGATC
    ACATTAAATT TACCAGCGTC TACCCCAGTC CGAAAGCTCT TTGAAGATGT GGCCAACAAA
    GTAGGCTACA TAAATGGAAC CTTTGATTTG ACATGGGGAA ATGGAGTCAA TACTGCTGAT
    ACGGCACCAC TGGATCACAC CAGTGACAAG TCTCTTCTTG ATGCTAATTT TGAGCCAGGA
    AAGAAGAACT TTCTGCATTT GACAGATAAA GATGGTGAAC CGCCTCAGAT GTTGCTGGAG
    GACTCCAATA ACGTGGATGA CAGCGTACAT GACAGGTTCA TAGGTCCACT TCCAAGAGAA
    GGTTCTGTGG CCTCTACCAA TGATTATGTC AGCCAGAGCT ACTCCTATTC ATCAATTTTG
    AGCAAGTCAG AAACTGGTTA TGTGGGATTA GTAAACCAGG CGATGACATG CTATTTGAAT
    AGCCTTTTGC AAACACTTTT TATGACTCCT GAATTTAGGA ATGCATTATA TAAGTGGGAA
    TTTGAAGACT CTGAAGAAGA TCCTGTGACG AGCATTCCAT ACCAGCTTCA AAGGCTTTTT
    GTTTTGTTAC AAACCAGCAA AAAGAGAGCA ATTGAGACCA CAGATGTTAC AAGGAGCTTT
    GGATGGGATA GCAGTGAGGC TTGGCAACAG CATGATGTAC AAGAACTGTG CCGTGTTATG
    TTTGATGCTT TGGAACAGAA ATGGAAGCAA ACAGAACAGG CTGATCTTAT AAATGAGCTG
    TACCAAGGCA AGCTGAAAGA CTATGTGAGG TGTCTGGAAT GCGGTTATGA AGGCTGGAGA
    ATTGACACAT ATCTTGATAT TCCACTGGTC ATCCGACCTT ATGGGTCTAG CCAAGCATTT
    GCTAGTGTGG AAGAAGCATT GCATGCATTT ATTCAACCAG AGATCTTGGA TGGCCCAAAT
    CAATATTTTT GTGAACGTTG TAAGAAGAAG TGTGATGCAC GTAAGGGCCT TCGGTTTTTG
    CATTTCCCCT ATCTGTTGAC CTTACAGTTG AAAAGGTTTG ATTTTGATTA TACAACCATG
    CATAGAATTA AACTCAATGA TCGAATGTCA TTTCCGGAGG AGCTGGATAT GAGCACATTT
    ATTGATATTG AAGATGAGAA ATCTCCTCAG ACTGAAAGTT GCACTGATAG TGGAGCAGAA
    AATGAAGGCA GTTGCCACAG CGACCAGATG AGTAATGATT TCTCCACGGA TGATGCGGTT
    GATGAAGGGA TTTGCCTGGA GAGCAGTAGT GGGAGTGAGA AGATTTCAAA ACCTGGCCTG
    GAAAAGGTAG AGATGGCGGA GACAGACCAG AGAAAGGATC CCATCCAATT CCAGCTTGGT
    GAACCAAACT CTCTGATGTA TGAACTCTTC TCAGTGATGG TGCATTCAGG GAGTGCTGCT
    GGAGGACACT ATTATGCTTG CATAAAGTCT TTCAGTGATG ATCAATGGTA CAGTTTCAAT
    GACCAACATG TGAGCAGGAT AACACAAGAA GACATTAAGA AGACACATGG TGGGTCTTCA
    GGAAGCAGAG GCTACTACTC CAGTGCTTTT GCAAGCTCAA CAAATGCATA TATGCTGATA
    TACAGACTGA AGGATCCAAC AAGAAATGCA AAATTTCTAG AAGTGGACGA GTACCCAGAA
    CACATTAAGA ATCTGGTGCA GAAGGAGAGA GAATTGGAAG AACAGGAAAA GAGGCAACGA
    GAAATTGAAC GCAACACGTG CAAGATAAAA TTATTCTGTT TACATCCTGT GAAACAAGTA
    ATGATGGAAA ACAAGTTGGA GGTTCATAAG GATAAGACAT TAAAAGAAGC CGTGGAAATG
    GCTTATAAGA TGATGGATTT AGAAGATGTG ATTCCCCTGG ATTGCTGTCG CCTGGTAAAA
