Tut7 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Tut7 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Tut7 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
OMv68757 XM_029468613.1
Latest version!
Mus caroli terminal uridylyl transferase 7 (Tut7), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMv68757 XM_029468615.1
Latest version!
Mus caroli terminal uridylyl transferase 7 (Tut7), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMv68757 XM_029468614.1
Latest version!
Mus caroli terminal uridylyl transferase 7 (Tut7), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMv68758 XM_029468616.1
Latest version!
Mus caroli terminal uridylyl transferase 7 (Tut7), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OMv30328 XM_021181015.2
Latest version!
Mus caroli terminal uridylyl transferase 7 (Tut7), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
OMv30329 XM_029468617.1
Latest version!
Mus caroli terminal uridylyl transferase 7 (Tut7), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
OMv30329 XM_021181017.2
Latest version!
Mus caroli terminal uridylyl transferase 7 (Tut7), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
View Old Accession Versions >>
OMv30328 XM_021181015.1 Mus caroli zinc finger CCHC-type containing 6 (Zcchc6), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
OMv30329 XM_021181017.1 Mus caroli zinc finger CCHC-type containing 6 (Zcchc6), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
Hide Old Accession Versions >>

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID OMv68757
    Clone ID Related Accession (Same CDS sequence) XM_029468615.1 , XM_029468614.1 , XM_029468613.1
    Accession Version XM_029468615.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4698bp)
    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 terminal uridylyltransferase 7 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034582.1) 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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GTTTGTGTAA GTCAGATTAT
    GTGTCTGCAC ACTCTTCACC TAGCCCTTTG AGACCAGTTG CTCAGGTAAA CGCCAGCCCA
    AACCTGACAG AGGAGCCCCT CCATCCTCTT CACCCTCACA GCCTTTGGGA GTGCTTGCAG
    CTGTGTGCTG GGCCCTCCCG GCTGGCCTCT GGTGCTTGCT CCTTCTGTGT CCCACATACT
    GTGTGGGAAG GCTTGTTGGA CCCTGGTAGT AGGGGCTTGG TGGATGGCTC CTGCATTCAT
    GTCTGTCTTT CCAACTAA

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

    RefSeq XP_029324475.1
    CDS102..4799
    Translation

    Target ORF information:

    RefSeq Version XM_029468615.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli terminal uridylyl transferase 7 (Tut7), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029468615.1

    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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GTTTGTGTAA GTCAGATTAT
    GTGTCTGCAC ACTCTTCACC TAGCCCTTTG AGACCAGTTG CTCAGGTAAA CGCCAGCCCA
    AACCTGACAG AGGAGCCCCT CCATCCTCTT CACCCTCACA GCCTTTGGGA GTGCTTGCAG
    CTGTGTGCTG GGCCCTCCCG GCTGGCCTCT GGTGCTTGCT CCTTCTGTGT CCCACATACT
    GTGTGGGAAG GCTTGTTGGA CCCTGGTAGT AGGGGCTTGG TGGATGGCTC CTGCATTCAT
    GTCTGTCTTT CCAACTAA

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

    CloneID OMv68757
    Clone ID Related Accession (Same CDS sequence) XM_029468615.1 , XM_029468614.1 , XM_029468613.1
    Accession Version XM_029468614.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4698bp)
    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 terminal uridylyltransferase 7 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034582.1) 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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GTTTGTGTAA GTCAGATTAT
    GTGTCTGCAC ACTCTTCACC TAGCCCTTTG AGACCAGTTG CTCAGGTAAA CGCCAGCCCA
    AACCTGACAG AGGAGCCCCT CCATCCTCTT CACCCTCACA GCCTTTGGGA GTGCTTGCAG
    CTGTGTGCTG GGCCCTCCCG GCTGGCCTCT GGTGCTTGCT CCTTCTGTGT CCCACATACT
    GTGTGGGAAG GCTTGTTGGA CCCTGGTAGT AGGGGCTTGG TGGATGGCTC CTGCATTCAT
    GTCTGTCTTT CCAACTAA

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

    RefSeq XP_029324474.1
    CDS109..4806
    Translation

    Target ORF information:

    RefSeq Version XM_029468614.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli terminal uridylyl transferase 7 (Tut7), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029468614.1

