ORF » Species Summary » Homo sapiens » DCDC1 cDNA ORF clone

DCDC1 cDNA ORF clone, Homo sapiens(human)

The following DCDC1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DCDC1 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
OHu32278 NM_181807.4
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$159.50-$223.30
$319.00
OHu106664 XM_024448489.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X22, mRNA. pcDNA3.1-C-(k)DYK or customized vector 9-11 $223.30
$319.00
OHu08003 NM_020869.3
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu106658 XM_024448483.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu106659 XM_024448484.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu106660 XM_024448485.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu106661 XM_024448486.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $307.30
$439.00
OHu106662 XM_024448487.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X19, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $307.30
$439.00
OHu106663 XM_024448488.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $307.30
$439.00
OHu102302 NM_001350255.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu106656 XM_024448481.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu106657 XM_024448482.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu107892 NM_001367979.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu106649 XM_024448472.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu106649 XM_024448473.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu106649 XM_024448470.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu106649 XM_024448471.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu106650 XM_024448475.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu106651 XM_024448476.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu106652 XM_024448477.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu106653 XM_024448478.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu106654 XM_024448479.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu106655 XM_024448480.1
Latest version!		 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
View Old Accession Versions >>
OHu32278 NM_181807.3 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK 		$159.50-$223.30
$319.00
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)
    DCDC1 ( NM_181807.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_861523.2 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu32278
    Clone ID Related Accession (Same CDS sequence) NM_181807.4 , NM_181807.3
    Accession Version NM_181807.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1065bp)
    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 2020-01-03
    Organism Homo sapiens(human)
    Product doublecortin domain-containing protein 1 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AY247970.1, AA846321.1 and AA954541.1. On Jun 2, 2019 this sequence version replaced NM_181807.3. ##Evidence-Data-START## Transcript exon combination :: AY247970.1 [ECO:0000332] ##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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGGAAAGC ACTGA

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

    RefSeq NP_861523.2
    CDS168..1232
    Translation

    Target ORF information:

    RefSeq Version NM_181807.4
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_181807.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGGAAAGC ACTGA

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

    DCDC1 ( NM_181807.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_861523.2 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu32278
    Clone ID Related Accession (Same CDS sequence) NM_181807.4 , NM_181807.3
    Accession Version NM_181807.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1065bp)
    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 2019-01-19
    Organism Homo sapiens(human)
    Product doublecortin domain-containing protein 1 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB090201.1, AY247970.1, AA846321.1 and AA954541.1. On Feb 26, 2011 this sequence version replaced NM_181807.2. ##Evidence-Data-START## Transcript exon combination :: AY247970.1 [ECO:0000332] ##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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGGAAAGC ACTGA

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

    RefSeq NP_861523.2
    CDS239..1303
    Translation

    Target ORF information:

    RefSeq Version NM_181807.3
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_181807.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGGAAAGC ACTGA

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

    DCDC1 ( XM_024448489.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304257.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X22, mRNA.
    Price & Availability↑
    CloneID OHu106664
    Clone ID Related Accession (Same CDS sequence) XM_024448489.1
    Accession Version XM_024448489.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1437bp)
    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 doublecortin domain-containing protein 1 isoform X17
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAACTCTGG 
    CTCAAAAAGT CTTTTGCTTA CTTCAAAAAC AAATACACAG CGAGGAGAAT ACATATTCAT 
    GTATGTGTAT GTTCATATGT GTGTGTACAT CTGATACTTT CTAAATATAT TCCATAG

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

    RefSeq XP_024304257.1
    CDS239..1675
    Translation

    Target ORF information:

    RefSeq Version XM_024448489.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X22, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448489.1

    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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAACTCTGG 
    CTCAAAAAGT CTTTTGCTTA CTTCAAAAAC AAATACACAG CGAGGAGAAT ACATATTCAT 
    GTATGTGTAT GTTCATATGT GTGTGTACAT CTGATACTTT CTAAATATAT TCCATAG

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

    DCDC1 ( NM_020869.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_065920.2 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant 3, mRNA.
    Price & Availability↑
    CloneID OHu08003
    Clone ID Related Accession (Same CDS sequence) NM_020869.3
    Accession Version NM_020869.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2673bp)
    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 2019-12-21
    Organism Homo sapiens(human)
    Product doublecortin domain-containing protein 1 isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BX647348.1, AL135932.7 and CV569749.1. On Feb 26, 2011 this sequence version replaced NM_020869.2. 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. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2155590, SAMEA2159912 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##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
    ATGTGGCCTG TCCTTCCCAG TGGCCAACTT AATGAGGAGT TTGATTGGCC AATACAAGGA 
    CTGCTTGTTC CGAGCAGTCC TCCCATGAAG AAACCCATCT GTAAGACAAC AGAGCCATAT 
    GCCCCTGTGC GACTCAGAGT TTTGCAGAAT GGAGAGAAGA ATAAAAACAG ATCCGTTACT 
    ATCCTTGGTC CAGATATCTC ACCTGGACGG AAAACGCAGT GCACTGAGAT TTTAAATTTA 
    CCTTCTGCAG CTCGGAGATT GTACAATGAA AAGGGGAAGG AAATATTTGC CTTAAAAGAC 
    CTGCAAAGAG ATGAACTGGT GTATGTTTCA TGTGGAGAAC TCTGGATCAA TCCTGACCTG 
    TCCATTGCTC AGCAAAAGAA ACAAATATTC CTGAGGAACC TAGAATCAGA CATTGCCAAA 
    ATTCAAATCT TCTGCAGCAC ACATAAAATA GAAGCTCTTG TTTTAGAAGT CCAAAGTGAC 
    ATTGTATCTG GAAGCAAGCT TGCTGTGCAT AAACCTGTAG CAATTTTTGG AGAAGAGAAG 
    CAAGTTACAG AACCGGAAGA AAAGCAAATG CAAGAAGATC CTCTAACAAC GGAAAATGCT 
    TCCAGTGAAA TTCTAGATTC ACACGTAAGA GCTCATCTTC GAATGAAGGC TTGTCACACA 
    CTTCCCAGGT ATGCCTGGCA GGAAACTTCA CATGACTTTG ATGAGGATGA CAGTCTTCCA 
    AAGAAAACGG AAAAAGGGCT CTTTGAAAAT GTGGAACCAC AGAAGAAACA CAGCTGTTCA 
    CCAAAGCATA GTAAATTGCA CAAGCATTGT CATCAGCAGT TCGAATACAG AGATGGGCAG 
    ATTATAAGCC ATGCTGCTCC TCAGCTAGTC TTGGGGGTTC AAGGTCCCAA TCTCCGATCA 
    GGCATGGAGG TGGTTTTGGT GGAGAAGAAA TCTGATGGTA GTCATCAGCG CTGGATACAC 
    CAGGAAGACA GCAGGACCTT TCACCTTGTG AGTAACCCTG ACCTTGTGCT GGCAGTGTCT 
    ATGACCAAGA CTAGAAATGA AGTTTGTGGC TATCCAGTTA TTGTTCAGAA ATATAAGCCG 
    TACAACAATG GAGCTGCCAA TCAAAAGTGG CATTACATGA AAAATATAAA AGCACTTGTG 
    GCCTTTCATA GCACTGCCTT GGATAAGGAA ATTACATCAG CAAATTATGC TGGTGTCTGT 
    ACATCATCTG TGATTAAAGA AGAAAACATT GATCAACCAG GATACTGTTA TCTCTCACCT 
    GATGGAAAGA GAAAAACTAT GCTCTGCTTG GCTTGTGGAC AATCCATGAG AACAGAGAAA 
    GGACTGAAAC AATTGCTTCC AGGGGTTCCA TTCCTCTGTA TTTCAGGCAC CAAGACTCAG 
    AAGCCCTTCT TACAAGGGCC CTTCAAGGTC ATCAGTGTGG CTGAGGTTGA TTTGTCGTGT 
    GACAAGGCTG AAAAAACTCT AAGTTACTAC CAAGCACGTC TATTGTCTTT ACGGATGAAG 
    ACCTGCACGC AAGCTGCATC TCACAGTGGC ATGGCAGCCA CACACCAGAA GGCAGTGAAA 
    ATAATTGCAT ACAAAAATGG GGATGGGTAT CGTAATGGGA AGTTAATTGT GGCTGGAACA 
    TTCCCCATGC TTCTTACAGA ATGCACGGAA CAACTTGGGC TTGCCAGAGC AGCCTCCAAA 
    GTATATACCA AAGATGGAAC CCCAATCTTT ACCTTGCGTG ATTTGGTTTT ATGGGCTCTA 
    GATGAATCCT TTCTCCAGAG AGACTCTGAG AAACAAAAGC AAGATGCAGC TCCTGTTGGA 
    AAAGAACAGA TAATTGTTGA AAAAAATCCA AGAATGAAAG TGAAAAACAG ATTATTTGCA 
    AAATCTGTGA CATCCGATAG TTTGGATGGT ATAGACAAGT CTTTGCTTAC CCTCATCCTC 
    AGAAATCCTA TTGCCATCTG GGTGTCTTGT GGTGAACCAT TTCTACCTCC AAATGCTTTG 
    CAGAAAGCAG AAAAATTAGA GAAACAGAAC TGGCTAAAAA AGGACAGAAT TTTGGCTGAT 
    CTAGATACCA TGAGACACAA AATGAGACAG TTAAAAGGGC GGCGAGTAGC GGCATGTCAG 
    CCAGCCACCA TGGTTCCTAC CAAGAGCCCT GTGCAGCCCG TGGTGGTTGA AGGAGGCTGG 
    ACCGAACAGA CTCAACAGGA AATTAAACTC ATGGAACTTA TAAGACATAC AGAGGCACAC 
    CTTTCTGAAA TCCAAGAAAT GGAATCCAAA ATAAATTTTC CAATTGCAAC CAAACGTATA 
    GCAGTCAAGC CGAGCAACCT GTATAAGCAG CCCAACACAA AACGAGTGTG GATTTATCTA 
    AATGGAGGCA GACCTGAAGA TGGCACTTAT GCCTGGGGCA AAACTATTTC AGAGCTGCTG 
    CAAGACTGCT CCTCTCGTCT CAAAATGACC CACCCAGCTA GAGCACTGTA CACCCCCAGT 
    GGAGAGCCAA TTCAGTCCTG GGACGACATA GAGCGAGATA TGGTCATCTG TGTGTCTATG 
    GGACATGGTT TCAAAACCCC AAAAGAGTTA AAACAACTGA TGGAGATCAG AGCAAATTAT 
    GCCAGAATCC GAAGGCAGCA GGGCCCTCAA GCCACAGACA TTGTGGTGTC ACCATCCACG 
    AAGCTGCTGT CTCTGGCACA TCTCCACAAT TAA