    TATGACGAGT TTCATGATTA CCTGGAACGA TCGTATGAGG GAGAAGAAGA TACGCCAATG
    GGGCTGCTTC TAGGAGGAGT CAAGTCCACA TACATGTTTG ATCTGCTGTT GGAAACAAGA
    AAGCCTGATC AAATTTTTCA GTCTTACAAA CCTGGAGAAG TGATGGTGAA AGTTCATGTT
    GTTGATCTGA AGGCAGAGAC TGTTGCTGCT CCTGTAACAG TGCGTGCGTA TTTAAATCAG
    ACAGTTACAG AGTTCAAACA GCTGATCTCA AAGGCCACAC ACTTACCTGC AGACTCCATG
    AGGATAGTGC TGGAACGCTG CTACAATGAC CTGCGCCTTC TCAGCATGCC CAGCAAGACC
    CTGAAGGCAG AAGGCTTCTT CAGAAGTAAC AAGGTGTTTG TTGAAAGCTC TGAGACAGTG
    GATCACCAGG CAGCCTTTAC AGACTCCCAC TTGTGGAAAC TCCTGGATCG ACATGCAAAT
    ACAATCCGGT TATTTGTTTT GCTGCCTGAA CAATCTCCAG GATCATATTC AAAAAGGACA
    GCATACCAGA AAGCTGGAGG TGATTCTGGT AATGTGGACG ATGATTGTGA AAGAGTCAAA
    GGACCTGCAG GGAATTTAAA GTCTGTGGAT GCTATTCTAG AAGAGAGCAC TGAAAAACTC
    AAAAGCTTGT CACTGCAGCA GCAGCAAGAT GGGGACAACG GAGACAGCAG CAAAAGCACT
    GAGACAAGTG ACTTTGAAAA TATTGAATCA CCTCTCAATG AGAGGGGCTC TTCCACCTCT
    GTGGATAATC GAGATCTTGA CCAGCACATT CAGACTTCTG ACCCAGAAAA CTTTCAGTCT
    GAAGAACGCT CAGACTCAGA TGTGAATAAT GACCGGAGTA CAAGTTCAGT AGACAGTGAT
    ATTCTTAGCT CCAGTCACAG CAGCGACACT CTGTGCAATG CAGACAGTGC TCAGATTCCT
    CTGGCCAATG GACTCGACTC TCACAGTATC ACAAGTAGTA GAAGAACTAA GGCAAACGAA
    GGGAAAAAGG AGACCTGGGA CACAGCTGAA GAAGACTCTG GGACTGACAG TGAATATGAC
    GAGAGTGGCA AGAGCAGGGG GGACATGCAG TACATGTACT TCAAAGCTGA CCCCTACACT
    GCGGACGAAG GCTCTGGGGA AGGACACAAA TGGTTGATGG TGCATGTTGA TAAGAGAATC
    ACCCTGGCAG CTTTCAAACA GCATTTAGAA CCCTTTGTTG GAGTCCTCTC CTCTCACTTC
    AAGGTTTTTC GAGTGTACAC CAGCAATCAA GAGTTTGAGA CCGTCCGGTT GAATGAGACC
    CTTTCATCAT TTTCAGATGA CAATAAGATC ACAATCCGAC TGGGGAGAGC ACTGAAGAAG
    GGAGAGTACA GAGTTAAAGT GTGCCAGCTC TTAGTCAATG AGCAAGAGCC ATGCAAGTTT
    CTGCTAGATG CTGTGTTTGC TAAAGGCATG ACTGTGCGGC AATCGAAAGA GGAGCTGATT
    CCTCAACTCA GGGAGCAGTG TGGCTTAGAC CTCAGCATCG ACAGGTTTCG TCTAAGGAAG
    AAAACATGGA AGAATCCTGG CACTGTCTTT TTGGATTATC ATATTTATGA AGAAGATATT
    AATATTTCCA GCAACTGGGA AGTTTTCCTG GAAGTTCTTG ATGGTGTGGA GAAGATGAAG
    TCCATGTCAC AGCTTGCCAT CTTAACAAGA CGCTGGAGGC CTGCAGAGAT GAAGTTGGAC
    CCCTTCCAGG AGCTTGTGTT GGAAAGCAAT AGTGTTGATG AACTCCGAGA GAAGCTAAGT
    GAAATCAGTG GGATTCCTTT GGAAGACATT GAATTTGCCA AGGGTAGGGG GACCTTCCCC
