Dctn1 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Dctn1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Dctn1 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
ORa06781 NM_024130.1
Latest version!
Rattus norvegicus dynactin subunit 1 (Dctn1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $944.30
$1349.00

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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 ORa06781
    Clone ID Related Accession (Same CDS sequence) NM_024130.1
    Accession Version NM_024130.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3843bp)
    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 2019-12-24
    Organism Rattus norvegicus(Norway rat)
    Product dynactin subunit 1
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from X62160.1. 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 :: X62160.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMD00052296, SAMD00052297 [ECO:0000348] ##Evidence-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
    ATGGCCCAGA GCAAGAGGCA CATGTACAAT CGGACGCCCA GTGGCAGCAG GATGAGTACG 
    GAGGCAAGCG CCCGGCCCCT GCGGGTCGGC TCCCGTGTGG AGGTGATTGG GAAGGGCCAC
    CGTGGTACTG TGGCCTATGT TGGAGCTACA CTCTTTGCCA CTGGCAAGTG GGTGGGCGTG
    ATCCTGGATG AAGCAAAAGG CAAGAACGAT GGTACCGTTC AGGGAAGGAA GTATTTCACA
    TGCGATGAAG GCCACGGCAT CTTTGTACGC CAATCCCAGA TCCAAGTATT TGAAGATGGA
    GCAGATACTA CTTCCCCAGA GACTCCTGAT TCTTCTGCTT CAAAGATCCT CAAGAGAGAG
    GGAGCTGATG CAGCTGCAAA GACCAGCAAA CTGCGGGGAC TGAAGCCTAA GAAGGCACCG
    ACAGCCCGAA AGACCACAAC TCGACGGCCC AAGCCTACTC GCCCAGCCAG TACTGGGGTG
    GCTGGGCCCA GTAGCTCCTT GGGCCCCTCT GGATCAGCAT CAGCCGGTGA ACTGAGCAGC
    AGTGAGCCCA GCACCCCAGC TCAGACTCCG CTGGCAGCAC CCATCATCCC CACACCGGCC
    CTCACCTCTC CTGGAGCAGC ACCCCCACTT CCTTCTCCCT CTAAGGAAGA GGAAGGGCTG
    AGGGACCAGG TACGGGACCT GGAGGAGAAG CTGGAGACCT TGCGTCTGAA ACGCTCAGAA
    GACAAAGCAA AGCTGAAGGA GCTGGAGAAG CACAAGATCC AGCTGGAGCA GGTGCAGGAA
    TGGAAGAGCA AAATGCAGGA GCAGCAGGCG GACCTGCAGC GGCGCCTCAA GGAGGCGAAG
    GAAGCCAAGG AGGCACTGGA GGCAAAGGAG CGCTACATGG AGGAGATGGC AGACACAGCC