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

    RefSeq NP_065920.2
    CDS317..2989
    Translation

    Target ORF information:

    RefSeq Version NM_020869.3
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_020869.3

    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
    ATGTGGCCTG TCCTTCCCAG TGGCCAACTT AATGAGGAGT TTGATTGGCC AATACAAGGA 
    CTGCTTGTTC CGAGCAGTCC TCCCATGAAG AAACCCATCT GTAAGACAAC AGAGCCATAT 
    GCCCCTGTGC GACTCAGAGT TTTGCAGAAT GGAGAGAAGA ATAAAAACAG ATCCGTTACT 
    ATCCTTGGTC CAGATATCTC ACCTGGACGG AAAACGCAGT GCACTGAGAT TTTAAATTTA 
    CCTTCTGCAG CTCGGAGATT GTACAATGAA AAGGGGAAGG AAATATTTGC CTTAAAAGAC 
    CTGCAAAGAG ATGAACTGGT GTATGTTTCA TGTGGAGAAC TCTGGATCAA TCCTGACCTG 
    TCCATTGCTC AGCAAAAGAA ACAAATATTC CTGAGGAACC TAGAATCAGA CATTGCCAAA 
    ATTCAAATCT TCTGCAGCAC ACATAAAATA GAAGCTCTTG TTTTAGAAGT CCAAAGTGAC 
    ATTGTATCTG GAAGCAAGCT TGCTGTGCAT AAACCTGTAG CAATTTTTGG AGAAGAGAAG 
    CAAGTTACAG AACCGGAAGA AAAGCAAATG CAAGAAGATC CTCTAACAAC GGAAAATGCT 
    TCCAGTGAAA TTCTAGATTC ACACGTAAGA GCTCATCTTC GAATGAAGGC TTGTCACACA 
    CTTCCCAGGT ATGCCTGGCA GGAAACTTCA CATGACTTTG ATGAGGATGA CAGTCTTCCA 
    AAGAAAACGG AAAAAGGGCT CTTTGAAAAT GTGGAACCAC AGAAGAAACA CAGCTGTTCA 
    CCAAAGCATA GTAAATTGCA CAAGCATTGT CATCAGCAGT TCGAATACAG AGATGGGCAG 
    ATTATAAGCC ATGCTGCTCC TCAGCTAGTC TTGGGGGTTC AAGGTCCCAA TCTCCGATCA 
    GGCATGGAGG TGGTTTTGGT GGAGAAGAAA TCTGATGGTA GTCATCAGCG CTGGATACAC 
    CAGGAAGACA GCAGGACCTT TCACCTTGTG AGTAACCCTG ACCTTGTGCT GGCAGTGTCT 
    ATGACCAAGA CTAGAAATGA AGTTTGTGGC TATCCAGTTA TTGTTCAGAA ATATAAGCCG 
    TACAACAATG GAGCTGCCAA TCAAAAGTGG CATTACATGA AAAATATAAA AGCACTTGTG 
    GCCTTTCATA GCACTGCCTT GGATAAGGAA ATTACATCAG CAAATTATGC TGGTGTCTGT 
    ACATCATCTG TGATTAAAGA AGAAAACATT GATCAACCAG GATACTGTTA TCTCTCACCT 
    GATGGAAAGA GAAAAACTAT GCTCTGCTTG GCTTGTGGAC AATCCATGAG AACAGAGAAA 
    GGACTGAAAC AATTGCTTCC AGGGGTTCCA TTCCTCTGTA TTTCAGGCAC CAAGACTCAG 
    AAGCCCTTCT TACAAGGGCC CTTCAAGGTC ATCAGTGTGG CTGAGGTTGA TTTGTCGTGT 
    GACAAGGCTG AAAAAACTCT AAGTTACTAC CAAGCACGTC TATTGTCTTT ACGGATGAAG 
    ACCTGCACGC AAGCTGCATC TCACAGTGGC ATGGCAGCCA CACACCAGAA GGCAGTGAAA 
    ATAATTGCAT ACAAAAATGG GGATGGGTAT CGTAATGGGA AGTTAATTGT GGCTGGAACA 
    TTCCCCATGC TTCTTACAGA ATGCACGGAA CAACTTGGGC TTGCCAGAGC AGCCTCCAAA 
    GTATATACCA AAGATGGAAC CCCAATCTTT ACCTTGCGTG ATTTGGTTTT ATGGGCTCTA 
    GATGAATCCT TTCTCCAGAG AGACTCTGAG AAACAAAAGC AAGATGCAGC TCCTGTTGGA 
    AAAGAACAGA TAATTGTTGA AAAAAATCCA AGAATGAAAG TGAAAAACAG ATTATTTGCA 
    AAATCTGTGA CATCCGATAG TTTGGATGGT ATAGACAAGT CTTTGCTTAC CCTCATCCTC 
    AGAAATCCTA TTGCCATCTG GGTGTCTTGT GGTGAACCAT TTCTACCTCC AAATGCTTTG 
    CAGAAAGCAG AAAAATTAGA GAAACAGAAC TGGCTAAAAA AGGACAGAAT TTTGGCTGAT 
    CTAGATACCA TGAGACACAA AATGAGACAG TTAAAAGGGC GGCGAGTAGC GGCATGTCAG 
    CCAGCCACCA TGGTTCCTAC CAAGAGCCCT GTGCAGCCCG TGGTGGTTGA AGGAGGCTGG 
    ACCGAACAGA CTCAACAGGA AATTAAACTC ATGGAACTTA TAAGACATAC AGAGGCACAC 
    CTTTCTGAAA TCCAAGAAAT GGAATCCAAA ATAAATTTTC CAATTGCAAC CAAACGTATA 
    GCAGTCAAGC CGAGCAACCT GTATAAGCAG CCCAACACAA AACGAGTGTG GATTTATCTA 
    AATGGAGGCA GACCTGAAGA TGGCACTTAT GCCTGGGGCA AAACTATTTC AGAGCTGCTG 
    CAAGACTGCT CCTCTCGTCT CAAAATGACC CACCCAGCTA GAGCACTGTA CACCCCCAGT 
    GGAGAGCCAA TTCAGTCCTG GGACGACATA GAGCGAGATA TGGTCATCTG TGTGTCTATG 
    GGACATGGTT TCAAAACCCC AAAAGAGTTA AAACAACTGA TGGAGATCAG AGCAAATTAT 
    GCCAGAATCC GAAGGCAGCA GGGCCCTCAA GCCACAGACA TTGTGGTGTC ACCATCCACG 
    AAGCTGCTGT CTCTGGCACA TCTCCACAAT TAA

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

    DCDC1 ( XM_024448483.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304251.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OHu106658
    Clone ID Related Accession (Same CDS sequence) XM_024448483.1
    Accession Version XM_024448483.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2745bp)
    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 doublecortin domain-containing protein 1 isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGCAAT GCAGACAGAG CAAGGAAGGA GATAG

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

    RefSeq XP_024304251.1
    CDS239..2983
    Translation

    Target ORF information:

    RefSeq Version XM_024448483.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448483.1

    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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGCAAT GCAGACAGAG CAAGGAAGGA GATAG

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

    DCDC1 ( XM_024448484.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304252.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OHu106659
    Clone ID Related Accession (Same CDS sequence) XM_024448484.1
    Accession Version XM_024448484.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2643bp)
    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 doublecortin domain-containing protein 1 isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGAGTTTGAT TGGCCAATAC AAGGACTGCT TGTTCCGAGC AGTCCTCCCA 
    TGA

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

    RefSeq XP_024304252.1
    CDS239..2881
    Translation

    Target ORF information:

    RefSeq Version XM_024448484.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448484.1

    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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGAGTTTGAT TGGCCAATAC AAGGACTGCT TGTTCCGAGC AGTCCTCCCA 
    TGA

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

    DCDC1 ( XM_024448485.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304253.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X16, mRNA.
    Price & Availability↑
    CloneID OHu106660
    Clone ID Related Accession (Same CDS sequence) XM_024448485.1
    Accession Version XM_024448485.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2625bp)
    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 doublecortin domain-containing protein 1 isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GTTCTGCCTT CAGGAGGCTT GAAGAAGGAA CATGA

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

    RefSeq XP_024304253.1
    CDS239..2863
    Translation

    Target ORF information:

    RefSeq Version XM_024448485.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448485.1

    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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GTTCTGCCTT CAGGAGGCTT GAAGAAGGAA CATGA

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

    DCDC1 ( XM_024448486.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304254.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X18, mRNA.
    Price & Availability↑
    CloneID OHu106661
    Clone ID Related Accession (Same CDS sequence) XM_024448486.1
    Accession Version XM_024448486.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1881bp)
    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 doublecortin domain-containing protein 1 isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAAGTA A