    TGTGATATTT CTGTCCTTGA TATTCATCAA GATTTGGACT GGAATCCTAA AGTCTCTACC
    CTGAATGTTT GGCCTCTTTA TATCTGTGAT GATGGTGCCG TCATATTTTA TAGGGATAAA
    ACAGAAGAAG TAATGGAATT GACAGATGAG CAAAGAAATG AATTGATGAA AAAGGAAAGC
    AGCCGACTGC AGAAGACAGG ACATCGTGTG ACATACTCCC CTCGAAAAGA GAAAGCACTC
    AAGATCTACC TGGATGGGGC GCCAAATAAA GATGTGGCTC AAGACTGA

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

    CloneID OMv77627
    Clone ID Related Accession (Same CDS sequence) XM_029548189.1
    Accession Version XM_029548189.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4128bp)
    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 2019-06-17
    Organism Mus pahari(shrew mouse)
    Product ubiquitin carboxyl-terminal hydrolase 47 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034590.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGTGCCCG GCGAGGAGAA CCAACTGGTC CCGAAGGAGA TAGAAAATGC TGCTGAAGAA 
    CCTAGAGTCT TATGTATAAT ACAAGACACT ACTAACTCGA AGACAGTGAG TGAAAGGATC
    ACATTAAATT TACCAGCGTC TACCCCAGTC CGAAAGCTCT TTGAAGATGT GGCCAACAAA
    GTAGGCTACA TAAATGGAAC CTTTGATTTG ACATGGGGAA ATGGAGTCAA TACTGCTGAT
    ACGGCACCAC TGGATCACAC CAGTGACAAG TCTCTTCTTG ATGCTAATTT TGAGCCAGGA
    AAGAAGAACT TTCTGCATTT GACAGATAAA GATGGTGAAC CGCCTCAGAT GTTGCTGGAG
    GACTCCAATA ACGTGGATGA CAGCGTACAT GACAGGTTCA TAGGTCCACT TCCAAGAGAA
    GGTTCTGTGG CCTCTACCAA TGATTATGTC AGCCAGAGCT ACTCCTATTC ATCAATTTTG
    AGCAAGTCAG AAACTGGTTA TGTGGGATTA GTAAACCAGG CGATGACATG CTATTTGAAT
    AGCCTTTTGC AAACACTTTT TATGACTCCT GAATTTAGGA ATGCATTATA TAAGTGGGAA
    TTTGAAGACT CTGAAGAAGA TCCTGTGACG AGCATTCCAT ACCAGCTTCA AAGGCTTTTT
    GTTTTGTTAC AAACCAGCAA AAAGAGAGCA ATTGAGACCA CAGATGTTAC AAGGAGCTTT
    GGATGGGATA GCAGTGAGGC TTGGCAACAG CATGATGTAC AAGAACTGTG CCGTGTTATG
    TTTGATGCTT TGGAACAGAA ATGGAAGCAA ACAGAACAGG CTGATCTTAT AAATGAGCTG
    TACCAAGGCA AGCTGAAAGA CTATGTGAGG TGTCTGGAAT GCGGTTATGA AGGCTGGAGA
    ATTGACACAT ATCTTGATAT TCCACTGGTC ATCCGACCTT ATGGGTCTAG CCAAGCATTT
    GCTAGTGTGG AAGAAGCATT GCATGCATTT ATTCAACCAG AGATCTTGGA TGGCCCAAAT
    CAATATTTTT GTGAACGTTG TAAGAAGAAG TGTGATGCAC GTAAGGGCCT TCGGTTTTTG
    CATTTCCCCT ATCTGTTGAC CTTACAGTTG AAAAGGTTTG ATTTTGATTA TACAACCATG
