CDK12 cDNA ORF clone, Homo sapiens(human)

The following CDK12 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CDK12 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
OHu86924 XM_017024753.2
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X24, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu50473 XM_005257458.4
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X25, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu68144 XM_017024750.1
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X21, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu68144 XM_011524907.2
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu68144 XM_017024751.1
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X22, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu68144 XM_017024752.1
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X23, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu11085 NM_016507.4
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
OHu11198 NM_015083.3
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu50472 XM_005257456.4
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68142 XM_011524892.2
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_011524900.2
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_011524898.2
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_011524899.2
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_011524895.2
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_017024744.1
Latest version!
Homo sapiens cyclin-dependent kinase 12 (CDK12), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_011524906.2
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X19, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_011524897.2
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_017024745.1
Latest version!
Homo sapiens cyclin-dependent kinase 12 (CDK12), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_011524896.2
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_017024746.1
Latest version!
Homo sapiens cyclin-dependent kinase 12 (CDK12), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_024450801.1
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_011524893.2
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_011524894.2
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_017024748.1
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_011524905.2
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_017024747.1
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_011524903.2
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_017024749.1
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_011524902.2
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68143 XM_011524901.2
Latest version!
Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu11085 NM_016507.3 Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
OHu50472 XM_005257456.3 Homo sapiens cyclin-dependent kinase 12 (CDK12), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu11198 NM_015083.2 Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $384.30
$549.00
OHu86924 XM_017024753.1 Homo sapiens cyclin-dependent kinase 12 (CDK12), transcript variant X26, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
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 OHu86924
    Clone ID Related Accession (Same CDS sequence) XM_017024753.1 , XM_017024753.2
    Accession Version XM_017024753.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3786bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGGAAA TCCATGAAGT CCAGAAGTAG AAGTCCTGCA
    TATTCAAGAC ATTCATCTTC TCATAGTAAA AAGAAGAGAT CCAGTTCACG CAGTCGTCAT
    TCCAGTATCT CACCTGTCAG GCTTCCACTT AATTCCAGTC TGGGAGCTGA ACTCAGTAGG
    AAAAAGAAGG AAAGAGCAGC TGCTGCTGCT GCAGCAAAGA TGGATGGAAA GGAGTCCAAG
    GGTTCACCTG TATTTTTGCC TAGAAAAGAG AACAGTTCAG TAGAGGCTAA GGATTCAGGT
    TTGGAGTCTA AAAAGTTACC CAGAAGTGTA AAATTGGAAA AATCTGCCCC AGATACTGAA
    CTGGTGAATG TAACACATCT AAACACAGAG GTAAAAAATT CTTCAGATAC AGGGAAAGTA
    AAGTTGGATG AGAACTCCGA GAAGCATCTT GTTAAAGATT TGAAAGCACA GGGAACAAGA
    GACTCTAAAC CCATAGCACT GAAAGAGGAG ATTGTTACTC CAAAGGAGAC AGAAACATCA
    GAAAAGGAGA CCCCTCCACC TCTTCCCACA ATTGCTTCTC CCCCACCCCC TCTACCAACT
    ACTACCCCTC CACCTCAGAC ACCCCCTTTG CCACCTTTGC CTCCAATACC AGCTCTTCCA
    CAGCAACCAC CTCTGCCTCC TTCTCAGCCA GCATTTAGTC AGGTTCCTGC TTCCAGTACT
    TCAACTTTGC CCCCTTCTAC TCACTCAAAG ACATCTGCTG TGTCCTCTCA GGCAAATTCT
    CAGCCCCCTG TACAGGTTTC TGTGAAGACT CAAGTATCTG TAACAGCTGC TATTCCACAC
    CTGAAAACTT CAACGTTGCC TCCTTTGCCC CTCCCACCCT TATTACCTGG AGATGATGAC
    ATGGATAGTC CAAAAGAAAC TCTTCCTTCA AAACCTGTGA AGAAAGAGAA GGAACAGAGG
    ACACGTCACT TACTCACAGA CCTTCCTCTC CCTCCAGAGC TCCCTGGTGG AGATCTGTCT
    CCCCCAGACT CTCCAGAACC AAAGGCAATC ACACCACCTC AGCAACCATA TAAAAAGAGA
    CCAAAAATTT GTTGTCCTCG TTATGGAGAA AGAAGACAAA CAGAAAGCGA CTGGGGGAAA
    CGCTGTGTGG ACAAGTTTGA CATTATTGGG ATTATTGGAG AAGGAACCTA TGGCCAAGTA
    TATAAAGCCA AGGACAAAGA CACAGGAGAA CTAGTGGCTC TGAAGAAGGT GAGACTAGAC
    AATGAGAAAG AGGGCTTCCC AATCACAGCC ATTCGTGAAA TCAAAATCCT TCGTCAGTTA
    ATCCACCGAA GTGTTGTTAA CATGAAGGAA ATTGTCACAG ATAAACAAGA TGCACTGGAT
    TTCAAGAAGG ACAAAGGTGC CTTTTACCTT GTATTTGAGT ATATGGACCA TGACTTAATG
    GGACTGCTAG AATCTGGTTT GGTGCACTTT TCTGAGGACC ATATCAAGTC GTTCATGAAA
    CAGCTAATGG AAGGATTGGA ATACTGTCAC AAAAAGAATT TCCTGCATCG GGATATTAAG
    TGTTCTAACA TTTTGCTGAA TAACAGTGGG CAAATCAAAC TAGCAGATTT TGGACTTGCT
    CGGCTCTATA ACTCTGAAGA GAGTCGCCCT TACACAAACA AAGTCATTAC TTTGTGGTAC
    CGACCTCCAG AACTACTGCT AGGAGAGGAA CGTTACACAC CAGCCATAGA TGTTTGGAGC
    TGTGGATGTA TTCTTGGGGA ACTATTCACA AAGAAGCCTA TTTTTCAAGC CAATCTGGAA
    CTGGCTCAGC TAGAACTGAT CAGCCGACTT TGTGGTAGCC CTTGTCCAGC TGTGTGGCCT
    GATGTTATCA AACTGCCCTA CTTCAACACC ATGAAACCGA AGAAGCAATA TCGAAGGCGT
    CTACGAGAAG AATTCTCTTT CATTCCTTCT GCAGCACTTG ATTTATTGGA CCACATGCTG
    ACACTAGATC CTAGTAAGCG GTGCACAGCT GAACAGACCC TACAGAGCGA CTTCCTTAAA
    GATGTCGAAC TCAGCAAAAT GGCTCCTCCA GACCTCCCCC ACTGGCAGGA TTGCCATGAG
    TTGTGGAGTA AGAAACGGCG ACGTCAGCGA CAAAGTGGTG TTGTAGTCGA AGAGCCACCT
    CCATCCAAAA CTTCTCGAAA AGAAACTACC TCAGGGACAA GTACTGAGCC TGTGAAGAAC
    AGCAGCCCAG CACCACCTCA GCCTGCTCCT GGCAAGGTGG AGTCTGGGGC TGGGGATGCA
    ATAGGCCTTG CTGACATCAC ACAACAGCTG AATCAAAGTG AATTGGCAGT GTTATTAAAC
    CTGCTGCAGA GCCAAACCGA CCTGAGCATC CCTCAAATGG CACAGCTGCT TAACATCCAC
    TCCAACCCAG AGATGCAGCA GCAGCTGGAA GCCCTGAACC AATCCATCAG TGCCCTGACG
    GAAGCTACTT CCCAGCAGCA GGACTCAGAG ACCATGGCCC CAGAGGAGTC TTTGAAGGAA
    GCACCCTCTG CCCCAGTGAT CCTGCCTTCA GCAGAACAGA CGACCCTTGA AGCTTCAAGC
    ACACCAGCTG ACATGCAGAA TATATTGGCA GTTCTCTTGA GTCAGCTGAT GAAAACCCAA
    GAGCCAGCAG GCAGTCTGGA GGAAAACAAC AGTGACAAGA ACAGTGGGCC ACAGGGGCCC
    CGAAGAACTC CCACAATGCC ACAGGAGGAG GCAGCAGGTA GGAGCAACGG TGGGAATGCC
    CTCTGA

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

    RefSeq XP_016880242.1
    CDS587..4372
    Translation

    Target ORF information:

    RefSeq Version XM_017024753.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin-dependent kinase 12 (CDK12), transcript variant X26, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024753.1

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGGAAA TCCATGAAGT CCAGAAGTAG AAGTCCTGCA
    TATTCAAGAC ATTCATCTTC TCATAGTAAA AAGAAGAGAT CCAGTTCACG CAGTCGTCAT
    TCCAGTATCT CACCTGTCAG GCTTCCACTT AATTCCAGTC TGGGAGCTGA ACTCAGTAGG
    AAAAAGAAGG AAAGAGCAGC TGCTGCTGCT GCAGCAAAGA TGGATGGAAA GGAGTCCAAG
    GGTTCACCTG TATTTTTGCC TAGAAAAGAG AACAGTTCAG TAGAGGCTAA GGATTCAGGT
    TTGGAGTCTA AAAAGTTACC CAGAAGTGTA AAATTGGAAA AATCTGCCCC AGATACTGAA
    CTGGTGAATG TAACACATCT AAACACAGAG GTAAAAAATT CTTCAGATAC AGGGAAAGTA
    AAGTTGGATG AGAACTCCGA GAAGCATCTT GTTAAAGATT TGAAAGCACA GGGAACAAGA
    GACTCTAAAC CCATAGCACT GAAAGAGGAG ATTGTTACTC CAAAGGAGAC AGAAACATCA
    GAAAAGGAGA CCCCTCCACC TCTTCCCACA ATTGCTTCTC CCCCACCCCC TCTACCAACT
    ACTACCCCTC CACCTCAGAC ACCCCCTTTG CCACCTTTGC CTCCAATACC AGCTCTTCCA
    CAGCAACCAC CTCTGCCTCC TTCTCAGCCA GCATTTAGTC AGGTTCCTGC TTCCAGTACT
    TCAACTTTGC CCCCTTCTAC TCACTCAAAG ACATCTGCTG TGTCCTCTCA GGCAAATTCT
    CAGCCCCCTG TACAGGTTTC TGTGAAGACT CAAGTATCTG TAACAGCTGC TATTCCACAC
    CTGAAAACTT CAACGTTGCC TCCTTTGCCC CTCCCACCCT TATTACCTGG AGATGATGAC
    ATGGATAGTC CAAAAGAAAC TCTTCCTTCA AAACCTGTGA AGAAAGAGAA GGAACAGAGG
    ACACGTCACT TACTCACAGA CCTTCCTCTC CCTCCAGAGC TCCCTGGTGG AGATCTGTCT
    CCCCCAGACT CTCCAGAACC AAAGGCAATC ACACCACCTC AGCAACCATA TAAAAAGAGA
    CCAAAAATTT GTTGTCCTCG TTATGGAGAA AGAAGACAAA CAGAAAGCGA CTGGGGGAAA
    CGCTGTGTGG ACAAGTTTGA CATTATTGGG ATTATTGGAG AAGGAACCTA TGGCCAAGTA
    TATAAAGCCA AGGACAAAGA CACAGGAGAA CTAGTGGCTC TGAAGAAGGT GAGACTAGAC
    AATGAGAAAG AGGGCTTCCC AATCACAGCC ATTCGTGAAA TCAAAATCCT TCGTCAGTTA
    ATCCACCGAA GTGTTGTTAA CATGAAGGAA ATTGTCACAG ATAAACAAGA TGCACTGGAT
    TTCAAGAAGG ACAAAGGTGC CTTTTACCTT GTATTTGAGT ATATGGACCA TGACTTAATG
    GGACTGCTAG AATCTGGTTT GGTGCACTTT TCTGAGGACC ATATCAAGTC GTTCATGAAA
    CAGCTAATGG AAGGATTGGA ATACTGTCAC AAAAAGAATT TCCTGCATCG GGATATTAAG
    TGTTCTAACA TTTTGCTGAA TAACAGTGGG CAAATCAAAC TAGCAGATTT TGGACTTGCT
    CGGCTCTATA ACTCTGAAGA GAGTCGCCCT TACACAAACA AAGTCATTAC TTTGTGGTAC
    CGACCTCCAG AACTACTGCT AGGAGAGGAA CGTTACACAC CAGCCATAGA TGTTTGGAGC
    TGTGGATGTA TTCTTGGGGA ACTATTCACA AAGAAGCCTA TTTTTCAAGC CAATCTGGAA
    CTGGCTCAGC TAGAACTGAT CAGCCGACTT TGTGGTAGCC CTTGTCCAGC TGTGTGGCCT
    GATGTTATCA AACTGCCCTA CTTCAACACC ATGAAACCGA AGAAGCAATA TCGAAGGCGT
    CTACGAGAAG AATTCTCTTT CATTCCTTCT GCAGCACTTG ATTTATTGGA CCACATGCTG
    ACACTAGATC CTAGTAAGCG GTGCACAGCT GAACAGACCC TACAGAGCGA CTTCCTTAAA
    GATGTCGAAC TCAGCAAAAT GGCTCCTCCA GACCTCCCCC ACTGGCAGGA TTGCCATGAG
    TTGTGGAGTA AGAAACGGCG ACGTCAGCGA CAAAGTGGTG TTGTAGTCGA AGAGCCACCT
    CCATCCAAAA CTTCTCGAAA AGAAACTACC TCAGGGACAA GTACTGAGCC TGTGAAGAAC
    AGCAGCCCAG CACCACCTCA GCCTGCTCCT GGCAAGGTGG AGTCTGGGGC TGGGGATGCA
    ATAGGCCTTG CTGACATCAC ACAACAGCTG AATCAAAGTG AATTGGCAGT GTTATTAAAC
    CTGCTGCAGA GCCAAACCGA CCTGAGCATC CCTCAAATGG CACAGCTGCT TAACATCCAC
    TCCAACCCAG AGATGCAGCA GCAGCTGGAA GCCCTGAACC AATCCATCAG TGCCCTGACG
    GAAGCTACTT CCCAGCAGCA GGACTCAGAG ACCATGGCCC CAGAGGAGTC TTTGAAGGAA
    GCACCCTCTG CCCCAGTGAT CCTGCCTTCA GCAGAACAGA CGACCCTTGA AGCTTCAAGC
    ACACCAGCTG ACATGCAGAA TATATTGGCA GTTCTCTTGA GTCAGCTGAT GAAAACCCAA
    GAGCCAGCAG GCAGTCTGGA GGAAAACAAC AGTGACAAGA ACAGTGGGCC ACAGGGGCCC
    CGAAGAACTC CCACAATGCC ACAGGAGGAG GCAGCAGGTA GGAGCAACGG TGGGAATGCC
    CTCTGA