    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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GTTTGTGTAA GTCAGATTAT
    GTGTCTGCAC ACTCTTCACC TAGCCCTTTG AGACCAGTTG CTCAGGTAAA CGCCAGCCCA
    AACCTGACAG AGGAGCCCCT CCATCCTCTT CACCCTCACA GCCTTTGGGA GTGCTTGCAG
    CTGTGTGCTG GGCCCTCCCG GCTGGCCTCT GGTGCTTGCT CCTTCTGTGT CCCACATACT
    GTGTGGGAAG GCTTGTTGGA CCCTGGTAGT AGGGGCTTGG TGGATGGCTC CTGCATTCAT
    GTCTGTCTTT CCAACTAA

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

    CloneID OMv68757
    Clone ID Related Accession (Same CDS sequence) XM_029468615.1 , XM_029468614.1 , XM_029468613.1
    Accession Version XM_029468613.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4698bp)
    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 terminal uridylyltransferase 7 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034582.1) 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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GTTTGTGTAA GTCAGATTAT
    GTGTCTGCAC ACTCTTCACC TAGCCCTTTG AGACCAGTTG CTCAGGTAAA CGCCAGCCCA
    AACCTGACAG AGGAGCCCCT CCATCCTCTT CACCCTCACA GCCTTTGGGA GTGCTTGCAG
    CTGTGTGCTG GGCCCTCCCG GCTGGCCTCT GGTGCTTGCT CCTTCTGTGT CCCACATACT
    GTGTGGGAAG GCTTGTTGGA CCCTGGTAGT AGGGGCTTGG TGGATGGCTC CTGCATTCAT
    GTCTGTCTTT CCAACTAA

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

    RefSeq XP_029324473.1
    CDS501..5198
    Translation

    Target ORF information:

    RefSeq Version XM_029468613.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli terminal uridylyl transferase 7 (Tut7), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029468613.1

    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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GTTTGTGTAA GTCAGATTAT
    GTGTCTGCAC ACTCTTCACC TAGCCCTTTG AGACCAGTTG CTCAGGTAAA CGCCAGCCCA
    AACCTGACAG AGGAGCCCCT CCATCCTCTT CACCCTCACA GCCTTTGGGA GTGCTTGCAG
    CTGTGTGCTG GGCCCTCCCG GCTGGCCTCT GGTGCTTGCT CCTTCTGTGT CCCACATACT
    GTGTGGGAAG GCTTGTTGGA CCCTGGTAGT AGGGGCTTGG TGGATGGCTC CTGCATTCAT
    GTCTGTCTTT CCAACTAA

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

    CloneID OMv68758
    Clone ID Related Accession (Same CDS sequence) XM_029468616.1
    Accession Version XM_029468616.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4617bp)
    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 terminal uridylyltransferase 7 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034582.1) 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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GTTTGTGTAA GTCAGATTAT
    GTGTCTGCAC ACTCTTCACC TAGCCCTTTG AGACCAGTTG CTCAGGCAGT GCTTTTACAT
    GAAGACAAAA AGAAACAAAA AACAACCATA TTTTTGAGTC CCCAGTCAGG TAGCCTTTCC
    AGTAAATATA TGACTCAGGG GAGAGCCTCA GTGAAGAGGA CCCAGCAGGA ATCATGA

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

    RefSeq XP_029324476.1
    CDS500..5116
    Translation

    Target ORF information:

    RefSeq Version XM_029468616.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli terminal uridylyl transferase 7 (Tut7), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029468616.1

    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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GTTTGTGTAA GTCAGATTAT
    GTGTCTGCAC ACTCTTCACC TAGCCCTTTG AGACCAGTTG CTCAGGCAGT GCTTTTACAT
    GAAGACAAAA AGAAACAAAA AACAACCATA TTTTTGAGTC CCCAGTCAGG TAGCCTTTCC
    AGTAAATATA TGACTCAGGG GAGAGCCTCA GTGAAGAGGA CCCAGCAGGA ATCATGA

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

    CloneID OMv30328
    Clone ID Related Accession (Same CDS sequence) XM_021181015.2 , XM_021181015.1
    Accession Version XM_021181015.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4488bp)
    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 terminal uridylyltransferase 7 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034582.1) 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_021181015.1. ##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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GTAGCCTTTC CAGTAAATAT
    ATGACTCAGG GGAGAGCCTC AGTGAAGAGG ACCCAGCAGG AATCATGA

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

    RefSeq XP_021036674.1
    CDS499..4986
    Translation

    Target ORF information:

    RefSeq Version XM_021181015.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli terminal uridylyl transferase 7 (Tut7), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021181015.2