    CATAGAATTA AACTCAATGA TCGAATGTCA TTTCCGGAGG AGCTGGATAT GAGCACATTT
    ATTGATATTG AAGATGAGAA ATCTCCTCAG ACTGAAAGTT GCACTGATAG TGGAGCAGAA
    AATGAAGGCA GTTGCCACAG CGACCAGATG AGTAATGATT TCTCCACGGA TGATGCGGTT
    GATGAAGGGA TTTGCCTGGA GAGCAGTAGT GGGAGTGAGA AGATTTCAAA ACCTGGCCTG
    GAAAAGGTAG AGATGGCGGA GACAGACCAG AGAAAGGATC CCATCCAATT CCAGCTTGGT
    GAACCAAACT CTCTGATGTA TGAACTCTTC TCAGTGATGG TGCATTCAGG GAGTGCTGCT
    GGAGGACACT ATTATGCTTG CATAAAGTCT TTCAGTGATG ATCAATGGTA CAGTTTCAAT
    GACCAACATG TGAGCAGGAT AACACAAGAA GACATTAAGA AGACACATGG TGGGTCTTCA
    GGAAGCAGAG GCTACTACTC CAGTGCTTTT GCAAGCTCAA CAAATGCATA TATGCTGATA
    TACAGACTGA AGGATCCAAC AAGAAATGCA AAATTTCTAG AAGTGGACGA GTACCCAGAA
    CACATTAAGA ATCTGGTGCA GAAGGAGAGA GAATTGGAAG AACAGGAAAA GAGGCAACGA
    GAAATTGAAC GCAACACGTG CAAGATAAAA TTATTCTGTT TACATCCTGT GAAACAAGTA
    ATGATGGAAA ACAAGTTGGA GGTTCATAAG GATAAGACAT TAAAAGAAGC CGTGGAAATG
    GCTTATAAGA TGATGGATTT AGAAGATGTG ATTCCCCTGG ATTGCTGTCG CCTGGTAAAA
    TATGACGAGT TTCATGATTA CCTGGAACGA TCGTATGAGG GAGAAGAAGA TACGCCAATG
    GGGCTGCTTC TAGGAGGAGT CAAGTCCACA TACATGTTTG ATCTGCTGTT GGAAACAAGA
    AAGCCTGATC AAATTTTTCA GTCTTACAAA CCTGGAGAAG TGATGGTGAA AGTTCATGTT
    GTTGATCTGA AGGCAGAGAC TGTTGCTGCT CCTGTAACAG TGCGTGCGTA TTTAAATCAG
    ACAGTTACAG AGTTCAAACA GCTGATCTCA AAGGCCACAC ACTTACCTGC AGACTCCATG
    AGGATAGTGC TGGAACGCTG CTACAATGAC CTGCGCCTTC TCAGCATGCC CAGCAAGACC
    CTGAAGGCAG AAGGCTTCTT CAGAAGTAAC AAGGTGTTTG TTGAAAGCTC TGAGACAGTG
    GATCACCAGG CAGCCTTTAC AGACTCCCAC TTGTGGAAAC TCCTGGATCG ACATGCAAAT
    ACAATCCGGT TATTTGTTTT GCTGCCTGAA CAATCTCCAG GATCATATTC AAAAAGGACA
    GCATACCAGA AAGCTGGAGG TGATTCTGGT AATGTGGACG ATGATTGTGA AAGAGTCAAA
    GGACCTGCAG GGAATTTAAA GTCTGTGGAT GCTATTCTAG AAGAGAGCAC TGAAAAACTC
    AAAAGCTTGT CACTGCAGCA GCAGCAAGAT GGGGACAACG GAGACAGCAG CAAAAGCACT
    GAGACAAGTG ACTTTGAAAA TATTGAATCA CCTCTCAATG AGAGGGGCTC TTCCACCTCT
    GTGGATAATC GAGATCTTGA CCAGCACATT CAGACTTCTG ACCCAGAAAA CTTTCAGTCT
    GAAGAACGCT CAGACTCAGA TGTGAATAAT GACCGGAGTA CAAGTTCAGT AGACAGTGAT
    ATTCTTAGCT CCAGTCACAG CAGCGACACT CTGTGCAATG CAGACAGTGC TCAGATTCCT
    CTGGCCAATG GACTCGACTC TCACAGTATC ACAAGTAGTA GAAGAACTAA GGCAAACGAA
    GGGAAAAAGG AGACCTGGGA CACAGCTGAA GAAGACTCTG GGACTGACAG TGAATATGAC