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

    CloneID OHu86924
    Clone ID Related Accession (Same CDS sequence) XM_017024753.1 , XM_017024753.2
    Accession Version XM_017024753.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3786bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017024753.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGGAAA TCCATGAAGT CCAGAAGTAG AAGTCCTGCA
    TATTCAAGAC ATTCATCTTC TCATAGTAAA AAGAAGAGAT CCAGTTCACG CAGTCGTCAT
    TCCAGTATCT CACCTGTCAG GCTTCCACTT AATTCCAGTC TGGGAGCTGA ACTCAGTAGG
    AAAAAGAAGG AAAGAGCAGC TGCTGCTGCT GCAGCAAAGA TGGATGGAAA GGAGTCCAAG
    GGTTCACCTG TATTTTTGCC TAGAAAAGAG AACAGTTCAG TAGAGGCTAA GGATTCAGGT
    TTGGAGTCTA AAAAGTTACC CAGAAGTGTA AAATTGGAAA AATCTGCCCC AGATACTGAA
    CTGGTGAATG TAACACATCT AAACACAGAG GTAAAAAATT CTTCAGATAC AGGGAAAGTA
    AAGTTGGATG AGAACTCCGA GAAGCATCTT GTTAAAGATT TGAAAGCACA GGGAACAAGA
    GACTCTAAAC CCATAGCACT GAAAGAGGAG ATTGTTACTC CAAAGGAGAC AGAAACATCA
    GAAAAGGAGA CCCCTCCACC TCTTCCCACA ATTGCTTCTC CCCCACCCCC TCTACCAACT
    ACTACCCCTC CACCTCAGAC ACCCCCTTTG CCACCTTTGC CTCCAATACC AGCTCTTCCA
    CAGCAACCAC CTCTGCCTCC TTCTCAGCCA GCATTTAGTC AGGTTCCTGC TTCCAGTACT
    TCAACTTTGC CCCCTTCTAC TCACTCAAAG ACATCTGCTG TGTCCTCTCA GGCAAATTCT
    CAGCCCCCTG TACAGGTTTC TGTGAAGACT CAAGTATCTG TAACAGCTGC TATTCCACAC
    CTGAAAACTT CAACGTTGCC TCCTTTGCCC CTCCCACCCT TATTACCTGG AGATGATGAC
    ATGGATAGTC CAAAAGAAAC TCTTCCTTCA AAACCTGTGA AGAAAGAGAA GGAACAGAGG
    ACACGTCACT TACTCACAGA CCTTCCTCTC CCTCCAGAGC TCCCTGGTGG AGATCTGTCT
    CCCCCAGACT CTCCAGAACC AAAGGCAATC ACACCACCTC AGCAACCATA TAAAAAGAGA
    CCAAAAATTT GTTGTCCTCG TTATGGAGAA AGAAGACAAA CAGAAAGCGA CTGGGGGAAA
    CGCTGTGTGG ACAAGTTTGA CATTATTGGG ATTATTGGAG AAGGAACCTA TGGCCAAGTA
    TATAAAGCCA AGGACAAAGA CACAGGAGAA CTAGTGGCTC TGAAGAAGGT GAGACTAGAC
    AATGAGAAAG AGGGCTTCCC AATCACAGCC ATTCGTGAAA TCAAAATCCT TCGTCAGTTA
    ATCCACCGAA GTGTTGTTAA CATGAAGGAA ATTGTCACAG ATAAACAAGA TGCACTGGAT
    TTCAAGAAGG ACAAAGGTGC CTTTTACCTT GTATTTGAGT ATATGGACCA TGACTTAATG
    GGACTGCTAG AATCTGGTTT GGTGCACTTT TCTGAGGACC ATATCAAGTC GTTCATGAAA
    CAGCTAATGG AAGGATTGGA ATACTGTCAC AAAAAGAATT TCCTGCATCG GGATATTAAG
    TGTTCTAACA TTTTGCTGAA TAACAGTGGG CAAATCAAAC TAGCAGATTT TGGACTTGCT
    CGGCTCTATA ACTCTGAAGA GAGTCGCCCT TACACAAACA AAGTCATTAC TTTGTGGTAC
    CGACCTCCAG AACTACTGCT AGGAGAGGAA CGTTACACAC CAGCCATAGA TGTTTGGAGC
    TGTGGATGTA TTCTTGGGGA ACTATTCACA AAGAAGCCTA TTTTTCAAGC CAATCTGGAA
    CTGGCTCAGC TAGAACTGAT CAGCCGACTT TGTGGTAGCC CTTGTCCAGC TGTGTGGCCT
    GATGTTATCA AACTGCCCTA CTTCAACACC ATGAAACCGA AGAAGCAATA TCGAAGGCGT
    CTACGAGAAG AATTCTCTTT CATTCCTTCT GCAGCACTTG ATTTATTGGA CCACATGCTG
    ACACTAGATC CTAGTAAGCG GTGCACAGCT GAACAGACCC TACAGAGCGA CTTCCTTAAA
    GATGTCGAAC TCAGCAAAAT GGCTCCTCCA GACCTCCCCC ACTGGCAGGA TTGCCATGAG
    TTGTGGAGTA AGAAACGGCG ACGTCAGCGA CAAAGTGGTG TTGTAGTCGA AGAGCCACCT
    CCATCCAAAA CTTCTCGAAA AGAAACTACC TCAGGGACAA GTACTGAGCC TGTGAAGAAC
    AGCAGCCCAG CACCACCTCA GCCTGCTCCT GGCAAGGTGG AGTCTGGGGC TGGGGATGCA
    ATAGGCCTTG CTGACATCAC ACAACAGCTG AATCAAAGTG AATTGGCAGT GTTATTAAAC
    CTGCTGCAGA GCCAAACCGA CCTGAGCATC CCTCAAATGG CACAGCTGCT TAACATCCAC
    TCCAACCCAG AGATGCAGCA GCAGCTGGAA GCCCTGAACC AATCCATCAG TGCCCTGACG
    GAAGCTACTT CCCAGCAGCA GGACTCAGAG ACCATGGCCC CAGAGGAGTC TTTGAAGGAA
    GCACCCTCTG CCCCAGTGAT CCTGCCTTCA GCAGAACAGA CGACCCTTGA AGCTTCAAGC
    ACACCAGCTG ACATGCAGAA TATATTGGCA GTTCTCTTGA GTCAGCTGAT GAAAACCCAA
    GAGCCAGCAG GCAGTCTGGA GGAAAACAAC AGTGACAAGA ACAGTGGGCC ACAGGGGCCC
    CGAAGAACTC CCACAATGCC ACAGGAGGAG GCAGCAGGTA GGAGCAACGG TGGGAATGCC
    CTCTGA

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

    RefSeq XP_016880242.1
    CDS562..4347
    Translation

    Target ORF information:

    RefSeq Version XM_017024753.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X24, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024753.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGGAAA TCCATGAAGT CCAGAAGTAG AAGTCCTGCA
    TATTCAAGAC ATTCATCTTC TCATAGTAAA AAGAAGAGAT CCAGTTCACG CAGTCGTCAT
    TCCAGTATCT CACCTGTCAG GCTTCCACTT AATTCCAGTC TGGGAGCTGA ACTCAGTAGG
    AAAAAGAAGG AAAGAGCAGC TGCTGCTGCT GCAGCAAAGA TGGATGGAAA GGAGTCCAAG
    GGTTCACCTG TATTTTTGCC TAGAAAAGAG AACAGTTCAG TAGAGGCTAA GGATTCAGGT
    TTGGAGTCTA AAAAGTTACC CAGAAGTGTA AAATTGGAAA AATCTGCCCC AGATACTGAA
    CTGGTGAATG TAACACATCT AAACACAGAG GTAAAAAATT CTTCAGATAC AGGGAAAGTA
    AAGTTGGATG AGAACTCCGA GAAGCATCTT GTTAAAGATT TGAAAGCACA GGGAACAAGA
    GACTCTAAAC CCATAGCACT GAAAGAGGAG ATTGTTACTC CAAAGGAGAC AGAAACATCA
    GAAAAGGAGA CCCCTCCACC TCTTCCCACA ATTGCTTCTC CCCCACCCCC TCTACCAACT
    ACTACCCCTC CACCTCAGAC ACCCCCTTTG CCACCTTTGC CTCCAATACC AGCTCTTCCA
    CAGCAACCAC CTCTGCCTCC TTCTCAGCCA GCATTTAGTC AGGTTCCTGC TTCCAGTACT
    TCAACTTTGC CCCCTTCTAC TCACTCAAAG ACATCTGCTG TGTCCTCTCA GGCAAATTCT
    CAGCCCCCTG TACAGGTTTC TGTGAAGACT CAAGTATCTG TAACAGCTGC TATTCCACAC
    CTGAAAACTT CAACGTTGCC TCCTTTGCCC CTCCCACCCT TATTACCTGG AGATGATGAC
    ATGGATAGTC CAAAAGAAAC TCTTCCTTCA AAACCTGTGA AGAAAGAGAA GGAACAGAGG
    ACACGTCACT TACTCACAGA CCTTCCTCTC CCTCCAGAGC TCCCTGGTGG AGATCTGTCT
    CCCCCAGACT CTCCAGAACC AAAGGCAATC ACACCACCTC AGCAACCATA TAAAAAGAGA
    CCAAAAATTT GTTGTCCTCG TTATGGAGAA AGAAGACAAA CAGAAAGCGA CTGGGGGAAA
    CGCTGTGTGG ACAAGTTTGA CATTATTGGG ATTATTGGAG AAGGAACCTA TGGCCAAGTA
    TATAAAGCCA AGGACAAAGA CACAGGAGAA CTAGTGGCTC TGAAGAAGGT GAGACTAGAC
    AATGAGAAAG AGGGCTTCCC AATCACAGCC ATTCGTGAAA TCAAAATCCT TCGTCAGTTA
    ATCCACCGAA GTGTTGTTAA CATGAAGGAA ATTGTCACAG ATAAACAAGA TGCACTGGAT
    TTCAAGAAGG ACAAAGGTGC CTTTTACCTT GTATTTGAGT ATATGGACCA TGACTTAATG
    GGACTGCTAG AATCTGGTTT GGTGCACTTT TCTGAGGACC ATATCAAGTC GTTCATGAAA
    CAGCTAATGG AAGGATTGGA ATACTGTCAC AAAAAGAATT TCCTGCATCG GGATATTAAG
    TGTTCTAACA TTTTGCTGAA TAACAGTGGG CAAATCAAAC TAGCAGATTT TGGACTTGCT
    CGGCTCTATA ACTCTGAAGA GAGTCGCCCT TACACAAACA AAGTCATTAC TTTGTGGTAC
    CGACCTCCAG AACTACTGCT AGGAGAGGAA CGTTACACAC CAGCCATAGA TGTTTGGAGC
    TGTGGATGTA TTCTTGGGGA ACTATTCACA AAGAAGCCTA TTTTTCAAGC CAATCTGGAA
    CTGGCTCAGC TAGAACTGAT CAGCCGACTT TGTGGTAGCC CTTGTCCAGC TGTGTGGCCT
    GATGTTATCA AACTGCCCTA CTTCAACACC ATGAAACCGA AGAAGCAATA TCGAAGGCGT
    CTACGAGAAG AATTCTCTTT CATTCCTTCT GCAGCACTTG ATTTATTGGA CCACATGCTG
    ACACTAGATC CTAGTAAGCG GTGCACAGCT GAACAGACCC TACAGAGCGA CTTCCTTAAA
    GATGTCGAAC TCAGCAAAAT GGCTCCTCCA GACCTCCCCC ACTGGCAGGA TTGCCATGAG
    TTGTGGAGTA AGAAACGGCG ACGTCAGCGA CAAAGTGGTG TTGTAGTCGA AGAGCCACCT
    CCATCCAAAA CTTCTCGAAA AGAAACTACC TCAGGGACAA GTACTGAGCC TGTGAAGAAC
    AGCAGCCCAG CACCACCTCA GCCTGCTCCT GGCAAGGTGG AGTCTGGGGC TGGGGATGCA
    ATAGGCCTTG CTGACATCAC ACAACAGCTG AATCAAAGTG AATTGGCAGT GTTATTAAAC
    CTGCTGCAGA GCCAAACCGA CCTGAGCATC CCTCAAATGG CACAGCTGCT TAACATCCAC
    TCCAACCCAG AGATGCAGCA GCAGCTGGAA GCCCTGAACC AATCCATCAG TGCCCTGACG
    GAAGCTACTT CCCAGCAGCA GGACTCAGAG ACCATGGCCC CAGAGGAGTC TTTGAAGGAA
    GCACCCTCTG CCCCAGTGAT CCTGCCTTCA GCAGAACAGA CGACCCTTGA AGCTTCAAGC
    ACACCAGCTG ACATGCAGAA TATATTGGCA GTTCTCTTGA GTCAGCTGAT GAAAACCCAA
    GAGCCAGCAG GCAGTCTGGA GGAAAACAAC AGTGACAAGA ACAGTGGGCC ACAGGGGCCC
    CGAAGAACTC CCACAATGCC ACAGGAGGAG GCAGCAGGTA GGAGCAACGG TGGGAATGCC
    CTCTGA

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

    CloneID OHu50473
    Clone ID Related Accession (Same CDS sequence) XM_005257458.4
    Accession Version XM_005257458.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3771bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005257458.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG ATGGTGTTTA A

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

    RefSeq XP_005257515.1
    CDS587..4357
    Translation

    Target ORF information:

    RefSeq Version XM_005257458.4
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X25, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005257458.4

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG ATGGTGTTTA A

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

    CloneID OHu68144
    Clone ID Related Accession (Same CDS sequence) XM_011524907.2 , XM_017024752.1 , XM_017024750.1 , XM_017024751.1
    Accession Version XM_011524907.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3789bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524907.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG GTAGGAGCAA CGGTGGGAAT
    GCCCTCTGA

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

    RefSeq XP_011523209.1
    CDS587..4375
    Translation

    Target ORF information:

    RefSeq Version XM_011524907.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524907.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG GTAGGAGCAA CGGTGGGAAT
    GCCCTCTGA

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

    CloneID OHu68144
    Clone ID Related Accession (Same CDS sequence) XM_011524907.2 , XM_017024752.1 , XM_017024750.1 , XM_017024751.1
    Accession Version XM_017024752.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3789bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG GTAGGAGCAA CGGTGGGAAT
    GCCCTCTGA

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

    RefSeq XP_016880241.1
    CDS587..4375
    Translation

    Target ORF information:

    RefSeq Version XM_017024752.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X23, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024752.1

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG GTAGGAGCAA CGGTGGGAAT
    GCCCTCTGA

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

    CloneID OHu68144
    Clone ID Related Accession (Same CDS sequence) XM_011524907.2 , XM_017024752.1 , XM_017024750.1 , XM_017024751.1
    Accession Version XM_017024750.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3789bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG GTAGGAGCAA CGGTGGGAAT
    GCCCTCTGA

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

    RefSeq XP_016880239.1
    CDS587..4375
    Translation

    Target ORF information:

    RefSeq Version XM_017024750.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X21, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024750.1

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG GTAGGAGCAA CGGTGGGAAT
    GCCCTCTGA

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

    CloneID OHu68144
    Clone ID Related Accession (Same CDS sequence) XM_011524907.2 , XM_017024752.1 , XM_017024750.1 , XM_017024751.1
    Accession Version XM_017024751.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3789bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG GTAGGAGCAA CGGTGGGAAT
    GCCCTCTGA

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

    RefSeq XP_016880240.1
    CDS587..4375
    Translation

    Target ORF information:

    RefSeq Version XM_017024751.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X22, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024751.1

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG GTAGGAGCAA CGGTGGGAAT
    GCCCTCTGA

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

    CloneID OHu11085
    Clone ID Related Accession (Same CDS sequence) NM_016507.3 , NM_016507.4
    Accession Version NM_016507.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4473bp)
    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 2019-03-11
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform 1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AK302645.1, BC150265.1, BM557102.1, AF227198.1, AC009283.6 and BE003756.1. On Dec 24, 2013 this sequence version replaced NM_016507.2. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF227198.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT CAGTGCAGTT TCCAGGGGAC
    CAGGACCTCC GTTTTGCCAG GGTCCCCTTA GCGTTACACC CGGTGGTCGG GCAACCATTC
    CTGAAGGCTG AGGGAAGCAG CAATTCTGTG GTACATGCAG AGACCAAATT GCAAAACTAT
    GGGGAGCTGG GGCCAGGAAC CACTGGGGCC AGCAGCTCAG GAGCAGGCCT TCACTGGGGG
    GGCCCAACTC AGTCTTCTGC TTATGGAAAA CTCTATCGGG GGCCTACAAG AGTCCCACCA
    AGAGGGGGAA GAGGGAGAGG AGTTCCTTAC TAA

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

    RefSeq NP_057591.2
    CDS562..5034
    Translation

    Target ORF information:

    RefSeq Version NM_016507.3
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_016507.3

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT CAGTGCAGTT TCCAGGGGAC
    CAGGACCTCC GTTTTGCCAG GGTCCCCTTA GCGTTACACC CGGTGGTCGG GCAACCATTC
    CTGAAGGCTG AGGGAAGCAG CAATTCTGTG GTACATGCAG AGACCAAATT GCAAAACTAT
    GGGGAGCTGG GGCCAGGAAC CACTGGGGCC AGCAGCTCAG GAGCAGGCCT TCACTGGGGG
    GGCCCAACTC AGTCTTCTGC TTATGGAAAA CTCTATCGGG GGCCTACAAG AGTCCCACCA
    AGAGGGGGAA GAGGGAGAGG AGTTCCTTAC TAA

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

    CloneID OHu11085
    Clone ID Related Accession (Same CDS sequence) NM_016507.3 , NM_016507.4
    Accession Version NM_016507.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4473bp)
    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 2019-12-03
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC009283.6, AK302645.1, BC150265.1, BM557102.1, AF227198.1 and BE003756.1. This sequence is a reference standard in the RefSeqGene project. On May 29, 2019 this sequence version replaced NM_016507.3. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF227198.1, SRR7346977.2502340.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on manual assertion, conservation, longest protein ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT CAGTGCAGTT TCCAGGGGAC
    CAGGACCTCC GTTTTGCCAG GGTCCCCTTA GCGTTACACC CGGTGGTCGG GCAACCATTC
    CTGAAGGCTG AGGGAAGCAG CAATTCTGTG GTACATGCAG AGACCAAATT GCAAAACTAT
    GGGGAGCTGG GGCCAGGAAC CACTGGGGCC AGCAGCTCAG GAGCAGGCCT TCACTGGGGG
    GGCCCAACTC AGTCTTCTGC TTATGGAAAA CTCTATCGGG GGCCTACAAG AGTCCCACCA
    AGAGGGGGAA GAGGGAGAGG AGTTCCTTAC TAA

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

    RefSeq NP_057591.2
    CDS587..5059
    Translation

    Target ORF information:

    RefSeq Version NM_016507.4
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_016507.4

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT CAGTGCAGTT TCCAGGGGAC
    CAGGACCTCC GTTTTGCCAG GGTCCCCTTA GCGTTACACC CGGTGGTCGG GCAACCATTC
    CTGAAGGCTG AGGGAAGCAG CAATTCTGTG GTACATGCAG AGACCAAATT GCAAAACTAT
    GGGGAGCTGG GGCCAGGAAC CACTGGGGCC AGCAGCTCAG GAGCAGGCCT TCACTGGGGG
    GGCCCAACTC AGTCTTCTGC TTATGGAAAA CTCTATCGGG GGCCTACAAG AGTCCCACCA
    AGAGGGGGAA GAGGGAGAGG AGTTCCTTAC TAA

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

    CloneID OHu11198
    Clone ID Related Accession (Same CDS sequence) NM_015083.3 , NM_015083.2
    Accession Version NM_015083.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4446bp)
    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 2019-10-25
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC009283.6, AK302645.1, BC150265.1, BM557102.1 and BE003756.1. On Jun 2, 2019 this sequence version replaced NM_015083.2. Transcript Variant: This variant (2) uses an alternate in-frame splice site in the 3' coding region, compared to variant 1. It encodes isoform 2, which is shorter than isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AB020711.2, BC150265.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG AGAAGAGGCC CCCTGAGCCC
    CCCGGACCTC CACCGCCGCC ACCTCCACCC CCTCTGGTTG AAGGCGATCT TTCCAGCGCC
    CCCCAGGAGT TGAACCCAGC CGTGACAGCC GCCTTGCTGC AACTTTTATC CCAGCCTGAA
    GCAGAGCCTC CTGGCCACCT GCCACATGAG CACCAGGCCT TGAGACCAAT GGAGTACTCC
    ACCCGACCCC GTCCAAACAG GACTTATGGA AACACTGATG GGCCTGAAAC AGGGTTCAGT
    GCCATTGACA CTGATGAACG AAACTCTGGT CCAGCCTTGA CAGAATCCTT GGTCCAGACC
    CTGGTGAAGA ACAGGACCTT CTCAGGCTCT CTGAGCCACC TTGGGGAGTC CAGCAGTTAC
    CAGGGCACAG GGTCAGTGCA GTTTCCAGGG GACCAGGACC TCCGTTTTGC CAGGGTCCCC
    TTAGCGTTAC ACCCGGTGGT CGGGCAACCA TTCCTGAAGG CTGAGGGAAG CAGCAATTCT
    GTGGTACATG CAGAGACCAA ATTGCAAAAC TATGGGGAGC TGGGGCCAGG AACCACTGGG
    GCCAGCAGCT CAGGAGCAGG CCTTCACTGG GGGGGCCCAA CTCAGTCTTC TGCTTATGGA
    AAACTCTATC GGGGGCCTAC AAGAGTCCCA CCAAGAGGGG GAAGAGGGAG AGGAGTTCCT
    TACTAA