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

    RefSeq XP_024304254.1
    CDS239..2119
    Translation

    Target ORF information:

    RefSeq Version XM_024448486.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448486.1

    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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAAGTA A

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

    DCDC1 ( XM_024448487.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304255.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X19, mRNA.
    Price & Availability↑
    CloneID OHu106662
    Clone ID Related Accession (Same CDS sequence) XM_024448487.1
    Accession Version XM_024448487.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1623bp)
    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 doublecortin domain-containing protein 1 isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGAATC TCCACTAAAT CTTGCTTTGG GTTTGACCTT 
    TGA

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

    RefSeq XP_024304255.1
    CDS239..1861
    Translation

    Target ORF information:

    RefSeq Version XM_024448487.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X19, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448487.1

    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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGAATC TCCACTAAAT CTTGCTTTGG GTTTGACCTT 
    TGA

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

    DCDC1 ( XM_024448488.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304256.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X20, mRNA.
    Price & Availability↑
    CloneID OHu106663
    Clone ID Related Accession (Same CDS sequence) XM_024448488.1
    Accession Version XM_024448488.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1584bp)
    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 doublecortin domain-containing protein 1 isoform X16
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGCTTTT TCACGGAGTG 
    TTTGATATGT TCAAGTTGCT GAGATTCCTT TCCTACATAT GTTCCCGTCC CCTGGATTAC 
    CGACTGACAT CTATGTTAGT CTGA

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

    RefSeq XP_024304256.1
    CDS239..1822
    Translation

    Target ORF information:

    RefSeq Version XM_024448488.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448488.1

    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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGCTTTT TCACGGAGTG 
    TTTGATATGT TCAAGTTGCT GAGATTCCTT TCCTACATAT GTTCCCGTCC CCTGGATTAC 
    CGACTGACAT CTATGTTAGT CTGA

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

    DCDC1 ( NM_001350255.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001337184.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu102302
    Clone ID Related Accession (Same CDS sequence) NM_001350255.1
    Accession Version NM_001350255.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4209bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-12-01
    Organism Homo sapiens(human)
    Product doublecortin domain-containing protein 1 isoform 1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AK126066.1, AY247970.1, AL162614.25, AK128035.1, BX647348.1 and AL135932.7. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer 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. ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##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
    ATGTTGCCCA GGCAAGCCTC AATCTCCTGT GCTCAAGGGA TCCTCCTGCC TCAGCCTTCC 
    GAGTTGCTGA GACTACAGTT GAACCTGGTC ATGAATGAAC AGAAGGAGAA AATTACAGAA 
    AAAGTCATTC TTTCAATGAC GGCAAAGGAA CACCATAAGG AACAGGAAGA AGTGAGCAGG 
    CTGATTGATG AATTGCAGAC AGCTATCAAA AGTAACATAG GTCATCTCTG TAAACTTGGC 
    CCCCAATTAC AGGCTGAGCA GGAGCAATTC TCCTCTTATG TCTACCAACA CATTAAAAGC 
    CTTCCAGCAA ACACGCTTGT CCCAGGAGGC CTGCAGCTTA AGGTATTTGA AAATGGTAAA 
    AACACTGGAG AGATCTCTGT TGGTATCAGT AAAAAAGATT TGGGATCGGA TAGCCCAATT 
    CAAACTGACC ATATGATGGA AAGATTACTT CTCAAGATTC ATCAAAGGCT TCAAGGTTCT 
    TCCATCAACC CACCAGGCCT CAATTATTCT TCAATGCGGC TTTTTGATGA GAATGGCCAA 
    GAAATTAAGA ATCCACTTTC GCTGAAGAAT GAGCAAAAAA TTTGGGTCTC TTATGGTAGA 
    GCATACAGAT CTCCACTAAA TCTTGCTTTG GGTTTGACCT TTGACCGAGT GAGTGCATTT 
    GCCAGAGGTG ATATCATGGT TGCATATAAG ACCTTTTTGG ATCCTAATGC TGTTCTGCTA 
    CCTGGATGTG GCAATTGGGA AGTTTGTGAG GGATTTCCAA TTAATTTCAA CTGTACCAGT 
    CAACAGATAC CTGACCAGTT TGAAAAGGTG GACTTGGAGA ACCATTTTCT ACAGAACAAG 
    GTAGATCCCA ATATTGTCCT TCATGCCTCT GTTTCCATTG GAAAGTGGAG TTTCTCAGGC 
    AGTGAAGCAA GCAGCAGGAG TCAAATAGCG CCATCGATCC TGTGGCCTGT AGCCAGTGTG 
    TGGCTGATCA CCAAGACTGG AATGATCCTG AGCCGAGCGA TAACTCAGGG CTGCCTGGCT 
    ATTGGTCATC CTATCAGAGT CAAGGCTGCT GAGGGAACAT CACTAGAAGG ATATAAATTA 
    ATCTTACAGA AAAGACATAG TGGAGATGAC TCTCAGAAGT GGGTGTTTGG AACTGATGGT 
    TGCATTTATT CAAAGGCTTA TCCTCAGTTT GTTCTGACCT ACCTAGAGGA GCTAAATGCA 
    CAAGTAGATG TGACCCAGAC AGAGTATCAC ATTCACCATG GTGCCTGGAC CACAGCTCAT 
    CAGGAACATG GCAGAAACTT AGCAGAAGAG GTTCTGCAAG AAAGTGCCAG CAACCTTGGT 
    CTGAAGCAAC TGCCAGAACC CTCAGACACC CATTTAATGC CAGAAGGTTC TCTTGAGGAG 
    ACGGGGGAGC TGACAGTAGC ACTGGTGAGG AAACTGGAAG AGAAACATCC TAAGGCTTCT 
    GCTCAGAGGT GGGCCATAAA ACATGAAGGA ACCAGTAAGC CAGGCCAGTG GAAACATTCT 
    AGAGTTGAAA ATCCTCTATG GAACAAGCTT ACCTACATGT GGCCTGTCCT TCCCAGTGGC 
    CAACTTAATG AGGAGTTTGA TTGGCCAATA CAAGGACTGC TTGTTCCGAG CAGTCCTCCC 
    ATGAAGAAAC CCATCTGTAA GACAACAGAG CCATATGCCC CTGTGCGACT CAGAGTTTTG 
    CAGAATGGAG AGAAGAATAA AAACAGATCC GTTACTATCC TTGGTCCAGA TATCTCACCT 
    GGACGGAAAA CGCAGTGCAC TGAGATTTTA AATTTACCTT CTGCAGCTCG GAGATTGTAC 
    AATGAAAAGG GGAAGGAAAT ATTTGCCTTA AAAGACCTGC AAAGAGATGA ACTGGTGTAT 
    GTTTCATGTG GAGAACTCTG GATCAATCCT GACCTGTCCA TTGCTCAGCA AAAGAAACAA 
    ATATTCCTGA GGAACCTAGA ATCAGACATT GCCAAAATTC AAATCTTCTG CAGCACACAT 
    AAAATAGAAG CTCTTGTTTT AGAAGTCCAA AGTGACATTG TATCTGGAAG CAAGCTTGCT 
    GTGCATAAAC CTGTAGCAAT TTTTGGAGAA GAGAAGCAAG TTACAGAACC GGAAGAAAAG 
    CAAATGCAAG AAGATCCTCT AACAACGGAA AATGCTTCCA GTGAAATTCT AGATTCACAC 
    GTAAGAGCTC ATCTTCGAAT GAAGGCTTGT CACACACTTC CCAGGTATGC CTGGCAGGAA 
    ACTTCACATG ACTTTGATGA GGATGACAGT CTTCCAAAGA AAACGGAAAA AGGGCTCTTT 
    GAAAATGTGG AACCACAGAA GAAACACAGC TGTTCACCAA AGCATAGTAA ATTGCACAAG 
    CATTGTCATC AGCAGTTCGA ATACAGAGAT GGGCAGATTA TAAGCCATGC TGCTCCTCAG 
    CTAGTCTTGG GGGTTCAAGG TCCCAATCTC CGATCAGGCA TGGAGGTGGT TTTGGTGGAG 
    AAGAAATCTG ATGGTAGTCA TCAGCGCTGG ATACACCAGG AAGACAGCAG GACCTTTCAC 
    CTTGTGAGTA ACCCTGACCT TGTGCTGGCA GTGTCTATGA CCAAGACTAG AAATGAAGTT 
    TGTGGCTATC CAGTTATTGT TCAGAAATAT AAGCCGTACA ACAATGGAGC TGCCAATCAA 
    AAGTGGCATT ACATGAAAAA TATAAAAGCA CTTGTGGCCT TTCATAGCAC TGCCTTGGAT 
    AAGGAAATTA CATCAGCAAA TTATGCTGGT GTCTGTACAT CATCTGTGAT TAAAGAAGAA 
    AACATTGATC AACCAGGATA CTGTTATCTC TCACCTGATG GAAAGAGAAA AACTATGCTC 
    TGCTTGGCTT GTGGACAATC CATGAGAACA GAGAAAGGAC TGAAACAATT GCTTCCAGGG 
    GTTCCATTCC TCTGTATTTC AGGCACCAAG ACTCAGAAGC CCTTCTTACA AGGGCCCTTC 
    AAGGTCATCA GTGTGGCTGA GGTTGATTTG TCGTGTGACA AGGCTGAAAA AACTCTAAGT 
    TACTACCAAG CACGTCTATT GTCTTTACGG ATGAAGACCT GCACGCAAGC TGCATCTCAC 
    AGTGGCATGG CAGCCACACA CCAGAAGGCA GTGAAAATAA TTGCATACAA AAATGGGGAT 
    GGGTATCGTA ATGGGAAGTT AATTGTGGCT GGAACATTCC CCATGCTTCT TACAGAATGC 
    ACGGAACAAC TTGGGCTTGC CAGAGCAGCC TCCAAAGTAT ATACCAAAGA TGGAACCCCA 
    ATCTTTACCT TGCGTGATTT GGTTTTATGG GCTCTAGATG AATCCTTTCT CCAGAGAGAC 
    TCTGAGAAAC AAAAGCAAGA TGCAGCTCCT GTTGGAAAAG AACAGATAAT TGTTGAAAAA 
    AATCCAAGAA TGAAAGTGAA AAACAGATTA TTTGCAAAAT CTGTGACATC CGATAGTTTG 
    GATGGTATAG ACAAGTCTTT GCTTACCCTC ATCCTCAGAA ATCCTATTGC CATCTGGGTG 
    TCTTGTGGTG AACCATTTCT ACCTCCAAAT GCTTTGCAGA AAGCAGAAAA ATTAGAGAAA 
    CAGAACTGGC TAAAAAAGGA CAGAATTTTG GCTGATCTAG ATACCATGAG ACACAAAATG 
    AGACAGTTAA AAGGGCGGCG AGTAGCGGCA TGTCAGCCAG CCACCATGGT TCCTACCAAG 
    AGCCCTGTGC AGCCCGTGGT GGTTGAAGGA GGCTGGACCG AACAGACTCA ACAGGAAATT 
    AAACTCATGG AACTTATAAG ACATACAGAG GCACACCTTT CTGAAATCCA AGAAATGGAA 
    TCCAAAATAA ATTTTCCAAT TGCAACCAAA CGTATAGCAG TCAAGCCGAG CAACCTGTAT 
    AAGCAGCCCA ACACAAAACG AGTGTGGATT TATCTAAATG GAGGCAGACC TGAAGATGGC 
    ACTTATGCCT GGGGCAAAAC TATTTCAGAG CTGCTGCAAG ACTGCTCCTC TCGTCTCAAA 
    ATGACCCACC CAGCTAGAGC ACTGTACACC CCCAGTGGAG AGCCAATTCA GTCCTGGGAC 
    GACATAGAGC GAGATATGGT CATCTGTGTG TCTATGGGAC ATGGTTTCAA AACCCCAAAA 
    GAGTTAAAAC AACTGATGGA GATCAGAGCA AATTATGCCA GAATCCGAAG GCAGCAGGGC 
    CCTCAAGCCA CAGACATTGT GGTGTCACCA TCCACGAAGC TGCTGTCTCT GGCACATCTC 
    CACAATTAA