    GAGAGTGGCA AGAGCAGGGG GGACATGCAG TACATGTACT TCAAAGCTGA CCCCTACACT
    GCGGACGAAG GCTCTGGGGA AGGACACAAA TGGTTGATGG TGCATGTTGA TAAGAGAATC
    ACCCTGGCAG CTTTCAAACA GCATTTAGAA CCCTTTGTTG GAGTCCTCTC CTCTCACTTC
    AAGGTTTTTC GAGTGTACAC CAGCAATCAA GAGTTTGAGA CCGTCCGGTT GAATGAGACC
    CTTTCATCAT TTTCAGATGA CAATAAGATC ACAATCCGAC TGGGGAGAGC ACTGAAGAAG
    GGAGAGTACA GAGTTAAAGT GTGCCAGCTC TTAGTCAATG AGCAAGAGCC ATGCAAGTTT
    CTGCTAGATG CTGTGTTTGC TAAAGGCATG ACTGTGCGGC AATCGAAAGA GGAGCTGATT
    CCTCAACTCA GGGAGCAGTG TGGCTTAGAC CTCAGCATCG ACAGGTTTCG TCTAAGGAAG
    AAAACATGGA AGAATCCTGG CACTGTCTTT TTGGATTATC ATATTTATGA AGAAGATATT
    AATATTTCCA GCAACTGGGA AGTTTTCCTG GAAGTTCTTG ATGGTGTGGA GAAGATGAAG
    TCCATGTCAC AGCTTGCCAT CTTAACAAGA CGCTGGAGGC CTGCAGAGAT GAAGTTGGAC
    CCCTTCCAGG AGCTTGTGTT GGAAAGCAAT AGTGTTGATG AACTCCGAGA GAAGCTAAGT
    GAAATCAGTG GGATTCCTTT GGAAGACATT GAATTTGCCA AGGGTAGGGG GACCTTCCCC
    TGTGATATTT CTGTCCTTGA TATTCATCAA GATTTGGACT GGAATCCTAA AGTCTCTACC
    CTGAATGTTT GGCCTCTTTA TATCTGTGAT GATGGTGCCG TCATATTTTA TAGGGATAAA
    ACAGAAGAAG TAATGGAATT GACAGATGAG CAAAGAAATG AATTGATGAA AAAGGAAAGC
    AGCCGACTGC AGAAGACAGG ACATCGTGTG ACATACTCCC CTCGAAAAGA GAAAGCACTC
    AAGATCTACC TGGATGGGGC GCCAAATAAA GATGTGGCTC AAGACTGA

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

    RefSeq XP_029404049.1
    CDS212..4339
    Translation

    Target ORF information:

    RefSeq Version XM_029548189.1
    Organism Mus pahari(shrew mouse)
    Definition Mus pahari ubiquitin specific peptidase 47 (Usp47), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029548189.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGTGCCCG GCGAGGAGAA CCAACTGGTC CCGAAGGAGA TAGAAAATGC TGCTGAAGAA 
    CCTAGAGTCT TATGTATAAT ACAAGACACT ACTAACTCGA AGACAGTGAG TGAAAGGATC
    ACATTAAATT TACCAGCGTC TACCCCAGTC CGAAAGCTCT TTGAAGATGT GGCCAACAAA
    GTAGGCTACA TAAATGGAAC CTTTGATTTG ACATGGGGAA ATGGAGTCAA TACTGCTGAT
    ACGGCACCAC TGGATCACAC CAGTGACAAG TCTCTTCTTG ATGCTAATTT TGAGCCAGGA
    AAGAAGAACT TTCTGCATTT GACAGATAAA GATGGTGAAC CGCCTCAGAT GTTGCTGGAG
    GACTCCAATA ACGTGGATGA CAGCGTACAT GACAGGTTCA TAGGTCCACT TCCAAGAGAA