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

    RefSeq NP_055898.1
    CDS587..5032
    Translation

    Target ORF information:

    RefSeq Version NM_015083.3
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015083.3

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG AGAAGAGGCC CCCTGAGCCC
    CCCGGACCTC CACCGCCGCC ACCTCCACCC CCTCTGGTTG AAGGCGATCT TTCCAGCGCC
    CCCCAGGAGT TGAACCCAGC CGTGACAGCC GCCTTGCTGC AACTTTTATC CCAGCCTGAA
    GCAGAGCCTC CTGGCCACCT GCCACATGAG CACCAGGCCT TGAGACCAAT GGAGTACTCC
    ACCCGACCCC GTCCAAACAG GACTTATGGA AACACTGATG GGCCTGAAAC AGGGTTCAGT
    GCCATTGACA CTGATGAACG AAACTCTGGT CCAGCCTTGA CAGAATCCTT GGTCCAGACC
    CTGGTGAAGA ACAGGACCTT CTCAGGCTCT CTGAGCCACC TTGGGGAGTC CAGCAGTTAC
    CAGGGCACAG GGTCAGTGCA GTTTCCAGGG GACCAGGACC TCCGTTTTGC CAGGGTCCCC
    TTAGCGTTAC ACCCGGTGGT CGGGCAACCA TTCCTGAAGG CTGAGGGAAG CAGCAATTCT
    GTGGTACATG CAGAGACCAA ATTGCAAAAC TATGGGGAGC TGGGGCCAGG AACCACTGGG
    GCCAGCAGCT CAGGAGCAGG CCTTCACTGG GGGGGCCCAA CTCAGTCTTC TGCTTATGGA
    AAACTCTATC GGGGGCCTAC AAGAGTCCCA CCAAGAGGGG GAAGAGGGAG AGGAGTTCCT
    TACTAA

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

    CloneID OHu11198
    Clone ID Related Accession (Same CDS sequence) NM_015083.3 , NM_015083.2
    Accession Version NM_015083.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4446bp)
    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 2019-03-11
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform 2
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AK302645.1, BC150265.1, BM557102.1, AC009283.6 and BE003756.1. On Dec 24, 2013 this sequence version replaced NM_015083.1. Transcript Variant: This variant (2) uses an alternate in-frame splice site in the 3' coding region, compared to variant 1. It encodes isoform 2, which is shorter than isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AB020711.2, BC150265.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG AGAAGAGGCC CCCTGAGCCC
    CCCGGACCTC CACCGCCGCC ACCTCCACCC CCTCTGGTTG AAGGCGATCT TTCCAGCGCC
    CCCCAGGAGT TGAACCCAGC CGTGACAGCC GCCTTGCTGC AACTTTTATC CCAGCCTGAA
    GCAGAGCCTC CTGGCCACCT GCCACATGAG CACCAGGCCT TGAGACCAAT GGAGTACTCC
    ACCCGACCCC GTCCAAACAG GACTTATGGA AACACTGATG GGCCTGAAAC AGGGTTCAGT
    GCCATTGACA CTGATGAACG AAACTCTGGT CCAGCCTTGA CAGAATCCTT GGTCCAGACC
    CTGGTGAAGA ACAGGACCTT CTCAGGCTCT CTGAGCCACC TTGGGGAGTC CAGCAGTTAC
    CAGGGCACAG GGTCAGTGCA GTTTCCAGGG GACCAGGACC TCCGTTTTGC CAGGGTCCCC
    TTAGCGTTAC ACCCGGTGGT CGGGCAACCA TTCCTGAAGG CTGAGGGAAG CAGCAATTCT
    GTGGTACATG CAGAGACCAA ATTGCAAAAC TATGGGGAGC TGGGGCCAGG AACCACTGGG
    GCCAGCAGCT CAGGAGCAGG CCTTCACTGG GGGGGCCCAA CTCAGTCTTC TGCTTATGGA
    AAACTCTATC GGGGGCCTAC AAGAGTCCCA CCAAGAGGGG GAAGAGGGAG AGGAGTTCCT
    TACTAA

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

    RefSeq NP_055898.1
    CDS562..5007
    Translation

    Target ORF information:

    RefSeq Version NM_015083.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015083.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG AGAAGAGGCC CCCTGAGCCC
    CCCGGACCTC CACCGCCGCC ACCTCCACCC CCTCTGGTTG AAGGCGATCT TTCCAGCGCC
    CCCCAGGAGT TGAACCCAGC CGTGACAGCC GCCTTGCTGC AACTTTTATC CCAGCCTGAA
    GCAGAGCCTC CTGGCCACCT GCCACATGAG CACCAGGCCT TGAGACCAAT GGAGTACTCC
    ACCCGACCCC GTCCAAACAG GACTTATGGA AACACTGATG GGCCTGAAAC AGGGTTCAGT
    GCCATTGACA CTGATGAACG AAACTCTGGT CCAGCCTTGA CAGAATCCTT GGTCCAGACC
    CTGGTGAAGA ACAGGACCTT CTCAGGCTCT CTGAGCCACC TTGGGGAGTC CAGCAGTTAC
    CAGGGCACAG GGTCAGTGCA GTTTCCAGGG GACCAGGACC TCCGTTTTGC CAGGGTCCCC
    TTAGCGTTAC ACCCGGTGGT CGGGCAACCA TTCCTGAAGG CTGAGGGAAG CAGCAATTCT
    GTGGTACATG CAGAGACCAA ATTGCAAAAC TATGGGGAGC TGGGGCCAGG AACCACTGGG
    GCCAGCAGCT CAGGAGCAGG CCTTCACTGG GGGGGCCCAA CTCAGTCTTC TGCTTATGGA
    AAACTCTATC GGGGGCCTAC AAGAGTCCCA CCAAGAGGGG GAAGAGGGAG AGGAGTTCCT
    TACTAA

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

    CloneID OHu50472
    Clone ID Related Accession (Same CDS sequence) XM_005257456.3 , XM_005257456.4
    Accession Version XM_005257456.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4470bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005257456.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGGAAA TCCATGAAGT CCAGAAGTAG AAGTCCTGCA
    TATTCAAGAC ATTCATCTTC TCATAGTAAA AAGAAGAGAT CCAGTTCACG CAGTCGTCAT
    TCCAGTATCT CACCTGTCAG GCTTCCACTT AATTCCAGTC TGGGAGCTGA ACTCAGTAGG
    AAAAAGAAGG AAAGAGCAGC TGCTGCTGCT GCAGCAAAGA TGGATGGAAA GGAGTCCAAG
    GGTTCACCTG TATTTTTGCC TAGAAAAGAG AACAGTTCAG TAGAGGCTAA GGATTCAGGT
    TTGGAGTCTA AAAAGTTACC CAGAAGTGTA AAATTGGAAA AATCTGCCCC AGATACTGAA
    CTGGTGAATG TAACACATCT AAACACAGAG GTAAAAAATT CTTCAGATAC AGGGAAAGTA
    AAGTTGGATG AGAACTCCGA GAAGCATCTT GTTAAAGATT TGAAAGCACA GGGAACAAGA
    GACTCTAAAC CCATAGCACT GAAAGAGGAG ATTGTTACTC CAAAGGAGAC AGAAACATCA
    GAAAAGGAGA CCCCTCCACC TCTTCCCACA ATTGCTTCTC CCCCACCCCC TCTACCAACT
    ACTACCCCTC CACCTCAGAC ACCCCCTTTG CCACCTTTGC CTCCAATACC AGCTCTTCCA
    CAGCAACCAC CTCTGCCTCC TTCTCAGCCA GCATTTAGTC AGGTTCCTGC TTCCAGTACT
    TCAACTTTGC CCCCTTCTAC TCACTCAAAG ACATCTGCTG TGTCCTCTCA GGCAAATTCT
    CAGCCCCCTG TACAGGTTTC TGTGAAGACT CAAGTATCTG TAACAGCTGC TATTCCACAC
    CTGAAAACTT CAACGTTGCC TCCTTTGCCC CTCCCACCCT TATTACCTGG AGATGATGAC
    ATGGATAGTC CAAAAGAAAC TCTTCCTTCA AAACCTGTGA AGAAAGAGAA GGAACAGAGG
    ACACGTCACT TACTCACAGA CCTTCCTCTC CCTCCAGAGC TCCCTGGTGG AGATCTGTCT
    CCCCCAGACT CTCCAGAACC AAAGGCAATC ACACCACCTC AGCAACCATA TAAAAAGAGA
    CCAAAAATTT GTTGTCCTCG TTATGGAGAA AGAAGACAAA CAGAAAGCGA CTGGGGGAAA
    CGCTGTGTGG ACAAGTTTGA CATTATTGGG ATTATTGGAG AAGGAACCTA TGGCCAAGTA
    TATAAAGCCA AGGACAAAGA CACAGGAGAA CTAGTGGCTC TGAAGAAGGT GAGACTAGAC
    AATGAGAAAG AGGGCTTCCC AATCACAGCC ATTCGTGAAA TCAAAATCCT TCGTCAGTTA
    ATCCACCGAA GTGTTGTTAA CATGAAGGAA ATTGTCACAG ATAAACAAGA TGCACTGGAT
    TTCAAGAAGG ACAAAGGTGC CTTTTACCTT GTATTTGAGT ATATGGACCA TGACTTAATG
    GGACTGCTAG AATCTGGTTT GGTGCACTTT TCTGAGGACC ATATCAAGTC GTTCATGAAA
    CAGCTAATGG AAGGATTGGA ATACTGTCAC AAAAAGAATT TCCTGCATCG GGATATTAAG
    TGTTCTAACA TTTTGCTGAA TAACAGTGGG CAAATCAAAC TAGCAGATTT TGGACTTGCT
    CGGCTCTATA ACTCTGAAGA GAGTCGCCCT TACACAAACA AAGTCATTAC TTTGTGGTAC
    CGACCTCCAG AACTACTGCT AGGAGAGGAA CGTTACACAC CAGCCATAGA TGTTTGGAGC
    TGTGGATGTA TTCTTGGGGA ACTATTCACA AAGAAGCCTA TTTTTCAAGC CAATCTGGAA
    CTGGCTCAGC TAGAACTGAT CAGCCGACTT TGTGGTAGCC CTTGTCCAGC TGTGTGGCCT
    GATGTTATCA AACTGCCCTA CTTCAACACC ATGAAACCGA AGAAGCAATA TCGAAGGCGT
    CTACGAGAAG AATTCTCTTT CATTCCTTCT GCAGCACTTG ATTTATTGGA CCACATGCTG
    ACACTAGATC CTAGTAAGCG GTGCACAGCT GAACAGACCC TACAGAGCGA CTTCCTTAAA
    GATGTCGAAC TCAGCAAAAT GGCTCCTCCA GACCTCCCCC ACTGGCAGGA TTGCCATGAG
    TTGTGGAGTA AGAAACGGCG ACGTCAGCGA CAAAGTGGTG TTGTAGTCGA AGAGCCACCT
    CCATCCAAAA CTTCTCGAAA AGAAACTACC TCAGGGACAA GTACTGAGCC TGTGAAGAAC
    AGCAGCCCAG CACCACCTCA GCCTGCTCCT GGCAAGGTGG AGTCTGGGGC TGGGGATGCA
    ATAGGCCTTG CTGACATCAC ACAACAGCTG AATCAAAGTG AATTGGCAGT GTTATTAAAC
    CTGCTGCAGA GCCAAACCGA CCTGAGCATC CCTCAAATGG CACAGCTGCT TAACATCCAC
    TCCAACCCAG AGATGCAGCA GCAGCTGGAA GCCCTGAACC AATCCATCAG TGCCCTGACG
    GAAGCTACTT CCCAGCAGCA GGACTCAGAG ACCATGGCCC CAGAGGAGTC TTTGAAGGAA
    GCACCCTCTG CCCCAGTGAT CCTGCCTTCA GCAGAACAGA CGACCCTTGA AGCTTCAAGC
    ACACCAGCTG ACATGCAGAA TATATTGGCA GTTCTCTTGA GTCAGCTGAT GAAAACCCAA
    GAGCCAGCAG GCAGTCTGGA GGAAAACAAC AGTGACAAGA ACAGTGGGCC ACAGGGGCCC
    CGAAGAACTC CCACAATGCC ACAGGAGGAG GCAGCAGCAT GTCCTCCTCA CATTCTTCCA
    CCAGAGAAGA GGCCCCCTGA GCCCCCCGGA CCTCCACCGC CGCCACCTCC ACCCCCTCTG
    GTTGAAGGCG ATCTTTCCAG CGCCCCCCAG GAGTTGAACC CAGCCGTGAC AGCCGCCTTG
    CTGCAACTTT TATCCCAGCC TGAAGCAGAG CCTCCTGGCC ACCTGCCACA TGAGCACCAG
    GCCTTGAGAC CAATGGAGTA CTCCACCCGA CCCCGTCCAA ACAGGACTTA TGGAAACACT
    GATGGGCCTG AAACAGGGTT CAGTGCCATT GACACTGATG AACGAAACTC TGGTCCAGCC
    TTGACAGAAT CCTTGGTCCA GACCCTGGTG AAGAACAGGA CCTTCTCAGG CTCTCTGAGC
    CACCTTGGGG AGTCCAGCAG TTACCAGGGC ACAGGGTCAG TGCAGTTTCC AGGGGACCAG
    GACCTCCGTT TTGCCAGGGT CCCCTTAGCG TTACACCCGG TGGTCGGGCA ACCATTCCTG
    AAGGCTGAGG GAAGCAGCAA TTCTGTGGTA CATGCAGAGA CCAAATTGCA AAACTATGGG
    GAGCTGGGGC CAGGAACCAC TGGGGCCAGC AGCTCAGGAG CAGGCCTTCA CTGGGGGGGC
    CCAACTCAGT CTTCTGCTTA TGGAAAACTC TATCGGGGGC CTACAAGAGT CCCACCAAGA
    GGGGGAAGAG GGAGAGGAGT TCCTTACTAA

