Usp32 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Usp32 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Usp32 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
OMv25994 XM_021175608.2
Latest version!
Mus caroli ubiquitin specific peptidase 32 (Usp32), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv25995 XM_021175609.2
Latest version!
Mus caroli ubiquitin specific peptidase 32 (Usp32), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv25996 XM_021175610.1
Latest version!
Mus caroli ubiquitin specific peptidase 32 (Usp32), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv67415 XM_029483332.1
Latest version!
Mus caroli ubiquitin specific peptidase 32 (Usp32), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMv67416 XM_029483333.1
Latest version!
Mus caroli ubiquitin specific peptidase 32 (Usp32), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
View Old Accession Versions >>
OMv25995 XM_021175609.1 Mus caroli ubiquitin specific peptidase 32 (Usp32), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv25994 XM_021175608.1 Mus caroli ubiquitin specific peptidase 32 (Usp32), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
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 OMv25994
    Clone ID Related Accession (Same CDS sequence) XM_021175608.1 , XM_021175608.2
    Accession Version XM_021175608.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4857bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product ubiquitin carboxyl-terminal hydrolase 32 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034580.1) 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 caroli 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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGGCGCCA AGGAGTCACG GATCGGATTC CTCAGCTACG AGGAGGCGCT GAGGAGAGTT 
    ACAGATGTTG AGCTGAAACG ACTCAAAGAT GCCTTCAAGA GGACCTGCGG CCTCTCCTAT
    TACATGAGTC AGCACTGCTT CATCAGGGAA GTGCTTGGGG ATGGAGTACC TCCTAAAGTT
    GCTGAGGTGA TTTACTGTTC TTTTGGTGGA ACATCCAAAG GGCTGCATTT CAATAACTTA
    ATAGTTGGAC TCGTCCTCCT TACAAGAGGC AAAGATGAAG AGAAAGCAAA ATATATTTTT
    AGTCTTTTTT CAAGTGAATC CGGGAGCTAT GTTGTACGGG AAGAAATGGA GAGAATGCTC
    CATGTGGTGG ATGGTAAAGT CCCAGATACA CTCAGGAAGT GTTTCTCAGA GGGTGAAAAG
    GTAAACTATG AAAAATTCAG AAATTGGCTT CTTCTAAACA AAGATGCTTT TACCTTCTCT
    CGCTGGCTGT TGTCTGGGGG TGTATATGTG ACCCTCACTG ATGACAGTGA CACTCCTACT
    TTCTACCAAA CTCTGGCTGG AGTCACACAT TTGGAAGAGT CAGACATCAT TGATCTGGAG
    AAACGGTATT GGCTACTGAA GGCCCAATCC CGAACTGGAC GTTTTGACTT AGAGACCTTT
    GGTCCATTGG TTTCACCACC TATTCGCCCT TCTCTGAGTG AAGGCTTATT TAACGCTTTT
    GATGAAAATC GTGACAATCA CATAGACTTC AAGGAGATAT CTTGTGGGTT ATCAGCCTGC
    TGCAGGGGCC CCCTGGCTGA AAGACAAAAA TTTTGCTTCA AGGTGTTTGA TGTTGACCGT
    GATGGAGTTC TCTCCAGGGT TGAACTGAAA GACATGGTAG TTGCACTTTT GGAGGTCTGG
    AAAGATAACC GCACTGATGA TATTCCTGAA TTGCATATGG ATTTGTCAGA CATTGTAGAA
    AGGATATTGA ATGCACATGA TACCACAAAG ATGGGCCATC TTACTCTCGA AGACTATCAG
    ATATGGAGTG TGAAAAATGT TCTTGCCAAT GAGTTTTTGA ATCTCCTCTT CCAGGTATGC
    CACATAGTTC TGGGGTTAAG ACCAGCTACT CCAGAAGAAG AAGGACAAAT TATTAGAGGA
    TGGTTGGAAC GAGAAAGCAG GTATGGTCTG CAGCCAGGAC ACAATTGGTT TATCATCTCC
    ATGCAGTGGT GGCAACAGTG GAAAGAATAT GTCAAATATG ATGCCAGCCC TGTTGTAATT
    GAGCCATCAT CTGTTCTAAA TGGAGGAAAA TTTTCATTTG GAACAGCAGC ACATCCTATA
    GAGCATGGAG AAGATAGAAT CAGTAATAAC CTTGGTTATA TGAATACCAC AGAAGAGAAA
    TACTCAGACA ACATTTCTTC TGCATCTGAA GCCTCAGAGT CTACTGGCAC TGGCTTTCTG
    TATTCTGGCA CACCAGGGGC AGAGATGTGC TTTGCAAGGC AGCATAACAC TTCTGACAAT
    AACAACCAGT GTTTACTAGG AGCCAATGGG AATATCCTTC TGCACCTTAG TCCTCAGAAG
    CCAGGAGCTA TTGATAACCA GCCACTAGTG ACTCAGGAAC CAGTAAAGGC TACATCATTA
    ACACTAGAAG GAGGACGATT AAAACGAACT CCACAGCTAA TCCATGGAAG AGATTATGAA
    ATGGTCCCAG AACCCGTGTG GAGAGCACTT TATCATTGGT ATGGATCAAA CCTGGCCCTT
    CCTAGACCAG TAATCAAGAA TAGCAAAACG GACATCCCAG AACTAGAATT ATTTCCTCGC
    TATCTTCTGT TCCTTCGACA GCAGCCTGCC ACACGGACAC AGCAGTCTAA CATCTGGGTG
    AATATGGGTA CGATGAGCCT GAGAATGTTT CCTCAGCATT TGCCTAGAGG AAATGTACCC
    TCTCCAAATG CGCCTCTAAA GCGGGTGTTA GCCTATACAG GCTGTTTTAG TAGAATGCAA
    ACCATCAAGG AAATTCATGA ATATCTGTCT CAAAGGCTTC GCATTAAAGA GGAAGATATG
    CGGCTGTGGC TGTACAATAG TGAGAACTAC CTGACTCTTT TGGATGATGA GGATCACAGA
    TTGGAATATT TGAAAATCCA GGATGAACAG CACCTGGTAA TTGAAGTTCG CAACAAAGAT
    ATGAGTTGGC CTGAAGAAAT GTCTTTTATA GCAAACAGTA GCAAAATAGA TAGACATAAA
    GTTCCCACAG AAAAGGGCGC CACAGGTCTG AGTAACCTGG GAAACACGTG CTTCATGAAC
    TCAAGCATCC AGTGTGTTAG TAATACACAG CCACTGACAC AGTACTTTAT CTCAGGGAGA
    CATCTTTATG AACTCAACAG GACAAATCCC ATTGGTATGA AAGGCCATAT GGCTAAATGT
    TATGGCGATT TGGTGCAAGA ACTTTGGAGT GGAACTCAGA AGAATGTTGC CCCCTTAAAG
    CTCCGGTGGA CCATAGCAAA ATATGCTCCC AGGTTTAATG GATTCCAGCA ACAAGACTCC
    CAAGAACTTC TGGCTTTCCT CTTGGATGGT CTTCACGAAG ATCTCAACCG AGTCCACGAG
    AAACCATATG TAGAACTAAA AGACAGTGAC GGCCGACCCG ACTGGGAAGT AGCTGCAGAG
    GCCTGGGACA ATCATCTAAG GAGAAATAGA TCAATTGTTG TGGACTTGTT CCATGGTCAG
    CTAAGATCCC AAGTCAAATG CAAGACATGT GGGCATATAA GTGTCCGATT CGACCCTTTT
    AATTTTTTGT CTTTACCACT ACCAATGGAC AGTTATATGC ATTTAGAAAT AACAGTAATT
    AAATTAGATG GTACTACCCC CATACGATAT GGACTAAGAC TGAATATGGA TGAAAAGTAT
    ACAGGTTTGA AAAAGCAGCT GAGTGATCTC TGTGGACTTA AATCAGAACA AATCCTTTTT
    GCAGAAGTGC ATAGTTCAAA CATAAAGAAC TTCCCTCAGG ACAACCAAAA AGTTCGACTC
    TCAGTGAGTG GATTTTTGTG TGCGTTTGAA ATTCCTATTC CTGCATCTCC AGTTTCAGCT
    TGCAGTCCAA TTCAAACAGA TTGTTCTTCT TCTCCATCTA CAAATGGACT GTTTACCTTG
    ACTACCAATG GGGATCTGCC TCGACCTATA TTCATCCCCA ATGGGATGCC AAATACAGTT
    GTACCATGTG GAACTGAGAA GAATGTCACA AATGGAATAG TGAATGGTCA TATGCCACCT
    CTTCCTGATG ACCCCTTTAC AGGCTACATC ATTGCAGTCC ACCGAAAAAT GATGAGGACA
    GAACTGTATT TCCTGTCATC TCAGAAGAAT CGCCCCAGTC TCTTTGGGAT GCCACTAATT
    GTTCCATGTA CTGTACACAC CCGGAAAAAA GATCTCTATG ATGCAGTTTG GATTCAAGTA
    TCTCGATTAG CCAGTCCACT CCCACCTCAA GAAGCTAGCA ACCATGCACA GGATTGTGAT
    GACAGCATGG GCTATCAATA TCCATTCACT CTCCGAGTTG TGCAGAAAGA TGGAAACTCC
    TGTGCCTGGT GTCCGTGGTA TAGATTTTGC AGAGGCTGTA AAATCGATTG TGGAGAAGAC
    AGAGCTTTCA TTGGAAATGC CTGTATTGCT GTGGATTGGG ACCCTACAGC CCTTCACCTC
    CGCTATCAAA CATCACAGGA AAGAGTTGTA GAGGAGCATG AAAGTGTGGA GCAGAGTCGG
    CGAGCACAAG CTGAGCCCAT CAACCTGGAC AGCTGCCTCC GTGCCTTCAC CAGTGAGGAG
    GAACTGGGGG AAAATGAGAT GTACTACTGC TCAAAATGTA AAACGCACTG TTTGGCAACC
    AAGAAGCTGG ACCTCTGGAG GCTCCCTCCA GTCCTGATTA TTCACCTTAA ACGATTTCAG
    TTTGTAAATG GACGGTGGAT AAAATCACAG AAAATTGTTA AATTTCCTCG TGAAAGTTTT
    GACCCTAGTG CTTTTTTAGT ACCAAGAGAC CCAACTCTTT GCCAGCATAA ACCACTCACA
    CCCCAGGGGG ATGACTTCTC TGAGCTAAGG ATCCCAGCAG GAGATGTGAA GAAAGTGGAT
    GTCCAGAGCT CGGCAGGGGA GGAAGATGTG CTCCTGAGCA AGAGCCCATC TTCACTCAGT
    GCAAATGTCA CCAGTAGCCC AAAAGGTTCA CCTTCTTCAT CAAGAAAAAG TGGAGCCAGC
    TGTCCCTCCA GCAAAAATAG CAGCCCTAAC AGCAGCCCAC GGACCTTGGG GAGGAACAAA
    GGGAGGCTCC GGCTGCCTCA AATTGGCAGC AAAAATAAAT TGTCCAACAG TAAGGAGAAT
    TTGGATGCCA GCAAAGAGAA TGGGGCTGGG CAGATCTGTG AGCTGGCTGA CACCTTGAAC
    CGAGGACATG TATTGGGAGG CAGCCAGCCT GAGCTGGTCA CTCCTCTGGA TCATGAGATC
    ACTTTGGCTA ATGGATTTCT CTATGAGCAT GAGGCATGTG GCAATGGCTA TAGCAATGGT
    CAGCTTGGAA ACCATAGTGA AGAAGACAGC ACTGATGACC AAAGAGAAGA AACACACAGT
    AAACCTATTT ATAATCTATA TGCAATTTCG TGCCATTCAG GAATTCTGGG TGGGGGCCAT
    TACGTCACTT ATGCCAAAAA CCCAAACTGC AAGTGGTACT GTTACAATGA CAGCAGCTGT
    AAGGAGCTTC ACCCTGATGA GATAGACACC GACTCTGCCT ACATTCTTTT CTATGAGCAG
    CAGGGGATAG ACTGTGCACA GTTTCTGCCA AAGACAGACG GCAAGAAGAT GGCAGACACG
    AGCAGCATGG ACGAAGACTT TGAGTCTGAC TACAAGAAGT ACTGTGTGCT ACAGTAA

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

    RefSeq XP_021031267.1
    CDS180..5036
    Translation

    Target ORF information:

    RefSeq Version XM_021175608.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli ubiquitin specific peptidase 32 (Usp32), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021175608.1

    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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGGCGCCA AGGAGTCACG GATCGGATTC CTCAGCTACG AGGAGGCGCT GAGGAGAGTT 
    ACAGATGTTG AGCTGAAACG ACTCAAAGAT GCCTTCAAGA GGACCTGCGG CCTCTCCTAT
    TACATGAGTC AGCACTGCTT CATCAGGGAA GTGCTTGGGG ATGGAGTACC TCCTAAAGTT
    GCTGAGGTGA TTTACTGTTC TTTTGGTGGA ACATCCAAAG GGCTGCATTT CAATAACTTA
    ATAGTTGGAC TCGTCCTCCT TACAAGAGGC AAAGATGAAG AGAAAGCAAA ATATATTTTT
    AGTCTTTTTT CAAGTGAATC CGGGAGCTAT GTTGTACGGG AAGAAATGGA GAGAATGCTC
    CATGTGGTGG ATGGTAAAGT CCCAGATACA CTCAGGAAGT GTTTCTCAGA GGGTGAAAAG
    GTAAACTATG AAAAATTCAG AAATTGGCTT CTTCTAAACA AAGATGCTTT TACCTTCTCT
    CGCTGGCTGT TGTCTGGGGG TGTATATGTG ACCCTCACTG ATGACAGTGA CACTCCTACT
    TTCTACCAAA CTCTGGCTGG AGTCACACAT TTGGAAGAGT CAGACATCAT TGATCTGGAG
    AAACGGTATT GGCTACTGAA GGCCCAATCC CGAACTGGAC GTTTTGACTT AGAGACCTTT
    GGTCCATTGG TTTCACCACC TATTCGCCCT TCTCTGAGTG AAGGCTTATT TAACGCTTTT
    GATGAAAATC GTGACAATCA CATAGACTTC AAGGAGATAT CTTGTGGGTT ATCAGCCTGC
    TGCAGGGGCC CCCTGGCTGA AAGACAAAAA TTTTGCTTCA AGGTGTTTGA TGTTGACCGT
    GATGGAGTTC TCTCCAGGGT TGAACTGAAA GACATGGTAG TTGCACTTTT GGAGGTCTGG
    AAAGATAACC GCACTGATGA TATTCCTGAA TTGCATATGG ATTTGTCAGA CATTGTAGAA
    AGGATATTGA ATGCACATGA TACCACAAAG ATGGGCCATC TTACTCTCGA AGACTATCAG
    ATATGGAGTG TGAAAAATGT TCTTGCCAAT GAGTTTTTGA ATCTCCTCTT CCAGGTATGC
    CACATAGTTC TGGGGTTAAG ACCAGCTACT CCAGAAGAAG AAGGACAAAT TATTAGAGGA
    TGGTTGGAAC GAGAAAGCAG GTATGGTCTG CAGCCAGGAC ACAATTGGTT TATCATCTCC
    ATGCAGTGGT GGCAACAGTG GAAAGAATAT GTCAAATATG ATGCCAGCCC TGTTGTAATT
    GAGCCATCAT CTGTTCTAAA TGGAGGAAAA TTTTCATTTG GAACAGCAGC ACATCCTATA
    GAGCATGGAG AAGATAGAAT CAGTAATAAC CTTGGTTATA TGAATACCAC AGAAGAGAAA
    TACTCAGACA ACATTTCTTC TGCATCTGAA GCCTCAGAGT CTACTGGCAC TGGCTTTCTG
    TATTCTGGCA CACCAGGGGC AGAGATGTGC TTTGCAAGGC AGCATAACAC TTCTGACAAT
    AACAACCAGT GTTTACTAGG AGCCAATGGG AATATCCTTC TGCACCTTAG TCCTCAGAAG
    CCAGGAGCTA TTGATAACCA GCCACTAGTG ACTCAGGAAC CAGTAAAGGC TACATCATTA
    ACACTAGAAG GAGGACGATT AAAACGAACT CCACAGCTAA TCCATGGAAG AGATTATGAA
    ATGGTCCCAG AACCCGTGTG GAGAGCACTT TATCATTGGT ATGGATCAAA CCTGGCCCTT
    CCTAGACCAG TAATCAAGAA TAGCAAAACG GACATCCCAG AACTAGAATT ATTTCCTCGC
    TATCTTCTGT TCCTTCGACA GCAGCCTGCC ACACGGACAC AGCAGTCTAA CATCTGGGTG
    AATATGGGTA CGATGAGCCT GAGAATGTTT CCTCAGCATT TGCCTAGAGG AAATGTACCC
    TCTCCAAATG CGCCTCTAAA GCGGGTGTTA GCCTATACAG GCTGTTTTAG TAGAATGCAA
    ACCATCAAGG AAATTCATGA ATATCTGTCT CAAAGGCTTC GCATTAAAGA GGAAGATATG
    CGGCTGTGGC TGTACAATAG TGAGAACTAC CTGACTCTTT TGGATGATGA GGATCACAGA
    TTGGAATATT TGAAAATCCA GGATGAACAG CACCTGGTAA TTGAAGTTCG CAACAAAGAT
    ATGAGTTGGC CTGAAGAAAT GTCTTTTATA GCAAACAGTA GCAAAATAGA TAGACATAAA
    GTTCCCACAG AAAAGGGCGC CACAGGTCTG AGTAACCTGG GAAACACGTG CTTCATGAAC
    TCAAGCATCC AGTGTGTTAG TAATACACAG CCACTGACAC AGTACTTTAT CTCAGGGAGA
    CATCTTTATG AACTCAACAG GACAAATCCC ATTGGTATGA AAGGCCATAT GGCTAAATGT
    TATGGCGATT TGGTGCAAGA ACTTTGGAGT GGAACTCAGA AGAATGTTGC CCCCTTAAAG
    CTCCGGTGGA CCATAGCAAA ATATGCTCCC AGGTTTAATG GATTCCAGCA ACAAGACTCC
    CAAGAACTTC TGGCTTTCCT CTTGGATGGT CTTCACGAAG ATCTCAACCG AGTCCACGAG
    AAACCATATG TAGAACTAAA AGACAGTGAC GGCCGACCCG ACTGGGAAGT AGCTGCAGAG
    GCCTGGGACA ATCATCTAAG GAGAAATAGA TCAATTGTTG TGGACTTGTT CCATGGTCAG
    CTAAGATCCC AAGTCAAATG CAAGACATGT GGGCATATAA GTGTCCGATT CGACCCTTTT
    AATTTTTTGT CTTTACCACT ACCAATGGAC AGTTATATGC ATTTAGAAAT AACAGTAATT
    AAATTAGATG GTACTACCCC CATACGATAT GGACTAAGAC TGAATATGGA TGAAAAGTAT
    ACAGGTTTGA AAAAGCAGCT GAGTGATCTC TGTGGACTTA AATCAGAACA AATCCTTTTT
    GCAGAAGTGC ATAGTTCAAA CATAAAGAAC TTCCCTCAGG ACAACCAAAA AGTTCGACTC
    TCAGTGAGTG GATTTTTGTG TGCGTTTGAA ATTCCTATTC CTGCATCTCC AGTTTCAGCT
    TGCAGTCCAA TTCAAACAGA TTGTTCTTCT TCTCCATCTA CAAATGGACT GTTTACCTTG
    ACTACCAATG GGGATCTGCC TCGACCTATA TTCATCCCCA ATGGGATGCC AAATACAGTT
    GTACCATGTG GAACTGAGAA GAATGTCACA AATGGAATAG TGAATGGTCA TATGCCACCT
    CTTCCTGATG ACCCCTTTAC AGGCTACATC ATTGCAGTCC ACCGAAAAAT GATGAGGACA
    GAACTGTATT TCCTGTCATC TCAGAAGAAT CGCCCCAGTC TCTTTGGGAT GCCACTAATT
    GTTCCATGTA CTGTACACAC CCGGAAAAAA GATCTCTATG ATGCAGTTTG GATTCAAGTA
    TCTCGATTAG CCAGTCCACT CCCACCTCAA GAAGCTAGCA ACCATGCACA GGATTGTGAT
    GACAGCATGG GCTATCAATA TCCATTCACT CTCCGAGTTG TGCAGAAAGA TGGAAACTCC
    TGTGCCTGGT GTCCGTGGTA TAGATTTTGC AGAGGCTGTA AAATCGATTG TGGAGAAGAC
    AGAGCTTTCA TTGGAAATGC CTGTATTGCT GTGGATTGGG ACCCTACAGC CCTTCACCTC
    CGCTATCAAA CATCACAGGA AAGAGTTGTA GAGGAGCATG AAAGTGTGGA GCAGAGTCGG
    CGAGCACAAG CTGAGCCCAT CAACCTGGAC AGCTGCCTCC GTGCCTTCAC CAGTGAGGAG
    GAACTGGGGG AAAATGAGAT GTACTACTGC TCAAAATGTA AAACGCACTG TTTGGCAACC
    AAGAAGCTGG ACCTCTGGAG GCTCCCTCCA GTCCTGATTA TTCACCTTAA ACGATTTCAG
    TTTGTAAATG GACGGTGGAT AAAATCACAG AAAATTGTTA AATTTCCTCG TGAAAGTTTT
    GACCCTAGTG CTTTTTTAGT ACCAAGAGAC CCAACTCTTT GCCAGCATAA ACCACTCACA
    CCCCAGGGGG ATGACTTCTC TGAGCTAAGG ATCCCAGCAG GAGATGTGAA GAAAGTGGAT
    GTCCAGAGCT CGGCAGGGGA GGAAGATGTG CTCCTGAGCA AGAGCCCATC TTCACTCAGT
    GCAAATGTCA CCAGTAGCCC AAAAGGTTCA CCTTCTTCAT CAAGAAAAAG TGGAGCCAGC
    TGTCCCTCCA GCAAAAATAG CAGCCCTAAC AGCAGCCCAC GGACCTTGGG GAGGAACAAA
    GGGAGGCTCC GGCTGCCTCA AATTGGCAGC AAAAATAAAT TGTCCAACAG TAAGGAGAAT
    TTGGATGCCA GCAAAGAGAA TGGGGCTGGG CAGATCTGTG AGCTGGCTGA CACCTTGAAC
    CGAGGACATG TATTGGGAGG CAGCCAGCCT GAGCTGGTCA CTCCTCTGGA TCATGAGATC
    ACTTTGGCTA ATGGATTTCT CTATGAGCAT GAGGCATGTG GCAATGGCTA TAGCAATGGT
    CAGCTTGGAA ACCATAGTGA AGAAGACAGC ACTGATGACC AAAGAGAAGA AACACACAGT
    AAACCTATTT ATAATCTATA TGCAATTTCG TGCCATTCAG GAATTCTGGG TGGGGGCCAT
    TACGTCACTT ATGCCAAAAA CCCAAACTGC AAGTGGTACT GTTACAATGA CAGCAGCTGT
    AAGGAGCTTC ACCCTGATGA GATAGACACC GACTCTGCCT ACATTCTTTT CTATGAGCAG
    CAGGGGATAG ACTGTGCACA GTTTCTGCCA AAGACAGACG GCAAGAAGAT GGCAGACACG
    AGCAGCATGG ACGAAGACTT TGAGTCTGAC TACAAGAAGT ACTGTGTGCT ACAGTAA