    GACGCCATCG AGATGGCCAC TCTGGACAAG GAGATGGCCG AGGAGCGGGC CGAGTCCCTG
    CAGCAGGAGG TGGAGGCACT GAAGGAACGA GTAGACGAAC TCACCACAGA CTTGGAGATC
    CTCAAGGCTG AAATTGAAGA GAAAGGCTCT GATGGGGCTG CGTCCAGCTA CCAGCTCAAA
    CAGCTGGAGG AGCAGAATGC CCGCCTGAAG GACGCCCTGG TGAGGATGCG AGATCTCTCT
    TCCTCAGAGA AGCAGGAGCA TGTGAAGCTC CAGAAGCTCA TGGAAAAGAA GAACCAGGAG
    CTGGAGGTTG TGAGGCAGCA GCGTGAGCGT CTTCAGGAGG AACTGAGCCA GGCAGAGAGC
    ACCATCGATG AGCTCAAAGA GCAGGTGGAC GCTGCTCTGG GAGCTGAGGA GATGGTGGAG
    ATGCTGACTG ACCGGAACCT GAATCTGGAG GAGAAAGTGC GAGAATTACG GGAGACTGTG
    GGGGACTTGG AAGCGATGAA TGAGATGAAT GACGAGCTGC AGGAGAACGC ACGCGAGACA
    GAACTGGAGC TGCGTGAGCA GCTGGACATG GCAGGCGCCC GAGTAAGGGA GGCCCAGAAG
    CGAGTGGAAG CCGCCCAGGA GACGGTCGCC GACTACCAGC AGACCATCAA GAAGTACCGC
    CAGTTGACTG CCCACCTACA GGATGTCAAT CGGGAGCTGA CCAACCAGCA GGAAGCGTCT
    GTGGAGAGAC AGCAGCAGCC ACCGCCAGAG ACTTTTGATT TCAAAATCAA GTTTGCTGAG
    ACCAAGGCTC ATGCCAAGGC GATCGAGATG GAGTTGAGGC AGATGGAAGT TGCCCAGGCC
    AACCGGCACA TGTCCCTGCT GACGGCCTTT ATGCCTGACA GCTTCCTTCG GCCAGGGGGA
    GACCATGACT GTGTCCTGGT GCTGCTGCTC ATGCCCCGAC TCATCTGCAA GGCAGAGCTC
    ATCCGGAAGC AGGCCCAGGA GAAGTTTGAC CTGAGTGAGA ACTGTTCGGA GCGGCCTGGG
    CTGCGAGGGG CTGCTGGGGA GCAGCTAAGC TTTGCCGCCG GGCTGGTGTA CTCGCTGAGT
    CTGCTGCAGG CCACACTGCA CCGCTACGAG CATGCCCTCT CTCAGTGCAG CGTGGACGTG
    TACAAGAAGG TAGGCAGCCT GTACCCGGAG ATGAGTGCCC ACGAGCGCTC CTTAGATTTC
    CTCATCGAGC TGCTGCACAA GGATCAGCTG GACGAGACTG TCAACGTGGA GCCCCTCACC
    AAGGCCATCA AGTACTACCA GCATCTGTAC AGCATCCACC TCGCTGAGCA GCCCGAGGAG
    TCCACCATGC AGCTGGCTGA CCACATCAAG TTCACCCAGA GTGCCCTGGA TTGTATGAGC
    GTGGAGGTGG GGCGGCTGCG TGCCTTCTTG CAGGGTGGGC AGGAGGCAAC AGATATTGCT
    CTTCTTCTGC GAGACCTGGA AACATCCTGC AGTGACATCC GTCAGTTCTG CAAGAAGATC
    CGACGGCGAA TGCCAGGGAC GGATGCTCCT GGGATCCCAG CAGCGCTGGC CTTCGGCTCA
    CAGGTGTCTG ACACACTCCT GGACTGCAGG AAGCACCTGA CGTGGGTGGT AGCTGTTCTG
    CAGGAGGTGG CAGCTGCAGC CGCCCAGCTC ATCGCCCCCT TGGCAGAGAA CGAGGGGCTG
    CCCGTGGCTG CACTGGAGGA GCTGGCTTTC AAAGCAAGCG AGCAGATCTA CGGGAGCCCC
    TCCAGCAGCC CCTACGAATG TCTGCGCCAG TCATGCTCCA TCCTCATCAG CACGATGAAC