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

    RefSeq XP_005257513.1
    CDS587..5056
    Translation

    Target ORF information:

    RefSeq Version XM_005257456.3
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin-dependent kinase 12 (CDK12), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005257456.3

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGGAAA TCCATGAAGT CCAGAAGTAG AAGTCCTGCA
    TATTCAAGAC ATTCATCTTC TCATAGTAAA AAGAAGAGAT CCAGTTCACG CAGTCGTCAT
    TCCAGTATCT CACCTGTCAG GCTTCCACTT AATTCCAGTC TGGGAGCTGA ACTCAGTAGG
    AAAAAGAAGG AAAGAGCAGC TGCTGCTGCT GCAGCAAAGA TGGATGGAAA GGAGTCCAAG
    GGTTCACCTG TATTTTTGCC TAGAAAAGAG AACAGTTCAG TAGAGGCTAA GGATTCAGGT
    TTGGAGTCTA AAAAGTTACC CAGAAGTGTA AAATTGGAAA AATCTGCCCC AGATACTGAA
    CTGGTGAATG TAACACATCT AAACACAGAG GTAAAAAATT CTTCAGATAC AGGGAAAGTA
    AAGTTGGATG AGAACTCCGA GAAGCATCTT GTTAAAGATT TGAAAGCACA GGGAACAAGA
    GACTCTAAAC CCATAGCACT GAAAGAGGAG ATTGTTACTC CAAAGGAGAC AGAAACATCA
    GAAAAGGAGA CCCCTCCACC TCTTCCCACA ATTGCTTCTC CCCCACCCCC TCTACCAACT
    ACTACCCCTC CACCTCAGAC ACCCCCTTTG CCACCTTTGC CTCCAATACC AGCTCTTCCA
    CAGCAACCAC CTCTGCCTCC TTCTCAGCCA GCATTTAGTC AGGTTCCTGC TTCCAGTACT
    TCAACTTTGC CCCCTTCTAC TCACTCAAAG ACATCTGCTG TGTCCTCTCA GGCAAATTCT
    CAGCCCCCTG TACAGGTTTC TGTGAAGACT CAAGTATCTG TAACAGCTGC TATTCCACAC
    CTGAAAACTT CAACGTTGCC TCCTTTGCCC CTCCCACCCT TATTACCTGG AGATGATGAC
    ATGGATAGTC CAAAAGAAAC TCTTCCTTCA AAACCTGTGA AGAAAGAGAA GGAACAGAGG
    ACACGTCACT TACTCACAGA CCTTCCTCTC CCTCCAGAGC TCCCTGGTGG AGATCTGTCT
    CCCCCAGACT CTCCAGAACC AAAGGCAATC ACACCACCTC AGCAACCATA TAAAAAGAGA
    CCAAAAATTT GTTGTCCTCG TTATGGAGAA AGAAGACAAA CAGAAAGCGA CTGGGGGAAA
    CGCTGTGTGG ACAAGTTTGA CATTATTGGG ATTATTGGAG AAGGAACCTA TGGCCAAGTA
    TATAAAGCCA AGGACAAAGA CACAGGAGAA CTAGTGGCTC TGAAGAAGGT GAGACTAGAC
    AATGAGAAAG AGGGCTTCCC AATCACAGCC ATTCGTGAAA TCAAAATCCT TCGTCAGTTA
    ATCCACCGAA GTGTTGTTAA CATGAAGGAA ATTGTCACAG ATAAACAAGA TGCACTGGAT
    TTCAAGAAGG ACAAAGGTGC CTTTTACCTT GTATTTGAGT ATATGGACCA TGACTTAATG
    GGACTGCTAG AATCTGGTTT GGTGCACTTT TCTGAGGACC ATATCAAGTC GTTCATGAAA
    CAGCTAATGG AAGGATTGGA ATACTGTCAC AAAAAGAATT TCCTGCATCG GGATATTAAG
    TGTTCTAACA TTTTGCTGAA TAACAGTGGG CAAATCAAAC TAGCAGATTT TGGACTTGCT
    CGGCTCTATA ACTCTGAAGA GAGTCGCCCT TACACAAACA AAGTCATTAC TTTGTGGTAC
    CGACCTCCAG AACTACTGCT AGGAGAGGAA CGTTACACAC CAGCCATAGA TGTTTGGAGC
    TGTGGATGTA TTCTTGGGGA ACTATTCACA AAGAAGCCTA TTTTTCAAGC CAATCTGGAA
    CTGGCTCAGC TAGAACTGAT CAGCCGACTT TGTGGTAGCC CTTGTCCAGC TGTGTGGCCT
    GATGTTATCA AACTGCCCTA CTTCAACACC ATGAAACCGA AGAAGCAATA TCGAAGGCGT
    CTACGAGAAG AATTCTCTTT CATTCCTTCT GCAGCACTTG ATTTATTGGA CCACATGCTG
    ACACTAGATC CTAGTAAGCG GTGCACAGCT GAACAGACCC TACAGAGCGA CTTCCTTAAA
    GATGTCGAAC TCAGCAAAAT GGCTCCTCCA GACCTCCCCC ACTGGCAGGA TTGCCATGAG
    TTGTGGAGTA AGAAACGGCG ACGTCAGCGA CAAAGTGGTG TTGTAGTCGA AGAGCCACCT
    CCATCCAAAA CTTCTCGAAA AGAAACTACC TCAGGGACAA GTACTGAGCC TGTGAAGAAC
    AGCAGCCCAG CACCACCTCA GCCTGCTCCT GGCAAGGTGG AGTCTGGGGC TGGGGATGCA
    ATAGGCCTTG CTGACATCAC ACAACAGCTG AATCAAAGTG AATTGGCAGT GTTATTAAAC
    CTGCTGCAGA GCCAAACCGA CCTGAGCATC CCTCAAATGG CACAGCTGCT TAACATCCAC
    TCCAACCCAG AGATGCAGCA GCAGCTGGAA GCCCTGAACC AATCCATCAG TGCCCTGACG
    GAAGCTACTT CCCAGCAGCA GGACTCAGAG ACCATGGCCC CAGAGGAGTC TTTGAAGGAA
    GCACCCTCTG CCCCAGTGAT CCTGCCTTCA GCAGAACAGA CGACCCTTGA AGCTTCAAGC
    ACACCAGCTG ACATGCAGAA TATATTGGCA GTTCTCTTGA GTCAGCTGAT GAAAACCCAA
    GAGCCAGCAG GCAGTCTGGA GGAAAACAAC AGTGACAAGA ACAGTGGGCC ACAGGGGCCC
    CGAAGAACTC CCACAATGCC ACAGGAGGAG GCAGCAGCAT GTCCTCCTCA CATTCTTCCA
    CCAGAGAAGA GGCCCCCTGA GCCCCCCGGA CCTCCACCGC CGCCACCTCC ACCCCCTCTG
    GTTGAAGGCG ATCTTTCCAG CGCCCCCCAG GAGTTGAACC CAGCCGTGAC AGCCGCCTTG
    CTGCAACTTT TATCCCAGCC TGAAGCAGAG CCTCCTGGCC ACCTGCCACA TGAGCACCAG
    GCCTTGAGAC CAATGGAGTA CTCCACCCGA CCCCGTCCAA ACAGGACTTA TGGAAACACT
    GATGGGCCTG AAACAGGGTT CAGTGCCATT GACACTGATG AACGAAACTC TGGTCCAGCC
    TTGACAGAAT CCTTGGTCCA GACCCTGGTG AAGAACAGGA CCTTCTCAGG CTCTCTGAGC
    CACCTTGGGG AGTCCAGCAG TTACCAGGGC ACAGGGTCAG TGCAGTTTCC AGGGGACCAG
    GACCTCCGTT TTGCCAGGGT CCCCTTAGCG TTACACCCGG TGGTCGGGCA ACCATTCCTG
    AAGGCTGAGG GAAGCAGCAA TTCTGTGGTA CATGCAGAGA CCAAATTGCA AAACTATGGG
    GAGCTGGGGC CAGGAACCAC TGGGGCCAGC AGCTCAGGAG CAGGCCTTCA CTGGGGGGGC
    CCAACTCAGT CTTCTGCTTA TGGAAAACTC TATCGGGGGC CTACAAGAGT CCCACCAAGA
    GGGGGAAGAG GGAGAGGAGT TCCTTACTAA