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

    CloneID OMv25994
    Clone ID Related Accession (Same CDS sequence) XM_021175608.1 , XM_021175608.2
    Accession Version XM_021175608.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4857bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product ubiquitin carboxyl-terminal hydrolase 32 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034580.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021175608.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGGCGCCA AGGAGTCACG GATCGGATTC CTCAGCTACG AGGAGGCGCT GAGGAGAGTT 
    ACAGATGTTG AGCTGAAACG ACTCAAAGAT GCCTTCAAGA GGACCTGCGG CCTCTCCTAT
    TACATGAGTC AGCACTGCTT CATCAGGGAA GTGCTTGGGG ATGGAGTACC TCCTAAAGTT
    GCTGAGGTGA TTTACTGTTC TTTTGGTGGA ACATCCAAAG GGCTGCATTT CAATAACTTA
    ATAGTTGGAC TCGTCCTCCT TACAAGAGGC AAAGATGAAG AGAAAGCAAA ATATATTTTT
    AGTCTTTTTT CAAGTGAATC CGGGAGCTAT GTTGTACGGG AAGAAATGGA GAGAATGCTC
    CATGTGGTGG ATGGTAAAGT CCCAGATACA CTCAGGAAGT GTTTCTCAGA GGGTGAAAAG
    GTAAACTATG AAAAATTCAG AAATTGGCTT CTTCTAAACA AAGATGCTTT TACCTTCTCT
    CGCTGGCTGT TGTCTGGGGG TGTATATGTG ACCCTCACTG ATGACAGTGA CACTCCTACT
    TTCTACCAAA CTCTGGCTGG AGTCACACAT TTGGAAGAGT CAGACATCAT TGATCTGGAG
    AAACGGTATT GGCTACTGAA GGCCCAATCC CGAACTGGAC GTTTTGACTT AGAGACCTTT
    GGTCCATTGG TTTCACCACC TATTCGCCCT TCTCTGAGTG AAGGCTTATT TAACGCTTTT
    GATGAAAATC GTGACAATCA CATAGACTTC AAGGAGATAT CTTGTGGGTT ATCAGCCTGC
    TGCAGGGGCC CCCTGGCTGA AAGACAAAAA TTTTGCTTCA AGGTGTTTGA TGTTGACCGT
    GATGGAGTTC TCTCCAGGGT TGAACTGAAA GACATGGTAG TTGCACTTTT GGAGGTCTGG
    AAAGATAACC GCACTGATGA TATTCCTGAA TTGCATATGG ATTTGTCAGA CATTGTAGAA
    AGGATATTGA ATGCACATGA TACCACAAAG ATGGGCCATC TTACTCTCGA AGACTATCAG
    ATATGGAGTG TGAAAAATGT TCTTGCCAAT GAGTTTTTGA ATCTCCTCTT CCAGGTATGC
    CACATAGTTC TGGGGTTAAG ACCAGCTACT CCAGAAGAAG AAGGACAAAT TATTAGAGGA
    TGGTTGGAAC GAGAAAGCAG GTATGGTCTG CAGCCAGGAC ACAATTGGTT TATCATCTCC
    ATGCAGTGGT GGCAACAGTG GAAAGAATAT GTCAAATATG ATGCCAGCCC TGTTGTAATT
    GAGCCATCAT CTGTTCTAAA TGGAGGAAAA TTTTCATTTG GAACAGCAGC ACATCCTATA
    GAGCATGGAG AAGATAGAAT CAGTAATAAC CTTGGTTATA TGAATACCAC AGAAGAGAAA
    TACTCAGACA ACATTTCTTC TGCATCTGAA GCCTCAGAGT CTACTGGCAC TGGCTTTCTG
    TATTCTGGCA CACCAGGGGC AGAGATGTGC TTTGCAAGGC AGCATAACAC TTCTGACAAT
    AACAACCAGT GTTTACTAGG AGCCAATGGG AATATCCTTC TGCACCTTAG TCCTCAGAAG
    CCAGGAGCTA TTGATAACCA GCCACTAGTG ACTCAGGAAC CAGTAAAGGC TACATCATTA
    ACACTAGAAG GAGGACGATT AAAACGAACT CCACAGCTAA TCCATGGAAG AGATTATGAA
    ATGGTCCCAG AACCCGTGTG GAGAGCACTT TATCATTGGT ATGGATCAAA CCTGGCCCTT
    CCTAGACCAG TAATCAAGAA TAGCAAAACG GACATCCCAG AACTAGAATT ATTTCCTCGC
    TATCTTCTGT TCCTTCGACA GCAGCCTGCC ACACGGACAC AGCAGTCTAA CATCTGGGTG
    AATATGGGTA CGATGAGCCT GAGAATGTTT CCTCAGCATT TGCCTAGAGG AAATGTACCC
    TCTCCAAATG CGCCTCTAAA GCGGGTGTTA GCCTATACAG GCTGTTTTAG TAGAATGCAA
    ACCATCAAGG AAATTCATGA ATATCTGTCT CAAAGGCTTC GCATTAAAGA GGAAGATATG
    CGGCTGTGGC TGTACAATAG TGAGAACTAC CTGACTCTTT TGGATGATGA GGATCACAGA
    TTGGAATATT TGAAAATCCA GGATGAACAG CACCTGGTAA TTGAAGTTCG CAACAAAGAT
    ATGAGTTGGC CTGAAGAAAT GTCTTTTATA GCAAACAGTA GCAAAATAGA TAGACATAAA
    GTTCCCACAG AAAAGGGCGC CACAGGTCTG AGTAACCTGG GAAACACGTG CTTCATGAAC
    TCAAGCATCC AGTGTGTTAG TAATACACAG CCACTGACAC AGTACTTTAT CTCAGGGAGA
    CATCTTTATG AACTCAACAG GACAAATCCC ATTGGTATGA AAGGCCATAT GGCTAAATGT
    TATGGCGATT TGGTGCAAGA ACTTTGGAGT GGAACTCAGA AGAATGTTGC CCCCTTAAAG
    CTCCGGTGGA CCATAGCAAA ATATGCTCCC AGGTTTAATG GATTCCAGCA ACAAGACTCC
    CAAGAACTTC TGGCTTTCCT CTTGGATGGT CTTCACGAAG ATCTCAACCG AGTCCACGAG
    AAACCATATG TAGAACTAAA AGACAGTGAC GGCCGACCCG ACTGGGAAGT AGCTGCAGAG
    GCCTGGGACA ATCATCTAAG GAGAAATAGA TCAATTGTTG TGGACTTGTT CCATGGTCAG
    CTAAGATCCC AAGTCAAATG CAAGACATGT GGGCATATAA GTGTCCGATT CGACCCTTTT
    AATTTTTTGT CTTTACCACT ACCAATGGAC AGTTATATGC ATTTAGAAAT AACAGTAATT
    AAATTAGATG GTACTACCCC CATACGATAT GGACTAAGAC TGAATATGGA TGAAAAGTAT
    ACAGGTTTGA AAAAGCAGCT GAGTGATCTC TGTGGACTTA AATCAGAACA AATCCTTTTT
    GCAGAAGTGC ATAGTTCAAA CATAAAGAAC TTCCCTCAGG ACAACCAAAA AGTTCGACTC
    TCAGTGAGTG GATTTTTGTG TGCGTTTGAA ATTCCTATTC CTGCATCTCC AGTTTCAGCT
    TGCAGTCCAA TTCAAACAGA TTGTTCTTCT TCTCCATCTA CAAATGGACT GTTTACCTTG
    ACTACCAATG GGGATCTGCC TCGACCTATA TTCATCCCCA ATGGGATGCC AAATACAGTT
    GTACCATGTG GAACTGAGAA GAATGTCACA AATGGAATAG TGAATGGTCA TATGCCACCT
    CTTCCTGATG ACCCCTTTAC AGGCTACATC ATTGCAGTCC ACCGAAAAAT GATGAGGACA
    GAACTGTATT TCCTGTCATC TCAGAAGAAT CGCCCCAGTC TCTTTGGGAT GCCACTAATT
    GTTCCATGTA CTGTACACAC CCGGAAAAAA GATCTCTATG ATGCAGTTTG GATTCAAGTA
    TCTCGATTAG CCAGTCCACT CCCACCTCAA GAAGCTAGCA ACCATGCACA GGATTGTGAT
    GACAGCATGG GCTATCAATA TCCATTCACT CTCCGAGTTG TGCAGAAAGA TGGAAACTCC
    TGTGCCTGGT GTCCGTGGTA TAGATTTTGC AGAGGCTGTA AAATCGATTG TGGAGAAGAC
    AGAGCTTTCA TTGGAAATGC CTGTATTGCT GTGGATTGGG ACCCTACAGC CCTTCACCTC
    CGCTATCAAA CATCACAGGA AAGAGTTGTA GAGGAGCATG AAAGTGTGGA GCAGAGTCGG
    CGAGCACAAG CTGAGCCCAT CAACCTGGAC AGCTGCCTCC GTGCCTTCAC CAGTGAGGAG
    GAACTGGGGG AAAATGAGAT GTACTACTGC TCAAAATGTA AAACGCACTG TTTGGCAACC
    AAGAAGCTGG ACCTCTGGAG GCTCCCTCCA GTCCTGATTA TTCACCTTAA ACGATTTCAG
    TTTGTAAATG GACGGTGGAT AAAATCACAG AAAATTGTTA AATTTCCTCG TGAAAGTTTT
    GACCCTAGTG CTTTTTTAGT ACCAAGAGAC CCAACTCTTT GCCAGCATAA ACCACTCACA
    CCCCAGGGGG ATGACTTCTC TGAGCTAAGG ATCCCAGCAG GAGATGTGAA GAAAGTGGAT
    GTCCAGAGCT CGGCAGGGGA GGAAGATGTG CTCCTGAGCA AGAGCCCATC TTCACTCAGT
    GCAAATGTCA CCAGTAGCCC AAAAGGTTCA CCTTCTTCAT CAAGAAAAAG TGGAGCCAGC
    TGTCCCTCCA GCAAAAATAG CAGCCCTAAC AGCAGCCCAC GGACCTTGGG GAGGAACAAA
    GGGAGGCTCC GGCTGCCTCA AATTGGCAGC AAAAATAAAT TGTCCAACAG TAAGGAGAAT
    TTGGATGCCA GCAAAGAGAA TGGGGCTGGG CAGATCTGTG AGCTGGCTGA CACCTTGAAC
    CGAGGACATG TATTGGGAGG CAGCCAGCCT GAGCTGGTCA CTCCTCTGGA TCATGAGATC
    ACTTTGGCTA ATGGATTTCT CTATGAGCAT GAGGCATGTG GCAATGGCTA TAGCAATGGT
    CAGCTTGGAA ACCATAGTGA AGAAGACAGC ACTGATGACC AAAGAGAAGA AACACACAGT
    AAACCTATTT ATAATCTATA TGCAATTTCG TGCCATTCAG GAATTCTGGG TGGGGGCCAT
    TACGTCACTT ATGCCAAAAA CCCAAACTGC AAGTGGTACT GTTACAATGA CAGCAGCTGT
    AAGGAGCTTC ACCCTGATGA GATAGACACC GACTCTGCCT ACATTCTTTT CTATGAGCAG
    CAGGGGATAG ACTGTGCACA GTTTCTGCCA AAGACAGACG GCAAGAAGAT GGCAGACACG
    AGCAGCATGG ACGAAGACTT TGAGTCTGAC TACAAGAAGT ACTGTGTGCT ACAGTAA

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

    RefSeq XP_021031267.1
    CDS152..5008
    Translation

    Target ORF information:

    RefSeq Version XM_021175608.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli ubiquitin specific peptidase 32 (Usp32), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021175608.2