    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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GTAGCCTTTC CAGTAAATAT
    ATGACTCAGG GGAGAGCCTC AGTGAAGAGG ACCCAGCAGG AATCATGA

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

    CloneID OMv30328
    Clone ID Related Accession (Same CDS sequence) XM_021181015.2 , XM_021181015.1
    Accession Version XM_021181015.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4488bp)
    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 terminal uridylyltransferase 7 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034582.1) 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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GTAGCCTTTC CAGTAAATAT
    ATGACTCAGG GGAGAGCCTC AGTGAAGAGG ACCCAGCAGG AATCATGA

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

    RefSeq XP_021036674.1
    CDS344..4831
    Translation

    Target ORF information:

    RefSeq Version XM_021181015.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli zinc finger CCHC-type containing 6 (Zcchc6), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021181015.1

    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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GTAGCCTTTC CAGTAAATAT
    ATGACTCAGG GGAGAGCCTC AGTGAAGAGG ACCCAGCAGG AATCATGA

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

    CloneID OMv30329
    Clone ID Related Accession (Same CDS sequence) XM_021181017.1 , XM_029468617.1 , XM_021181017.2
    Accession Version XM_021181017.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4437bp)
    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 terminal uridylyltransferase 7 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034582.1) 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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GCAGTGCTTT TACATGA

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

    RefSeq XP_021036676.1
    CDS93..4529
    Translation

    Target ORF information:

    RefSeq Version XM_021181017.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli zinc finger CCHC-type containing 6 (Zcchc6), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021181017.1

    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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GCAGTGCTTT TACATGA

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

    CloneID OMv30329
    Clone ID Related Accession (Same CDS sequence) XM_021181017.1 , XM_029468617.1 , XM_021181017.2
    Accession Version XM_029468617.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4437bp)
    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 terminal uridylyltransferase 7 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034582.1) 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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GCAGTGCTTT TACATGA

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

    RefSeq XP_029324477.1
    CDS499..4935
    Translation

    Target ORF information:

    RefSeq Version XM_029468617.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli terminal uridylyl transferase 7 (Tut7), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029468617.1

    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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GCAGTGCTTT TACATGA

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

    CloneID OMv30329
    Clone ID Related Accession (Same CDS sequence) XM_021181017.1 , XM_029468617.1 , XM_021181017.2
    Accession Version XM_021181017.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4437bp)
    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 terminal uridylyltransferase 7 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034582.1) 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_021181017.1. ##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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GCAGTGCTTT TACATGA

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

    RefSeq XP_021036676.1
    CDS102..4538
    Translation

    Target ORF information:

    RefSeq Version XM_021181017.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli terminal uridylyl transferase 7 (Tut7), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021181017.2