    GGTTCTGTGG CCTCTACCAA TGATTATGTC AGCCAGAGCT ACTCCTATTC ATCAATTTTG
    AGCAAGTCAG AAACTGGTTA TGTGGGATTA GTAAACCAGG CGATGACATG CTATTTGAAT
    AGCCTTTTGC AAACACTTTT TATGACTCCT GAATTTAGGA ATGCATTATA TAAGTGGGAA
    TTTGAAGACT CTGAAGAAGA TCCTGTGACG AGCATTCCAT ACCAGCTTCA AAGGCTTTTT
    GTTTTGTTAC AAACCAGCAA AAAGAGAGCA ATTGAGACCA CAGATGTTAC AAGGAGCTTT
    GGATGGGATA GCAGTGAGGC TTGGCAACAG CATGATGTAC AAGAACTGTG CCGTGTTATG
    TTTGATGCTT TGGAACAGAA ATGGAAGCAA ACAGAACAGG CTGATCTTAT AAATGAGCTG
    TACCAAGGCA AGCTGAAAGA CTATGTGAGG TGTCTGGAAT GCGGTTATGA AGGCTGGAGA
    ATTGACACAT ATCTTGATAT TCCACTGGTC ATCCGACCTT ATGGGTCTAG CCAAGCATTT
    GCTAGTGTGG AAGAAGCATT GCATGCATTT ATTCAACCAG AGATCTTGGA TGGCCCAAAT
    CAATATTTTT GTGAACGTTG TAAGAAGAAG TGTGATGCAC GTAAGGGCCT TCGGTTTTTG
    CATTTCCCCT ATCTGTTGAC CTTACAGTTG AAAAGGTTTG ATTTTGATTA TACAACCATG
    CATAGAATTA AACTCAATGA TCGAATGTCA TTTCCGGAGG AGCTGGATAT GAGCACATTT
    ATTGATATTG AAGATGAGAA ATCTCCTCAG ACTGAAAGTT GCACTGATAG TGGAGCAGAA
    AATGAAGGCA GTTGCCACAG CGACCAGATG AGTAATGATT TCTCCACGGA TGATGCGGTT
    GATGAAGGGA TTTGCCTGGA GAGCAGTAGT GGGAGTGAGA AGATTTCAAA ACCTGGCCTG
    GAAAAGGTAG AGATGGCGGA GACAGACCAG AGAAAGGATC CCATCCAATT CCAGCTTGGT
    GAACCAAACT CTCTGATGTA TGAACTCTTC TCAGTGATGG TGCATTCAGG GAGTGCTGCT
    GGAGGACACT ATTATGCTTG CATAAAGTCT TTCAGTGATG ATCAATGGTA CAGTTTCAAT
    GACCAACATG TGAGCAGGAT AACACAAGAA GACATTAAGA AGACACATGG TGGGTCTTCA
    GGAAGCAGAG GCTACTACTC CAGTGCTTTT GCAAGCTCAA CAAATGCATA TATGCTGATA
    TACAGACTGA AGGATCCAAC AAGAAATGCA AAATTTCTAG AAGTGGACGA GTACCCAGAA
    CACATTAAGA ATCTGGTGCA GAAGGAGAGA GAATTGGAAG AACAGGAAAA GAGGCAACGA
    GAAATTGAAC GCAACACGTG CAAGATAAAA TTATTCTGTT TACATCCTGT GAAACAAGTA
    ATGATGGAAA ACAAGTTGGA GGTTCATAAG GATAAGACAT TAAAAGAAGC CGTGGAAATG
    GCTTATAAGA TGATGGATTT AGAAGATGTG ATTCCCCTGG ATTGCTGTCG CCTGGTAAAA
    TATGACGAGT TTCATGATTA CCTGGAACGA TCGTATGAGG GAGAAGAAGA TACGCCAATG
    GGGCTGCTTC TAGGAGGAGT CAAGTCCACA TACATGTTTG ATCTGCTGTT GGAAACAAGA
    AAGCCTGATC AAATTTTTCA GTCTTACAAA CCTGGAGAAG TGATGGTGAA AGTTCATGTT
    GTTGATCTGA AGGCAGAGAC TGTTGCTGCT CCTGTAACAG TGCGTGCGTA TTTAAATCAG
    ACAGTTACAG AGTTCAAACA GCTGATCTCA AAGGCCACAC ACTTACCTGC AGACTCCATG