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

    RefSeq NP_001337184.1
    CDS1476..5684
    Translation

    Target ORF information:

    RefSeq Version NM_001350255.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001350255.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGTTGCCCA GGCAAGCCTC AATCTCCTGT GCTCAAGGGA TCCTCCTGCC TCAGCCTTCC 
    GAGTTGCTGA GACTACAGTT GAACCTGGTC ATGAATGAAC AGAAGGAGAA AATTACAGAA 
    AAAGTCATTC TTTCAATGAC GGCAAAGGAA CACCATAAGG AACAGGAAGA AGTGAGCAGG 
    CTGATTGATG AATTGCAGAC AGCTATCAAA AGTAACATAG GTCATCTCTG TAAACTTGGC 
    CCCCAATTAC AGGCTGAGCA GGAGCAATTC TCCTCTTATG TCTACCAACA CATTAAAAGC 
    CTTCCAGCAA ACACGCTTGT CCCAGGAGGC CTGCAGCTTA AGGTATTTGA AAATGGTAAA 
    AACACTGGAG AGATCTCTGT TGGTATCAGT AAAAAAGATT TGGGATCGGA TAGCCCAATT 
    CAAACTGACC ATATGATGGA AAGATTACTT CTCAAGATTC ATCAAAGGCT TCAAGGTTCT 
    TCCATCAACC CACCAGGCCT CAATTATTCT TCAATGCGGC TTTTTGATGA GAATGGCCAA 
    GAAATTAAGA ATCCACTTTC GCTGAAGAAT GAGCAAAAAA TTTGGGTCTC TTATGGTAGA 
    GCATACAGAT CTCCACTAAA TCTTGCTTTG GGTTTGACCT TTGACCGAGT GAGTGCATTT 
    GCCAGAGGTG ATATCATGGT TGCATATAAG ACCTTTTTGG ATCCTAATGC TGTTCTGCTA 
    CCTGGATGTG GCAATTGGGA AGTTTGTGAG GGATTTCCAA TTAATTTCAA CTGTACCAGT 
    CAACAGATAC CTGACCAGTT TGAAAAGGTG GACTTGGAGA ACCATTTTCT ACAGAACAAG 
    GTAGATCCCA ATATTGTCCT TCATGCCTCT GTTTCCATTG GAAAGTGGAG TTTCTCAGGC 
    AGTGAAGCAA GCAGCAGGAG TCAAATAGCG CCATCGATCC TGTGGCCTGT AGCCAGTGTG 
    TGGCTGATCA CCAAGACTGG AATGATCCTG AGCCGAGCGA TAACTCAGGG CTGCCTGGCT 
    ATTGGTCATC CTATCAGAGT CAAGGCTGCT GAGGGAACAT CACTAGAAGG ATATAAATTA 
    ATCTTACAGA AAAGACATAG TGGAGATGAC TCTCAGAAGT GGGTGTTTGG AACTGATGGT 
    TGCATTTATT CAAAGGCTTA TCCTCAGTTT GTTCTGACCT ACCTAGAGGA GCTAAATGCA 
    CAAGTAGATG TGACCCAGAC AGAGTATCAC ATTCACCATG GTGCCTGGAC CACAGCTCAT 
    CAGGAACATG GCAGAAACTT AGCAGAAGAG GTTCTGCAAG AAAGTGCCAG CAACCTTGGT 
    CTGAAGCAAC TGCCAGAACC CTCAGACACC CATTTAATGC CAGAAGGTTC TCTTGAGGAG 
    ACGGGGGAGC TGACAGTAGC ACTGGTGAGG AAACTGGAAG AGAAACATCC TAAGGCTTCT 
    GCTCAGAGGT GGGCCATAAA ACATGAAGGA ACCAGTAAGC CAGGCCAGTG GAAACATTCT 
    AGAGTTGAAA ATCCTCTATG GAACAAGCTT ACCTACATGT GGCCTGTCCT TCCCAGTGGC 
    CAACTTAATG AGGAGTTTGA TTGGCCAATA CAAGGACTGC TTGTTCCGAG CAGTCCTCCC 
    ATGAAGAAAC CCATCTGTAA GACAACAGAG CCATATGCCC CTGTGCGACT CAGAGTTTTG 
    CAGAATGGAG AGAAGAATAA AAACAGATCC GTTACTATCC TTGGTCCAGA TATCTCACCT 
    GGACGGAAAA CGCAGTGCAC TGAGATTTTA AATTTACCTT CTGCAGCTCG GAGATTGTAC 
    AATGAAAAGG GGAAGGAAAT ATTTGCCTTA AAAGACCTGC AAAGAGATGA ACTGGTGTAT 
    GTTTCATGTG GAGAACTCTG GATCAATCCT GACCTGTCCA TTGCTCAGCA AAAGAAACAA 
    ATATTCCTGA GGAACCTAGA ATCAGACATT GCCAAAATTC AAATCTTCTG CAGCACACAT 
    AAAATAGAAG CTCTTGTTTT AGAAGTCCAA AGTGACATTG TATCTGGAAG CAAGCTTGCT 
    GTGCATAAAC CTGTAGCAAT TTTTGGAGAA GAGAAGCAAG TTACAGAACC GGAAGAAAAG 
    CAAATGCAAG AAGATCCTCT AACAACGGAA AATGCTTCCA GTGAAATTCT AGATTCACAC 
    GTAAGAGCTC ATCTTCGAAT GAAGGCTTGT CACACACTTC CCAGGTATGC CTGGCAGGAA 
    ACTTCACATG ACTTTGATGA GGATGACAGT CTTCCAAAGA AAACGGAAAA AGGGCTCTTT 
    GAAAATGTGG AACCACAGAA GAAACACAGC TGTTCACCAA AGCATAGTAA ATTGCACAAG 
    CATTGTCATC AGCAGTTCGA ATACAGAGAT GGGCAGATTA TAAGCCATGC TGCTCCTCAG 
    CTAGTCTTGG GGGTTCAAGG TCCCAATCTC CGATCAGGCA TGGAGGTGGT TTTGGTGGAG 
    AAGAAATCTG ATGGTAGTCA TCAGCGCTGG ATACACCAGG AAGACAGCAG GACCTTTCAC 
    CTTGTGAGTA ACCCTGACCT TGTGCTGGCA GTGTCTATGA CCAAGACTAG AAATGAAGTT 
    TGTGGCTATC CAGTTATTGT TCAGAAATAT AAGCCGTACA ACAATGGAGC TGCCAATCAA 
    AAGTGGCATT ACATGAAAAA TATAAAAGCA CTTGTGGCCT TTCATAGCAC TGCCTTGGAT 
    AAGGAAATTA CATCAGCAAA TTATGCTGGT GTCTGTACAT CATCTGTGAT TAAAGAAGAA 
    AACATTGATC AACCAGGATA CTGTTATCTC TCACCTGATG GAAAGAGAAA AACTATGCTC 
    TGCTTGGCTT GTGGACAATC CATGAGAACA GAGAAAGGAC TGAAACAATT GCTTCCAGGG 
    GTTCCATTCC TCTGTATTTC AGGCACCAAG ACTCAGAAGC CCTTCTTACA AGGGCCCTTC 
    AAGGTCATCA GTGTGGCTGA GGTTGATTTG TCGTGTGACA AGGCTGAAAA AACTCTAAGT 
    TACTACCAAG CACGTCTATT GTCTTTACGG ATGAAGACCT GCACGCAAGC TGCATCTCAC 
    AGTGGCATGG CAGCCACACA CCAGAAGGCA GTGAAAATAA TTGCATACAA AAATGGGGAT 
    GGGTATCGTA ATGGGAAGTT AATTGTGGCT GGAACATTCC CCATGCTTCT TACAGAATGC 
    ACGGAACAAC TTGGGCTTGC CAGAGCAGCC TCCAAAGTAT ATACCAAAGA TGGAACCCCA 
    ATCTTTACCT TGCGTGATTT GGTTTTATGG GCTCTAGATG AATCCTTTCT CCAGAGAGAC 
    TCTGAGAAAC AAAAGCAAGA TGCAGCTCCT GTTGGAAAAG AACAGATAAT TGTTGAAAAA 
    AATCCAAGAA TGAAAGTGAA AAACAGATTA TTTGCAAAAT CTGTGACATC CGATAGTTTG 
    GATGGTATAG ACAAGTCTTT GCTTACCCTC ATCCTCAGAA ATCCTATTGC CATCTGGGTG 
    TCTTGTGGTG AACCATTTCT ACCTCCAAAT GCTTTGCAGA AAGCAGAAAA ATTAGAGAAA 
    CAGAACTGGC TAAAAAAGGA CAGAATTTTG GCTGATCTAG ATACCATGAG ACACAAAATG 
    AGACAGTTAA AAGGGCGGCG AGTAGCGGCA TGTCAGCCAG CCACCATGGT TCCTACCAAG 
    AGCCCTGTGC AGCCCGTGGT GGTTGAAGGA GGCTGGACCG AACAGACTCA ACAGGAAATT 
    AAACTCATGG AACTTATAAG ACATACAGAG GCACACCTTT CTGAAATCCA AGAAATGGAA 
    TCCAAAATAA ATTTTCCAAT TGCAACCAAA CGTATAGCAG TCAAGCCGAG CAACCTGTAT 
    AAGCAGCCCA ACACAAAACG AGTGTGGATT TATCTAAATG GAGGCAGACC TGAAGATGGC 
    ACTTATGCCT GGGGCAAAAC TATTTCAGAG CTGCTGCAAG ACTGCTCCTC TCGTCTCAAA 
    ATGACCCACC CAGCTAGAGC ACTGTACACC CCCAGTGGAG AGCCAATTCA GTCCTGGGAC 
    GACATAGAGC GAGATATGGT CATCTGTGTG TCTATGGGAC ATGGTTTCAA AACCCCAAAA 
    GAGTTAAAAC AACTGATGGA GATCAGAGCA AATTATGCCA GAATCCGAAG GCAGCAGGGC 
    CCTCAAGCCA CAGACATTGT GGTGTCACCA TCCACGAAGC TGCTGTCTCT GGCACATCTC 
    CACAATTAA