    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
    ATGGGAGATA CAGCAAAACC TTACTTTGTG AAGCGCACTA AAGACCGTGG AATTATTGAT 
    GATGATGATT TCAGAAGGGG CCATCCCCAA CAAGATTATT TAATAATGGA TGATTATGCT
    AAAGGCCATA GCAGTAAAAT GGAAAAGGGC CTTCCAAAAA AGAAGATATC ACCCGGGAAC
    TATGGGAACA CCCCCAGGAA AGGACTGTAT GCGGTTTCCA GCAATCCATA TGCATTTAAA
    AACCCAATTT ACAGTCAGCC TGCTTGGATG AATGATAACC ACAAAGATCA AAATAAGAAA
    TGGCTATCTG ATGAACTGGC TGGTAATGCA GACAGCTGGA GAGAGTTCAA GCCTGGACCT
    AGGATTCCTG TCATAAGCCG CTCAAGGAAG GAATCCTTTC AGGAAAGTGA TGATGCCTAC
    AGGTGGCAGG AGGGGAGAGG CTGCAGAGCA GTGAGAAGGC TGTTCCAGAA AGACCTCAGC
    AGCCTAGAAG CCATGTCAGA AATGGAAGCA GGAAGTCCTG AAAACAAGAA ACAGCGGTCC
    AGACCTCGTA AGCCACGGAG GACTAGAACG GAGGACAGTG AGCAGGATGG AGATCTGGAC
    GGTCCTGTCA TCGACGAGTC TGTCCTTTCA ACCAAGGAGC TGTTGGGTCT CCAACAGGCT
    GAGGAACGGC TCAAGAGAGA CTGCATCGAC AGGCTGAAAA GGCGACCACG AAACTGCCCG
    ACAGCAAAGT ATACCTGCAA ACTGTGCGAT GCTTTGATTG ACTCCATCCC GTTTGCTCAT
    AAGCACATCA AGGAGAAGAG GCACAAGAAG AACCTTAAGG AAAAGCAGGA GGAAGAATTG
    CTCACCACAC TGCCCCCGCC AGCACCCTCC CAGATACATG CAGTTGGCAG CGCCATTGAC
    AGAGTGGTGC AGGAATTTGG TTTACATAGT GAAAACTTGG ATCAGAGACT AGAAATTAAG
    CGTGTCATGG AAAGTGTGTT CCGGCACAAG CTACCAGACT GTTCTCTTAG GCTTTATGGA
    TCCTCCTGTA GCCGACTGGG CTTCAGAGAC TCTGACGTGA ACATTGATGT TCAGTTTCCA
    GCTGTCATGT CTCAGCCAGA TGTCCTCTTA CTTGTTCAAG AATGTTTAAA GAACAGTGAC
    TCCTTTATAG ATGTTGATGC TGATTTCCAT GCCCGGGTCC CTGTGGTGGT GTGCAGAGAT
    AAGCAAAGCG GCCTTCTTTG TAAAGTAAGT GCAGGAAACG AAAACGCTTG GCTGACCACA
    AAGCACCTAA CGGCTCTTGG AAAACTAGAG CCAAGGCTGG TTCCTCTGGT GATTGCATTC
    AGATACTGGG CAAAGCTTTG TAGTATTGAT CGCCCCGAAG AAGGAGGCTT GCCACCATAT
    GTGTTTGCTC TGATGGCTGT TTTCTTCCTT CAGCAAAGAA AAGAACCTCT CTTGCCAGTT
    TATCTAGGAT CATGGATTGA AGAATTCTCA TTAAATAAAT TAGGGAATTT CAGCCTTAAA
    GATGTTGAGA AAGACTCTGT GGTCTGGGAA TACACTGACA ACAGCACAGG GGACACCAGC
    TCAGCAAAAG AGGAGGCACC CAAAGAGACT GCAGCAAAGA AGGGACAGGT GCCATTGACA
    TTTAATATAA AACATCAGCC TTCAGTGCCA GTCGGGCAAC TCTGGGTGGA ATTGCTGCGG
    TTCTATGCTT TAGAGTTTAA TCTGGCTGAT TTAGTGATCA GTATTCGTGT CAAAGAATTG
    ATATCACGGG AATCAAAGGA CTGGCCCAAA AAGCGTATCG CGATTGAAGA CCCCTATTCT
    GTTAAAAGAA ATGTGGCAAG GACCCTGAAT AATCAGCCTG TGTTTGAGTA TATACTTCAT
    TGTTTGAGGA CGACATATAA ATATTTCGCT CTTCCACACA AAGTTACAAA ACCCAACCTC
    ACAAAGCCTC CTAGCCCAGT CACCTGTGTT TCAGACCCTT ACAAAGAAGC AAAAAATGGT
    GGCCCAGAAC CCCAAGCAAC AAATATTGAT AAACTGGGAA ATGCAGCTGT GGCTCAAGAT
    CCTGGTGTTC AAACCTCAGG TGCCTGCAAA GCACAGCTAC TCACTCTTAA GAATACCACT
    GAGGAGTTGG GAAGCCCAGC AAAAGGAGGT GTGCACATCC CAGCCTACCA GGAGAGCTCT
    GGCTGTGTCC AGGCAGAGGT CAATTGTGAG GGTTTGGAGG ATGCCACAGC AGAGCTTCCG