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

    CloneID OHu50472
    Clone ID Related Accession (Same CDS sequence) XM_005257456.3 , XM_005257456.4
    Accession Version XM_005257456.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4470bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_005257456.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGGAAA TCCATGAAGT CCAGAAGTAG AAGTCCTGCA
    TATTCAAGAC ATTCATCTTC TCATAGTAAA AAGAAGAGAT CCAGTTCACG CAGTCGTCAT
    TCCAGTATCT CACCTGTCAG GCTTCCACTT AATTCCAGTC TGGGAGCTGA ACTCAGTAGG
    AAAAAGAAGG AAAGAGCAGC TGCTGCTGCT GCAGCAAAGA TGGATGGAAA GGAGTCCAAG
    GGTTCACCTG TATTTTTGCC TAGAAAAGAG AACAGTTCAG TAGAGGCTAA GGATTCAGGT
    TTGGAGTCTA AAAAGTTACC CAGAAGTGTA AAATTGGAAA AATCTGCCCC AGATACTGAA
    CTGGTGAATG TAACACATCT AAACACAGAG GTAAAAAATT CTTCAGATAC AGGGAAAGTA
    AAGTTGGATG AGAACTCCGA GAAGCATCTT GTTAAAGATT TGAAAGCACA GGGAACAAGA
    GACTCTAAAC CCATAGCACT GAAAGAGGAG ATTGTTACTC CAAAGGAGAC AGAAACATCA
    GAAAAGGAGA CCCCTCCACC TCTTCCCACA ATTGCTTCTC CCCCACCCCC TCTACCAACT
    ACTACCCCTC CACCTCAGAC ACCCCCTTTG CCACCTTTGC CTCCAATACC AGCTCTTCCA
    CAGCAACCAC CTCTGCCTCC TTCTCAGCCA GCATTTAGTC AGGTTCCTGC TTCCAGTACT
    TCAACTTTGC CCCCTTCTAC TCACTCAAAG ACATCTGCTG TGTCCTCTCA GGCAAATTCT
    CAGCCCCCTG TACAGGTTTC TGTGAAGACT CAAGTATCTG TAACAGCTGC TATTCCACAC
    CTGAAAACTT CAACGTTGCC TCCTTTGCCC CTCCCACCCT TATTACCTGG AGATGATGAC
    ATGGATAGTC CAAAAGAAAC TCTTCCTTCA AAACCTGTGA AGAAAGAGAA GGAACAGAGG
    ACACGTCACT TACTCACAGA CCTTCCTCTC CCTCCAGAGC TCCCTGGTGG AGATCTGTCT
    CCCCCAGACT CTCCAGAACC AAAGGCAATC ACACCACCTC AGCAACCATA TAAAAAGAGA
    CCAAAAATTT GTTGTCCTCG TTATGGAGAA AGAAGACAAA CAGAAAGCGA CTGGGGGAAA
    CGCTGTGTGG ACAAGTTTGA CATTATTGGG ATTATTGGAG AAGGAACCTA TGGCCAAGTA
    TATAAAGCCA AGGACAAAGA CACAGGAGAA CTAGTGGCTC TGAAGAAGGT GAGACTAGAC
    AATGAGAAAG AGGGCTTCCC AATCACAGCC ATTCGTGAAA TCAAAATCCT TCGTCAGTTA
    ATCCACCGAA GTGTTGTTAA CATGAAGGAA ATTGTCACAG ATAAACAAGA TGCACTGGAT
    TTCAAGAAGG ACAAAGGTGC CTTTTACCTT GTATTTGAGT ATATGGACCA TGACTTAATG
    GGACTGCTAG AATCTGGTTT GGTGCACTTT TCTGAGGACC ATATCAAGTC GTTCATGAAA
    CAGCTAATGG AAGGATTGGA ATACTGTCAC AAAAAGAATT TCCTGCATCG GGATATTAAG
    TGTTCTAACA TTTTGCTGAA TAACAGTGGG CAAATCAAAC TAGCAGATTT TGGACTTGCT
    CGGCTCTATA ACTCTGAAGA GAGTCGCCCT TACACAAACA AAGTCATTAC TTTGTGGTAC
    CGACCTCCAG AACTACTGCT AGGAGAGGAA CGTTACACAC CAGCCATAGA TGTTTGGAGC
    TGTGGATGTA TTCTTGGGGA ACTATTCACA AAGAAGCCTA TTTTTCAAGC CAATCTGGAA
    CTGGCTCAGC TAGAACTGAT CAGCCGACTT TGTGGTAGCC CTTGTCCAGC TGTGTGGCCT
    GATGTTATCA AACTGCCCTA CTTCAACACC ATGAAACCGA AGAAGCAATA TCGAAGGCGT
    CTACGAGAAG AATTCTCTTT CATTCCTTCT GCAGCACTTG ATTTATTGGA CCACATGCTG
    ACACTAGATC CTAGTAAGCG GTGCACAGCT GAACAGACCC TACAGAGCGA CTTCCTTAAA
    GATGTCGAAC TCAGCAAAAT GGCTCCTCCA GACCTCCCCC ACTGGCAGGA TTGCCATGAG
    TTGTGGAGTA AGAAACGGCG ACGTCAGCGA CAAAGTGGTG TTGTAGTCGA AGAGCCACCT
    CCATCCAAAA CTTCTCGAAA AGAAACTACC TCAGGGACAA GTACTGAGCC TGTGAAGAAC
    AGCAGCCCAG CACCACCTCA GCCTGCTCCT GGCAAGGTGG AGTCTGGGGC TGGGGATGCA
    ATAGGCCTTG CTGACATCAC ACAACAGCTG AATCAAAGTG AATTGGCAGT GTTATTAAAC
    CTGCTGCAGA GCCAAACCGA CCTGAGCATC CCTCAAATGG CACAGCTGCT TAACATCCAC
    TCCAACCCAG AGATGCAGCA GCAGCTGGAA GCCCTGAACC AATCCATCAG TGCCCTGACG
    GAAGCTACTT CCCAGCAGCA GGACTCAGAG ACCATGGCCC CAGAGGAGTC TTTGAAGGAA
    GCACCCTCTG CCCCAGTGAT CCTGCCTTCA GCAGAACAGA CGACCCTTGA AGCTTCAAGC
    ACACCAGCTG ACATGCAGAA TATATTGGCA GTTCTCTTGA GTCAGCTGAT GAAAACCCAA
    GAGCCAGCAG GCAGTCTGGA GGAAAACAAC AGTGACAAGA ACAGTGGGCC ACAGGGGCCC
    CGAAGAACTC CCACAATGCC ACAGGAGGAG GCAGCAGCAT GTCCTCCTCA CATTCTTCCA
    CCAGAGAAGA GGCCCCCTGA GCCCCCCGGA CCTCCACCGC CGCCACCTCC ACCCCCTCTG
    GTTGAAGGCG ATCTTTCCAG CGCCCCCCAG GAGTTGAACC CAGCCGTGAC AGCCGCCTTG
    CTGCAACTTT TATCCCAGCC TGAAGCAGAG CCTCCTGGCC ACCTGCCACA TGAGCACCAG
    GCCTTGAGAC CAATGGAGTA CTCCACCCGA CCCCGTCCAA ACAGGACTTA TGGAAACACT
    GATGGGCCTG AAACAGGGTT CAGTGCCATT GACACTGATG AACGAAACTC TGGTCCAGCC
    TTGACAGAAT CCTTGGTCCA GACCCTGGTG AAGAACAGGA CCTTCTCAGG CTCTCTGAGC
    CACCTTGGGG AGTCCAGCAG TTACCAGGGC ACAGGGTCAG TGCAGTTTCC AGGGGACCAG
    GACCTCCGTT TTGCCAGGGT CCCCTTAGCG TTACACCCGG TGGTCGGGCA ACCATTCCTG
    AAGGCTGAGG GAAGCAGCAA TTCTGTGGTA CATGCAGAGA CCAAATTGCA AAACTATGGG
    GAGCTGGGGC CAGGAACCAC TGGGGCCAGC AGCTCAGGAG CAGGCCTTCA CTGGGGGGGC
    CCAACTCAGT CTTCTGCTTA TGGAAAACTC TATCGGGGGC CTACAAGAGT CCCACCAAGA
    GGGGGAAGAG GGAGAGGAGT TCCTTACTAA

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

    RefSeq XP_005257513.1
    CDS562..5031
    Translation

    Target ORF information:

    RefSeq Version XM_005257456.4
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005257456.4

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGGAAA TCCATGAAGT CCAGAAGTAG AAGTCCTGCA
    TATTCAAGAC ATTCATCTTC TCATAGTAAA AAGAAGAGAT CCAGTTCACG CAGTCGTCAT
    TCCAGTATCT CACCTGTCAG GCTTCCACTT AATTCCAGTC TGGGAGCTGA ACTCAGTAGG
    AAAAAGAAGG AAAGAGCAGC TGCTGCTGCT GCAGCAAAGA TGGATGGAAA GGAGTCCAAG
    GGTTCACCTG TATTTTTGCC TAGAAAAGAG AACAGTTCAG TAGAGGCTAA GGATTCAGGT
    TTGGAGTCTA AAAAGTTACC CAGAAGTGTA AAATTGGAAA AATCTGCCCC AGATACTGAA
    CTGGTGAATG TAACACATCT AAACACAGAG GTAAAAAATT CTTCAGATAC AGGGAAAGTA
    AAGTTGGATG AGAACTCCGA GAAGCATCTT GTTAAAGATT TGAAAGCACA GGGAACAAGA
    GACTCTAAAC CCATAGCACT GAAAGAGGAG ATTGTTACTC CAAAGGAGAC AGAAACATCA
    GAAAAGGAGA CCCCTCCACC TCTTCCCACA ATTGCTTCTC CCCCACCCCC TCTACCAACT
    ACTACCCCTC CACCTCAGAC ACCCCCTTTG CCACCTTTGC CTCCAATACC AGCTCTTCCA
    CAGCAACCAC CTCTGCCTCC TTCTCAGCCA GCATTTAGTC AGGTTCCTGC TTCCAGTACT
    TCAACTTTGC CCCCTTCTAC TCACTCAAAG ACATCTGCTG TGTCCTCTCA GGCAAATTCT
    CAGCCCCCTG TACAGGTTTC TGTGAAGACT CAAGTATCTG TAACAGCTGC TATTCCACAC
    CTGAAAACTT CAACGTTGCC TCCTTTGCCC CTCCCACCCT TATTACCTGG AGATGATGAC
    ATGGATAGTC CAAAAGAAAC TCTTCCTTCA AAACCTGTGA AGAAAGAGAA GGAACAGAGG
    ACACGTCACT TACTCACAGA CCTTCCTCTC CCTCCAGAGC TCCCTGGTGG AGATCTGTCT
    CCCCCAGACT CTCCAGAACC AAAGGCAATC ACACCACCTC AGCAACCATA TAAAAAGAGA
    CCAAAAATTT GTTGTCCTCG TTATGGAGAA AGAAGACAAA CAGAAAGCGA CTGGGGGAAA
    CGCTGTGTGG ACAAGTTTGA CATTATTGGG ATTATTGGAG AAGGAACCTA TGGCCAAGTA
    TATAAAGCCA AGGACAAAGA CACAGGAGAA CTAGTGGCTC TGAAGAAGGT GAGACTAGAC
    AATGAGAAAG AGGGCTTCCC AATCACAGCC ATTCGTGAAA TCAAAATCCT TCGTCAGTTA
    ATCCACCGAA GTGTTGTTAA CATGAAGGAA ATTGTCACAG ATAAACAAGA TGCACTGGAT
    TTCAAGAAGG ACAAAGGTGC CTTTTACCTT GTATTTGAGT ATATGGACCA TGACTTAATG
    GGACTGCTAG AATCTGGTTT GGTGCACTTT TCTGAGGACC ATATCAAGTC GTTCATGAAA
    CAGCTAATGG AAGGATTGGA ATACTGTCAC AAAAAGAATT TCCTGCATCG GGATATTAAG
    TGTTCTAACA TTTTGCTGAA TAACAGTGGG CAAATCAAAC TAGCAGATTT TGGACTTGCT
    CGGCTCTATA ACTCTGAAGA GAGTCGCCCT TACACAAACA AAGTCATTAC TTTGTGGTAC
    CGACCTCCAG AACTACTGCT AGGAGAGGAA CGTTACACAC CAGCCATAGA TGTTTGGAGC
    TGTGGATGTA TTCTTGGGGA ACTATTCACA AAGAAGCCTA TTTTTCAAGC CAATCTGGAA
    CTGGCTCAGC TAGAACTGAT CAGCCGACTT TGTGGTAGCC CTTGTCCAGC TGTGTGGCCT
    GATGTTATCA AACTGCCCTA CTTCAACACC ATGAAACCGA AGAAGCAATA TCGAAGGCGT
    CTACGAGAAG AATTCTCTTT CATTCCTTCT GCAGCACTTG ATTTATTGGA CCACATGCTG
    ACACTAGATC CTAGTAAGCG GTGCACAGCT GAACAGACCC TACAGAGCGA CTTCCTTAAA
    GATGTCGAAC TCAGCAAAAT GGCTCCTCCA GACCTCCCCC ACTGGCAGGA TTGCCATGAG
    TTGTGGAGTA AGAAACGGCG ACGTCAGCGA CAAAGTGGTG TTGTAGTCGA AGAGCCACCT
    CCATCCAAAA CTTCTCGAAA AGAAACTACC TCAGGGACAA GTACTGAGCC TGTGAAGAAC
    AGCAGCCCAG CACCACCTCA GCCTGCTCCT GGCAAGGTGG AGTCTGGGGC TGGGGATGCA
    ATAGGCCTTG CTGACATCAC ACAACAGCTG AATCAAAGTG AATTGGCAGT GTTATTAAAC
    CTGCTGCAGA GCCAAACCGA CCTGAGCATC CCTCAAATGG CACAGCTGCT TAACATCCAC
    TCCAACCCAG AGATGCAGCA GCAGCTGGAA GCCCTGAACC AATCCATCAG TGCCCTGACG
    GAAGCTACTT CCCAGCAGCA GGACTCAGAG ACCATGGCCC CAGAGGAGTC TTTGAAGGAA
    GCACCCTCTG CCCCAGTGAT CCTGCCTTCA GCAGAACAGA CGACCCTTGA AGCTTCAAGC
    ACACCAGCTG ACATGCAGAA TATATTGGCA GTTCTCTTGA GTCAGCTGAT GAAAACCCAA
    GAGCCAGCAG GCAGTCTGGA GGAAAACAAC AGTGACAAGA ACAGTGGGCC ACAGGGGCCC
    CGAAGAACTC CCACAATGCC ACAGGAGGAG GCAGCAGCAT GTCCTCCTCA CATTCTTCCA
    CCAGAGAAGA GGCCCCCTGA GCCCCCCGGA CCTCCACCGC CGCCACCTCC ACCCCCTCTG
    GTTGAAGGCG ATCTTTCCAG CGCCCCCCAG GAGTTGAACC CAGCCGTGAC AGCCGCCTTG
    CTGCAACTTT TATCCCAGCC TGAAGCAGAG CCTCCTGGCC ACCTGCCACA TGAGCACCAG
    GCCTTGAGAC CAATGGAGTA CTCCACCCGA CCCCGTCCAA ACAGGACTTA TGGAAACACT
    GATGGGCCTG AAACAGGGTT CAGTGCCATT GACACTGATG AACGAAACTC TGGTCCAGCC
    TTGACAGAAT CCTTGGTCCA GACCCTGGTG AAGAACAGGA CCTTCTCAGG CTCTCTGAGC
    CACCTTGGGG AGTCCAGCAG TTACCAGGGC ACAGGGTCAG TGCAGTTTCC AGGGGACCAG
    GACCTCCGTT TTGCCAGGGT CCCCTTAGCG TTACACCCGG TGGTCGGGCA ACCATTCCTG
    AAGGCTGAGG GAAGCAGCAA TTCTGTGGTA CATGCAGAGA CCAAATTGCA AAACTATGGG
    GAGCTGGGGC CAGGAACCAC TGGGGCCAGC AGCTCAGGAG CAGGCCTTCA CTGGGGGGGC
    CCAACTCAGT CTTCTGCTTA TGGAAAACTC TATCGGGGGC CTACAAGAGT CCCACCAAGA
    GGGGGAAGAG GGAGAGGAGT TCCTTACTAA