    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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGGCGCCA AGGAGTCACG GATCGGATTC CTCAGCTACG AGGAGGCGCT GAGGAGAGTT 
    ACAGATGTTG AGCTGAAACG ACTCAAAGAT GCCTTCAAGA GGACCTGCGG CCTCTCCTAT
    TACATGAGTC AGCACTGCTT CATCAGGGAA GTGCTTGGGG ATGGAGTACC TCCTAAAGTT
    GCTGAGGTGA TTTACTGTTC TTTTGGTGGA ACATCCAAAG GGCTGCATTT CAATAACTTA
    ATAGTTGGAC TCGTCCTCCT TACAAGAGGC AAAGATGAAG AGAAAGCAAA ATATATTTTT
    AGTCTTTTTT CAAGTGAATC CGGGAGCTAT GTTGTACGGG AAGAAATGGA GAGAATGCTC
    CATGTGGTGG ATGGTAAAGT CCCAGATACA CTCAGGAAGT GTTTCTCAGA GGGTGAAAAG
    GTAAACTATG AAAAATTCAG AAATTGGCTT CTTCTAAACA AAGATGCTTT TACCTTCTCT
    CGCTGGCTGT TGTCTGGGGG TGTATATGTG ACCCTCACTG ATGACAGTGA CACTCCTACT
    TTCTACCAAA CTCTGGCTGG AGTCACACAT TTGGAAGAGT CAGACATCAT TGATCTGGAG
    AAACGGTATT GGCTACTGAA GGCCCAATCC CGAACTGGAC GTTTTGACTT AGAGACCTTT
    GGTCCATTGG TTTCACCACC TATTCGCCCT TCTCTGAGTG AAGGCTTATT TAACGCTTTT
    GATGAAAATC GTGACAATCA CATAGACTTC AAGGAGATAT CTTGTGGGTT ATCAGCCTGC
    TGCAGGGGCC CCCTGGCTGA AAGACAAAAA TTTTGCTTCA AGGTGTTTGA TGTTGACCGT
    GATGGAGTTC TCTCCAGGGT TGAACTGAAA GACATGGTAG TTGCACTTTT GGAGGTCTGG
    AAAGATAACC GCACTGATGA TATTCCTGAA TTGCATATGG ATTTGTCAGA CATTGTAGAA
    AGGATATTGA ATGCACATGA TACCACAAAG ATGGGCCATC TTACTCTCGA AGACTATCAG
    ATATGGAGTG TGAAAAATGT TCTTGCCAAT GAGTTTTTGA ATCTCCTCTT CCAGGTATGC
    CACATAGTTC TGGGGTTAAG ACCAGCTACT CCAGAAGAAG AAGGACAAAT TATTAGAGGA
    TGGTTGGAAC GAGAAAGCAG GTATGGTCTG CAGCCAGGAC ACAATTGGTT TATCATCTCC
    ATGCAGTGGT GGCAACAGTG GAAAGAATAT GTCAAATATG ATGCCAGCCC TGTTGTAATT
    GAGCCATCAT CTGTTCTAAA TGGAGGAAAA TTTTCATTTG GAACAGCAGC ACATCCTATA
    GAGCATGGAG AAGATAGAAT CAGTAATAAC CTTGGTTATA TGAATACCAC AGAAGAGAAA
    TACTCAGACA ACATTTCTTC TGCATCTGAA GCCTCAGAGT CTACTGGCAC TGGCTTTCTG
    TATTCTGGCA CACCAGGGGC AGAGATGTGC TTTGCAAGGC AGCATAACAC TTCTGACAAT
    AACAACCAGT GTTTACTAGG AGCCAATGGG AATATCCTTC TGCACCTTAG TCCTCAGAAG
    CCAGGAGCTA TTGATAACCA GCCACTAGTG ACTCAGGAAC CAGTAAAGGC TACATCATTA
    ACACTAGAAG GAGGACGATT AAAACGAACT CCACAGCTAA TCCATGGAAG AGATTATGAA
    ATGGTCCCAG AACCCGTGTG GAGAGCACTT TATCATTGGT ATGGATCAAA CCTGGCCCTT
    CCTAGACCAG TAATCAAGAA TAGCAAAACG GACATCCCAG AACTAGAATT ATTTCCTCGC
    TATCTTCTGT TCCTTCGACA GCAGCCTGCC ACACGGACAC AGCAGTCTAA CATCTGGGTG
    AATATGGGTA CGATGAGCCT GAGAATGTTT CCTCAGCATT TGCCTAGAGG AAATGTACCC
    TCTCCAAATG CGCCTCTAAA GCGGGTGTTA GCCTATACAG GCTGTTTTAG TAGAATGCAA
    ACCATCAAGG AAATTCATGA ATATCTGTCT CAAAGGCTTC GCATTAAAGA GGAAGATATG
    CGGCTGTGGC TGTACAATAG TGAGAACTAC CTGACTCTTT TGGATGATGA GGATCACAGA
    TTGGAATATT TGAAAATCCA GGATGAACAG CACCTGGTAA TTGAAGTTCG CAACAAAGAT
    ATGAGTTGGC CTGAAGAAAT GTCTTTTATA GCAAACAGTA GCAAAATAGA TAGACATAAA
    GTTCCCACAG AAAAGGGCGC CACAGGTCTG AGTAACCTGG GAAACACGTG CTTCATGAAC
    TCAAGCATCC AGTGTGTTAG TAATACACAG CCACTGACAC AGTACTTTAT CTCAGGGAGA
    CATCTTTATG AACTCAACAG GACAAATCCC ATTGGTATGA AAGGCCATAT GGCTAAATGT
    TATGGCGATT TGGTGCAAGA ACTTTGGAGT GGAACTCAGA AGAATGTTGC CCCCTTAAAG
    CTCCGGTGGA CCATAGCAAA ATATGCTCCC AGGTTTAATG GATTCCAGCA ACAAGACTCC
    CAAGAACTTC TGGCTTTCCT CTTGGATGGT CTTCACGAAG ATCTCAACCG AGTCCACGAG
    AAACCATATG TAGAACTAAA AGACAGTGAC GGCCGACCCG ACTGGGAAGT AGCTGCAGAG
    GCCTGGGACA ATCATCTAAG GAGAAATAGA TCAATTGTTG TGGACTTGTT CCATGGTCAG
    CTAAGATCCC AAGTCAAATG CAAGACATGT GGGCATATAA GTGTCCGATT CGACCCTTTT
    AATTTTTTGT CTTTACCACT ACCAATGGAC AGTTATATGC ATTTAGAAAT AACAGTAATT
    AAATTAGATG GTACTACCCC CATACGATAT GGACTAAGAC TGAATATGGA TGAAAAGTAT
    ACAGGTTTGA AAAAGCAGCT GAGTGATCTC TGTGGACTTA AATCAGAACA AATCCTTTTT
    GCAGAAGTGC ATAGTTCAAA CATAAAGAAC TTCCCTCAGG ACAACCAAAA AGTTCGACTC
    TCAGTGAGTG GATTTTTGTG TGCGTTTGAA ATTCCTATTC CTGCATCTCC AGTTTCAGCT
    TGCAGTCCAA TTCAAACAGA TTGTTCTTCT TCTCCATCTA CAAATGGACT GTTTACCTTG
    ACTACCAATG GGGATCTGCC TCGACCTATA TTCATCCCCA ATGGGATGCC AAATACAGTT
    GTACCATGTG GAACTGAGAA GAATGTCACA AATGGAATAG TGAATGGTCA TATGCCACCT
    CTTCCTGATG ACCCCTTTAC AGGCTACATC ATTGCAGTCC ACCGAAAAAT GATGAGGACA
    GAACTGTATT TCCTGTCATC TCAGAAGAAT CGCCCCAGTC TCTTTGGGAT GCCACTAATT
    GTTCCATGTA CTGTACACAC CCGGAAAAAA GATCTCTATG ATGCAGTTTG GATTCAAGTA
    TCTCGATTAG CCAGTCCACT CCCACCTCAA GAAGCTAGCA ACCATGCACA GGATTGTGAT
    GACAGCATGG GCTATCAATA TCCATTCACT CTCCGAGTTG TGCAGAAAGA TGGAAACTCC
    TGTGCCTGGT GTCCGTGGTA TAGATTTTGC AGAGGCTGTA AAATCGATTG TGGAGAAGAC
    AGAGCTTTCA TTGGAAATGC CTGTATTGCT GTGGATTGGG ACCCTACAGC CCTTCACCTC
    CGCTATCAAA CATCACAGGA AAGAGTTGTA GAGGAGCATG AAAGTGTGGA GCAGAGTCGG
    CGAGCACAAG CTGAGCCCAT CAACCTGGAC AGCTGCCTCC GTGCCTTCAC CAGTGAGGAG
    GAACTGGGGG AAAATGAGAT GTACTACTGC TCAAAATGTA AAACGCACTG TTTGGCAACC
    AAGAAGCTGG ACCTCTGGAG GCTCCCTCCA GTCCTGATTA TTCACCTTAA ACGATTTCAG
    TTTGTAAATG GACGGTGGAT AAAATCACAG AAAATTGTTA AATTTCCTCG TGAAAGTTTT
    GACCCTAGTG CTTTTTTAGT ACCAAGAGAC CCAACTCTTT GCCAGCATAA ACCACTCACA
    CCCCAGGGGG ATGACTTCTC TGAGCTAAGG ATCCCAGCAG GAGATGTGAA GAAAGTGGAT
    GTCCAGAGCT CGGCAGGGGA GGAAGATGTG CTCCTGAGCA AGAGCCCATC TTCACTCAGT
    GCAAATGTCA CCAGTAGCCC AAAAGGTTCA CCTTCTTCAT CAAGAAAAAG TGGAGCCAGC
    TGTCCCTCCA GCAAAAATAG CAGCCCTAAC AGCAGCCCAC GGACCTTGGG GAGGAACAAA
    GGGAGGCTCC GGCTGCCTCA AATTGGCAGC AAAAATAAAT TGTCCAACAG TAAGGAGAAT
    TTGGATGCCA GCAAAGAGAA TGGGGCTGGG CAGATCTGTG AGCTGGCTGA CACCTTGAAC
    CGAGGACATG TATTGGGAGG CAGCCAGCCT GAGCTGGTCA CTCCTCTGGA TCATGAGATC
    ACTTTGGCTA ATGGATTTCT CTATGAGCAT GAGGCATGTG GCAATGGCTA TAGCAATGGT
    CAGCTTGGAA ACCATAGTGA AGAAGACAGC ACTGATGACC AAAGAGAAGA AACACACAGT
    AAACCTATTT ATAATCTATA TGCAATTTCG TGCCATTCAG GAATTCTGGG TGGGGGCCAT
    TACGTCACTT ATGCCAAAAA CCCAAACTGC AAGTGGTACT GTTACAATGA CAGCAGCTGT
    AAGGAGCTTC ACCCTGATGA GATAGACACC GACTCTGCCT ACATTCTTTT CTATGAGCAG
    CAGGGGATAG ACTGTGCACA GTTTCTGCCA AAGACAGACG GCAAGAAGAT GGCAGACACG
    AGCAGCATGG ACGAAGACTT TGAGTCTGAC TACAAGAAGT ACTGTGTGCT ACAGTAA

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

    CloneID OMv25995
    Clone ID Related Accession (Same CDS sequence) XM_021175609.2 , XM_021175609.1
    Accession Version XM_021175609.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4815bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product ubiquitin carboxyl-terminal hydrolase 32 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034580.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021175609.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGGCGCCA AGGAGTCACG GATCGGATTC CTCAGCTACG AGGAGGCGCT GAGGAGAGTT 
    ACAGATGTTG AGCTGAAACG ACTCAAAGAT GCCTTCAAGA GGACCTGCGG CCTCTCCTAT
    TACATGAGTC AGCACTGCTT CATCAGGGAA GTGCTTGGGG ATGGAGTACC TCCTAAAGTT
    GCTGAGGTGA TTTACTGTTC TTTTGGTGGA ACATCCAAAG GGCTGCATTT CAATAACTTA
    ATAGTTGGAC TCGTCCTCCT TACAAGAGGC AAAGATGAAG AGAAAGCAAA ATATATTTTT
    AGTCTTTTTT CAAGTGAATC CGGGAGCTAT GTTGTACGGG AAGAAATGGA GAGAATGCTC
    CATGTGGTGG ATGGTAAAGT CCCAGATACA CTCAGGAAGT GTTTCTCAGA GGGTGAAAAG
    GTAAACTATG AAAAATTCAG AAATTGGCTT CTTCTAAACA AAGATGCTTT TACCTTCTCT
    CGCTGGCTGT TGTCTGGGGG TGTATATGTG ACCCTCACTG ATGACAGTGA CACTCCTACT
    TTCTACCAAA CTCTGGCTGG AGTCACACAT TTGGAAGAGT CAGACATCAT TGATCTGGAG
    AAACGGTATT GGCTACTGAA GGCCCAATCC CGAACTGGAC GTTTTGACTT AGAGACCTTT
    GGTCCATTGG TTTCACCACC TATTCGCCCT TCTCTGAGTG AAGGCTTATT TAACGCTTTT
    GATGAAAATC GTGACAATCA CATAGACTTC AAGGAGATAT CTTGTGGGTT ATCAGCCTGC
    TGCAGGGGCC CCCTGGCTGA AAGACAAAAA TTTTGCTTCA AGGTGTTTGA TGTTGACCGT
    GATGGAGTTC TCTCCAGGGT TGAACTGAAA GACATGGTAG TTGCACTTTT GGAGGTCTGG
    AAAGATAACC GCACTGATGA TATTCCTGAA TTGCATATGG ATTTGTCAGA CATTGTAGAA
    AGGATATTGA ATGCACATGA TACCACAAAG ATGGGCCATC TTACTCTCGA AGACTATCAG
    ATATGGAGTG TGAAAAATGT TCTTGCCAAT GAGTTTTTGA ATCTCCTCTT CCAGGTATGC
    CACATAGTTC TGGGGTTAAG ACCAGCTACT CCAGAAGAAG AAGGACAAAT TATTAGAGGA
    TGGTTGGAAC GAGAAAGCAG GTATGGTCTG CAGCCAGGAC ACAATTGGTT TATCATCTCC
    ATGCAGTGGT GGCAACAGTG GAAAGAATAT GTCAAATATG ATGCCAGCCC TGTTGTAATT
    GAGCCATCAT CTGTTCTAAA TGGAGGAAAA TTTTCATTTG GAACAGCAGC ACATCCTATA
    GAGCATGGAG AAGATAGAAT CAGTAATAAC CTTGGTTATA TGAATACCAC AGAAGAGAAA
    TACTCAGACA ACATTTCTTC TGCATCTGAA GCCTCAGAGT CTACTGGCAC TGGCTTTCTG
    TATTCTGGCA CACCAGGGGC AGAGATGTGC TTTGCAAGGC AGCATAACAC TTCTGACAAT
    AACAACCAGT GTTTACTAGG AGCCAATGGG AATATCCTTC TGCACCTTAG TCCTCAGAAG
    CCAGGAGCTA TTGATAACCA GCCACTAGTG ACTCAGGAAC CAGTAAAGGC TACATCATTA
    ACACTAGAAG GAGGACGATT AAAACGAACT CCACAGCTAA TCCATGGAAG AGATTATGAA
    ATGGTCCCAG AACCCGTGTG GAGAGCACTT TATCATTGGT ATGGATCAAA CCTGGCCCTT
    CCTAGACCAG TAATCAAGAA TAGCAAAACG GACATCCCAG AACTAGAATT ATTTCCTCGC
    TATCTTCTGT TCCTTCGACA GCAGCCTGCC ACACGGACAC AGCAGTCTAA CATCTGGGTG
    AATATGGGAA ATGTACCCTC TCCAAATGCG CCTCTAAAGC GGGTGTTAGC CTATACAGGC
    TGTTTTAGTA GAATGCAAAC CATCAAGGAA ATTCATGAAT ATCTGTCTCA AAGGCTTCGC
    ATTAAAGAGG AAGATATGCG GCTGTGGCTG TACAATAGTG AGAACTACCT GACTCTTTTG
    GATGATGAGG ATCACAGATT GGAATATTTG AAAATCCAGG ATGAACAGCA CCTGGTAATT
    GAAGTTCGCA ACAAAGATAT GAGTTGGCCT GAAGAAATGT CTTTTATAGC AAACAGTAGC
    AAAATAGATA GACATAAAGT TCCCACAGAA AAGGGCGCCA CAGGTCTGAG TAACCTGGGA
    AACACGTGCT TCATGAACTC AAGCATCCAG TGTGTTAGTA ATACACAGCC ACTGACACAG
    TACTTTATCT CAGGGAGACA TCTTTATGAA CTCAACAGGA CAAATCCCAT TGGTATGAAA
    GGCCATATGG CTAAATGTTA TGGCGATTTG GTGCAAGAAC TTTGGAGTGG AACTCAGAAG
    AATGTTGCCC CCTTAAAGCT CCGGTGGACC ATAGCAAAAT ATGCTCCCAG GTTTAATGGA
    TTCCAGCAAC AAGACTCCCA AGAACTTCTG GCTTTCCTCT TGGATGGTCT TCACGAAGAT
    CTCAACCGAG TCCACGAGAA ACCATATGTA GAACTAAAAG ACAGTGACGG CCGACCCGAC
    TGGGAAGTAG CTGCAGAGGC CTGGGACAAT CATCTAAGGA GAAATAGATC AATTGTTGTG
    GACTTGTTCC ATGGTCAGCT AAGATCCCAA GTCAAATGCA AGACATGTGG GCATATAAGT
    GTCCGATTCG ACCCTTTTAA TTTTTTGTCT TTACCACTAC CAATGGACAG TTATATGCAT
    TTAGAAATAA CAGTAATTAA ATTAGATGGT ACTACCCCCA TACGATATGG ACTAAGACTG
    AATATGGATG AAAAGTATAC AGGTTTGAAA AAGCAGCTGA GTGATCTCTG TGGACTTAAA
    TCAGAACAAA TCCTTTTTGC AGAAGTGCAT AGTTCAAACA TAAAGAACTT CCCTCAGGAC
    AACCAAAAAG TTCGACTCTC AGTGAGTGGA TTTTTGTGTG CGTTTGAAAT TCCTATTCCT
    GCATCTCCAG TTTCAGCTTG CAGTCCAATT CAAACAGATT GTTCTTCTTC TCCATCTACA
    AATGGACTGT TTACCTTGAC TACCAATGGG GATCTGCCTC GACCTATATT CATCCCCAAT
    GGGATGCCAA ATACAGTTGT ACCATGTGGA ACTGAGAAGA ATGTCACAAA TGGAATAGTG
    AATGGTCATA TGCCACCTCT TCCTGATGAC CCCTTTACAG GCTACATCAT TGCAGTCCAC
    CGAAAAATGA TGAGGACAGA ACTGTATTTC CTGTCATCTC AGAAGAATCG CCCCAGTCTC
    TTTGGGATGC CACTAATTGT TCCATGTACT GTACACACCC GGAAAAAAGA TCTCTATGAT
    GCAGTTTGGA TTCAAGTATC TCGATTAGCC AGTCCACTCC CACCTCAAGA AGCTAGCAAC
    CATGCACAGG ATTGTGATGA CAGCATGGGC TATCAATATC CATTCACTCT CCGAGTTGTG
    CAGAAAGATG GAAACTCCTG TGCCTGGTGT CCGTGGTATA GATTTTGCAG AGGCTGTAAA
    ATCGATTGTG GAGAAGACAG AGCTTTCATT GGAAATGCCT GTATTGCTGT GGATTGGGAC
    CCTACAGCCC TTCACCTCCG CTATCAAACA TCACAGGAAA GAGTTGTAGA GGAGCATGAA
    AGTGTGGAGC AGAGTCGGCG AGCACAAGCT GAGCCCATCA ACCTGGACAG CTGCCTCCGT
    GCCTTCACCA GTGAGGAGGA ACTGGGGGAA AATGAGATGT ACTACTGCTC AAAATGTAAA
    ACGCACTGTT TGGCAACCAA GAAGCTGGAC CTCTGGAGGC TCCCTCCAGT CCTGATTATT
    CACCTTAAAC GATTTCAGTT TGTAAATGGA CGGTGGATAA AATCACAGAA AATTGTTAAA
    TTTCCTCGTG AAAGTTTTGA CCCTAGTGCT TTTTTAGTAC CAAGAGACCC AACTCTTTGC
    CAGCATAAAC CACTCACACC CCAGGGGGAT GACTTCTCTG AGCTAAGGAT CCCAGCAGGA
    GATGTGAAGA AAGTGGATGT CCAGAGCTCG GCAGGGGAGG AAGATGTGCT CCTGAGCAAG
    AGCCCATCTT CACTCAGTGC AAATGTCACC AGTAGCCCAA AAGGTTCACC TTCTTCATCA
    AGAAAAAGTG GAGCCAGCTG TCCCTCCAGC AAAAATAGCA GCCCTAACAG CAGCCCACGG
    ACCTTGGGGA GGAACAAAGG GAGGCTCCGG CTGCCTCAAA TTGGCAGCAA AAATAAATTG
    TCCAACAGTA AGGAGAATTT GGATGCCAGC AAAGAGAATG GGGCTGGGCA GATCTGTGAG
    CTGGCTGACA CCTTGAACCG AGGACATGTA TTGGGAGGCA GCCAGCCTGA GCTGGTCACT
    CCTCTGGATC ATGAGATCAC TTTGGCTAAT GGATTTCTCT ATGAGCATGA GGCATGTGGC
    AATGGCTATA GCAATGGTCA GCTTGGAAAC CATAGTGAAG AAGACAGCAC TGATGACCAA
    AGAGAAGAAA CACACAGTAA ACCTATTTAT AATCTATATG CAATTTCGTG CCATTCAGGA
    ATTCTGGGTG GGGGCCATTA CGTCACTTAT GCCAAAAACC CAAACTGCAA GTGGTACTGT
    TACAATGACA GCAGCTGTAA GGAGCTTCAC CCTGATGAGA TAGACACCGA CTCTGCCTAC
    ATTCTTTTCT ATGAGCAGCA GGGGATAGAC TGTGCACAGT TTCTGCCAAA GACAGACGGC
    AAGAAGATGG CAGACACGAG CAGCATGGAC GAAGACTTTG AGTCTGACTA CAAGAAGTAC
    TGTGTGCTAC AGTAA

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

    RefSeq XP_021031268.1
    CDS192..5006
    Translation

    Target ORF information:

    RefSeq Version XM_021175609.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli ubiquitin specific peptidase 32 (Usp32), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021175609.2