    AAGTTGGCCA CAGCCATGCA GGAAGGCGAG TATGACGCAG AGCGGCCCCC GAGCAAGCCT
    CCTCCAGTTG AACCTTGGCC TGCAGCACTG CGTGCAGAGA TCACAGATGC TGAAGGTCTG
    GGTTTGAAGC TTGAGGATCG AGAGACAGTC ATCAAGGAGT TAAAGAAGTC ACTCAAGATT
    AAGGGAGAGG AGCTGAGTGA GGCCAACGTG CGGCTGAGCC TCCTGGAGAA GAAGCTGGAC
    AGCGCTGCCA AGGATGCTGA TGAGCGAATC GAGAAAGTTC AGACTCGGCT GGAGGAGACG
    CAGACCCTGC TACGGAAGAA GGAGAAAGAG TTTGAGGAGA CAATGGATGC ACTCCAGGCT
    GACATAGACC AGCTGGAGGC AGAGAAGACA GAGCTCAAGC AGCGCCTGAA CAGCCAGTCC
    AAGCGCACTA TTGAGGGACT CCGGGGCCCC CCTCCATCAG GCATTGCTAC CCTGGTCTCT
    GGCATTGCTG GTGAGGAACA ACAGCGAGGG GGCACTCCTG GGCAGGCTCC AGGCGCCTTG
    CCAGGCCCGG GGCCGGTGAA GGACTCACCA CTGCTGCTTC AGCAGATCTC TGCCATGAGG
    TTACACATCT CTCAGCTCCA GCATGAGAAC AGCATCCTCA GAGGAGCCCA GATGAAGGCG
    TCCTTGGCAG CTCTGCCCCC TCTGCATGTT GCAAAGTTTT CCCTCCCACC CCATGAGGGC
    CCTGGTGGTA ACCTCCTGTC TGGGGCACTG TATCGCAAGA CCAGCCAGCT GTTGGAGAAA
    CTAAACCAAC TGAGCACTTA CACCCACGTA GTAGACATCA CCCGAAGCAG CCCGGCCTGC
    AAGAGCCCAT CCGCTCAGCT TATGGAACAA GTGGCCCAGC TCAAGTCTCT GAGCGACACC
    ATCGAGAAGC TCAAGGATGA GGTCCTCAAG GAGACAGTAA CTCAGCGTCC TGGAGCTACT
    GTTCCCACTG ACTTTGCCAC CTTCCCTTCA TCTGCCTTCC TGAGGGCCAA GGAAGAGCAG
    CAAGACGACA CAGTCTACAT GGGCAAAGTG ACCTTCTCGT GTGCGGCAGG CCTCGGACAG
    CGACACCGCC TGGTGCTGAC CCAGGAGCAG CTGCACCAGC TTCACGGTCG TCTCATCTCC
    TAA

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

    RefSeq NP_077044.1
    CDS270..4112
    Translation

    Target ORF information:

    RefSeq Version NM_024130.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus dynactin subunit 1 (Dctn1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_024130.1

    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
    ATGGCCCAGA GCAAGAGGCA CATGTACAAT CGGACGCCCA GTGGCAGCAG GATGAGTACG 
    GAGGCAAGCG CCCGGCCCCT GCGGGTCGGC TCCCGTGTGG AGGTGATTGG GAAGGGCCAC
    CGTGGTACTG TGGCCTATGT TGGAGCTACA CTCTTTGCCA CTGGCAAGTG GGTGGGCGTG
    ATCCTGGATG AAGCAAAAGG CAAGAACGAT GGTACCGTTC AGGGAAGGAA GTATTTCACA
    TGCGATGAAG GCCACGGCAT CTTTGTACGC CAATCCCAGA TCCAAGTATT TGAAGATGGA
    GCAGATACTA CTTCCCCAGA GACTCCTGAT TCTTCTGCTT CAAAGATCCT CAAGAGAGAG