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

    CloneID OHu68142
    Clone ID Related Accession (Same CDS sequence) XM_011524892.2
    Accession Version XM_011524892.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4395bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524892.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGCC GACTTTGTGG TAGCCCTTGT CCAGCTGTGT GGCCTGATGT TATCAAACTG
    CCCTACTTCA ACACCATGAA ACCGAAGAAG CAATATCGAA GGCGTCTACG AGAAGAATTC
    TCTTTCATTC CTTCTGCAGC ACTTGATTTA TTGGACCACA TGCTGACACT AGATCCTAGT
    AAGCGGTGCA CAGCTGAACA GACCCTACAG AGCGACTTCC TTAAAGATGT CGAACTCAGC
    AAAATGGCTC CTCCAGACCT CCCCCACTGG CAGGATTGCC ATGAGTTGTG GAGTAAGAAA
    CGGCGACGTC AGCGACAAAG TGGTGTTGTA GTCGAAGAGC CACCTCCATC CAAAACTTCT
    CGAAAAGAAA CTACCTCAGG GACAAGTACT GAGCCTGTGA AGAACAGCAG CCCAGCACCA
    CCTCAGCCTG CTCCTGGCAA GGTGGAGTCT GGGGCTGGGG ATGCAATAGG CCTTGCTGAC
    ATCACACAAC AGCTGAATCA AAGTGAATTG GCAGTGTTAT TAAACCTGCT GCAGAGCCAA
    ACCGACCTGA GCATCCCTCA AATGGCACAG CTGCTTAACA TCCACTCCAA CCCAGAGATG
    CAGCAGCAGC TGGAAGCCCT GAACCAATCC ATCAGTGCCC TGACGGAAGC TACTTCCCAG
    CAGCAGGACT CAGAGACCAT GGCCCCAGAG GAGTCTTTGA AGGAAGCACC CTCTGCCCCA
    GTGATCCTGC CTTCAGCAGA ACAGACGACC CTTGAAGCTT CAAGCACACC AGCTGACATG
    CAGAATATAT TGGCAGTTCT CTTGAGTCAG CTGATGAAAA CCCAAGAGCC AGCAGGCAGT
    CTGGAGGAAA ACAACAGTGA CAAGAACAGT GGGCCACAGG GGCCCCGAAG AACTCCCACA
    ATGCCACAGG AGGAGGCAGC AGCATGTCCT CCTCACATTC TTCCACCAGA GAAGAGGCCC
    CCTGAGCCCC CCGGACCTCC ACCGCCGCCA CCTCCACCCC CTCTGGTTGA AGGCGATCTT
    TCCAGCGCCC CCCAGGAGTT GAACCCAGCC GTGACAGCCG CCTTGCTGCA ACTTTTATCC
    CAGCCTGAAG CAGAGCCTCC TGGCCACCTG CCACATGAGC ACCAGGCCTT GAGACCAATG
    GAGTACTCCA CCCGACCCCG TCCAAACAGG ACTTATGGAA ACACTGATGG GCCTGAAACA
    GGGTTCAGTG CCATTGACAC TGATGAACGA AACTCTGGTC CAGCCTTGAC AGAATCCTTG
    GTCCAGACCC TGGTGAAGAA CAGGACCTTC TCAGGCTCTC TGAGCCACCT TGGGGAGTCC
    AGCAGTTACC AGGGCACAGG GTCAGTGCAG TTTCCAGGGG ACCAGGACCT CCGTTTTGCC
    AGGGTCCCCT TAGCGTTACA CCCGGTGGTC GGGCAACCAT TCCTGAAGGC TGAGGGAAGC
    AGCAATTCTG TGGTACATGC AGAGACCAAA TTGCAAAACT ATGGGGAGCT GGGGCCAGGA
    ACCACTGGGG CCAGCAGCTC AGGAGCAGGC CTTCACTGGG GGGGCCCAAC TCAGTCTTCT
    GCTTATGGAA AACTCTATCG GGGGCCTACA AGAGTCCCAC CAAGAGGGGG AAGAGGGAGA
    GGAGTTCCTT ACTAA

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

    RefSeq XP_011523194.1
    CDS587..4981
    Translation

    Target ORF information:

    RefSeq Version XM_011524892.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524892.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGCC GACTTTGTGG TAGCCCTTGT CCAGCTGTGT GGCCTGATGT TATCAAACTG
    CCCTACTTCA ACACCATGAA ACCGAAGAAG CAATATCGAA GGCGTCTACG AGAAGAATTC
    TCTTTCATTC CTTCTGCAGC ACTTGATTTA TTGGACCACA TGCTGACACT AGATCCTAGT
    AAGCGGTGCA CAGCTGAACA GACCCTACAG AGCGACTTCC TTAAAGATGT CGAACTCAGC
    AAAATGGCTC CTCCAGACCT CCCCCACTGG CAGGATTGCC ATGAGTTGTG GAGTAAGAAA
    CGGCGACGTC AGCGACAAAG TGGTGTTGTA GTCGAAGAGC CACCTCCATC CAAAACTTCT
    CGAAAAGAAA CTACCTCAGG GACAAGTACT GAGCCTGTGA AGAACAGCAG CCCAGCACCA
    CCTCAGCCTG CTCCTGGCAA GGTGGAGTCT GGGGCTGGGG ATGCAATAGG CCTTGCTGAC
    ATCACACAAC AGCTGAATCA AAGTGAATTG GCAGTGTTAT TAAACCTGCT GCAGAGCCAA
    ACCGACCTGA GCATCCCTCA AATGGCACAG CTGCTTAACA TCCACTCCAA CCCAGAGATG
    CAGCAGCAGC TGGAAGCCCT GAACCAATCC ATCAGTGCCC TGACGGAAGC TACTTCCCAG
    CAGCAGGACT CAGAGACCAT GGCCCCAGAG GAGTCTTTGA AGGAAGCACC CTCTGCCCCA
    GTGATCCTGC CTTCAGCAGA ACAGACGACC CTTGAAGCTT CAAGCACACC AGCTGACATG
    CAGAATATAT TGGCAGTTCT CTTGAGTCAG CTGATGAAAA CCCAAGAGCC AGCAGGCAGT
    CTGGAGGAAA ACAACAGTGA CAAGAACAGT GGGCCACAGG GGCCCCGAAG AACTCCCACA
    ATGCCACAGG AGGAGGCAGC AGCATGTCCT CCTCACATTC TTCCACCAGA GAAGAGGCCC
    CCTGAGCCCC CCGGACCTCC ACCGCCGCCA CCTCCACCCC CTCTGGTTGA AGGCGATCTT
    TCCAGCGCCC CCCAGGAGTT GAACCCAGCC GTGACAGCCG CCTTGCTGCA ACTTTTATCC
    CAGCCTGAAG CAGAGCCTCC TGGCCACCTG CCACATGAGC ACCAGGCCTT GAGACCAATG
    GAGTACTCCA CCCGACCCCG TCCAAACAGG ACTTATGGAA ACACTGATGG GCCTGAAACA
    GGGTTCAGTG CCATTGACAC TGATGAACGA AACTCTGGTC CAGCCTTGAC AGAATCCTTG
    GTCCAGACCC TGGTGAAGAA CAGGACCTTC TCAGGCTCTC TGAGCCACCT TGGGGAGTCC
    AGCAGTTACC AGGGCACAGG GTCAGTGCAG TTTCCAGGGG ACCAGGACCT CCGTTTTGCC
    AGGGTCCCCT TAGCGTTACA CCCGGTGGTC GGGCAACCAT TCCTGAAGGC TGAGGGAAGC
    AGCAATTCTG TGGTACATGC AGAGACCAAA TTGCAAAACT ATGGGGAGCT GGGGCCAGGA
    ACCACTGGGG CCAGCAGCTC AGGAGCAGGC CTTCACTGGG GGGGCCCAAC TCAGTCTTCT
    GCTTATGGAA AACTCTATCG GGGGCCTACA AGAGTCCCAC CAAGAGGGGG AAGAGGGAGA
    GGAGTTCCTT ACTAA