    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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGGCGCCA AGGAGTCACG GATCGGATTC CTCAGCTACG AGGAGGCGCT GAGGAGAGTT 
    ACAGATGTTG AGCTGAAACG ACTCAAAGAT GCCTTCAAGA GGACCTGCGG CCTCTCCTAT
    TACATGAGTC AGCACTGCTT CATCAGGGAA GTGCTTGGGG ATGGAGTACC TCCTAAAGTT
    GCTGAGGTGA TTTACTGTTC TTTTGGTGGA ACATCCAAAG GGCTGCATTT CAATAACTTA
    ATAGTTGGAC TCGTCCTCCT TACAAGAGGC AAAGATGAAG AGAAAGCAAA ATATATTTTT
    AGTCTTTTTT CAAGTGAATC CGGGAGCTAT GTTGTACGGG AAGAAATGGA GAGAATGCTC
    CATGTGGTGG ATGGTAAAGT CCCAGATACA CTCAGGAAGT GTTTCTCAGA GGGTGAAAAG
    GTAAACTATG AAAAATTCAG AAATTGGCTT CTTCTAAACA AAGATGCTTT TACCTTCTCT
    CGCTGGCTGT TGTCTGGGGG TGTATATGTG ACCCTCACTG ATGACAGTGA CACTCCTACT
    TTCTACCAAA CTCTGGCTGG AGTCACACAT TTGGAAGAGT CAGACATCAT TGATCTGGAG
    AAACGGTATT GGCTACTGAA GGCCCAATCC CGAACTGGAC GTTTTGACTT AGAGACCTTT
    GGTCCATTGG TTTCACCACC TATTCGCCCT TCTCTGAGTG AAGGCTTATT TAACGCTTTT
    GATGAAAATC GTGACAATCA CATAGACTTC AAGGAGATAT CTTGTGGGTT ATCAGCCTGC
    TGCAGGGGCC CCCTGGCTGA AAGACAAAAA TTTTGCTTCA AGGTGTTTGA TGTTGACCGT
    GATGGAGTTC TCTCCAGGGT TGAACTGAAA GACATGGTAG TTGCACTTTT GGAGGTCTGG
    AAAGATAACC GCACTGATGA TATTCCTGAA TTGCATATGG ATTTGTCAGA CATTGTAGAA
    AGGATATTGA ATGCACATGA TACCACAAAG ATGGGCCATC TTACTCTCGA AGACTATCAG
    ATATGGAGTG TGAAAAATGT TCTTGCCAAT GAGTTTTTGA ATCTCCTCTT CCAGGTATGC
    CACATAGTTC TGGGGTTAAG ACCAGCTACT CCAGAAGAAG AAGGACAAAT TATTAGAGGA
    TGGTTGGAAC GAGAAAGCAG GTATGGTCTG CAGCCAGGAC ACAATTGGTT TATCATCTCC
    ATGCAGTGGT GGCAACAGTG GAAAGAATAT GTCAAATATG ATGCCAGCCC TGTTGTAATT
    GAGCCATCAT CTGTTCTAAA TGGAGGAAAA TTTTCATTTG GAACAGCAGC ACATCCTATA
    GAGCATGGAG AAGATAGAAT CAGTAATAAC CTTGGTTATA TGAATACCAC AGAAGAGAAA
    TACTCAGACA ACATTTCTTC TGCATCTGAA GCCTCAGAGT CTACTGGCAC TGGCTTTCTG
    TATTCTGGCA CACCAGGGGC AGAGATGTGC TTTGCAAGGC AGCATAACAC TTCTGACAAT
    AACAACCAGT GTTTACTAGG AGCCAATGGG AATATCCTTC TGCACCTTAG TCCTCAGAAG
    CCAGGAGCTA TTGATAACCA GCCACTAGTG ACTCAGGAAC CAGTAAAGGC TACATCATTA
    ACACTAGAAG GAGGACGATT AAAACGAACT CCACAGCTAA TCCATGGAAG AGATTATGAA
    ATGGTCCCAG AACCCGTGTG GAGAGCACTT TATCATTGGT ATGGATCAAA CCTGGCCCTT
    CCTAGACCAG TAATCAAGAA TAGCAAAACG GACATCCCAG AACTAGAATT ATTTCCTCGC
    TATCTTCTGT TCCTTCGACA GCAGCCTGCC ACACGGACAC AGCAGTCTAA CATCTGGGTG
    AATATGGGAA ATGTACCCTC TCCAAATGCG CCTCTAAAGC GGGTGTTAGC CTATACAGGC
    TGTTTTAGTA GAATGCAAAC CATCAAGGAA ATTCATGAAT ATCTGTCTCA AAGGCTTCGC
    ATTAAAGAGG AAGATATGCG GCTGTGGCTG TACAATAGTG AGAACTACCT GACTCTTTTG
    GATGATGAGG ATCACAGATT GGAATATTTG AAAATCCAGG ATGAACAGCA CCTGGTAATT
    GAAGTTCGCA ACAAAGATAT GAGTTGGCCT GAAGAAATGT CTTTTATAGC AAACAGTAGC
    AAAATAGATA GACATAAAGT TCCCACAGAA AAGGGCGCCA CAGGTCTGAG TAACCTGGGA
    AACACGTGCT TCATGAACTC AAGCATCCAG TGTGTTAGTA ATACACAGCC ACTGACACAG
    TACTTTATCT CAGGGAGACA TCTTTATGAA CTCAACAGGA CAAATCCCAT TGGTATGAAA
    GGCCATATGG CTAAATGTTA TGGCGATTTG GTGCAAGAAC TTTGGAGTGG AACTCAGAAG
    AATGTTGCCC CCTTAAAGCT CCGGTGGACC ATAGCAAAAT ATGCTCCCAG GTTTAATGGA
    TTCCAGCAAC AAGACTCCCA AGAACTTCTG GCTTTCCTCT TGGATGGTCT TCACGAAGAT
    CTCAACCGAG TCCACGAGAA ACCATATGTA GAACTAAAAG ACAGTGACGG CCGACCCGAC
    TGGGAAGTAG CTGCAGAGGC CTGGGACAAT CATCTAAGGA GAAATAGATC AATTGTTGTG
    GACTTGTTCC ATGGTCAGCT AAGATCCCAA GTCAAATGCA AGACATGTGG GCATATAAGT
    GTCCGATTCG ACCCTTTTAA TTTTTTGTCT TTACCACTAC CAATGGACAG TTATATGCAT
    TTAGAAATAA CAGTAATTAA ATTAGATGGT ACTACCCCCA TACGATATGG ACTAAGACTG
    AATATGGATG AAAAGTATAC AGGTTTGAAA AAGCAGCTGA GTGATCTCTG TGGACTTAAA
    TCAGAACAAA TCCTTTTTGC AGAAGTGCAT AGTTCAAACA TAAAGAACTT CCCTCAGGAC
    AACCAAAAAG TTCGACTCTC AGTGAGTGGA TTTTTGTGTG CGTTTGAAAT TCCTATTCCT
    GCATCTCCAG TTTCAGCTTG CAGTCCAATT CAAACAGATT GTTCTTCTTC TCCATCTACA
    AATGGACTGT TTACCTTGAC TACCAATGGG GATCTGCCTC GACCTATATT CATCCCCAAT
    GGGATGCCAA ATACAGTTGT ACCATGTGGA ACTGAGAAGA ATGTCACAAA TGGAATAGTG
    AATGGTCATA TGCCACCTCT TCCTGATGAC CCCTTTACAG GCTACATCAT TGCAGTCCAC
    CGAAAAATGA TGAGGACAGA ACTGTATTTC CTGTCATCTC AGAAGAATCG CCCCAGTCTC
    TTTGGGATGC CACTAATTGT TCCATGTACT GTACACACCC GGAAAAAAGA TCTCTATGAT
    GCAGTTTGGA TTCAAGTATC TCGATTAGCC AGTCCACTCC CACCTCAAGA AGCTAGCAAC
    CATGCACAGG ATTGTGATGA CAGCATGGGC TATCAATATC CATTCACTCT CCGAGTTGTG
    CAGAAAGATG GAAACTCCTG TGCCTGGTGT CCGTGGTATA GATTTTGCAG AGGCTGTAAA
    ATCGATTGTG GAGAAGACAG AGCTTTCATT GGAAATGCCT GTATTGCTGT GGATTGGGAC
    CCTACAGCCC TTCACCTCCG CTATCAAACA TCACAGGAAA GAGTTGTAGA GGAGCATGAA
    AGTGTGGAGC AGAGTCGGCG AGCACAAGCT GAGCCCATCA ACCTGGACAG CTGCCTCCGT
    GCCTTCACCA GTGAGGAGGA ACTGGGGGAA AATGAGATGT ACTACTGCTC AAAATGTAAA
    ACGCACTGTT TGGCAACCAA GAAGCTGGAC CTCTGGAGGC TCCCTCCAGT CCTGATTATT
    CACCTTAAAC GATTTCAGTT TGTAAATGGA CGGTGGATAA AATCACAGAA AATTGTTAAA
    TTTCCTCGTG AAAGTTTTGA CCCTAGTGCT TTTTTAGTAC CAAGAGACCC AACTCTTTGC
    CAGCATAAAC CACTCACACC CCAGGGGGAT GACTTCTCTG AGCTAAGGAT CCCAGCAGGA
    GATGTGAAGA AAGTGGATGT CCAGAGCTCG GCAGGGGAGG AAGATGTGCT CCTGAGCAAG
    AGCCCATCTT CACTCAGTGC AAATGTCACC AGTAGCCCAA AAGGTTCACC TTCTTCATCA
    AGAAAAAGTG GAGCCAGCTG TCCCTCCAGC AAAAATAGCA GCCCTAACAG CAGCCCACGG
    ACCTTGGGGA GGAACAAAGG GAGGCTCCGG CTGCCTCAAA TTGGCAGCAA AAATAAATTG
    TCCAACAGTA AGGAGAATTT GGATGCCAGC AAAGAGAATG GGGCTGGGCA GATCTGTGAG
    CTGGCTGACA CCTTGAACCG AGGACATGTA TTGGGAGGCA GCCAGCCTGA GCTGGTCACT
    CCTCTGGATC ATGAGATCAC TTTGGCTAAT GGATTTCTCT ATGAGCATGA GGCATGTGGC
    AATGGCTATA GCAATGGTCA GCTTGGAAAC CATAGTGAAG AAGACAGCAC TGATGACCAA
    AGAGAAGAAA CACACAGTAA ACCTATTTAT AATCTATATG CAATTTCGTG CCATTCAGGA
    ATTCTGGGTG GGGGCCATTA CGTCACTTAT GCCAAAAACC CAAACTGCAA GTGGTACTGT
    TACAATGACA GCAGCTGTAA GGAGCTTCAC CCTGATGAGA TAGACACCGA CTCTGCCTAC
    ATTCTTTTCT ATGAGCAGCA GGGGATAGAC TGTGCACAGT TTCTGCCAAA GACAGACGGC
    AAGAAGATGG CAGACACGAG CAGCATGGAC GAAGACTTTG AGTCTGACTA CAAGAAGTAC
    TGTGTGCTAC AGTAA

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

    CloneID OMv25995
    Clone ID Related Accession (Same CDS sequence) XM_021175609.2 , XM_021175609.1
    Accession Version XM_021175609.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4815bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product ubiquitin carboxyl-terminal hydrolase 32 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034580.1) 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 caroli 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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGGCGCCA AGGAGTCACG GATCGGATTC CTCAGCTACG AGGAGGCGCT GAGGAGAGTT 
    ACAGATGTTG AGCTGAAACG ACTCAAAGAT GCCTTCAAGA GGACCTGCGG CCTCTCCTAT
    TACATGAGTC AGCACTGCTT CATCAGGGAA GTGCTTGGGG ATGGAGTACC TCCTAAAGTT
    GCTGAGGTGA TTTACTGTTC TTTTGGTGGA ACATCCAAAG GGCTGCATTT CAATAACTTA
    ATAGTTGGAC TCGTCCTCCT TACAAGAGGC AAAGATGAAG AGAAAGCAAA ATATATTTTT
    AGTCTTTTTT CAAGTGAATC CGGGAGCTAT GTTGTACGGG AAGAAATGGA GAGAATGCTC
    CATGTGGTGG ATGGTAAAGT CCCAGATACA CTCAGGAAGT GTTTCTCAGA GGGTGAAAAG
    GTAAACTATG AAAAATTCAG AAATTGGCTT CTTCTAAACA AAGATGCTTT TACCTTCTCT
    CGCTGGCTGT TGTCTGGGGG TGTATATGTG ACCCTCACTG ATGACAGTGA CACTCCTACT
    TTCTACCAAA CTCTGGCTGG AGTCACACAT TTGGAAGAGT CAGACATCAT TGATCTGGAG
    AAACGGTATT GGCTACTGAA GGCCCAATCC CGAACTGGAC GTTTTGACTT AGAGACCTTT
    GGTCCATTGG TTTCACCACC TATTCGCCCT TCTCTGAGTG AAGGCTTATT TAACGCTTTT
    GATGAAAATC GTGACAATCA CATAGACTTC AAGGAGATAT CTTGTGGGTT ATCAGCCTGC
    TGCAGGGGCC CCCTGGCTGA AAGACAAAAA TTTTGCTTCA AGGTGTTTGA TGTTGACCGT
    GATGGAGTTC TCTCCAGGGT TGAACTGAAA GACATGGTAG TTGCACTTTT GGAGGTCTGG
    AAAGATAACC GCACTGATGA TATTCCTGAA TTGCATATGG ATTTGTCAGA CATTGTAGAA
    AGGATATTGA ATGCACATGA TACCACAAAG ATGGGCCATC TTACTCTCGA AGACTATCAG
    ATATGGAGTG TGAAAAATGT TCTTGCCAAT GAGTTTTTGA ATCTCCTCTT CCAGGTATGC
    CACATAGTTC TGGGGTTAAG ACCAGCTACT CCAGAAGAAG AAGGACAAAT TATTAGAGGA
    TGGTTGGAAC GAGAAAGCAG GTATGGTCTG CAGCCAGGAC ACAATTGGTT TATCATCTCC
    ATGCAGTGGT GGCAACAGTG GAAAGAATAT GTCAAATATG ATGCCAGCCC TGTTGTAATT
    GAGCCATCAT CTGTTCTAAA TGGAGGAAAA TTTTCATTTG GAACAGCAGC ACATCCTATA
    GAGCATGGAG AAGATAGAAT CAGTAATAAC CTTGGTTATA TGAATACCAC AGAAGAGAAA
    TACTCAGACA ACATTTCTTC TGCATCTGAA GCCTCAGAGT CTACTGGCAC TGGCTTTCTG
    TATTCTGGCA CACCAGGGGC AGAGATGTGC TTTGCAAGGC AGCATAACAC TTCTGACAAT
    AACAACCAGT GTTTACTAGG AGCCAATGGG AATATCCTTC TGCACCTTAG TCCTCAGAAG
    CCAGGAGCTA TTGATAACCA GCCACTAGTG ACTCAGGAAC CAGTAAAGGC TACATCATTA
    ACACTAGAAG GAGGACGATT AAAACGAACT CCACAGCTAA TCCATGGAAG AGATTATGAA
    ATGGTCCCAG AACCCGTGTG GAGAGCACTT TATCATTGGT ATGGATCAAA CCTGGCCCTT
    CCTAGACCAG TAATCAAGAA TAGCAAAACG GACATCCCAG AACTAGAATT ATTTCCTCGC
    TATCTTCTGT TCCTTCGACA GCAGCCTGCC ACACGGACAC AGCAGTCTAA CATCTGGGTG
    AATATGGGAA ATGTACCCTC TCCAAATGCG CCTCTAAAGC GGGTGTTAGC CTATACAGGC
    TGTTTTAGTA GAATGCAAAC CATCAAGGAA ATTCATGAAT ATCTGTCTCA AAGGCTTCGC
    ATTAAAGAGG AAGATATGCG GCTGTGGCTG TACAATAGTG AGAACTACCT GACTCTTTTG
    GATGATGAGG ATCACAGATT GGAATATTTG AAAATCCAGG ATGAACAGCA CCTGGTAATT
    GAAGTTCGCA ACAAAGATAT GAGTTGGCCT GAAGAAATGT CTTTTATAGC AAACAGTAGC
    AAAATAGATA GACATAAAGT TCCCACAGAA AAGGGCGCCA CAGGTCTGAG TAACCTGGGA
    AACACGTGCT TCATGAACTC AAGCATCCAG TGTGTTAGTA ATACACAGCC ACTGACACAG
    TACTTTATCT CAGGGAGACA TCTTTATGAA CTCAACAGGA CAAATCCCAT TGGTATGAAA
    GGCCATATGG CTAAATGTTA TGGCGATTTG GTGCAAGAAC TTTGGAGTGG AACTCAGAAG
    AATGTTGCCC CCTTAAAGCT CCGGTGGACC ATAGCAAAAT ATGCTCCCAG GTTTAATGGA
    TTCCAGCAAC AAGACTCCCA AGAACTTCTG GCTTTCCTCT TGGATGGTCT TCACGAAGAT
    CTCAACCGAG TCCACGAGAA ACCATATGTA GAACTAAAAG ACAGTGACGG CCGACCCGAC
    TGGGAAGTAG CTGCAGAGGC CTGGGACAAT CATCTAAGGA GAAATAGATC AATTGTTGTG
    GACTTGTTCC ATGGTCAGCT AAGATCCCAA GTCAAATGCA AGACATGTGG GCATATAAGT
    GTCCGATTCG ACCCTTTTAA TTTTTTGTCT TTACCACTAC CAATGGACAG TTATATGCAT
    TTAGAAATAA CAGTAATTAA ATTAGATGGT ACTACCCCCA TACGATATGG ACTAAGACTG
    AATATGGATG AAAAGTATAC AGGTTTGAAA AAGCAGCTGA GTGATCTCTG TGGACTTAAA
    TCAGAACAAA TCCTTTTTGC AGAAGTGCAT AGTTCAAACA TAAAGAACTT CCCTCAGGAC
    AACCAAAAAG TTCGACTCTC AGTGAGTGGA TTTTTGTGTG CGTTTGAAAT TCCTATTCCT
    GCATCTCCAG TTTCAGCTTG CAGTCCAATT CAAACAGATT GTTCTTCTTC TCCATCTACA
    AATGGACTGT TTACCTTGAC TACCAATGGG GATCTGCCTC GACCTATATT CATCCCCAAT
    GGGATGCCAA ATACAGTTGT ACCATGTGGA ACTGAGAAGA ATGTCACAAA TGGAATAGTG
    AATGGTCATA TGCCACCTCT TCCTGATGAC CCCTTTACAG GCTACATCAT TGCAGTCCAC
    CGAAAAATGA TGAGGACAGA ACTGTATTTC CTGTCATCTC AGAAGAATCG CCCCAGTCTC
    TTTGGGATGC CACTAATTGT TCCATGTACT GTACACACCC GGAAAAAAGA TCTCTATGAT
    GCAGTTTGGA TTCAAGTATC TCGATTAGCC AGTCCACTCC CACCTCAAGA AGCTAGCAAC
    CATGCACAGG ATTGTGATGA CAGCATGGGC TATCAATATC CATTCACTCT CCGAGTTGTG
    CAGAAAGATG GAAACTCCTG TGCCTGGTGT CCGTGGTATA GATTTTGCAG AGGCTGTAAA
    ATCGATTGTG GAGAAGACAG AGCTTTCATT GGAAATGCCT GTATTGCTGT GGATTGGGAC
    CCTACAGCCC TTCACCTCCG CTATCAAACA TCACAGGAAA GAGTTGTAGA GGAGCATGAA
    AGTGTGGAGC AGAGTCGGCG AGCACAAGCT GAGCCCATCA ACCTGGACAG CTGCCTCCGT
    GCCTTCACCA GTGAGGAGGA ACTGGGGGAA AATGAGATGT ACTACTGCTC AAAATGTAAA
    ACGCACTGTT TGGCAACCAA GAAGCTGGAC CTCTGGAGGC TCCCTCCAGT CCTGATTATT
    CACCTTAAAC GATTTCAGTT TGTAAATGGA CGGTGGATAA AATCACAGAA AATTGTTAAA
    TTTCCTCGTG AAAGTTTTGA CCCTAGTGCT TTTTTAGTAC CAAGAGACCC AACTCTTTGC
    CAGCATAAAC CACTCACACC CCAGGGGGAT GACTTCTCTG AGCTAAGGAT CCCAGCAGGA
    GATGTGAAGA AAGTGGATGT CCAGAGCTCG GCAGGGGAGG AAGATGTGCT CCTGAGCAAG
    AGCCCATCTT CACTCAGTGC AAATGTCACC AGTAGCCCAA AAGGTTCACC TTCTTCATCA
    AGAAAAAGTG GAGCCAGCTG TCCCTCCAGC AAAAATAGCA GCCCTAACAG CAGCCCACGG
    ACCTTGGGGA GGAACAAAGG GAGGCTCCGG CTGCCTCAAA TTGGCAGCAA AAATAAATTG
    TCCAACAGTA AGGAGAATTT GGATGCCAGC AAAGAGAATG GGGCTGGGCA GATCTGTGAG
    CTGGCTGACA CCTTGAACCG AGGACATGTA TTGGGAGGCA GCCAGCCTGA GCTGGTCACT
    CCTCTGGATC ATGAGATCAC TTTGGCTAAT GGATTTCTCT ATGAGCATGA GGCATGTGGC
    AATGGCTATA GCAATGGTCA GCTTGGAAAC CATAGTGAAG AAGACAGCAC TGATGACCAA
    AGAGAAGAAA CACACAGTAA ACCTATTTAT AATCTATATG CAATTTCGTG CCATTCAGGA
    ATTCTGGGTG GGGGCCATTA CGTCACTTAT GCCAAAAACC CAAACTGCAA GTGGTACTGT
    TACAATGACA GCAGCTGTAA GGAGCTTCAC CCTGATGAGA TAGACACCGA CTCTGCCTAC
    ATTCTTTTCT ATGAGCAGCA GGGGATAGAC TGTGCACAGT TTCTGCCAAA GACAGACGGC
    AAGAAGATGG CAGACACGAG CAGCATGGAC GAAGACTTTG AGTCTGACTA CAAGAAGTAC
    TGTGTGCTAC AGTAA