    GGAGCTGATG CAGCTGCAAA GACCAGCAAA CTGCGGGGAC TGAAGCCTAA GAAGGCACCG
    ACAGCCCGAA AGACCACAAC TCGACGGCCC AAGCCTACTC GCCCAGCCAG TACTGGGGTG
    GCTGGGCCCA GTAGCTCCTT GGGCCCCTCT GGATCAGCAT CAGCCGGTGA ACTGAGCAGC
    AGTGAGCCCA GCACCCCAGC TCAGACTCCG CTGGCAGCAC CCATCATCCC CACACCGGCC
    CTCACCTCTC CTGGAGCAGC ACCCCCACTT CCTTCTCCCT CTAAGGAAGA GGAAGGGCTG
    AGGGACCAGG TACGGGACCT GGAGGAGAAG CTGGAGACCT TGCGTCTGAA ACGCTCAGAA
    GACAAAGCAA AGCTGAAGGA GCTGGAGAAG CACAAGATCC AGCTGGAGCA GGTGCAGGAA
    TGGAAGAGCA AAATGCAGGA GCAGCAGGCG GACCTGCAGC GGCGCCTCAA GGAGGCGAAG
    GAAGCCAAGG AGGCACTGGA GGCAAAGGAG CGCTACATGG AGGAGATGGC AGACACAGCC
    GACGCCATCG AGATGGCCAC TCTGGACAAG GAGATGGCCG AGGAGCGGGC CGAGTCCCTG
    CAGCAGGAGG TGGAGGCACT GAAGGAACGA GTAGACGAAC TCACCACAGA CTTGGAGATC
    CTCAAGGCTG AAATTGAAGA GAAAGGCTCT GATGGGGCTG CGTCCAGCTA CCAGCTCAAA
    CAGCTGGAGG AGCAGAATGC CCGCCTGAAG GACGCCCTGG TGAGGATGCG AGATCTCTCT
    TCCTCAGAGA AGCAGGAGCA TGTGAAGCTC CAGAAGCTCA TGGAAAAGAA GAACCAGGAG
    CTGGAGGTTG TGAGGCAGCA GCGTGAGCGT CTTCAGGAGG AACTGAGCCA GGCAGAGAGC
    ACCATCGATG AGCTCAAAGA GCAGGTGGAC GCTGCTCTGG GAGCTGAGGA GATGGTGGAG
    ATGCTGACTG ACCGGAACCT GAATCTGGAG GAGAAAGTGC GAGAATTACG GGAGACTGTG
    GGGGACTTGG AAGCGATGAA TGAGATGAAT GACGAGCTGC AGGAGAACGC ACGCGAGACA
    GAACTGGAGC TGCGTGAGCA GCTGGACATG GCAGGCGCCC GAGTAAGGGA GGCCCAGAAG
    CGAGTGGAAG CCGCCCAGGA GACGGTCGCC GACTACCAGC AGACCATCAA GAAGTACCGC
    CAGTTGACTG CCCACCTACA GGATGTCAAT CGGGAGCTGA CCAACCAGCA GGAAGCGTCT
    GTGGAGAGAC AGCAGCAGCC ACCGCCAGAG ACTTTTGATT TCAAAATCAA GTTTGCTGAG
    ACCAAGGCTC ATGCCAAGGC GATCGAGATG GAGTTGAGGC AGATGGAAGT TGCCCAGGCC
    AACCGGCACA TGTCCCTGCT GACGGCCTTT ATGCCTGACA GCTTCCTTCG GCCAGGGGGA
    GACCATGACT GTGTCCTGGT GCTGCTGCTC ATGCCCCGAC TCATCTGCAA GGCAGAGCTC
    ATCCGGAAGC AGGCCCAGGA GAAGTTTGAC CTGAGTGAGA ACTGTTCGGA GCGGCCTGGG
    CTGCGAGGGG CTGCTGGGGA GCAGCTAAGC TTTGCCGCCG GGCTGGTGTA CTCGCTGAGT
    CTGCTGCAGG CCACACTGCA CCGCTACGAG CATGCCCTCT CTCAGTGCAG CGTGGACGTG
    TACAAGAAGG TAGGCAGCCT GTACCCGGAG ATGAGTGCCC ACGAGCGCTC CTTAGATTTC
    CTCATCGAGC TGCTGCACAA GGATCAGCTG GACGAGACTG TCAACGTGGA GCCCCTCACC