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

    DCDC1 ( XM_024448481.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304249.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X12, mRNA.
    Price & Availability↑
    CloneID OHu106656
    Clone ID Related Accession (Same CDS sequence) XM_024448481.1
    Accession Version XM_024448481.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4377bp)
    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 doublecortin domain-containing protein 1 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    4201
    4261
    4321
    ATGAATCTAA ATTTACCAGC CAGATATTTT TATGATTTGT ATGGCAGAAA AATTGAAGAT 
    ATTTCAAAAG TTCCTCTGCT TGAAAAATGC CTGCAAAATT CCATCACACC TTTGCGAGGA 
    CTACTTTGGG TCTCTAAGGG AGAAGGTTTC AGCCCCTCAG GAGCTAAGAT GTACATCCAA 
    GGAGTTCTTT TGGCCCTGTA CCAACGATTA AAGTCTGCAA AAAAATATTA TAAACAGTTG 
    AACCTGGTCA TGAATGAACA GAAGGAGAAA ATTACAGAAA AAGTCATTCT TTCAATGACG 
    GCAAAGGAAC ACCATAAGGA ACAGGAAGAA GTGAGCAGGC TGATTGATGA ATTGCAGACA 
    GCTATCAAAA GTAACATAGG TCATCTCTGT AAACTTGGCC CCCAATTACA GGCTGAGCAG 
    GAGCAATTCT CCTCTTATGT CTACCAACAC ATTAAAAGCC TTCCAGCAAA CACGCTTGTC 
    CCAGGAGGCC TGCAGCTTAA GGTATTTGAA AATGGTAAAA ACACTGGAGA GATCTCTGTT 
    GGTATCAGTA AAAAAGATTT GGGATCGGAT AGCCCAATTC AAACTGACCA TATGATGGAA 
    AGATTACTTC TCAAGATTCA TCAAAGGCTT CAAGGTTCTT CCATCAACCC ACCAGGCCTC 
    AATTATTCTT CAATGCGGCT TTTTGATGAG AATGGCCAAG AAATTAAGAA TCCACTTTCG 
    CTGAAGAATG AGCAAAAAAT TTGGGTCTCT TATGGTAGAG CATACAGATC TCCACTAAAT 
    CTTGCTTTGG GTTTGACCTT TGACCGAGTG AGTGCATTTG CCAGAGGTGA TATCATGGTT 
    GCATATAAGA CCTTTTTGGA TCCTAATGCT GTTCTGCTAC CTGGATGTGG CAATTGGGAA 
    GTTTGTGAGG GATTTCCAAT TAATTTCAAC TGTACCAGTC AACAGATACC TGACCAGTTT 
    GAAAAGGTGG ACTTGGAGAA CCATTTTCTA CAGAACAAGG TAGATCCCAA TATTGTCCTT 
    CATGCCTCTG TTTCCATTGG AAAGTGGAGT TTCTCAGGCA GTGAAGCAAG CAGCAGGAGT 
    CAAATAGCGC CATCGATCCT GTGGCCTGTA GCCAGTGTGT GGCTGATCAC CAAGACTGGA 
    ATGATCCTGA GCCGAGCGAT AACTCAGGGC TGCCTGGCTA TTGGTCATCC TATCAGAGTC 
    AAGGCTGCTG AGGGAACATC ACTAGAAGGA TATAAATTAA TCTTACAGAA AAGACATAGT 
    GGAGATGACT CTCAGAAGTG GGTGTTTGGA ACTGATGGTT GCATTTATTC AAAGGCTTAT 
    CCTCAGTTTG TTCTGACCTA CCTAGAGGAG CTAAATGCAC AAGTAGATGT GACCCAGACA 
    GAGTATCACA TTCACCATGG TGCCTGGACC ACAGCTCATC AGGAACATGG CAGAAACTTA 
    GCAGAAGAGG TTCTGCAAGA AAGTGCCAGC AACCTTGGTC TGAAGCAACT GCCAGAACCC 
    TCAGACACCC ATTTAATGCC AGAAGGTTCT CTTGAGGAGA CGGGGGAGCT GACAGTAGCA 
    CTGGTGAGGA AACTGGAAGA GAAACATCCT AAGGCTTCTG CTCAGAGGTG GGCCATAAAA 
    CATGAAGGAA CCAGTAAGCC AGGCCAGTGG AAACATTCTA GAGTTGAAAA TCCTCTATGG 
    AACAAGCTTA CCTACATGTG GCCTGTCCTT CCCAGTGGCC AACTTAATGA GGAGTTTGAT 
    TGGCCAATAC AAGGACTGCT TGTTCCGAGC AGTCCTCCCA TGAAGAAACC CATCTGTAAG 
    ACAACAGAGC CATATGCCCC TGTGCGACTC AGAGTTTTGC AGAATGGAGA GAAGAATAAA 
    AACAGATCCG TTACTATCCT TGGTCCAGAT ATCTCACCTG GACGGAAAAC GCAGTGCACT 
    GAGATTTTAA ATTTACCTTC TGCAGCTCGG AGATTGTACA ATGAAAAGGG GAAGGAAATA 
    TTTGCCTTAA AAGACCTGCA AAGAGATGAA CTGGTGTATG TTTCATGTGG AGAACTCTGG 
    ATCAATCCTG ACCTGTCCAT TGCTCAGCAA AAGAAACAAA TATTCCTGAG GAACCTAGAA 
    TCAGACATTG CCAAAATTCA AATCTTCTGC AGCACACATA AAATAGAAGC TCTTGTTTTA 
    GAAGTCCAAA GTGACATTGT ATCTGGAAGC AAGCTTGCTG TGCATAAACC TGTAGCAATT 
    TTTGGAGAAG AGAAGCAAGT TACAGAACCG GAAGAAAAGC AAATGCAAGA AGATCCTCTA 
    ACAACGGAAA ATGCTTCCAG TGAAATTCTA GATTCACACG TAAGAGCTCA TCTTCGAATG 
    AAGGCTTGTC ACACACTTCC CAGGTATGCC TGGCAGGAAA CTTCACATGA CTTTGATGAG 
    GATGACAGTC TTCCAAAGAA AACGGAAAAA GGGCTCTTTG AAAATGTGGA ACCACAGAAG 
    AAACACAGCT GTTCACCAAA GCATAGTAAA TTGCACAAGC ATTGTCATCA GCAGTTCGAA 
    TACAGAGATG GGCAGATTAT AAGCCATGCT GCTCCTCAGC TAGTCTTGGG GGTTCAAGGT 
    CCCAATCTCC GATCAGGCAT GGAGGTGGTT TTGGTGGAGA AGAAATCTGA TGGTAGTCAT 
    CAGCGCTGGA TACACCAGGA AGACAGCAGG ACCTTTCACC TTGTGAGTAA CCCTGACCTT 
    GTGCTGGCAG TGTCTATGAC CAAGACTAGA AATGAAGTTT GTGGCTATCC AGTTATTGTT 
    CAGAAATATA AGCCGTACAA CAATGGAGCT GCCAATCAAA AGTGGCATTA CATGAAAAAT 
    ATAAAAGCAC TTGTGGCCTT TCATAGCACT GCCTTGGATA AGGAAATTAC ATCAGCAAAT 
    TATGCTGGTG TCTGTACATC ATCTGTGATT AAAGAAGAAA ACATTGATCA ACCAGGATAC 
    TGTTATCTCT CACCTGATGG AAAGAGAAAA ACTATGCTCT GCTTGGCTTG TGGACAATCC 
    ATGAGAACAG AGAAAGGACT GAAACAATTG CTTCCAGGGG TTCCATTCCT CTGTATTTCA 
    GGCACCAAGA CTCAGAAGCC CTTCTTACAA GGGCCCTTCA AGGTCATCAG TGTGGCTGAG 
    GTTGATTTGT CGTGTGACAA GGCTGAAAAA ACTCTAAGTT ACTACCAAGC ACGTCTATTG 
    TCTTTACGGA TGAAGACCTG CACGCAAGCT GCATCTCACA GTGGCATGGC AGCCACACAC 
    CAGAAGGCAG TGAAAATAAT TGCATACAAA AATGGGGATG GGTATCGTAA TGGGAAGTTA 
    ATTGTGGCTG GAACATTCCC CATGCTTCTT ACAGAATGCA CGGAACAACT TGGGCTTGCC 
    AGAGCAGCCT CCAAAGTATA TACCAAAGAT GGAACCCCAA TCTTTACCTT GCGTGATTTG 
    GTTTTATGGG CTCTAGATGA ATCCTTTCTC CAGAGAGACT CTGAGAAACA AAAGCAAGAT 
    GCAGCTCCTG TTGGAAAAGA ACAGATAATT GTTGAAAGTA TGGAAGAAAA TCCAAGAATG 
    AAAGTGAAAA ACAGATTATT TGCAAAATCT GTGACATCCG ATAGTTTGGA TGGTATAGAC 
    AAGTCTTTGC TTACCCTCAT CCTCAGAAAT CCTATTGCCA TCTGGGTGTC TTGTGGTGAA 
    CCATTTCTAC CTCCAAATGC TTTGCAGAAA GCAGAAAAAT TAGAGAAACA GAACTGGCTA 
    AAAAAGGACA GAATTTTGGC TGATCTAGAT ACCATGAGAC ACAAAATGAG ACAGTTAAAA 
    GGGCGGCGAG TAGCGGCATG TCAGCCAGCC ACCATGGTTC CTACCAAGAG CCCTGTGCAG 
    CCCGTGGTGG TTGAAGGAGG CTGGACCGAA CAGACTCAAC AGGAAATTAA ACTCATGGAA 
    CTTATAAGAC ATACAGAGGC ACACCTTTCT GAAATCCAAG AAATGGAATC CAAAATAAAT 
    TTTCCAATTG CAACCAAACG TATAGCAGTC AAGCCGAGCA ACCTGTATAA GCAGCCCAAC 
    ACAAAACGAG TGTGGATTTA TCTAAATGGA GGCAGACCTG AAGATGGCAC TTATGCCTGG 
    GGCAAAACTA TTTCAGAGCT GCTGCAAGAC TGCTCCTCTC GTCTCAAAAT GACCCACCCA 
    GCTAGAGCAC TGTACACCCC CAGTGGAGAG CCAATTCAGT CCTGGGACGA CATAGAGCGA 
    GATATGGTCA TCTGTGTGTC TATGGGACAT GGTTTCAAAA CCCCAAAAGA GTTAAAACAA 
    CTGATGGAGA TCAGAGCAAA TTATGCCAGA ATCCGAAGGC AGCAGGGCCC TCAAGCCACA 
    GACATTGTGG TGTCACCATC CACGAAGCTG CTGTCTCTGG CACATCTCCA CAATTAA