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

    RefSeq XP_021031268.1
    CDS285..5099
    Translation

    Target ORF information:

    RefSeq Version XM_021175609.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli ubiquitin specific peptidase 32 (Usp32), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021175609.1

    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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGGCGCCA AGGAGTCACG GATCGGATTC CTCAGCTACG AGGAGGCGCT GAGGAGAGTT 
    ACAGATGTTG AGCTGAAACG ACTCAAAGAT GCCTTCAAGA GGACCTGCGG CCTCTCCTAT
    TACATGAGTC AGCACTGCTT CATCAGGGAA GTGCTTGGGG ATGGAGTACC TCCTAAAGTT
    GCTGAGGTGA TTTACTGTTC TTTTGGTGGA ACATCCAAAG GGCTGCATTT CAATAACTTA
    ATAGTTGGAC TCGTCCTCCT TACAAGAGGC AAAGATGAAG AGAAAGCAAA ATATATTTTT
    AGTCTTTTTT CAAGTGAATC CGGGAGCTAT GTTGTACGGG AAGAAATGGA GAGAATGCTC
    CATGTGGTGG ATGGTAAAGT CCCAGATACA CTCAGGAAGT GTTTCTCAGA GGGTGAAAAG
    GTAAACTATG AAAAATTCAG AAATTGGCTT CTTCTAAACA AAGATGCTTT TACCTTCTCT
    CGCTGGCTGT TGTCTGGGGG TGTATATGTG ACCCTCACTG ATGACAGTGA CACTCCTACT
    TTCTACCAAA CTCTGGCTGG AGTCACACAT TTGGAAGAGT CAGACATCAT TGATCTGGAG
    AAACGGTATT GGCTACTGAA GGCCCAATCC CGAACTGGAC GTTTTGACTT AGAGACCTTT
    GGTCCATTGG TTTCACCACC TATTCGCCCT TCTCTGAGTG AAGGCTTATT TAACGCTTTT
    GATGAAAATC GTGACAATCA CATAGACTTC AAGGAGATAT CTTGTGGGTT ATCAGCCTGC
    TGCAGGGGCC CCCTGGCTGA AAGACAAAAA TTTTGCTTCA AGGTGTTTGA TGTTGACCGT
    GATGGAGTTC TCTCCAGGGT TGAACTGAAA GACATGGTAG TTGCACTTTT GGAGGTCTGG
    AAAGATAACC GCACTGATGA TATTCCTGAA TTGCATATGG ATTTGTCAGA CATTGTAGAA
    AGGATATTGA ATGCACATGA TACCACAAAG ATGGGCCATC TTACTCTCGA AGACTATCAG
    ATATGGAGTG TGAAAAATGT TCTTGCCAAT GAGTTTTTGA ATCTCCTCTT CCAGGTATGC
    CACATAGTTC TGGGGTTAAG ACCAGCTACT CCAGAAGAAG AAGGACAAAT TATTAGAGGA
    TGGTTGGAAC GAGAAAGCAG GTATGGTCTG CAGCCAGGAC ACAATTGGTT TATCATCTCC
    ATGCAGTGGT GGCAACAGTG GAAAGAATAT GTCAAATATG ATGCCAGCCC TGTTGTAATT
    GAGCCATCAT CTGTTCTAAA TGGAGGAAAA TTTTCATTTG GAACAGCAGC ACATCCTATA
    GAGCATGGAG AAGATAGAAT CAGTAATAAC CTTGGTTATA TGAATACCAC AGAAGAGAAA
    TACTCAGACA ACATTTCTTC TGCATCTGAA GCCTCAGAGT CTACTGGCAC TGGCTTTCTG
    TATTCTGGCA CACCAGGGGC AGAGATGTGC TTTGCAAGGC AGCATAACAC TTCTGACAAT
    AACAACCAGT GTTTACTAGG AGCCAATGGG AATATCCTTC TGCACCTTAG TCCTCAGAAG
    CCAGGAGCTA TTGATAACCA GCCACTAGTG ACTCAGGAAC CAGTAAAGGC TACATCATTA
    ACACTAGAAG GAGGACGATT AAAACGAACT CCACAGCTAA TCCATGGAAG AGATTATGAA
    ATGGTCCCAG AACCCGTGTG GAGAGCACTT TATCATTGGT ATGGATCAAA CCTGGCCCTT
    CCTAGACCAG TAATCAAGAA TAGCAAAACG GACATCCCAG AACTAGAATT ATTTCCTCGC
    TATCTTCTGT TCCTTCGACA GCAGCCTGCC ACACGGACAC AGCAGTCTAA CATCTGGGTG
    AATATGGGAA ATGTACCCTC TCCAAATGCG CCTCTAAAGC GGGTGTTAGC CTATACAGGC
    TGTTTTAGTA GAATGCAAAC CATCAAGGAA ATTCATGAAT ATCTGTCTCA AAGGCTTCGC
    ATTAAAGAGG AAGATATGCG GCTGTGGCTG TACAATAGTG AGAACTACCT GACTCTTTTG
    GATGATGAGG ATCACAGATT GGAATATTTG AAAATCCAGG ATGAACAGCA CCTGGTAATT
    GAAGTTCGCA ACAAAGATAT GAGTTGGCCT GAAGAAATGT CTTTTATAGC AAACAGTAGC
    AAAATAGATA GACATAAAGT TCCCACAGAA AAGGGCGCCA CAGGTCTGAG TAACCTGGGA
    AACACGTGCT TCATGAACTC AAGCATCCAG TGTGTTAGTA ATACACAGCC ACTGACACAG
    TACTTTATCT CAGGGAGACA TCTTTATGAA CTCAACAGGA CAAATCCCAT TGGTATGAAA
    GGCCATATGG CTAAATGTTA TGGCGATTTG GTGCAAGAAC TTTGGAGTGG AACTCAGAAG
    AATGTTGCCC CCTTAAAGCT CCGGTGGACC ATAGCAAAAT ATGCTCCCAG GTTTAATGGA
    TTCCAGCAAC AAGACTCCCA AGAACTTCTG GCTTTCCTCT TGGATGGTCT TCACGAAGAT
    CTCAACCGAG TCCACGAGAA ACCATATGTA GAACTAAAAG ACAGTGACGG CCGACCCGAC
    TGGGAAGTAG CTGCAGAGGC CTGGGACAAT CATCTAAGGA GAAATAGATC AATTGTTGTG
    GACTTGTTCC ATGGTCAGCT AAGATCCCAA GTCAAATGCA AGACATGTGG GCATATAAGT
    GTCCGATTCG ACCCTTTTAA TTTTTTGTCT TTACCACTAC CAATGGACAG TTATATGCAT
    TTAGAAATAA CAGTAATTAA ATTAGATGGT ACTACCCCCA TACGATATGG ACTAAGACTG
    AATATGGATG AAAAGTATAC AGGTTTGAAA AAGCAGCTGA GTGATCTCTG TGGACTTAAA
    TCAGAACAAA TCCTTTTTGC AGAAGTGCAT AGTTCAAACA TAAAGAACTT CCCTCAGGAC
    AACCAAAAAG TTCGACTCTC AGTGAGTGGA TTTTTGTGTG CGTTTGAAAT TCCTATTCCT
    GCATCTCCAG TTTCAGCTTG CAGTCCAATT CAAACAGATT GTTCTTCTTC TCCATCTACA
    AATGGACTGT TTACCTTGAC TACCAATGGG GATCTGCCTC GACCTATATT CATCCCCAAT
    GGGATGCCAA ATACAGTTGT ACCATGTGGA ACTGAGAAGA ATGTCACAAA TGGAATAGTG
    AATGGTCATA TGCCACCTCT TCCTGATGAC CCCTTTACAG GCTACATCAT TGCAGTCCAC
    CGAAAAATGA TGAGGACAGA ACTGTATTTC CTGTCATCTC AGAAGAATCG CCCCAGTCTC
    TTTGGGATGC CACTAATTGT TCCATGTACT GTACACACCC GGAAAAAAGA TCTCTATGAT
    GCAGTTTGGA TTCAAGTATC TCGATTAGCC AGTCCACTCC CACCTCAAGA AGCTAGCAAC
    CATGCACAGG ATTGTGATGA CAGCATGGGC TATCAATATC CATTCACTCT CCGAGTTGTG
    CAGAAAGATG GAAACTCCTG TGCCTGGTGT CCGTGGTATA GATTTTGCAG AGGCTGTAAA
    ATCGATTGTG GAGAAGACAG AGCTTTCATT GGAAATGCCT GTATTGCTGT GGATTGGGAC
    CCTACAGCCC TTCACCTCCG CTATCAAACA TCACAGGAAA GAGTTGTAGA GGAGCATGAA
    AGTGTGGAGC AGAGTCGGCG AGCACAAGCT GAGCCCATCA ACCTGGACAG CTGCCTCCGT
    GCCTTCACCA GTGAGGAGGA ACTGGGGGAA AATGAGATGT ACTACTGCTC AAAATGTAAA
    ACGCACTGTT TGGCAACCAA GAAGCTGGAC CTCTGGAGGC TCCCTCCAGT CCTGATTATT
    CACCTTAAAC GATTTCAGTT TGTAAATGGA CGGTGGATAA AATCACAGAA AATTGTTAAA
    TTTCCTCGTG AAAGTTTTGA CCCTAGTGCT TTTTTAGTAC CAAGAGACCC AACTCTTTGC
    CAGCATAAAC CACTCACACC CCAGGGGGAT GACTTCTCTG AGCTAAGGAT CCCAGCAGGA
    GATGTGAAGA AAGTGGATGT CCAGAGCTCG GCAGGGGAGG AAGATGTGCT CCTGAGCAAG
    AGCCCATCTT CACTCAGTGC AAATGTCACC AGTAGCCCAA AAGGTTCACC TTCTTCATCA
    AGAAAAAGTG GAGCCAGCTG TCCCTCCAGC AAAAATAGCA GCCCTAACAG CAGCCCACGG
    ACCTTGGGGA GGAACAAAGG GAGGCTCCGG CTGCCTCAAA TTGGCAGCAA AAATAAATTG
    TCCAACAGTA AGGAGAATTT GGATGCCAGC AAAGAGAATG GGGCTGGGCA GATCTGTGAG
    CTGGCTGACA CCTTGAACCG AGGACATGTA TTGGGAGGCA GCCAGCCTGA GCTGGTCACT
    CCTCTGGATC ATGAGATCAC TTTGGCTAAT GGATTTCTCT ATGAGCATGA GGCATGTGGC
    AATGGCTATA GCAATGGTCA GCTTGGAAAC CATAGTGAAG AAGACAGCAC TGATGACCAA
    AGAGAAGAAA CACACAGTAA ACCTATTTAT AATCTATATG CAATTTCGTG CCATTCAGGA
    ATTCTGGGTG GGGGCCATTA CGTCACTTAT GCCAAAAACC CAAACTGCAA GTGGTACTGT
    TACAATGACA GCAGCTGTAA GGAGCTTCAC CCTGATGAGA TAGACACCGA CTCTGCCTAC
    ATTCTTTTCT ATGAGCAGCA GGGGATAGAC TGTGCACAGT TTCTGCCAAA GACAGACGGC
    AAGAAGATGG CAGACACGAG CAGCATGGAC GAAGACTTTG AGTCTGACTA CAAGAAGTAC
    TGTGTGCTAC AGTAA

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

    CloneID OMv25996
    Clone ID Related Accession (Same CDS sequence) XM_021175610.1
    Accession Version XM_021175610.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4734bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product ubiquitin carboxyl-terminal hydrolase 32 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034580.1) 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 caroli 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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGAGTCAGC ACTGCTTCAT CAGGGAAGTG CTTGGGGATG GAGTACCTCC TAAAGTTGCT 
    GAGGTGATTT ACTGTTCTTT TGGTGGAACA TCCAAAGGGC TGCATTTCAA TAACTTAATA
    GTTGGACTCG TCCTCCTTAC AAGAGGCAAA GATGAAGAGA AAGCAAAATA TATTTTTAGT
    CTTTTTTCAA GTGAATCCGG GAGCTATGTT GTACGGGAAG AAATGGAGAG AATGCTCCAT
    GTGGTGGATG GTAAAGTCCC AGATACACTC AGGAAGTGTT TCTCAGAGGG TGAAAAGGTA
    AACTATGAAA AATTCAGAAA TTGGCTTCTT CTAAACAAAG ATGCTTTTAC CTTCTCTCGC
    TGGCTGTTGT CTGGGGGTGT ATATGTGACC CTCACTGATG ACAGTGACAC TCCTACTTTC
    TACCAAACTC TGGCTGGAGT CACACATTTG GAAGAGTCAG ACATCATTGA TCTGGAGAAA
    CGGTATTGGC TACTGAAGGC CCAATCCCGA ACTGGACGTT TTGACTTAGA GACCTTTGGT
    CCATTGGTTT CACCACCTAT TCGCCCTTCT CTGAGTGAAG GCTTATTTAA CGCTTTTGAT
    GAAAATCGTG ACAATCACAT AGACTTCAAG GAGATATCTT GTGGGTTATC AGCCTGCTGC
    AGGGGCCCCC TGGCTGAAAG ACAAAAATTT TGCTTCAAGG TGTTTGATGT TGACCGTGAT
    GGAGTTCTCT CCAGGGTTGA ACTGAAAGAC ATGGTAGTTG CACTTTTGGA GGTCTGGAAA
    GATAACCGCA CTGATGATAT TCCTGAATTG CATATGGATT TGTCAGACAT TGTAGAAAGG
    ATATTGAATG CACATGATAC CACAAAGATG GGCCATCTTA CTCTCGAAGA CTATCAGATA
    TGGAGTGTGA AAAATGTTCT TGCCAATGAG TTTTTGAATC TCCTCTTCCA GGTATGCCAC
    ATAGTTCTGG GGTTAAGACC AGCTACTCCA GAAGAAGAAG GACAAATTAT TAGAGGATGG
    TTGGAACGAG AAAGCAGGTA TGGTCTGCAG CCAGGACACA ATTGGTTTAT CATCTCCATG
    CAGTGGTGGC AACAGTGGAA AGAATATGTC AAATATGATG CCAGCCCTGT TGTAATTGAG
    CCATCATCTG TTCTAAATGG AGGAAAATTT TCATTTGGAA CAGCAGCACA TCCTATAGAG
    CATGGAGAAG ATAGAATCAG TAATAACCTT GGTTATATGA ATACCACAGA AGAGAAATAC
    TCAGACAACA TTTCTTCTGC ATCTGAAGCC TCAGAGTCTA CTGGCACTGG CTTTCTGTAT
    TCTGGCACAC CAGGGGCAGA GATGTGCTTT GCAAGGCAGC ATAACACTTC TGACAATAAC
    AACCAGTGTT TACTAGGAGC CAATGGGAAT ATCCTTCTGC ACCTTAGTCC TCAGAAGCCA
    GGAGCTATTG ATAACCAGCC ACTAGTGACT CAGGAACCAG TAAAGGCTAC ATCATTAACA
    CTAGAAGGAG GACGATTAAA ACGAACTCCA CAGCTAATCC ATGGAAGAGA TTATGAAATG
    GTCCCAGAAC CCGTGTGGAG AGCACTTTAT CATTGGTATG GATCAAACCT GGCCCTTCCT
    AGACCAGTAA TCAAGAATAG CAAAACGGAC ATCCCAGAAC TAGAATTATT TCCTCGCTAT
    CTTCTGTTCC TTCGACAGCA GCCTGCCACA CGGACACAGC AGTCTAACAT CTGGGTGAAT
    ATGGGTACGA TGAGCCTGAG AATGTTTCCT CAGCATTTGC CTAGAGGAAA TGTACCCTCT
    CCAAATGCGC CTCTAAAGCG GGTGTTAGCC TATACAGGCT GTTTTAGTAG AATGCAAACC
    ATCAAGGAAA TTCATGAATA TCTGTCTCAA AGGCTTCGCA TTAAAGAGGA AGATATGCGG
    CTGTGGCTGT ACAATAGTGA GAACTACCTG ACTCTTTTGG ATGATGAGGA TCACAGATTG
    GAATATTTGA AAATCCAGGA TGAACAGCAC CTGGTAATTG AAGTTCGCAA CAAAGATATG
    AGTTGGCCTG AAGAAATGTC TTTTATAGCA AACAGTAGCA AAATAGATAG ACATAAAGTT
    CCCACAGAAA AGGGCGCCAC AGGTCTGAGT AACCTGGGAA ACACGTGCTT CATGAACTCA
    AGCATCCAGT GTGTTAGTAA TACACAGCCA CTGACACAGT ACTTTATCTC AGGGAGACAT
    CTTTATGAAC TCAACAGGAC AAATCCCATT GGTATGAAAG GCCATATGGC TAAATGTTAT
    GGCGATTTGG TGCAAGAACT TTGGAGTGGA ACTCAGAAGA ATGTTGCCCC CTTAAAGCTC
    CGGTGGACCA TAGCAAAATA TGCTCCCAGG TTTAATGGAT TCCAGCAACA AGACTCCCAA
    GAACTTCTGG CTTTCCTCTT GGATGGTCTT CACGAAGATC TCAACCGAGT CCACGAGAAA
    CCATATGTAG AACTAAAAGA CAGTGACGGC CGACCCGACT GGGAAGTAGC TGCAGAGGCC
    TGGGACAATC ATCTAAGGAG AAATAGATCA ATTGTTGTGG ACTTGTTCCA TGGTCAGCTA
    AGATCCCAAG TCAAATGCAA GACATGTGGG CATATAAGTG TCCGATTCGA CCCTTTTAAT
    TTTTTGTCTT TACCACTACC AATGGACAGT TATATGCATT TAGAAATAAC AGTAATTAAA
    TTAGATGGTA CTACCCCCAT ACGATATGGA CTAAGACTGA ATATGGATGA AAAGTATACA
    GGTTTGAAAA AGCAGCTGAG TGATCTCTGT GGACTTAAAT CAGAACAAAT CCTTTTTGCA
    GAAGTGCATA GTTCAAACAT AAAGAACTTC CCTCAGGACA ACCAAAAAGT TCGACTCTCA
    GTGAGTGGAT TTTTGTGTGC GTTTGAAATT CCTATTCCTG CATCTCCAGT TTCAGCTTGC
    AGTCCAATTC AAACAGATTG TTCTTCTTCT CCATCTACAA ATGGACTGTT TACCTTGACT
    ACCAATGGGG ATCTGCCTCG ACCTATATTC ATCCCCAATG GGATGCCAAA TACAGTTGTA
    CCATGTGGAA CTGAGAAGAA TGTCACAAAT GGAATAGTGA ATGGTCATAT GCCACCTCTT
    CCTGATGACC CCTTTACAGG CTACATCATT GCAGTCCACC GAAAAATGAT GAGGACAGAA
    CTGTATTTCC TGTCATCTCA GAAGAATCGC CCCAGTCTCT TTGGGATGCC ACTAATTGTT
    CCATGTACTG TACACACCCG GAAAAAAGAT CTCTATGATG CAGTTTGGAT TCAAGTATCT
    CGATTAGCCA GTCCACTCCC ACCTCAAGAA GCTAGCAACC ATGCACAGGA TTGTGATGAC
    AGCATGGGCT ATCAATATCC ATTCACTCTC CGAGTTGTGC AGAAAGATGG AAACTCCTGT
    GCCTGGTGTC CGTGGTATAG ATTTTGCAGA GGCTGTAAAA TCGATTGTGG AGAAGACAGA
    GCTTTCATTG GAAATGCCTG TATTGCTGTG GATTGGGACC CTACAGCCCT TCACCTCCGC
    TATCAAACAT CACAGGAAAG AGTTGTAGAG GAGCATGAAA GTGTGGAGCA GAGTCGGCGA
    GCACAAGCTG AGCCCATCAA CCTGGACAGC TGCCTCCGTG CCTTCACCAG TGAGGAGGAA
    CTGGGGGAAA ATGAGATGTA CTACTGCTCA AAATGTAAAA CGCACTGTTT GGCAACCAAG
    AAGCTGGACC TCTGGAGGCT CCCTCCAGTC CTGATTATTC ACCTTAAACG ATTTCAGTTT
    GTAAATGGAC GGTGGATAAA ATCACAGAAA ATTGTTAAAT TTCCTCGTGA AAGTTTTGAC
    CCTAGTGCTT TTTTAGTACC AAGAGACCCA ACTCTTTGCC AGCATAAACC ACTCACACCC
    CAGGGGGATG ACTTCTCTGA GCTAAGGATC CCAGCAGGAG ATGTGAAGAA AGTGGATGTC
    CAGAGCTCGG CAGGGGAGGA AGATGTGCTC CTGAGCAAGA GCCCATCTTC ACTCAGTGCA
    AATGTCACCA GTAGCCCAAA AGGTTCACCT TCTTCATCAA GAAAAAGTGG AGCCAGCTGT
    CCCTCCAGCA AAAATAGCAG CCCTAACAGC AGCCCACGGA CCTTGGGGAG GAACAAAGGG
    AGGCTCCGGC TGCCTCAAAT TGGCAGCAAA AATAAATTGT CCAACAGTAA GGAGAATTTG
    GATGCCAGCA AAGAGAATGG GGCTGGGCAG ATCTGTGAGC TGGCTGACAC CTTGAACCGA
    GGACATGTAT TGGGAGGCAG CCAGCCTGAG CTGGTCACTC CTCTGGATCA TGAGATCACT
    TTGGCTAATG GATTTCTCTA TGAGCATGAG GCATGTGGCA ATGGCTATAG CAATGGTCAG
    CTTGGAAACC ATAGTGAAGA AGACAGCACT GATGACCAAA GAGAAGAAAC ACACAGTAAA
    CCTATTTATA ATCTATATGC AATTTCGTGC CATTCAGGAA TTCTGGGTGG GGGCCATTAC
    GTCACTTATG CCAAAAACCC AAACTGCAAG TGGTACTGTT ACAATGACAG CAGCTGTAAG
    GAGCTTCACC CTGATGAGAT AGACACCGAC TCTGCCTACA TTCTTTTCTA TGAGCAGCAG
    GGGATAGACT GTGCACAGTT TCTGCCAAAG ACAGACGGCA AGAAGATGGC AGACACGAGC
    AGCATGGACG AAGACTTTGA GTCTGACTAC AAGAAGTACT GTGTGCTACA GTAA