    AAGGCCATCA AGTACTACCA GCATCTGTAC AGCATCCACC TCGCTGAGCA GCCCGAGGAG
    TCCACCATGC AGCTGGCTGA CCACATCAAG TTCACCCAGA GTGCCCTGGA TTGTATGAGC
    GTGGAGGTGG GGCGGCTGCG TGCCTTCTTG CAGGGTGGGC AGGAGGCAAC AGATATTGCT
    CTTCTTCTGC GAGACCTGGA AACATCCTGC AGTGACATCC GTCAGTTCTG CAAGAAGATC
    CGACGGCGAA TGCCAGGGAC GGATGCTCCT GGGATCCCAG CAGCGCTGGC CTTCGGCTCA
    CAGGTGTCTG ACACACTCCT GGACTGCAGG AAGCACCTGA CGTGGGTGGT AGCTGTTCTG
    CAGGAGGTGG CAGCTGCAGC CGCCCAGCTC ATCGCCCCCT TGGCAGAGAA CGAGGGGCTG
    CCCGTGGCTG CACTGGAGGA GCTGGCTTTC AAAGCAAGCG AGCAGATCTA CGGGAGCCCC
    TCCAGCAGCC CCTACGAATG TCTGCGCCAG TCATGCTCCA TCCTCATCAG CACGATGAAC
    AAGTTGGCCA CAGCCATGCA GGAAGGCGAG TATGACGCAG AGCGGCCCCC GAGCAAGCCT
    CCTCCAGTTG AACCTTGGCC TGCAGCACTG CGTGCAGAGA TCACAGATGC TGAAGGTCTG
    GGTTTGAAGC TTGAGGATCG AGAGACAGTC ATCAAGGAGT TAAAGAAGTC ACTCAAGATT
    AAGGGAGAGG AGCTGAGTGA GGCCAACGTG CGGCTGAGCC TCCTGGAGAA GAAGCTGGAC
    AGCGCTGCCA AGGATGCTGA TGAGCGAATC GAGAAAGTTC AGACTCGGCT GGAGGAGACG
    CAGACCCTGC TACGGAAGAA GGAGAAAGAG TTTGAGGAGA CAATGGATGC ACTCCAGGCT
    GACATAGACC AGCTGGAGGC AGAGAAGACA GAGCTCAAGC AGCGCCTGAA CAGCCAGTCC
    AAGCGCACTA TTGAGGGACT CCGGGGCCCC CCTCCATCAG GCATTGCTAC CCTGGTCTCT
    GGCATTGCTG GTGAGGAACA ACAGCGAGGG GGCACTCCTG GGCAGGCTCC AGGCGCCTTG
    CCAGGCCCGG GGCCGGTGAA GGACTCACCA CTGCTGCTTC AGCAGATCTC TGCCATGAGG
    TTACACATCT CTCAGCTCCA GCATGAGAAC AGCATCCTCA GAGGAGCCCA GATGAAGGCG
    TCCTTGGCAG CTCTGCCCCC TCTGCATGTT GCAAAGTTTT CCCTCCCACC CCATGAGGGC
    CCTGGTGGTA ACCTCCTGTC TGGGGCACTG TATCGCAAGA CCAGCCAGCT GTTGGAGAAA
    CTAAACCAAC TGAGCACTTA CACCCACGTA GTAGACATCA CCCGAAGCAG CCCGGCCTGC
    AAGAGCCCAT CCGCTCAGCT TATGGAACAA GTGGCCCAGC TCAAGTCTCT GAGCGACACC
    ATCGAGAAGC TCAAGGATGA GGTCCTCAAG GAGACAGTAA CTCAGCGTCC TGGAGCTACT
    GTTCCCACTG ACTTTGCCAC CTTCCCTTCA TCTGCCTTCC TGAGGGCCAA GGAAGAGCAG
    CAAGACGACA CAGTCTACAT GGGCAAAGTG ACCTTCTCGT GTGCGGCAGG CCTCGGACAG
    CGACACCGCC TGGTGCTGAC CCAGGAGCAG CTGCACCAGC TTCACGGTCG TCTCATCTCC
    TAA

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

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