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_011524893.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524893.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_011523195.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_011524893.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524893.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_011524897.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524897.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_011523199.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_011524897.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524897.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_011524898.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524898.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_011523200.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_011524898.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524898.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_011524899.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524899.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_011523201.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_011524899.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524899.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_011524900.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524900.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_011523202.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_011524900.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524900.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_011524905.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524905.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_011523207.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_011524905.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524905.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_011524896.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524896.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_011523198.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_011524896.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524896.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_024450801.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_024306569.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_024450801.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024450801.1

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_017024749.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_016880238.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_017024749.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024749.1

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_017024746.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_016880235.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_017024746.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin-dependent kinase 12 (CDK12), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024746.1

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_017024747.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_016880236.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_017024747.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024747.1

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_017024744.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_016880233.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_017024744.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin-dependent kinase 12 (CDK12), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024744.1

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_011524895.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524895.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_011523197.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_011524895.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524895.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_011524903.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524903.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_011523205.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_011524903.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524903.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_011524906.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524906.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_011523208.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_011524906.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X19, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524906.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_017024745.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_016880234.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_017024745.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin-dependent kinase 12 (CDK12), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024745.1

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_011524894.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524894.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_011523196.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_011524894.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524894.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_011524902.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524902.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_011523204.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_011524902.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524902.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_011524901.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524901.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_011523203.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_011524901.2
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524901.2

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    CloneID OHu68143
    Clone ID Related Accession (Same CDS sequence) XM_011524893.2 , XM_011524897.2 , XM_011524898.2 , XM_011524899.2 , XM_011524900.2 , XM_011524905.2 , XM_011524896.2 , XM_024450801.1 , XM_017024749.1 , XM_017024746.1 , XM_017024747.1 , XM_017024744.1 , XM_011524895.2 , XM_011524903.2 , XM_011524906.2 , XM_017024745.1 , XM_011524894.2 , XM_011524902.2 , XM_011524901.2 , XM_017024748.1
    Accession Version XM_017024748.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product cyclin-dependent kinase 12 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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

    RefSeq XP_016880237.1
    CDS587..4768
    Translation

    Target ORF information:

    RefSeq Version XM_017024748.1
    Organism Homo sapiens(human)
    Definition Homo sapiens cyclin dependent kinase 12 (CDK12), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024748.1

    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
    ATGCCCAATT CAGAGAGACA TGGGGGCAAG AAGGACGGGA GTGGAGGAGC TTCTGGAACT 
    TTGCAGCCGT CATCGGGAGG CGGCAGCTCT AACAGCAGAG AGCGTCACCG CTTGGTATCG
    AAGCACAAGC GGCATAAGTC CAAACACTCC AAAGACATGG GGTTGGTGAC CCCCGAAGCA
    GCATCCCTGG GCACAGTTAT CAAACCTTTG GTGGAGTATG ATGATATCAG CTCTGATTCC
    GACACCTTCT CCGATGACAT GGCCTTCAAA CTAGACCGAA GGGAGAACGA CGAACGTCGT
    GGATCAGATC GGAGCGACCG CCTGCACAAA CATCGTCACC ACCAGCACAG GCGTTCCCGG
    GACTTACTAA AAGCTAAACA GACCGAAAAA GAAAAAAGCC AAGAAGTCTC CAGCAAGTCG
    GGATCGATGA AGGACCGGAT ATCGGGAAGT TCAAAGCGTT CGAATGAGGA GACTGATGAC
    TATGGGAAGG CGCAGGTAGC CAAAAGCAGC AGCAAGGAAT CCAGGTCATC CAAGCTCCAC
    AAGGAGAAGA CCAGGAAAGA ACGGGAGCTG AAGTCTGGGC ACAAAGACCG GAGTAAAAGT
    CATCGAAAAA GGGAAACACC CAAAAGTTAC AAAACAGTGG ACAGCCCAAA ACGGAGATCC
    AGGAGCCCCC ACAGGAAGTG GTCTGACAGC TCCAAACAAG ATGATAGCCC CTCGGGAGCT
    TCTTATGGCC AAGATTATGA CCTTAGTCCC TCACGATCTC ATACCTCGAG CAATTATGAC
    TCCTACAAGA AAAGTCCTGG AAGTACCTCG AGAAGGCAGT CGGTCAGTCC CCCTTACAAG
    GAGCCTTCGG CCTACCAGTC CAGCACCCGG TCACCGAGCC CCTACAGTAG GCGACAGAGA
    TCTGTCAGTC CCTATAGCAG GAGACGGTCG TCCAGCTACG AAAGAAGTGG CTCTTACAGC
    GGGCGATCGC CCAGTCCCTA TGGTCGAAGG CGGTCCAGCA GCCCTTTCCT GAGCAAGCGG
    TCTCTGAGTC GGAGTCCACT CCCCAGTAGG AAATCCATGA AGTCCAGAAG TAGAAGTCCT
    GCATATTCAA GACATTCATC TTCTCATAGT AAAAAGAAGA GATCCAGTTC ACGCAGTCGT
    CATTCCAGTA TCTCACCTGT CAGGCTTCCA CTTAATTCCA GTCTGGGAGC TGAACTCAGT
    AGGAAAAAGA AGGAAAGAGC AGCTGCTGCT GCTGCAGCAA AGATGGATGG AAAGGAGTCC
    AAGGGTTCAC CTGTATTTTT GCCTAGAAAA GAGAACAGTT CAGTAGAGGC TAAGGATTCA
    GGTTTGGAGT CTAAAAAGTT ACCCAGAAGT GTAAAATTGG AAAAATCTGC CCCAGATACT
    GAACTGGTGA ATGTAACACA TCTAAACACA GAGGTAAAAA ATTCTTCAGA TACAGGGAAA
    GTAAAGTTGG ATGAGAACTC CGAGAAGCAT CTTGTTAAAG ATTTGAAAGC ACAGGGAACA
    AGAGACTCTA AACCCATAGC ACTGAAAGAG GAGATTGTTA CTCCAAAGGA GACAGAAACA
    TCAGAAAAGG AGACCCCTCC ACCTCTTCCC ACAATTGCTT CTCCCCCACC CCCTCTACCA
    ACTACTACCC CTCCACCTCA GACACCCCCT TTGCCACCTT TGCCTCCAAT ACCAGCTCTT
    CCACAGCAAC CACCTCTGCC TCCTTCTCAG CCAGCATTTA GTCAGGTTCC TGCTTCCAGT
    ACTTCAACTT TGCCCCCTTC TACTCACTCA AAGACATCTG CTGTGTCCTC TCAGGCAAAT
    TCTCAGCCCC CTGTACAGGT TTCTGTGAAG ACTCAAGTAT CTGTAACAGC TGCTATTCCA
    CACCTGAAAA CTTCAACGTT GCCTCCTTTG CCCCTCCCAC CCTTATTACC TGGAGATGAT
    GACATGGATA GTCCAAAAGA AACTCTTCCT TCAAAACCTG TGAAGAAAGA GAAGGAACAG
    AGGACACGTC ACTTACTCAC AGACCTTCCT CTCCCTCCAG AGCTCCCTGG TGGAGATCTG
    TCTCCCCCAG ACTCTCCAGA ACCAAAGGCA ATCACACCAC CTCAGCAACC ATATAAAAAG
    AGACCAAAAA TTTGTTGTCC TCGTTATGGA GAAAGAAGAC AAACAGAAAG CGACTGGGGG
    AAACGCTGTG TGGACAAGTT TGACATTATT GGGATTATTG GAGAAGGAAC CTATGGCCAA
    GTATATAAAG CCAAGGACAA AGACACAGGA GAACTAGTGG CTCTGAAGAA GGTGAGACTA
    GACAATGAGA AAGAGGGCTT CCCAATCACA GCCATTCGTG AAATCAAAAT CCTTCGTCAG
    TTAATCCACC GAAGTGTTGT TAACATGAAG GAAATTGTCA CAGATAAACA AGATGCACTG
    GATTTCAAGA AGGACAAAGG TGCCTTTTAC CTTGTATTTG AGTATATGGA CCATGACTTA
    ATGGGACTGC TAGAATCTGG TTTGGTGCAC TTTTCTGAGG ACCATATCAA GTCGTTCATG
    AAACAGCTAA TGGAAGGATT GGAATACTGT CACAAAAAGA ATTTCCTGCA TCGGGATATT
    AAGTGTTCTA ACATTTTGCT GAATAACAGT GGGCAAATCA AACTAGCAGA TTTTGGACTT
    GCTCGGCTCT ATAACTCTGA AGAGAGTCGC CCTTACACAA ACAAAGTCAT TACTTTGTGG
    TACCGACCTC CAGAACTACT GCTAGGAGAG GAACGTTACA CACCAGCCAT AGATGTTTGG
    AGCTGTGGAT GTATTCTTGG GGAACTATTC ACAAAGAAGC CTATTTTTCA AGCCAATCTG
    GAACTGGCTC AGCTAGAACT GATCAGCCGA CTTTGTGGTA GCCCTTGTCC AGCTGTGTGG
    CCTGATGTTA TCAAACTGCC CTACTTCAAC ACCATGAAAC CGAAGAAGCA ATATCGAAGG
    CGTCTACGAG AAGAATTCTC TTTCATTCCT TCTGCAGCAC TTGATTTATT GGACCACATG
    CTGACACTAG ATCCTAGTAA GCGGTGCACA GCTGAACAGA CCCTACAGAG CGACTTCCTT
    AAAGATGTCG AACTCAGCAA AATGGCTCCT CCAGACCTCC CCCACTGGCA GGATTGCCAT
    GAGTTGTGGA GTAAGAAACG GCGACGTCAG CGACAAAGTG GTGTTGTAGT CGAAGAGCCA
    CCTCCATCCA AAACTTCTCG AAAAGAAACT ACCTCAGGGA CAAGTACTGA GCCTGTGAAG
    AACAGCAGCC CAGCACCACC TCAGCCTGCT CCTGGCAAGG TGGAGTCTGG GGCTGGGGAT
    GCAATAGGCC TTGCTGACAT CACACAACAG CTGAATCAAA GTGAATTGGC AGTGTTATTA
    AACCTGCTGC AGAGCCAAAC CGACCTGAGC ATCCCTCAAA TGGCACAGCT GCTTAACATC
    CACTCCAACC CAGAGATGCA GCAGCAGCTG GAAGCCCTGA ACCAATCCAT CAGTGCCCTG
    ACGGAAGCTA CTTCCCAGCA GCAGGACTCA GAGACCATGG CCCCAGAGGA GTCTTTGAAG
    GAAGCACCCT CTGCCCCAGT GATCCTGCCT TCAGCAGAAC AGACGACCCT TGAAGCTTCA
    AGCACACCAG CTGACATGCA GAATATATTG GCAGTTCTCT TGAGTCAGCT GATGAAAACC
    CAAGAGCCAG CAGGCAGTCT GGAGGAAAAC AACAGTGACA AGAACAGTGG GCCACAGGGG
    CCCCGAAGAA CTCCCACAAT GCCACAGGAG GAGGCAGCAG CATGTCCTCC TCACATTCTT
    CCACCAGAGA AGAGGCCCCC TGAGCCCCCC GGACCTCCAC CGCCGCCACC TCCACCCCCT
    CTGGTTGAAG GCGATCTTTC CAGCGCCCCC CAGGAGTTGA ACCCAGCCGT GACAGCCGCC
    TTGCTGCAAC TTTTATCCCA GCCTGAAGCA GAGCCTCCTG GCCACCTGCC ACATGAGCAC
    CAGGCCTTGA GACCAATGGA GTACTCCACC CGACCCCGTC CAAACAGGAC TTATGGAAAC
    ACTGATGGGC CTGAAACAGG GTTCAGTGCC ATTGACACTG ATGAACGAAA CTCTGGTCCA
    GCCTTGACAG AATCCTTGGT CCAGACCCTG GTGAAGAACA GGACCTTCTC AGGCTCTCTG
    AGCCACCTTG GGGAGTCCAG CAGTTACCAG GGCACAGGGT AG

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