    GAAACAGGAA GTGACAACGA GGAAGTCAGA AGGAAGACCA AGCATCCTTT GAGTACTGTT
    GACCAAGGTT TAAGCAGCAG CAAGCACCCA GAACTGCAGA ACTGTGGTAG CCTGTGCGGT
    CTGCAGGCAG ACAACACTCT GGAGTTAGTA GGGCTCCGGA ACCCTAGAGC TGAAGAGTGT
    AATAGCTGTG CCTCTTTGGA CAACAAGGCT GAGGTCAATG AAGAGAGGAT AGAAGGCACT
    GAGGAACTAG AAGAAGAAGA AGCTCTGAGT TGCTTTTCCC TTTCAGTCCA GAGCCGCACA
    TCAGCAGCCA TGCACTTTGA TGAGGAGGAG GAGGAGGAGG AGGAGGAAGA GGAGGAGGAG
    GAGCCCAGGC TCAGCATTAA CCTTACAGAA GATGAGGAGG GGGTTGCTAA TGAGCATCAG
    GTGGACAGCA GGTACGCTGG GTCAGGTGAG GAGGATGCCC TCTCTGAAGA AGATGACTTG
    GCGGAGCCTG CTAAGGGTGA AGACACAGGA GAATGTGGAG AACACGTGGG TGGGACTCTG
    CTCATAGACC TAAATAGAAT AACGCTTAAA GAAGAAAGCT TTCCTGAGGA AGATTCACCT
    GGGGACCAGT CTGAGTTCTT CTACGAATTT AGAAAACTGA CCTTCACCAA AGGCAAGTCC
    CCCACAGTAG TGTGCAGCTT GTGTAAGCGA GAAGGCCACC TAAAGAAGGA CTGTCCTGAG
    GACTTCAAGA GGGTCCAGCT GGAACCGTTG CCACCCCTGA CACCCAAGTT CTCAAACATC
    TTAGATCAAG TCTGCATCCA GTGTTACAAG GATTTTTCTC CAACTATTGT AGAAGATCAG
    GCTCGTGAAC ATATCCGGCA AAATCTAGAA AGTTTCATAA AACAGGATTT TCCAGGAACT
    AAATTGAGCT TGTTTGGCTC CTCCAAAAAT GGATTTGGGT TCAAACAGAG TGACCTTGAC
    GTCTGTATGA CGATTAACGG ACATGAGACT GCTGAGGGGC TGGACTGTGT AAGAACTATT
    GAGGAGCTGG CTCGAGTCCT CAGAAAGCAC TCAGGGTTGA GGAATATCCT TCCTATCACA
    ACAGCCAAGG TGCCCATCGT GAAGTTCTTC CATCTAAGAA GTGGTCTGGA AGTGGACATC
    AGCTTGTATA ACACACTGGC ACTTCATAAC ACAAGGCTCT TGTCTGCATA CTCAGCCATT
    GACCCCAGAG TGAAGTATCT GTGCTACACC ATGAAAGTGT TCACAAAGAT GTGTGACATC
    GGTGACGCGT CCAGAGGCAG CTTGTCATCC TACGCTTACA CTCTTATGGT GCTATACTTC
    CTCCAGCAAA GGTCTCCACC TGTCATCCCT GTGCTTCAAG AGATATACAA AGGTGAAAAG
    AAACCAGAAA TACTTGTTGA TGGCTGGAAT ATTTACTTTT TCGATCAAAT AAATGAACTG
    CCCACTTGTT GGCCAGAATA TGGAAAAAAT ACAGAATCTG TTGGGCAGCT GTGGTTGGGA
    CTTCTGCGCT TCTACACTGA GGAGTTTGAC TTTAAGGAAC ACGTAATCAG CATCAGAAGA
    AAAAGTCTGC TCACAACTTT TAAGAAACAG TGGACCTCAA AGTACATCGT CATTGAAGAT
    CCCTTTGATT TGAATCATAA TCTTGGTGCT GGATTATCAA GGAAAATGAC GAATTTTATA
    ATGAAAGCTT TTATCAATGG TAGAAGAGTA TTTGGAATTC CAGTCAAAGG ATTTCCAAAG
    GACAACCCCT CAAAACTGGC ATACTTTTTT GATCCGGATG TCCTAACTGA GGGAGAACTG
    GCTCCAAATG ACAGGTGCTG CCGAATTTGT GGGAAAATCG GGCACTTCAT GAAGGACTGT
    CCCATGAGGA GGAAAGTGAG GCGACGGAGA GACCAGGAAG ATACCCCAAA CCAAAGGTAC
    TCGGAGAGCA AAGAAAAAAG AAGCAAAGAG GACAAAGAGA TTCAGAACAA GTACACAGAA
    AAGGAAGTGT CAACAAAAGA AGATAAGCCC ACACCGTGTG CAGCTGCGAA AGCCAAGCCA
    GTGAGGGCAG CTGTCGACCT GGGCCGGGAG AAGCTCCTCA GGACGCCTGC AGAAAAGTGG
    AAGAGACAGG ATGACAGAGA CTCGAGAGAA AAGCGTTGTT TCATCTGTGG AAGAGAAGGA
    CACATTAAAA AGGAATGTCC ACAGTTCAAA GGCTCTCCAG GCAGTGCTTT TACATGA

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