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

    RefSeq XP_024304249.1
    CDS108..4484
    Translation

    Target ORF information:

    RefSeq Version XM_024448481.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448481.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGAATCTAA ATTTACCAGC CAGATATTTT TATGATTTGT ATGGCAGAAA AATTGAAGAT 
    ATTTCAAAAG TTCCTCTGCT TGAAAAATGC CTGCAAAATT CCATCACACC TTTGCGAGGA 
    CTACTTTGGG TCTCTAAGGG AGAAGGTTTC AGCCCCTCAG GAGCTAAGAT GTACATCCAA 
    GGAGTTCTTT TGGCCCTGTA CCAACGATTA AAGTCTGCAA AAAAATATTA TAAACAGTTG 
    AACCTGGTCA TGAATGAACA GAAGGAGAAA ATTACAGAAA AAGTCATTCT TTCAATGACG 
    GCAAAGGAAC ACCATAAGGA ACAGGAAGAA GTGAGCAGGC TGATTGATGA ATTGCAGACA 
    GCTATCAAAA GTAACATAGG TCATCTCTGT AAACTTGGCC CCCAATTACA GGCTGAGCAG 
    GAGCAATTCT CCTCTTATGT CTACCAACAC ATTAAAAGCC TTCCAGCAAA CACGCTTGTC 
    CCAGGAGGCC TGCAGCTTAA GGTATTTGAA AATGGTAAAA ACACTGGAGA GATCTCTGTT 
    GGTATCAGTA AAAAAGATTT GGGATCGGAT AGCCCAATTC AAACTGACCA TATGATGGAA 
    AGATTACTTC TCAAGATTCA TCAAAGGCTT CAAGGTTCTT CCATCAACCC ACCAGGCCTC 
    AATTATTCTT CAATGCGGCT TTTTGATGAG AATGGCCAAG AAATTAAGAA TCCACTTTCG 
    CTGAAGAATG AGCAAAAAAT TTGGGTCTCT TATGGTAGAG CATACAGATC TCCACTAAAT 
    CTTGCTTTGG GTTTGACCTT TGACCGAGTG AGTGCATTTG CCAGAGGTGA TATCATGGTT 
    GCATATAAGA CCTTTTTGGA TCCTAATGCT GTTCTGCTAC CTGGATGTGG CAATTGGGAA 
    GTTTGTGAGG GATTTCCAAT TAATTTCAAC TGTACCAGTC AACAGATACC TGACCAGTTT 
    GAAAAGGTGG ACTTGGAGAA CCATTTTCTA CAGAACAAGG TAGATCCCAA TATTGTCCTT 
    CATGCCTCTG TTTCCATTGG AAAGTGGAGT TTCTCAGGCA GTGAAGCAAG CAGCAGGAGT 
    CAAATAGCGC CATCGATCCT GTGGCCTGTA GCCAGTGTGT GGCTGATCAC CAAGACTGGA 
    ATGATCCTGA GCCGAGCGAT AACTCAGGGC TGCCTGGCTA TTGGTCATCC TATCAGAGTC 
    AAGGCTGCTG AGGGAACATC ACTAGAAGGA TATAAATTAA TCTTACAGAA AAGACATAGT 
    GGAGATGACT CTCAGAAGTG GGTGTTTGGA ACTGATGGTT GCATTTATTC AAAGGCTTAT 
    CCTCAGTTTG TTCTGACCTA CCTAGAGGAG CTAAATGCAC AAGTAGATGT GACCCAGACA 
    GAGTATCACA TTCACCATGG TGCCTGGACC ACAGCTCATC AGGAACATGG CAGAAACTTA 
    GCAGAAGAGG TTCTGCAAGA AAGTGCCAGC AACCTTGGTC TGAAGCAACT GCCAGAACCC 
    TCAGACACCC ATTTAATGCC AGAAGGTTCT CTTGAGGAGA CGGGGGAGCT GACAGTAGCA 
    CTGGTGAGGA AACTGGAAGA GAAACATCCT AAGGCTTCTG CTCAGAGGTG GGCCATAAAA 
    CATGAAGGAA CCAGTAAGCC AGGCCAGTGG AAACATTCTA GAGTTGAAAA TCCTCTATGG 
    AACAAGCTTA CCTACATGTG GCCTGTCCTT CCCAGTGGCC AACTTAATGA GGAGTTTGAT 
    TGGCCAATAC AAGGACTGCT TGTTCCGAGC AGTCCTCCCA TGAAGAAACC CATCTGTAAG 
    ACAACAGAGC CATATGCCCC TGTGCGACTC AGAGTTTTGC AGAATGGAGA GAAGAATAAA 
    AACAGATCCG TTACTATCCT TGGTCCAGAT ATCTCACCTG GACGGAAAAC GCAGTGCACT 
    GAGATTTTAA ATTTACCTTC TGCAGCTCGG AGATTGTACA ATGAAAAGGG GAAGGAAATA 
    TTTGCCTTAA AAGACCTGCA AAGAGATGAA CTGGTGTATG TTTCATGTGG AGAACTCTGG 
    ATCAATCCTG ACCTGTCCAT TGCTCAGCAA AAGAAACAAA TATTCCTGAG GAACCTAGAA 
    TCAGACATTG CCAAAATTCA AATCTTCTGC AGCACACATA AAATAGAAGC TCTTGTTTTA 
    GAAGTCCAAA GTGACATTGT ATCTGGAAGC AAGCTTGCTG TGCATAAACC TGTAGCAATT 
    TTTGGAGAAG AGAAGCAAGT TACAGAACCG GAAGAAAAGC AAATGCAAGA AGATCCTCTA 
    ACAACGGAAA ATGCTTCCAG TGAAATTCTA GATTCACACG TAAGAGCTCA TCTTCGAATG 
    AAGGCTTGTC ACACACTTCC CAGGTATGCC TGGCAGGAAA CTTCACATGA CTTTGATGAG 
    GATGACAGTC TTCCAAAGAA AACGGAAAAA GGGCTCTTTG AAAATGTGGA ACCACAGAAG 
    AAACACAGCT GTTCACCAAA GCATAGTAAA TTGCACAAGC ATTGTCATCA GCAGTTCGAA 
    TACAGAGATG GGCAGATTAT AAGCCATGCT GCTCCTCAGC TAGTCTTGGG GGTTCAAGGT 
    CCCAATCTCC GATCAGGCAT GGAGGTGGTT TTGGTGGAGA AGAAATCTGA TGGTAGTCAT 
    CAGCGCTGGA TACACCAGGA AGACAGCAGG ACCTTTCACC TTGTGAGTAA CCCTGACCTT 
    GTGCTGGCAG TGTCTATGAC CAAGACTAGA AATGAAGTTT GTGGCTATCC AGTTATTGTT 
    CAGAAATATA AGCCGTACAA CAATGGAGCT GCCAATCAAA AGTGGCATTA CATGAAAAAT 
    ATAAAAGCAC TTGTGGCCTT TCATAGCACT GCCTTGGATA AGGAAATTAC ATCAGCAAAT 
    TATGCTGGTG TCTGTACATC ATCTGTGATT AAAGAAGAAA ACATTGATCA ACCAGGATAC 
    TGTTATCTCT CACCTGATGG AAAGAGAAAA ACTATGCTCT GCTTGGCTTG TGGACAATCC 
    ATGAGAACAG AGAAAGGACT GAAACAATTG CTTCCAGGGG TTCCATTCCT CTGTATTTCA 
    GGCACCAAGA CTCAGAAGCC CTTCTTACAA GGGCCCTTCA AGGTCATCAG TGTGGCTGAG 
    GTTGATTTGT CGTGTGACAA GGCTGAAAAA ACTCTAAGTT ACTACCAAGC ACGTCTATTG 
    TCTTTACGGA TGAAGACCTG CACGCAAGCT GCATCTCACA GTGGCATGGC AGCCACACAC 
    CAGAAGGCAG TGAAAATAAT TGCATACAAA AATGGGGATG GGTATCGTAA TGGGAAGTTA 
    ATTGTGGCTG GAACATTCCC CATGCTTCTT ACAGAATGCA CGGAACAACT TGGGCTTGCC 
    AGAGCAGCCT CCAAAGTATA TACCAAAGAT GGAACCCCAA TCTTTACCTT GCGTGATTTG 
    GTTTTATGGG CTCTAGATGA ATCCTTTCTC CAGAGAGACT CTGAGAAACA AAAGCAAGAT 
    GCAGCTCCTG TTGGAAAAGA ACAGATAATT GTTGAAAGTA TGGAAGAAAA TCCAAGAATG 
    AAAGTGAAAA ACAGATTATT TGCAAAATCT GTGACATCCG ATAGTTTGGA TGGTATAGAC 
    AAGTCTTTGC TTACCCTCAT CCTCAGAAAT CCTATTGCCA TCTGGGTGTC TTGTGGTGAA 
    CCATTTCTAC CTCCAAATGC TTTGCAGAAA GCAGAAAAAT TAGAGAAACA GAACTGGCTA 
    AAAAAGGACA GAATTTTGGC TGATCTAGAT ACCATGAGAC ACAAAATGAG ACAGTTAAAA 
    GGGCGGCGAG TAGCGGCATG TCAGCCAGCC ACCATGGTTC CTACCAAGAG CCCTGTGCAG 
    CCCGTGGTGG TTGAAGGAGG CTGGACCGAA CAGACTCAAC AGGAAATTAA ACTCATGGAA 
    CTTATAAGAC ATACAGAGGC ACACCTTTCT GAAATCCAAG AAATGGAATC CAAAATAAAT 
    TTTCCAATTG CAACCAAACG TATAGCAGTC AAGCCGAGCA ACCTGTATAA GCAGCCCAAC 
    ACAAAACGAG TGTGGATTTA TCTAAATGGA GGCAGACCTG AAGATGGCAC TTATGCCTGG 
    GGCAAAACTA TTTCAGAGCT GCTGCAAGAC TGCTCCTCTC GTCTCAAAAT GACCCACCCA 
    GCTAGAGCAC TGTACACCCC CAGTGGAGAG CCAATTCAGT CCTGGGACGA CATAGAGCGA 
    GATATGGTCA TCTGTGTGTC TATGGGACAT GGTTTCAAAA CCCCAAAAGA GTTAAAACAA 
    CTGATGGAGA TCAGAGCAAA TTATGCCAGA ATCCGAAGGC AGCAGGGCCC TCAAGCCACA 
    GACATTGTGG TGTCACCATC CACGAAGCTG CTGTCTCTGG CACATCTCCA CAATTAA