    AGGATAGTGC TGGAACGCTG CTACAATGAC CTGCGCCTTC TCAGCATGCC CAGCAAGACC
    CTGAAGGCAG AAGGCTTCTT CAGAAGTAAC AAGGTGTTTG TTGAAAGCTC TGAGACAGTG
    GATCACCAGG CAGCCTTTAC AGACTCCCAC TTGTGGAAAC TCCTGGATCG ACATGCAAAT
    ACAATCCGGT TATTTGTTTT GCTGCCTGAA CAATCTCCAG GATCATATTC AAAAAGGACA
    GCATACCAGA AAGCTGGAGG TGATTCTGGT AATGTGGACG ATGATTGTGA AAGAGTCAAA
    GGACCTGCAG GGAATTTAAA GTCTGTGGAT GCTATTCTAG AAGAGAGCAC TGAAAAACTC
    AAAAGCTTGT CACTGCAGCA GCAGCAAGAT GGGGACAACG GAGACAGCAG CAAAAGCACT
    GAGACAAGTG ACTTTGAAAA TATTGAATCA CCTCTCAATG AGAGGGGCTC TTCCACCTCT
    GTGGATAATC GAGATCTTGA CCAGCACATT CAGACTTCTG ACCCAGAAAA CTTTCAGTCT
    GAAGAACGCT CAGACTCAGA TGTGAATAAT GACCGGAGTA CAAGTTCAGT AGACAGTGAT
    ATTCTTAGCT CCAGTCACAG CAGCGACACT CTGTGCAATG CAGACAGTGC TCAGATTCCT
    CTGGCCAATG GACTCGACTC TCACAGTATC ACAAGTAGTA GAAGAACTAA GGCAAACGAA
    GGGAAAAAGG AGACCTGGGA CACAGCTGAA GAAGACTCTG GGACTGACAG TGAATATGAC
    GAGAGTGGCA AGAGCAGGGG GGACATGCAG TACATGTACT TCAAAGCTGA CCCCTACACT
    GCGGACGAAG GCTCTGGGGA AGGACACAAA TGGTTGATGG TGCATGTTGA TAAGAGAATC
    ACCCTGGCAG CTTTCAAACA GCATTTAGAA CCCTTTGTTG GAGTCCTCTC CTCTCACTTC
    AAGGTTTTTC GAGTGTACAC CAGCAATCAA GAGTTTGAGA CCGTCCGGTT GAATGAGACC
    CTTTCATCAT TTTCAGATGA CAATAAGATC ACAATCCGAC TGGGGAGAGC ACTGAAGAAG
    GGAGAGTACA GAGTTAAAGT GTGCCAGCTC TTAGTCAATG AGCAAGAGCC ATGCAAGTTT
    CTGCTAGATG CTGTGTTTGC TAAAGGCATG ACTGTGCGGC AATCGAAAGA GGAGCTGATT
    CCTCAACTCA GGGAGCAGTG TGGCTTAGAC CTCAGCATCG ACAGGTTTCG TCTAAGGAAG
    AAAACATGGA AGAATCCTGG CACTGTCTTT TTGGATTATC ATATTTATGA AGAAGATATT
    AATATTTCCA GCAACTGGGA AGTTTTCCTG GAAGTTCTTG ATGGTGTGGA GAAGATGAAG
    TCCATGTCAC AGCTTGCCAT CTTAACAAGA CGCTGGAGGC CTGCAGAGAT GAAGTTGGAC
    CCCTTCCAGG AGCTTGTGTT GGAAAGCAAT AGTGTTGATG AACTCCGAGA GAAGCTAAGT
    GAAATCAGTG GGATTCCTTT GGAAGACATT GAATTTGCCA AGGGTAGGGG GACCTTCCCC
    TGTGATATTT CTGTCCTTGA TATTCATCAA GATTTGGACT GGAATCCTAA AGTCTCTACC
    CTGAATGTTT GGCCTCTTTA TATCTGTGAT GATGGTGCCG TCATATTTTA TAGGGATAAA
    ACAGAAGAAG TAATGGAATT GACAGATGAG CAAAGAAATG AATTGATGAA AAAGGAAAGC
    AGCCGACTGC AGAAGACAGG ACATCGTGTG ACATACTCCC CTCGAAAAGA GAAAGCACTC
    AAGATCTACC TGGATGGGGC GCCAAATAAA GATGTGGCTC AAGACTGA

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