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

    RefSeq XP_021031269.1
    CDS102..4835
    Translation

    Target ORF information:

    RefSeq Version XM_021175610.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli ubiquitin specific peptidase 32 (Usp32), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021175610.1

    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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGAGTCAGC ACTGCTTCAT CAGGGAAGTG CTTGGGGATG GAGTACCTCC TAAAGTTGCT 
    GAGGTGATTT ACTGTTCTTT TGGTGGAACA TCCAAAGGGC TGCATTTCAA TAACTTAATA
    GTTGGACTCG TCCTCCTTAC AAGAGGCAAA GATGAAGAGA AAGCAAAATA TATTTTTAGT
    CTTTTTTCAA GTGAATCCGG GAGCTATGTT GTACGGGAAG AAATGGAGAG AATGCTCCAT
    GTGGTGGATG GTAAAGTCCC AGATACACTC AGGAAGTGTT TCTCAGAGGG TGAAAAGGTA
    AACTATGAAA AATTCAGAAA TTGGCTTCTT CTAAACAAAG ATGCTTTTAC CTTCTCTCGC
    TGGCTGTTGT CTGGGGGTGT ATATGTGACC CTCACTGATG ACAGTGACAC TCCTACTTTC
    TACCAAACTC TGGCTGGAGT CACACATTTG GAAGAGTCAG ACATCATTGA TCTGGAGAAA
    CGGTATTGGC TACTGAAGGC CCAATCCCGA ACTGGACGTT TTGACTTAGA GACCTTTGGT
    CCATTGGTTT CACCACCTAT TCGCCCTTCT CTGAGTGAAG GCTTATTTAA CGCTTTTGAT
    GAAAATCGTG ACAATCACAT AGACTTCAAG GAGATATCTT GTGGGTTATC AGCCTGCTGC
    AGGGGCCCCC TGGCTGAAAG ACAAAAATTT TGCTTCAAGG TGTTTGATGT TGACCGTGAT
    GGAGTTCTCT CCAGGGTTGA ACTGAAAGAC ATGGTAGTTG CACTTTTGGA GGTCTGGAAA
    GATAACCGCA CTGATGATAT TCCTGAATTG CATATGGATT TGTCAGACAT TGTAGAAAGG
    ATATTGAATG CACATGATAC CACAAAGATG GGCCATCTTA CTCTCGAAGA CTATCAGATA
    TGGAGTGTGA AAAATGTTCT TGCCAATGAG TTTTTGAATC TCCTCTTCCA GGTATGCCAC
    ATAGTTCTGG GGTTAAGACC AGCTACTCCA GAAGAAGAAG GACAAATTAT TAGAGGATGG
    TTGGAACGAG AAAGCAGGTA TGGTCTGCAG CCAGGACACA ATTGGTTTAT CATCTCCATG
    CAGTGGTGGC AACAGTGGAA AGAATATGTC AAATATGATG CCAGCCCTGT TGTAATTGAG
    CCATCATCTG TTCTAAATGG AGGAAAATTT TCATTTGGAA CAGCAGCACA TCCTATAGAG
    CATGGAGAAG ATAGAATCAG TAATAACCTT GGTTATATGA ATACCACAGA AGAGAAATAC
    TCAGACAACA TTTCTTCTGC ATCTGAAGCC TCAGAGTCTA CTGGCACTGG CTTTCTGTAT
    TCTGGCACAC CAGGGGCAGA GATGTGCTTT GCAAGGCAGC ATAACACTTC TGACAATAAC
    AACCAGTGTT TACTAGGAGC CAATGGGAAT ATCCTTCTGC ACCTTAGTCC TCAGAAGCCA
    GGAGCTATTG ATAACCAGCC ACTAGTGACT CAGGAACCAG TAAAGGCTAC ATCATTAACA
    CTAGAAGGAG GACGATTAAA ACGAACTCCA CAGCTAATCC ATGGAAGAGA TTATGAAATG
    GTCCCAGAAC CCGTGTGGAG AGCACTTTAT CATTGGTATG GATCAAACCT GGCCCTTCCT
    AGACCAGTAA TCAAGAATAG CAAAACGGAC ATCCCAGAAC TAGAATTATT TCCTCGCTAT
    CTTCTGTTCC TTCGACAGCA GCCTGCCACA CGGACACAGC AGTCTAACAT CTGGGTGAAT
    ATGGGTACGA TGAGCCTGAG AATGTTTCCT CAGCATTTGC CTAGAGGAAA TGTACCCTCT
    CCAAATGCGC CTCTAAAGCG GGTGTTAGCC TATACAGGCT GTTTTAGTAG AATGCAAACC
    ATCAAGGAAA TTCATGAATA TCTGTCTCAA AGGCTTCGCA TTAAAGAGGA AGATATGCGG
    CTGTGGCTGT ACAATAGTGA GAACTACCTG ACTCTTTTGG ATGATGAGGA TCACAGATTG
    GAATATTTGA AAATCCAGGA TGAACAGCAC CTGGTAATTG AAGTTCGCAA CAAAGATATG
    AGTTGGCCTG AAGAAATGTC TTTTATAGCA AACAGTAGCA AAATAGATAG ACATAAAGTT
    CCCACAGAAA AGGGCGCCAC AGGTCTGAGT AACCTGGGAA ACACGTGCTT CATGAACTCA
    AGCATCCAGT GTGTTAGTAA TACACAGCCA CTGACACAGT ACTTTATCTC AGGGAGACAT
    CTTTATGAAC TCAACAGGAC AAATCCCATT GGTATGAAAG GCCATATGGC TAAATGTTAT
    GGCGATTTGG TGCAAGAACT TTGGAGTGGA ACTCAGAAGA ATGTTGCCCC CTTAAAGCTC
    CGGTGGACCA TAGCAAAATA TGCTCCCAGG TTTAATGGAT TCCAGCAACA AGACTCCCAA
    GAACTTCTGG CTTTCCTCTT GGATGGTCTT CACGAAGATC TCAACCGAGT CCACGAGAAA
    CCATATGTAG AACTAAAAGA CAGTGACGGC CGACCCGACT GGGAAGTAGC TGCAGAGGCC
    TGGGACAATC ATCTAAGGAG AAATAGATCA ATTGTTGTGG ACTTGTTCCA TGGTCAGCTA
    AGATCCCAAG TCAAATGCAA GACATGTGGG CATATAAGTG TCCGATTCGA CCCTTTTAAT
    TTTTTGTCTT TACCACTACC AATGGACAGT TATATGCATT TAGAAATAAC AGTAATTAAA
    TTAGATGGTA CTACCCCCAT ACGATATGGA CTAAGACTGA ATATGGATGA AAAGTATACA
    GGTTTGAAAA AGCAGCTGAG TGATCTCTGT GGACTTAAAT CAGAACAAAT CCTTTTTGCA
    GAAGTGCATA GTTCAAACAT AAAGAACTTC CCTCAGGACA ACCAAAAAGT TCGACTCTCA
    GTGAGTGGAT TTTTGTGTGC GTTTGAAATT CCTATTCCTG CATCTCCAGT TTCAGCTTGC
    AGTCCAATTC AAACAGATTG TTCTTCTTCT CCATCTACAA ATGGACTGTT TACCTTGACT
    ACCAATGGGG ATCTGCCTCG ACCTATATTC ATCCCCAATG GGATGCCAAA TACAGTTGTA
    CCATGTGGAA CTGAGAAGAA TGTCACAAAT GGAATAGTGA ATGGTCATAT GCCACCTCTT
    CCTGATGACC CCTTTACAGG CTACATCATT GCAGTCCACC GAAAAATGAT GAGGACAGAA
    CTGTATTTCC TGTCATCTCA GAAGAATCGC CCCAGTCTCT TTGGGATGCC ACTAATTGTT
    CCATGTACTG TACACACCCG GAAAAAAGAT CTCTATGATG CAGTTTGGAT TCAAGTATCT
    CGATTAGCCA GTCCACTCCC ACCTCAAGAA GCTAGCAACC ATGCACAGGA TTGTGATGAC
    AGCATGGGCT ATCAATATCC ATTCACTCTC CGAGTTGTGC AGAAAGATGG AAACTCCTGT
    GCCTGGTGTC CGTGGTATAG ATTTTGCAGA GGCTGTAAAA TCGATTGTGG AGAAGACAGA
    GCTTTCATTG GAAATGCCTG TATTGCTGTG GATTGGGACC CTACAGCCCT TCACCTCCGC
    TATCAAACAT CACAGGAAAG AGTTGTAGAG GAGCATGAAA GTGTGGAGCA GAGTCGGCGA
    GCACAAGCTG AGCCCATCAA CCTGGACAGC TGCCTCCGTG CCTTCACCAG TGAGGAGGAA
    CTGGGGGAAA ATGAGATGTA CTACTGCTCA AAATGTAAAA CGCACTGTTT GGCAACCAAG
    AAGCTGGACC TCTGGAGGCT CCCTCCAGTC CTGATTATTC ACCTTAAACG ATTTCAGTTT
    GTAAATGGAC GGTGGATAAA ATCACAGAAA ATTGTTAAAT TTCCTCGTGA AAGTTTTGAC
    CCTAGTGCTT TTTTAGTACC AAGAGACCCA ACTCTTTGCC AGCATAAACC ACTCACACCC
    CAGGGGGATG ACTTCTCTGA GCTAAGGATC CCAGCAGGAG ATGTGAAGAA AGTGGATGTC
    CAGAGCTCGG CAGGGGAGGA AGATGTGCTC CTGAGCAAGA GCCCATCTTC ACTCAGTGCA
    AATGTCACCA GTAGCCCAAA AGGTTCACCT TCTTCATCAA GAAAAAGTGG AGCCAGCTGT
    CCCTCCAGCA AAAATAGCAG CCCTAACAGC AGCCCACGGA CCTTGGGGAG GAACAAAGGG
    AGGCTCCGGC TGCCTCAAAT TGGCAGCAAA AATAAATTGT CCAACAGTAA GGAGAATTTG
    GATGCCAGCA AAGAGAATGG GGCTGGGCAG ATCTGTGAGC TGGCTGACAC CTTGAACCGA
    GGACATGTAT TGGGAGGCAG CCAGCCTGAG CTGGTCACTC CTCTGGATCA TGAGATCACT
    TTGGCTAATG GATTTCTCTA TGAGCATGAG GCATGTGGCA ATGGCTATAG CAATGGTCAG
    CTTGGAAACC ATAGTGAAGA AGACAGCACT GATGACCAAA GAGAAGAAAC ACACAGTAAA
    CCTATTTATA ATCTATATGC AATTTCGTGC CATTCAGGAA TTCTGGGTGG GGGCCATTAC
    GTCACTTATG CCAAAAACCC AAACTGCAAG TGGTACTGTT ACAATGACAG CAGCTGTAAG
    GAGCTTCACC CTGATGAGAT AGACACCGAC TCTGCCTACA TTCTTTTCTA TGAGCAGCAG
    GGGATAGACT GTGCACAGTT TCTGCCAAAG ACAGACGGCA AGAAGATGGC AGACACGAGC
    AGCATGGACG AAGACTTTGA GTCTGACTAC AAGAAGTACT GTGTGCTACA GTAA

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

    CloneID OMv67415
    Clone ID Related Accession (Same CDS sequence) XM_029483332.1
    Accession Version XM_029483332.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4893bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product ubiquitin carboxyl-terminal hydrolase 32 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034580.1) 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 caroli 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGGGCGCCA AGGAGTCACG GATCGGATTC CTCAGCTACG AGGAGGCGCT GAGGAGAGTT 
    ACAGATGTTG AGCTGAAACG ACTCAAAGAT GCCTTCAAGA GGACCTGCGG CCTCTCCTAT
    TACATGAGTC AGCACTGCTT CATCAGGGAA GTGCTTGGGG ATGGAGTACC TCCTAAAGTT
    GCTGAGGTGA TTTACTGTTC TTTTGGTGGA ACATCCAAAG GGCTGCATTT CAATAACTTA
    ATAGTTGGAC TCGTCCTCCT TACAAGAGGC AAAGATGAAG AGAAAGCAAA ATATATTTTT
    AGTCTTTTTT CAAGTGAATC CGGGAGCTAT GTTGTACGGG AAGAAATGGA GAGAATGCTC
    CATGTGGTGG ATGGTAAAGT CCCAGATACA CTCAGGAAGT GTTTCTCAGA GGGTGAAAAG
    GTAAACTATG AAAAATTCAG AAATTGGCTT CTTCTAAACA AAGATGCTTT TACCTTCTCT
    CGCTGGCTGT TGTCTGGGGG TGTATATGTG ACCCTCACTG ATGACAGTGA CACTCCTACT
    TTCTACCAAA CTCTGGCTGG AGTCACACAT TTGGAAGAGT CAGACATCAT TGATCTGGAG
    AAACGGTATT GGCTACTGAA GGCCCAATCC CGAACTGGAC GTTTTGACTT AGAGACCTTT
    GGTCCATTGG TTTCACCACC TATTCGCCCT TCTCTGAGTG AAGGCTTATT TAACGCTTTT
    GATGAAAATC GTGACAATCA CATAGACTTC AAGGAGATAT CTTGTGGGTT ATCAGCCTGC
    TGCAGGGGCC CCCTGGCTGA AAGACAAAAA TTTTGCTTCA AGGTGTTTGA TGTTGACCGT
    GATGGAGTTC TCTCCAGGGT TGAACTGAAA GACATGGTAG TTGCACTTTT GGAGGTCTGG
    AAAGATAACC GCACTGATGA TATTCCTGAA TTGCATATGG ATTTGTCAGA CATTGTAGAA
    AGGATATTGA ATGCACATGA TACCACAAAG ATGGGCCATC TTACTCTCGA AGACTATCAG
    ATATGGAGTG TGAAAAATGT TCTTGCCAAT GAGTTTTTGA ATCTCCTCTT CCAGGTATGC
    CACATAGTTC TGGGGTTAAG ACCAGCTACT CCAGAAGAAG AAGGACAAAT TATTAGAGGA
    TGGTTGGAAC GAGAAAGCAG GTATGGTCTG CAGCCAGGAC ACAATTGGTT TATCATCTCC
    ATGCAGTGGT GGCAACAGTG GAAAGAATAT GTCAAATATG ATGCCAGCCC TGTTGTAATT
    GAGCCATCAT CTGTTCTAAA TGGAGGAAAA TTTTCATTTG GAACAGCAGC ACATCCTATA
    GAGCATGGAG AAGATAGAAT CAGTAATAAC CTTGGTTATA TGAATACCAC AGAAGAGAAA
    TACTCAGACA ACATTTCTTC TGCATCTGAA GCCTCAGAGT CTACTGGCAC TGGCTTTCTG
    TATTCTGGCA CACCAGGGGC AGAGATGTGC TTTGCAAGGC AGCATAACAC TTCTGACAAT
    AACAACCAGT GTTTACTAGG AGCCAATGGG AATATCCTTC TGCACCTTAG TCCTCAGAAG
    CCAGGAGCTA TTGATAACCA GCCACTAGTG ACTCAGGAAC CAGTAAAGGC TACATCATTA
    ACACTAGAAG GAGGACGATT AAAACGAACT CCACAGCTAA TCCATGGAAG AGATTATGAA
    ATGGTCCCAG AACCCGTGTG GAGAGCACTT TATCATTGGT ATGGATCAAA CCTGGCCCTT
    CCTAGACCAG TAATCAAGAA TAGCAAAACG GACATCCCAG AACTAGAATT ATTTCCTCGC
    TATCTTCTGT TCCTTCGACA GCAGCCTGCC ACACGGACAC AGCAGTCTAA CATCTGGGTG
    AATATGGGTA CGATGAGCCT GAGAATGTTT CCTCAGCATT TGCCTAGAGA TAACATGAGA
    GGCAAGATGC GTTGTTGCAT TTTTAGAAAT GTACCCTCTC CAAATGCGCC TCTAAAGCGG
    GTGTTAGCCT ATACAGGCTG TTTTAGTAGA ATGCAAACCA TCAAGGAAAT TCATGAATAT
    CTGTCTCAAA GGCTTCGCAT TAAAGAGGAA GATATGCGGC TGTGGCTGTA CAATAGTGAG
    AACTACCTGA CTCTTTTGGA TGATGAGGAT CACAGATTGG AATATTTGAA AATCCAGGAT
    GAACAGCACC TGGTAATTGA AGTTCGCAAC AAAGATATGA GTTGGCCTGA AGAAATGTCT
    TTTATAGCAA ACAGTAGCAA AATAGATAGA CATAAAGTTC CCACAGAAAA GGGCGCCACA
    GGTCTGAGTA ACCTGGGAAA CACGTGCTTC ATGAACTCAA GCATCCAGTG TGTTAGTAAT
    ACACAGCCAC TGACACAGTA CTTTATCTCA GGGAGACATC TTTATGAACT CAACAGGACA
    AATCCCATTG GTATGAAAGG CCATATGGCT AAATGTTATG GCGATTTGGT GCAAGAACTT
    TGGAGTGGAA CTCAGAAGAA TGTTGCCCCC TTAAAGCTCC GGTGGACCAT AGCAAAATAT
    GCTCCCAGGT TTAATGGATT CCAGCAACAA GACTCCCAAG AACTTCTGGC TTTCCTCTTG
    GATGGTCTTC ACGAAGATCT CAACCGAGTC CACGAGAAAC CATATGTAGA ACTAAAAGAC
    AGTGACGGCC GACCCGACTG GGAAGTAGCT GCAGAGGCCT GGGACAATCA TCTAAGGAGA
    AATAGATCAA TTGTTGTGGA CTTGTTCCAT GGTCAGCTAA GATCCCAAGT CAAATGCAAG
    ACATGTGGGC ATATAAGTGT CCGATTCGAC CCTTTTAATT TTTTGTCTTT ACCACTACCA
    ATGGACAGTT ATATGCATTT AGAAATAACA GTAATTAAAT TAGATGGTAC TACCCCCATA
    CGATATGGAC TAAGACTGAA TATGGATGAA AAGTATACAG GTTTGAAAAA GCAGCTGAGT
    GATCTCTGTG GACTTAAATC AGAACAAATC CTTTTTGCAG AAGTGCATAG TTCAAACATA
    AAGAACTTCC CTCAGGACAA CCAAAAAGTT CGACTCTCAG TGAGTGGATT TTTGTGTGCG
    TTTGAAATTC CTATTCCTGC ATCTCCAGTT TCAGCTTGCA GTCCAATTCA AACAGATTGT
    TCTTCTTCTC CATCTACAAA TGGACTGTTT ACCTTGACTA CCAATGGGGA TCTGCCTCGA
    CCTATATTCA TCCCCAATGG GATGCCAAAT ACAGTTGTAC CATGTGGAAC TGAGAAGAAT
    GTCACAAATG GAATAGTGAA TGGTCATATG CCACCTCTTC CTGATGACCC CTTTACAGGC
    TACATCATTG CAGTCCACCG AAAAATGATG AGGACAGAAC TGTATTTCCT GTCATCTCAG
    AAGAATCGCC CCAGTCTCTT TGGGATGCCA CTAATTGTTC CATGTACTGT ACACACCCGG
    AAAAAAGATC TCTATGATGC AGTTTGGATT CAAGTATCTC GATTAGCCAG TCCACTCCCA
    CCTCAAGAAG CTAGCAACCA TGCACAGGAT TGTGATGACA GCATGGGCTA TCAATATCCA
    TTCACTCTCC GAGTTGTGCA GAAAGATGGA AACTCCTGTG CCTGGTGTCC GTGGTATAGA
    TTTTGCAGAG GCTGTAAAAT CGATTGTGGA GAAGACAGAG CTTTCATTGG AAATGCCTGT
    ATTGCTGTGG ATTGGGACCC TACAGCCCTT CACCTCCGCT ATCAAACATC ACAGGAAAGA
    GTTGTAGAGG AGCATGAAAG TGTGGAGCAG AGTCGGCGAG CACAAGCTGA GCCCATCAAC
    CTGGACAGCT GCCTCCGTGC CTTCACCAGT GAGGAGGAAC TGGGGGAAAA TGAGATGTAC
    TACTGCTCAA AATGTAAAAC GCACTGTTTG GCAACCAAGA AGCTGGACCT CTGGAGGCTC
    CCTCCAGTCC TGATTATTCA CCTTAAACGA TTTCAGTTTG TAAATGGACG GTGGATAAAA
    TCACAGAAAA TTGTTAAATT TCCTCGTGAA AGTTTTGACC CTAGTGCTTT TTTAGTACCA
    AGAGACCCAA CTCTTTGCCA GCATAAACCA CTCACACCCC AGGGGGATGA CTTCTCTGAG
    CTAAGGATCC CAGCAGGAGA TGTGAAGAAA GTGGATGTCC AGAGCTCGGC AGGGGAGGAA
    GATGTGCTCC TGAGCAAGAG CCCATCTTCA CTCAGTGCAA ATGTCACCAG TAGCCCAAAA
    GGTTCACCTT CTTCATCAAG AAAAAGTGGA GCCAGCTGTC CCTCCAGCAA AAATAGCAGC
    CCTAACAGCA GCCCACGGAC CTTGGGGAGG AACAAAGGGA GGCTCCGGCT GCCTCAAATT
    GGCAGCAAAA ATAAATTGTC CAACAGTAAG GAGAATTTGG ATGCCAGCAA AGAGAATGGG
    GCTGGGCAGA TCTGTGAGCT GGCTGACACC TTGAACCGAG GACATGTATT GGGAGGCAGC
    CAGCCTGAGC TGGTCACTCC TCTGGATCAT GAGATCACTT TGGCTAATGG ATTTCTCTAT
    GAGCATGAGG CATGTGGCAA TGGCTATAGC AATGGTCAGC TTGGAAACCA TAGTGAAGAA
    GACAGCACTG ATGACCAAAG AGAAGAAACA CACAGTAAAC CTATTTATAA TCTATATGCA
    ATTTCGTGCC ATTCAGGAAT TCTGGGTGGG GGCCATTACG TCACTTATGC CAAAAACCCA
    AACTGCAAGT GGTACTGTTA CAATGACAGC AGCTGTAAGG AGCTTCACCC TGATGAGATA
    GACACCGACT CTGCCTACAT TCTTTTCTAT GAGCAGCAGG GGATAGACTG TGCACAGTTT
    CTGCCAAAGA CAGACGGCAA GAAGATGGCA GACACGAGCA GCATGGACGA AGACTTTGAG
    TCTGACTACA AGAAGTACTG TGTGCTACAG TAA