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

    DCDC1 ( XM_024448482.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304250.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID OHu106657
    Clone ID Related Accession (Same CDS sequence) XM_024448482.1
    Accession Version XM_024448482.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3666bp)
    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 doublecortin domain-containing protein 1 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGCTAGTA 
    AATTAG

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

    RefSeq XP_024304250.1
    CDS239..3904
    Translation

    Target ORF information:

    RefSeq Version XM_024448482.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448482.1

    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
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGCTAGTA 
    AATTAG

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

    DCDC1 ( NM_001367979.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001354908.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant 4, mRNA.
    Price & Availability↑
    CloneID OHu107892
    Clone ID Related Accession (Same CDS sequence) NM_001367979.1
    Accession Version NM_001367979.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5352bp)
    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 2019-12-22
    Organism Homo sapiens(human)
    Product doublecortin domain-containing protein 1 isoform 4
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL137804.7, AL162614.25, AL133376.6, AL137160.7 and AL135932.7. On Jan 4, 2019 this sequence version replaced XM_024448474.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology RefSeq Select criteria :: based on conservation ##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
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGACCTTT 
    CACCTTGTGA GTAACCCTGA CCTTGTGCTG GCAGTGTCTA TGACCAAGAC TAGAAATGAA 
    GTTTGTGGCT ATCCAGTTAT TGTTCAGAAA TATAAGCCGT ACAACAATGG AGCTGCCAAT 
    CAAAAGTGGC ATTACATGAA AAATATAAAA GCACTTGTGG CCTTTCATAG CACTGCCTTG 
    GATAAGGAAA TTACATCAGC AAATTATGCT GGTGTCTGTA CATCATCTGT GATTAAAGAA 
    GAAAACATTG ATCAACCAGG ATACTGTTAT CTCTCACCTG ATGGAAAGAG AAAAACTATG 
    CTCTGCTTGG CTTGTGGACA ATCCATGAGA ACAGAGAAAG GACTGAAACA ATTGCTTCCA 
    GGGGTTCCAT TCCTCTGTAT TTCAGGCACC AAGACTCAGA AGCCCTTCTT ACAAGGGCCC 
    TTCAAGGTCA TCAGTGTGGC TGAGGTTGAT TTGTCGTGTG ACAAGGCTGA AAAAACTCTA 
    AGTTACTACC AAGCACGTCT ATTGTCTTTA CGGATGAAGA CCTGCACGCA AGCTGCATCT 
    CACAGTGGCA TGGCAGCCAC ACACCAGAAG GCAGTGAAAA TAATTGCATA CAAAAATGGG 
    GATGGGTATC GTAATGGGAA GTTAATTGTG GCTGGAACAT TCCCCATGCT TCTTACAGAA 
    TGCACGGAAC AACTTGGGCT TGCCAGAGCA GCCTCCAAAG TATATACCAA AGATGGAACC 
    CCAATCTTTA CCTTGCGTGA TTTGGTTTTA TGGGCTCTAG ATGAATCCTT TCTCCAGAGA 
    GACTCTGAGA AACAAAAGCA AGATGCAGCT CCTGTTGGAA AAGAACAGAT AATTGTTGAA 
    AAAAATCCAA GAATGAAAGT GAAAAACAGA TTATTTGCAA AATCTGTGAC ATCCGATAGT 
    TTGGATGGTA TAGACAAGTC TTTGCTTACC CTCATCCTCA GAAATCCTAT TGCCATCTGG 
    GTGTCTTGTG GTGAACCATT TCTACCTCCA AATGCTTTGC AGAAAGCAGA AAAATTAGAG 
    AAACAGAACT GGCTAAAAAA GGACAGAATT TTGGCTGATC TAGATACCAT GAGACACAAA 
    ATGAGACAGT TAAAAGGGCG GCGAGTAGCG GCATGTCAGC CAGCCACCAT GGTTCCTACC 
    AAGAGCCCTG TGCAGCCCGT GGTGGTTGAA GGAGGCTGGA CCGAACAGAC TCAACAGGAA 
    ATTAAACTCA TGGAACTTAT AAGACATACA GAGGCACACC TTTCTGAAAT CCAAGAAATG 
    GAATCCAAAA TAAATTTTCC AATTGCAACC AAACGTATAG CAGTCAAGCC GAGCAACCTG 
    TATAAGCAGC CCAACACAAA ACGAGTGTGG ATTTATCTAA ATGGAGGCAG ACCTGAAGAT 
    GGCACTTATG CCTGGGGCAA AACTATTTCA GAGCTGCTGC AAGACTGCTC CTCTCGTCTC 
    AAAATGACCC ACCCAGCTAG AGCACTGTAC ACCCCCAGTG GAGAGCCAAT TCAGTCCTGG 
    GACGACATAG AGCGAGATAT GGTCATCTGT GTGTCTATGG GACATGGTTT CAAAACCCCA 
    AAAGAGTTAA AACAACTGAT GGAGATCAGA GCAAATTATG CCAGAATCCG AAGGCAGCAG 
    GGCCCTCAAG CCACAGACAT TGTGGTGTCA CCATCCACGA AGCTGCTGTC TCTGGCACAT 
    CTCCACAATT AA