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

    RefSeq XP_029339192.1
    CDS153..5045
    Translation

    Target ORF information:

    RefSeq Version XM_029483332.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli ubiquitin specific peptidase 32 (Usp32), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029483332.1

    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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGGGCGCCA AGGAGTCACG GATCGGATTC CTCAGCTACG AGGAGGCGCT GAGGAGAGTT 
    ACAGATGTTG AGCTGAAACG ACTCAAAGAT GCCTTCAAGA GGACCTGCGG CCTCTCCTAT
    TACATGAGTC AGCACTGCTT CATCAGGGAA GTGCTTGGGG ATGGAGTACC TCCTAAAGTT
    GCTGAGGTGA TTTACTGTTC TTTTGGTGGA ACATCCAAAG GGCTGCATTT CAATAACTTA
    ATAGTTGGAC TCGTCCTCCT TACAAGAGGC AAAGATGAAG AGAAAGCAAA ATATATTTTT
    AGTCTTTTTT CAAGTGAATC CGGGAGCTAT GTTGTACGGG AAGAAATGGA GAGAATGCTC
    CATGTGGTGG ATGGTAAAGT CCCAGATACA CTCAGGAAGT GTTTCTCAGA GGGTGAAAAG
    GTAAACTATG AAAAATTCAG AAATTGGCTT CTTCTAAACA AAGATGCTTT TACCTTCTCT
    CGCTGGCTGT TGTCTGGGGG TGTATATGTG ACCCTCACTG ATGACAGTGA CACTCCTACT
    TTCTACCAAA CTCTGGCTGG AGTCACACAT TTGGAAGAGT CAGACATCAT TGATCTGGAG
    AAACGGTATT GGCTACTGAA GGCCCAATCC CGAACTGGAC GTTTTGACTT AGAGACCTTT
    GGTCCATTGG TTTCACCACC TATTCGCCCT TCTCTGAGTG AAGGCTTATT TAACGCTTTT
    GATGAAAATC GTGACAATCA CATAGACTTC AAGGAGATAT CTTGTGGGTT ATCAGCCTGC
    TGCAGGGGCC CCCTGGCTGA AAGACAAAAA TTTTGCTTCA AGGTGTTTGA TGTTGACCGT
    GATGGAGTTC TCTCCAGGGT TGAACTGAAA GACATGGTAG TTGCACTTTT GGAGGTCTGG
    AAAGATAACC GCACTGATGA TATTCCTGAA TTGCATATGG ATTTGTCAGA CATTGTAGAA
    AGGATATTGA ATGCACATGA TACCACAAAG ATGGGCCATC TTACTCTCGA AGACTATCAG
    ATATGGAGTG TGAAAAATGT TCTTGCCAAT GAGTTTTTGA ATCTCCTCTT CCAGGTATGC
    CACATAGTTC TGGGGTTAAG ACCAGCTACT CCAGAAGAAG AAGGACAAAT TATTAGAGGA
    TGGTTGGAAC GAGAAAGCAG GTATGGTCTG CAGCCAGGAC ACAATTGGTT TATCATCTCC
    ATGCAGTGGT GGCAACAGTG GAAAGAATAT GTCAAATATG ATGCCAGCCC TGTTGTAATT
    GAGCCATCAT CTGTTCTAAA TGGAGGAAAA TTTTCATTTG GAACAGCAGC ACATCCTATA
    GAGCATGGAG AAGATAGAAT CAGTAATAAC CTTGGTTATA TGAATACCAC AGAAGAGAAA
    TACTCAGACA ACATTTCTTC TGCATCTGAA GCCTCAGAGT CTACTGGCAC TGGCTTTCTG
    TATTCTGGCA CACCAGGGGC AGAGATGTGC TTTGCAAGGC AGCATAACAC TTCTGACAAT
    AACAACCAGT GTTTACTAGG AGCCAATGGG AATATCCTTC TGCACCTTAG TCCTCAGAAG
    CCAGGAGCTA TTGATAACCA GCCACTAGTG ACTCAGGAAC CAGTAAAGGC TACATCATTA
    ACACTAGAAG GAGGACGATT AAAACGAACT CCACAGCTAA TCCATGGAAG AGATTATGAA
    ATGGTCCCAG AACCCGTGTG GAGAGCACTT TATCATTGGT ATGGATCAAA CCTGGCCCTT
    CCTAGACCAG TAATCAAGAA TAGCAAAACG GACATCCCAG AACTAGAATT ATTTCCTCGC
    TATCTTCTGT TCCTTCGACA GCAGCCTGCC ACACGGACAC AGCAGTCTAA CATCTGGGTG
    AATATGGGTA CGATGAGCCT GAGAATGTTT CCTCAGCATT TGCCTAGAGA TAACATGAGA
    GGCAAGATGC GTTGTTGCAT TTTTAGAAAT GTACCCTCTC CAAATGCGCC TCTAAAGCGG
    GTGTTAGCCT ATACAGGCTG TTTTAGTAGA ATGCAAACCA TCAAGGAAAT TCATGAATAT
    CTGTCTCAAA GGCTTCGCAT TAAAGAGGAA GATATGCGGC TGTGGCTGTA CAATAGTGAG
    AACTACCTGA CTCTTTTGGA TGATGAGGAT CACAGATTGG AATATTTGAA AATCCAGGAT
    GAACAGCACC TGGTAATTGA AGTTCGCAAC AAAGATATGA GTTGGCCTGA AGAAATGTCT
    TTTATAGCAA ACAGTAGCAA AATAGATAGA CATAAAGTTC CCACAGAAAA GGGCGCCACA
    GGTCTGAGTA ACCTGGGAAA CACGTGCTTC ATGAACTCAA GCATCCAGTG TGTTAGTAAT
    ACACAGCCAC TGACACAGTA CTTTATCTCA GGGAGACATC TTTATGAACT CAACAGGACA
    AATCCCATTG GTATGAAAGG CCATATGGCT AAATGTTATG GCGATTTGGT GCAAGAACTT
    TGGAGTGGAA CTCAGAAGAA TGTTGCCCCC TTAAAGCTCC GGTGGACCAT AGCAAAATAT
    GCTCCCAGGT TTAATGGATT CCAGCAACAA GACTCCCAAG AACTTCTGGC TTTCCTCTTG
    GATGGTCTTC ACGAAGATCT CAACCGAGTC CACGAGAAAC CATATGTAGA ACTAAAAGAC
    AGTGACGGCC GACCCGACTG GGAAGTAGCT GCAGAGGCCT GGGACAATCA TCTAAGGAGA
    AATAGATCAA TTGTTGTGGA CTTGTTCCAT GGTCAGCTAA GATCCCAAGT CAAATGCAAG
    ACATGTGGGC ATATAAGTGT CCGATTCGAC CCTTTTAATT TTTTGTCTTT ACCACTACCA
    ATGGACAGTT ATATGCATTT AGAAATAACA GTAATTAAAT TAGATGGTAC TACCCCCATA
    CGATATGGAC TAAGACTGAA TATGGATGAA AAGTATACAG GTTTGAAAAA GCAGCTGAGT
    GATCTCTGTG GACTTAAATC AGAACAAATC CTTTTTGCAG AAGTGCATAG TTCAAACATA
    AAGAACTTCC CTCAGGACAA CCAAAAAGTT CGACTCTCAG TGAGTGGATT TTTGTGTGCG
    TTTGAAATTC CTATTCCTGC ATCTCCAGTT TCAGCTTGCA GTCCAATTCA AACAGATTGT
    TCTTCTTCTC CATCTACAAA TGGACTGTTT ACCTTGACTA CCAATGGGGA TCTGCCTCGA
    CCTATATTCA TCCCCAATGG GATGCCAAAT ACAGTTGTAC CATGTGGAAC TGAGAAGAAT
    GTCACAAATG GAATAGTGAA TGGTCATATG CCACCTCTTC CTGATGACCC CTTTACAGGC
    TACATCATTG CAGTCCACCG AAAAATGATG AGGACAGAAC TGTATTTCCT GTCATCTCAG
    AAGAATCGCC CCAGTCTCTT TGGGATGCCA CTAATTGTTC CATGTACTGT ACACACCCGG
    AAAAAAGATC TCTATGATGC AGTTTGGATT CAAGTATCTC GATTAGCCAG TCCACTCCCA
    CCTCAAGAAG CTAGCAACCA TGCACAGGAT TGTGATGACA GCATGGGCTA TCAATATCCA
    TTCACTCTCC GAGTTGTGCA GAAAGATGGA AACTCCTGTG CCTGGTGTCC GTGGTATAGA
    TTTTGCAGAG GCTGTAAAAT CGATTGTGGA GAAGACAGAG CTTTCATTGG AAATGCCTGT
    ATTGCTGTGG ATTGGGACCC TACAGCCCTT CACCTCCGCT ATCAAACATC ACAGGAAAGA
    GTTGTAGAGG AGCATGAAAG TGTGGAGCAG AGTCGGCGAG CACAAGCTGA GCCCATCAAC
    CTGGACAGCT GCCTCCGTGC CTTCACCAGT GAGGAGGAAC TGGGGGAAAA TGAGATGTAC
    TACTGCTCAA AATGTAAAAC GCACTGTTTG GCAACCAAGA AGCTGGACCT CTGGAGGCTC
    CCTCCAGTCC TGATTATTCA CCTTAAACGA TTTCAGTTTG TAAATGGACG GTGGATAAAA
    TCACAGAAAA TTGTTAAATT TCCTCGTGAA AGTTTTGACC CTAGTGCTTT TTTAGTACCA
    AGAGACCCAA CTCTTTGCCA GCATAAACCA CTCACACCCC AGGGGGATGA CTTCTCTGAG
    CTAAGGATCC CAGCAGGAGA TGTGAAGAAA GTGGATGTCC AGAGCTCGGC AGGGGAGGAA
    GATGTGCTCC TGAGCAAGAG CCCATCTTCA CTCAGTGCAA ATGTCACCAG TAGCCCAAAA
    GGTTCACCTT CTTCATCAAG AAAAAGTGGA GCCAGCTGTC CCTCCAGCAA AAATAGCAGC
    CCTAACAGCA GCCCACGGAC CTTGGGGAGG AACAAAGGGA GGCTCCGGCT GCCTCAAATT
    GGCAGCAAAA ATAAATTGTC CAACAGTAAG GAGAATTTGG ATGCCAGCAA AGAGAATGGG
    GCTGGGCAGA TCTGTGAGCT GGCTGACACC TTGAACCGAG GACATGTATT GGGAGGCAGC
    CAGCCTGAGC TGGTCACTCC TCTGGATCAT GAGATCACTT TGGCTAATGG ATTTCTCTAT
    GAGCATGAGG CATGTGGCAA TGGCTATAGC AATGGTCAGC TTGGAAACCA TAGTGAAGAA
    GACAGCACTG ATGACCAAAG AGAAGAAACA CACAGTAAAC CTATTTATAA TCTATATGCA
    ATTTCGTGCC ATTCAGGAAT TCTGGGTGGG GGCCATTACG TCACTTATGC CAAAAACCCA
    AACTGCAAGT GGTACTGTTA CAATGACAGC AGCTGTAAGG AGCTTCACCC TGATGAGATA
    GACACCGACT CTGCCTACAT TCTTTTCTAT GAGCAGCAGG GGATAGACTG TGCACAGTTT
    CTGCCAAAGA CAGACGGCAA GAAGATGGCA GACACGAGCA GCATGGACGA AGACTTTGAG
    TCTGACTACA AGAAGTACTG TGTGCTACAG TAA

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

    CloneID OMv67416
    Clone ID Related Accession (Same CDS sequence) XM_029483333.1
    Accession Version XM_029483333.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4869bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product ubiquitin carboxyl-terminal hydrolase 32 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034580.1) 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 caroli 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGGGCGCCA AGGAGTCACG GATCGGATTC CTCAGCTACG AGGAGGCGCT GAGGAGAGTT 
    ACAGATGTTG AGCTGAAACG ACTCAAAGAT GCCTTCAAGA GGACCTGCGG CCTCTCCTAT
    TACATGAGTC AGCACTGCTT CATCAGGGAA GTGCTTGGGG ATGGAGTACC TCCTAAAGTT
    GCTGAGGTGA TTTACTGTTC TTTTGGTGGA ACATCCAAAG GGCTGCATTT CAATAACTTA
    ATAGTTGGAC TCGTCCTCCT TACAAGAGGC AAAGATGAAG AGAAAGCAAA ATATATTTTT
    AGTCTTTTTT CAAGTGAATC CGGGAGCTAT GTTGTACGGG AAGAAATGGA GAGAATGCTC
    CATGTGGTGG ATGGTAAAGT CCCAGATACA CTCAGGAAGT GTTTCTCAGA GGGTGAAAAG
    GTAAACTATG AAAAATTCAG AAATTGGCTT CTTCTAAACA AAGATGCTTT TACCTTCTCT
    CGCTGGCTGT TGTCTGGGGG TGTATATGTG ACCCTCACTG ATGACAGTGA CACTCCTACT
    TTCTACCAAA CTCTGGCTGG AGTCACACAT TTGGAAGAGT CAGACATCAT TGATCTGGAG
    AAACGGTATT GGCTACTGAA GGCCCAATCC CGAACTGGAC GTTTTGACTT AGAGACCTTT
    GGTCCATTGG TTTCACCACC TATTCGCCCT TCTCTGAGTG AAGGCTTATT TAACGCTTTT
    GATGAAAATC GTGACAATCA CATAGACTTC AAGGAGATAT CTTGTGGGTT ATCAGCCTGC
    TGCAGGGGCC CCCTGGCTGA AAGACAAAAA TTTTGCTTCA AGGTGTTTGA TGTTGACCGT
    GATGGAGTTC TCTCCAGGGT TGAACTGAAA GACATGGTAG TTGCACTTTT GGAGGTCTGG
    AAAGATAACC GCACTGATGA TATTCCTGAA TTGCATATGG ATTTGTCAGA CATTGTAGAA
    AGGATATTGA ATGCACATGA TACCACAAAG ATGGGCCATC TTACTCTCGA AGACTATCAG
    ATATGGAGTG TGAAAAATGT TCTTGCCAAT GAGTTTTTGA ATCTCCTCTT CCAGGTATGC
    CACATAGTTC TGGGGTTAAG ACCAGCTACT CCAGAAGAAG AAGGACAAAT TATTAGAGGA
    TGGTTGGAAC GAGAAAGCAG GTATGGTCTG CAGCCAGGAC ACAATTGGTT TATCATCTCC
    ATGCAGTGGT GGCAACAGTG GAAAGAATAT GTCAAATATG ATGCCAGCCC TGTTGTAATT
    GAGCCATCAT CTGTTCTAAA TGGAGGAAAA TTTTCATTTG GAACAGCAGC ACATCCTATA
    GAGCATGGAG AAGATAGAAT CAGTAATAAC CTTGGTTATA TGAATACCAC AGAAGAGAAA
    TACTCAGACA ACATTTCTTC TGCATCTGAA GCCTCAGAGT CTACTGGCAC TGGGGCAGAG
    ATGTGCTTTG CAAGGCAGCA TAACACTTCT GACAATAACA ACCAGTGTTT ACTAGGAGCC
    AATGGGAATA TCCTTCTGCA CCTTAGTCCT CAGAAGCCAG GAGCTATTGA TAACCAGCCA
    CTAGTGACTC AGGAACCAGT AAAGGCTACA TCATTAACAC TAGAAGGAGG ACGATTAAAA
    CGAACTCCAC AGCTAATCCA TGGAAGAGAT TATGAAATGG TCCCAGAACC CGTGTGGAGA
    GCACTTTATC ATTGGTATGG ATCAAACCTG GCCCTTCCTA GACCAGTAAT CAAGAATAGC
    AAAACGGACA TCCCAGAACT AGAATTATTT CCTCGCTATC TTCTGTTCCT TCGACAGCAG
    CCTGCCACAC GGACACAGCA GTCTAACATC TGGGTGAATA TGGGTACGAT GAGCCTGAGA
    ATGTTTCCTC AGCATTTGCC TAGAGATAAC ATGAGAGGCA AGATGCGTTG TTGCATTTTT
    AGAAATGTAC CCTCTCCAAA TGCGCCTCTA AAGCGGGTGT TAGCCTATAC AGGCTGTTTT
    AGTAGAATGC AAACCATCAA GGAAATTCAT GAATATCTGT CTCAAAGGCT TCGCATTAAA
    GAGGAAGATA TGCGGCTGTG GCTGTACAAT AGTGAGAACT ACCTGACTCT TTTGGATGAT
    GAGGATCACA GATTGGAATA TTTGAAAATC CAGGATGAAC AGCACCTGGT AATTGAAGTT
    CGCAACAAAG ATATGAGTTG GCCTGAAGAA ATGTCTTTTA TAGCAAACAG TAGCAAAATA
    GATAGACATA AAGTTCCCAC AGAAAAGGGC GCCACAGGTC TGAGTAACCT GGGAAACACG
    TGCTTCATGA ACTCAAGCAT CCAGTGTGTT AGTAATACAC AGCCACTGAC ACAGTACTTT
    ATCTCAGGGA GACATCTTTA TGAACTCAAC AGGACAAATC CCATTGGTAT GAAAGGCCAT
    ATGGCTAAAT GTTATGGCGA TTTGGTGCAA GAACTTTGGA GTGGAACTCA GAAGAATGTT
    GCCCCCTTAA AGCTCCGGTG GACCATAGCA AAATATGCTC CCAGGTTTAA TGGATTCCAG
    CAACAAGACT CCCAAGAACT TCTGGCTTTC CTCTTGGATG GTCTTCACGA AGATCTCAAC
    CGAGTCCACG AGAAACCATA TGTAGAACTA AAAGACAGTG ACGGCCGACC CGACTGGGAA
    GTAGCTGCAG AGGCCTGGGA CAATCATCTA AGGAGAAATA GATCAATTGT TGTGGACTTG
    TTCCATGGTC AGCTAAGATC CCAAGTCAAA TGCAAGACAT GTGGGCATAT AAGTGTCCGA
    TTCGACCCTT TTAATTTTTT GTCTTTACCA CTACCAATGG ACAGTTATAT GCATTTAGAA
    ATAACAGTAA TTAAATTAGA TGGTACTACC CCCATACGAT ATGGACTAAG ACTGAATATG
    GATGAAAAGT ATACAGGTTT GAAAAAGCAG CTGAGTGATC TCTGTGGACT TAAATCAGAA
    CAAATCCTTT TTGCAGAAGT GCATAGTTCA AACATAAAGA ACTTCCCTCA GGACAACCAA
    AAAGTTCGAC TCTCAGTGAG TGGATTTTTG TGTGCGTTTG AAATTCCTAT TCCTGCATCT
    CCAGTTTCAG CTTGCAGTCC AATTCAAACA GATTGTTCTT CTTCTCCATC TACAAATGGA
    CTGTTTACCT TGACTACCAA TGGGGATCTG CCTCGACCTA TATTCATCCC CAATGGGATG
    CCAAATACAG TTGTACCATG TGGAACTGAG AAGAATGTCA CAAATGGAAT AGTGAATGGT
    CATATGCCAC CTCTTCCTGA TGACCCCTTT ACAGGCTACA TCATTGCAGT CCACCGAAAA
    ATGATGAGGA CAGAACTGTA TTTCCTGTCA TCTCAGAAGA ATCGCCCCAG TCTCTTTGGG
    ATGCCACTAA TTGTTCCATG TACTGTACAC ACCCGGAAAA AAGATCTCTA TGATGCAGTT
    TGGATTCAAG TATCTCGATT AGCCAGTCCA CTCCCACCTC AAGAAGCTAG CAACCATGCA
    CAGGATTGTG ATGACAGCAT GGGCTATCAA TATCCATTCA CTCTCCGAGT TGTGCAGAAA
    GATGGAAACT CCTGTGCCTG GTGTCCGTGG TATAGATTTT GCAGAGGCTG TAAAATCGAT
    TGTGGAGAAG ACAGAGCTTT CATTGGAAAT GCCTGTATTG CTGTGGATTG GGACCCTACA
    GCCCTTCACC TCCGCTATCA AACATCACAG GAAAGAGTTG TAGAGGAGCA TGAAAGTGTG
    GAGCAGAGTC GGCGAGCACA AGCTGAGCCC ATCAACCTGG ACAGCTGCCT CCGTGCCTTC
    ACCAGTGAGG AGGAACTGGG GGAAAATGAG ATGTACTACT GCTCAAAATG TAAAACGCAC
    TGTTTGGCAA CCAAGAAGCT GGACCTCTGG AGGCTCCCTC CAGTCCTGAT TATTCACCTT
    AAACGATTTC AGTTTGTAAA TGGACGGTGG ATAAAATCAC AGAAAATTGT TAAATTTCCT
    CGTGAAAGTT TTGACCCTAG TGCTTTTTTA GTACCAAGAG ACCCAACTCT TTGCCAGCAT
    AAACCACTCA CACCCCAGGG GGATGACTTC TCTGAGCTAA GGATCCCAGC AGGAGATGTG
    AAGAAAGTGG ATGTCCAGAG CTCGGCAGGG GAGGAAGATG TGCTCCTGAG CAAGAGCCCA
    TCTTCACTCA GTGCAAATGT CACCAGTAGC CCAAAAGGTT CACCTTCTTC ATCAAGAAAA
    AGTGGAGCCA GCTGTCCCTC CAGCAAAAAT AGCAGCCCTA ACAGCAGCCC ACGGACCTTG
    GGGAGGAACA AAGGGAGGCT CCGGCTGCCT CAAATTGGCA GCAAAAATAA ATTGTCCAAC
    AGTAAGGAGA ATTTGGATGC CAGCAAAGAG AATGGGGCTG GGCAGATCTG TGAGCTGGCT
    GACACCTTGA ACCGAGGACA TGTATTGGGA GGCAGCCAGC CTGAGCTGGT CACTCCTCTG
    GATCATGAGA TCACTTTGGC TAATGGATTT CTCTATGAGC ATGAGGCATG TGGCAATGGC
    TATAGCAATG GTCAGCTTGG AAACCATAGT GAAGAAGACA GCACTGATGA CCAAAGAGAA
    GAAACACACA GTAAACCTAT TTATAATCTA TATGCAATTT CGTGCCATTC AGGAATTCTG
    GGTGGGGGCC ATTACGTCAC TTATGCCAAA AACCCAAACT GCAAGTGGTA CTGTTACAAT
    GACAGCAGCT GTAAGGAGCT TCACCCTGAT GAGATAGACA CCGACTCTGC CTACATTCTT
    TTCTATGAGC AGCAGGGGAT AGACTGTGCA CAGTTTCTGC CAAAGACAGA CGGCAAGAAG
    ATGGCAGACA CGAGCAGCAT GGACGAAGAC TTTGAGTCTG ACTACAAGAA GTACTGTGTG
    CTACAGTAA

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

    RefSeq XP_029339193.1
    CDS154..5022
    Translation

    Target ORF information:

    RefSeq Version XM_029483333.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli ubiquitin specific peptidase 32 (Usp32), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029483333.1

    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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGGGCGCCA AGGAGTCACG GATCGGATTC CTCAGCTACG AGGAGGCGCT GAGGAGAGTT 
    ACAGATGTTG AGCTGAAACG ACTCAAAGAT GCCTTCAAGA GGACCTGCGG CCTCTCCTAT
    TACATGAGTC AGCACTGCTT CATCAGGGAA GTGCTTGGGG ATGGAGTACC TCCTAAAGTT
    GCTGAGGTGA TTTACTGTTC TTTTGGTGGA ACATCCAAAG GGCTGCATTT CAATAACTTA
    ATAGTTGGAC TCGTCCTCCT TACAAGAGGC AAAGATGAAG AGAAAGCAAA ATATATTTTT
    AGTCTTTTTT CAAGTGAATC CGGGAGCTAT GTTGTACGGG AAGAAATGGA GAGAATGCTC
    CATGTGGTGG ATGGTAAAGT CCCAGATACA CTCAGGAAGT GTTTCTCAGA GGGTGAAAAG
    GTAAACTATG AAAAATTCAG AAATTGGCTT CTTCTAAACA AAGATGCTTT TACCTTCTCT
    CGCTGGCTGT TGTCTGGGGG TGTATATGTG ACCCTCACTG ATGACAGTGA CACTCCTACT
    TTCTACCAAA CTCTGGCTGG AGTCACACAT TTGGAAGAGT CAGACATCAT TGATCTGGAG
    AAACGGTATT GGCTACTGAA GGCCCAATCC CGAACTGGAC GTTTTGACTT AGAGACCTTT
    GGTCCATTGG TTTCACCACC TATTCGCCCT TCTCTGAGTG AAGGCTTATT TAACGCTTTT
    GATGAAAATC GTGACAATCA CATAGACTTC AAGGAGATAT CTTGTGGGTT ATCAGCCTGC
    TGCAGGGGCC CCCTGGCTGA AAGACAAAAA TTTTGCTTCA AGGTGTTTGA TGTTGACCGT
    GATGGAGTTC TCTCCAGGGT TGAACTGAAA GACATGGTAG TTGCACTTTT GGAGGTCTGG
    AAAGATAACC GCACTGATGA TATTCCTGAA TTGCATATGG ATTTGTCAGA CATTGTAGAA
    AGGATATTGA ATGCACATGA TACCACAAAG ATGGGCCATC TTACTCTCGA AGACTATCAG
    ATATGGAGTG TGAAAAATGT TCTTGCCAAT GAGTTTTTGA ATCTCCTCTT CCAGGTATGC
    CACATAGTTC TGGGGTTAAG ACCAGCTACT CCAGAAGAAG AAGGACAAAT TATTAGAGGA
    TGGTTGGAAC GAGAAAGCAG GTATGGTCTG CAGCCAGGAC ACAATTGGTT TATCATCTCC
    ATGCAGTGGT GGCAACAGTG GAAAGAATAT GTCAAATATG ATGCCAGCCC TGTTGTAATT
    GAGCCATCAT CTGTTCTAAA TGGAGGAAAA TTTTCATTTG GAACAGCAGC ACATCCTATA
    GAGCATGGAG AAGATAGAAT CAGTAATAAC CTTGGTTATA TGAATACCAC AGAAGAGAAA
    TACTCAGACA ACATTTCTTC TGCATCTGAA GCCTCAGAGT CTACTGGCAC TGGGGCAGAG
    ATGTGCTTTG CAAGGCAGCA TAACACTTCT GACAATAACA ACCAGTGTTT ACTAGGAGCC
    AATGGGAATA TCCTTCTGCA CCTTAGTCCT CAGAAGCCAG GAGCTATTGA TAACCAGCCA
    CTAGTGACTC AGGAACCAGT AAAGGCTACA TCATTAACAC TAGAAGGAGG ACGATTAAAA
    CGAACTCCAC AGCTAATCCA TGGAAGAGAT TATGAAATGG TCCCAGAACC CGTGTGGAGA
    GCACTTTATC ATTGGTATGG ATCAAACCTG GCCCTTCCTA GACCAGTAAT CAAGAATAGC
    AAAACGGACA TCCCAGAACT AGAATTATTT CCTCGCTATC TTCTGTTCCT TCGACAGCAG
    CCTGCCACAC GGACACAGCA GTCTAACATC TGGGTGAATA TGGGTACGAT GAGCCTGAGA
    ATGTTTCCTC AGCATTTGCC TAGAGATAAC ATGAGAGGCA AGATGCGTTG TTGCATTTTT
    AGAAATGTAC CCTCTCCAAA TGCGCCTCTA AAGCGGGTGT TAGCCTATAC AGGCTGTTTT
    AGTAGAATGC AAACCATCAA GGAAATTCAT GAATATCTGT CTCAAAGGCT TCGCATTAAA
    GAGGAAGATA TGCGGCTGTG GCTGTACAAT AGTGAGAACT ACCTGACTCT TTTGGATGAT
    GAGGATCACA GATTGGAATA TTTGAAAATC CAGGATGAAC AGCACCTGGT AATTGAAGTT
    CGCAACAAAG ATATGAGTTG GCCTGAAGAA ATGTCTTTTA TAGCAAACAG TAGCAAAATA
    GATAGACATA AAGTTCCCAC AGAAAAGGGC GCCACAGGTC TGAGTAACCT GGGAAACACG
    TGCTTCATGA ACTCAAGCAT CCAGTGTGTT AGTAATACAC AGCCACTGAC ACAGTACTTT
    ATCTCAGGGA GACATCTTTA TGAACTCAAC AGGACAAATC CCATTGGTAT GAAAGGCCAT
    ATGGCTAAAT GTTATGGCGA TTTGGTGCAA GAACTTTGGA GTGGAACTCA GAAGAATGTT
    GCCCCCTTAA AGCTCCGGTG GACCATAGCA AAATATGCTC CCAGGTTTAA TGGATTCCAG
    CAACAAGACT CCCAAGAACT TCTGGCTTTC CTCTTGGATG GTCTTCACGA AGATCTCAAC
    CGAGTCCACG AGAAACCATA TGTAGAACTA AAAGACAGTG ACGGCCGACC CGACTGGGAA
    GTAGCTGCAG AGGCCTGGGA CAATCATCTA AGGAGAAATA GATCAATTGT TGTGGACTTG
    TTCCATGGTC AGCTAAGATC CCAAGTCAAA TGCAAGACAT GTGGGCATAT AAGTGTCCGA
    TTCGACCCTT TTAATTTTTT GTCTTTACCA CTACCAATGG ACAGTTATAT GCATTTAGAA
    ATAACAGTAA TTAAATTAGA TGGTACTACC CCCATACGAT ATGGACTAAG ACTGAATATG
    GATGAAAAGT ATACAGGTTT GAAAAAGCAG CTGAGTGATC TCTGTGGACT TAAATCAGAA
    CAAATCCTTT TTGCAGAAGT GCATAGTTCA AACATAAAGA ACTTCCCTCA GGACAACCAA
    AAAGTTCGAC TCTCAGTGAG TGGATTTTTG TGTGCGTTTG AAATTCCTAT TCCTGCATCT
    CCAGTTTCAG CTTGCAGTCC AATTCAAACA GATTGTTCTT CTTCTCCATC TACAAATGGA
    CTGTTTACCT TGACTACCAA TGGGGATCTG CCTCGACCTA TATTCATCCC CAATGGGATG
    CCAAATACAG TTGTACCATG TGGAACTGAG AAGAATGTCA CAAATGGAAT AGTGAATGGT
    CATATGCCAC CTCTTCCTGA TGACCCCTTT ACAGGCTACA TCATTGCAGT CCACCGAAAA
    ATGATGAGGA CAGAACTGTA TTTCCTGTCA TCTCAGAAGA ATCGCCCCAG TCTCTTTGGG
    ATGCCACTAA TTGTTCCATG TACTGTACAC ACCCGGAAAA AAGATCTCTA TGATGCAGTT
    TGGATTCAAG TATCTCGATT AGCCAGTCCA CTCCCACCTC AAGAAGCTAG CAACCATGCA
    CAGGATTGTG ATGACAGCAT GGGCTATCAA TATCCATTCA CTCTCCGAGT TGTGCAGAAA
    GATGGAAACT CCTGTGCCTG GTGTCCGTGG TATAGATTTT GCAGAGGCTG TAAAATCGAT
    TGTGGAGAAG ACAGAGCTTT CATTGGAAAT GCCTGTATTG CTGTGGATTG GGACCCTACA
    GCCCTTCACC TCCGCTATCA AACATCACAG GAAAGAGTTG TAGAGGAGCA TGAAAGTGTG
    GAGCAGAGTC GGCGAGCACA AGCTGAGCCC ATCAACCTGG ACAGCTGCCT CCGTGCCTTC
    ACCAGTGAGG AGGAACTGGG GGAAAATGAG ATGTACTACT GCTCAAAATG TAAAACGCAC
    TGTTTGGCAA CCAAGAAGCT GGACCTCTGG AGGCTCCCTC CAGTCCTGAT TATTCACCTT
    AAACGATTTC AGTTTGTAAA TGGACGGTGG ATAAAATCAC AGAAAATTGT TAAATTTCCT
    CGTGAAAGTT TTGACCCTAG TGCTTTTTTA GTACCAAGAG ACCCAACTCT TTGCCAGCAT
    AAACCACTCA CACCCCAGGG GGATGACTTC TCTGAGCTAA GGATCCCAGC AGGAGATGTG
    AAGAAAGTGG ATGTCCAGAG CTCGGCAGGG GAGGAAGATG TGCTCCTGAG CAAGAGCCCA
    TCTTCACTCA GTGCAAATGT CACCAGTAGC CCAAAAGGTT CACCTTCTTC ATCAAGAAAA
    AGTGGAGCCA GCTGTCCCTC CAGCAAAAAT AGCAGCCCTA ACAGCAGCCC ACGGACCTTG
    GGGAGGAACA AAGGGAGGCT CCGGCTGCCT CAAATTGGCA GCAAAAATAA ATTGTCCAAC
    AGTAAGGAGA ATTTGGATGC CAGCAAAGAG AATGGGGCTG GGCAGATCTG TGAGCTGGCT
    GACACCTTGA ACCGAGGACA TGTATTGGGA GGCAGCCAGC CTGAGCTGGT CACTCCTCTG
    GATCATGAGA TCACTTTGGC TAATGGATTT CTCTATGAGC ATGAGGCATG TGGCAATGGC
    TATAGCAATG GTCAGCTTGG AAACCATAGT GAAGAAGACA GCACTGATGA CCAAAGAGAA
    GAAACACACA GTAAACCTAT TTATAATCTA TATGCAATTT CGTGCCATTC AGGAATTCTG
    GGTGGGGGCC ATTACGTCAC TTATGCCAAA AACCCAAACT GCAAGTGGTA CTGTTACAAT
    GACAGCAGCT GTAAGGAGCT TCACCCTGAT GAGATAGACA CCGACTCTGC CTACATTCTT
    TTCTATGAGC AGCAGGGGAT AGACTGTGCA CAGTTTCTGC CAAAGACAGA CGGCAAGAAG
    ATGGCAGACA CGAGCAGCAT GGACGAAGAC TTTGAGTCTG ACTACAAGAA GTACTGTGTG
    CTACAGTAA

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