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

    RefSeq NP_001354908.1
    CDS168..5519
    Translation

    Target ORF information:

    RefSeq Version NM_001367979.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001367979.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGACCTTT 
    CACCTTGTGA GTAACCCTGA CCTTGTGCTG GCAGTGTCTA TGACCAAGAC TAGAAATGAA 
    GTTTGTGGCT ATCCAGTTAT TGTTCAGAAA TATAAGCCGT ACAACAATGG AGCTGCCAAT 
    CAAAAGTGGC ATTACATGAA AAATATAAAA GCACTTGTGG CCTTTCATAG CACTGCCTTG 
    GATAAGGAAA TTACATCAGC AAATTATGCT GGTGTCTGTA CATCATCTGT GATTAAAGAA 
    GAAAACATTG ATCAACCAGG ATACTGTTAT CTCTCACCTG ATGGAAAGAG AAAAACTATG 
    CTCTGCTTGG CTTGTGGACA ATCCATGAGA ACAGAGAAAG GACTGAAACA ATTGCTTCCA 
    GGGGTTCCAT TCCTCTGTAT TTCAGGCACC AAGACTCAGA AGCCCTTCTT ACAAGGGCCC 
    TTCAAGGTCA TCAGTGTGGC TGAGGTTGAT TTGTCGTGTG ACAAGGCTGA AAAAACTCTA 
    AGTTACTACC AAGCACGTCT ATTGTCTTTA CGGATGAAGA CCTGCACGCA AGCTGCATCT 
    CACAGTGGCA TGGCAGCCAC ACACCAGAAG GCAGTGAAAA TAATTGCATA CAAAAATGGG 
    GATGGGTATC GTAATGGGAA GTTAATTGTG GCTGGAACAT TCCCCATGCT TCTTACAGAA 
    TGCACGGAAC AACTTGGGCT TGCCAGAGCA GCCTCCAAAG TATATACCAA AGATGGAACC 
    CCAATCTTTA CCTTGCGTGA TTTGGTTTTA TGGGCTCTAG ATGAATCCTT TCTCCAGAGA 
    GACTCTGAGA AACAAAAGCA AGATGCAGCT CCTGTTGGAA AAGAACAGAT AATTGTTGAA 
    AAAAATCCAA GAATGAAAGT GAAAAACAGA TTATTTGCAA AATCTGTGAC ATCCGATAGT 
    TTGGATGGTA TAGACAAGTC TTTGCTTACC CTCATCCTCA GAAATCCTAT TGCCATCTGG 
    GTGTCTTGTG GTGAACCATT TCTACCTCCA AATGCTTTGC AGAAAGCAGA AAAATTAGAG 
    AAACAGAACT GGCTAAAAAA GGACAGAATT TTGGCTGATC TAGATACCAT GAGACACAAA 
    ATGAGACAGT TAAAAGGGCG GCGAGTAGCG GCATGTCAGC CAGCCACCAT GGTTCCTACC 
    AAGAGCCCTG TGCAGCCCGT GGTGGTTGAA GGAGGCTGGA CCGAACAGAC TCAACAGGAA 
    ATTAAACTCA TGGAACTTAT AAGACATACA GAGGCACACC TTTCTGAAAT CCAAGAAATG 
    GAATCCAAAA TAAATTTTCC AATTGCAACC AAACGTATAG CAGTCAAGCC GAGCAACCTG 
    TATAAGCAGC CCAACACAAA ACGAGTGTGG ATTTATCTAA ATGGAGGCAG ACCTGAAGAT 
    GGCACTTATG CCTGGGGCAA AACTATTTCA GAGCTGCTGC AAGACTGCTC CTCTCGTCTC 
    AAAATGACCC ACCCAGCTAG AGCACTGTAC ACCCCCAGTG GAGAGCCAAT TCAGTCCTGG 
    GACGACATAG AGCGAGATAT GGTCATCTGT GTGTCTATGG GACATGGTTT CAAAACCCCA 
    AAAGAGTTAA AACAACTGAT GGAGATCAGA GCAAATTATG CCAGAATCCG AAGGCAGCAG 
    GGCCCTCAAG CCACAGACAT TGTGGTGTCA CCATCCACGA AGCTGCTGTC TCTGGCACAT 
    CTCCACAATT AA

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

    DCDC1 ( XM_024448473.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304241.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu106649
    Clone ID Related Accession (Same CDS sequence) XM_024448473.1 , XM_024448472.1 , XM_024448470.1 , XM_024448471.1
    Accession Version XM_024448473.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5361bp)
    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 doublecortin domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGACCTTT 
    CACCTTGTGA GTAACCCTGA CCTTGTGCTG GCAGTGTCTA TGACCAAGAC TAGAAATGAA 
    GTTTGTGGCT ATCCAGTTAT TGTTCAGAAA TATAAGCCGT ACAACAATGG AGCTGCCAAT 
    CAAAAGTGGC ATTACATGAA AAATATAAAA GCACTTGTGG CCTTTCATAG CACTGCCTTG 
    GATAAGGAAA TTACATCAGC AAATTATGCT GGTGTCTGTA CATCATCTGT GATTAAAGAA 
    GAAAACATTG ATCAACCAGG ATACTGTTAT CTCTCACCTG ATGGAAAGAG AAAAACTATG 
    CTCTGCTTGG CTTGTGGACA ATCCATGAGA ACAGAGAAAG GACTGAAACA ATTGCTTCCA 
    GGGGTTCCAT TCCTCTGTAT TTCAGGCACC AAGACTCAGA AGCCCTTCTT ACAAGGGCCC 
    TTCAAGGTCA TCAGTGTGGC TGAGGTTGAT TTGTCGTGTG ACAAGGCTGA AAAAACTCTA 
    AGTTACTACC AAGCACGTCT ATTGTCTTTA CGGATGAAGA CCTGCACGCA AGCTGCATCT 
    CACAGTGGCA TGGCAGCCAC ACACCAGAAG GCAGTGAAAA TAATTGCATA CAAAAATGGG 
    GATGGGTATC GTAATGGGAA GTTAATTGTG GCTGGAACAT TCCCCATGCT TCTTACAGAA 
    TGCACGGAAC AACTTGGGCT TGCCAGAGCA GCCTCCAAAG TATATACCAA AGATGGAACC 
    CCAATCTTTA CCTTGCGTGA TTTGGTTTTA TGGGCTCTAG ATGAATCCTT TCTCCAGAGA 
    GACTCTGAGA AACAAAAGCA AGATGCAGCT CCTGTTGGAA AAGAACAGAT AATTGTTGAA 
    AGTATGGAAG AAAATCCAAG AATGAAAGTG AAAAACAGAT TATTTGCAAA ATCTGTGACA 
    TCCGATAGTT TGGATGGTAT AGACAAGTCT TTGCTTACCC TCATCCTCAG AAATCCTATT 
    GCCATCTGGG TGTCTTGTGG TGAACCATTT CTACCTCCAA ATGCTTTGCA GAAAGCAGAA 
    AAATTAGAGA AACAGAACTG GCTAAAAAAG GACAGAATTT TGGCTGATCT AGATACCATG 
    AGACACAAAA TGAGACAGTT AAAAGGGCGG CGAGTAGCGG CATGTCAGCC AGCCACCATG 
    GTTCCTACCA AGAGCCCTGT GCAGCCCGTG GTGGTTGAAG GAGGCTGGAC CGAACAGACT 
    CAACAGGAAA TTAAACTCAT GGAACTTATA AGACATACAG AGGCACACCT TTCTGAAATC 
    CAAGAAATGG AATCCAAAAT AAATTTTCCA ATTGCAACCA AACGTATAGC AGTCAAGCCG 
    AGCAACCTGT ATAAGCAGCC CAACACAAAA CGAGTGTGGA TTTATCTAAA TGGAGGCAGA 
    CCTGAAGATG GCACTTATGC CTGGGGCAAA ACTATTTCAG AGCTGCTGCA AGACTGCTCC 
    TCTCGTCTCA AAATGACCCA CCCAGCTAGA GCACTGTACA CCCCCAGTGG AGAGCCAATT 
    CAGTCCTGGG ACGACATAGA GCGAGATATG GTCATCTGTG TGTCTATGGG ACATGGTTTC 
    AAAACCCCAA AAGAGTTAAA ACAACTGATG GAGATCAGAG CAAATTATGC CAGAATCCGA 
    AGGCAGCAGG GCCCTCAAGC CACAGACATT GTGGTGTCAC CATCCACGAA GCTGCTGTCT 
    CTGGCACATC TCCACAATTA A

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

    RefSeq XP_024304241.1
    CDS432..5792
    Translation

    Target ORF information:

    RefSeq Version XM_024448473.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448473.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGACCTTT 
    CACCTTGTGA GTAACCCTGA CCTTGTGCTG GCAGTGTCTA TGACCAAGAC TAGAAATGAA 
    GTTTGTGGCT ATCCAGTTAT TGTTCAGAAA TATAAGCCGT ACAACAATGG AGCTGCCAAT 
    CAAAAGTGGC ATTACATGAA AAATATAAAA GCACTTGTGG CCTTTCATAG CACTGCCTTG 
    GATAAGGAAA TTACATCAGC AAATTATGCT GGTGTCTGTA CATCATCTGT GATTAAAGAA 
    GAAAACATTG ATCAACCAGG ATACTGTTAT CTCTCACCTG ATGGAAAGAG AAAAACTATG 
    CTCTGCTTGG CTTGTGGACA ATCCATGAGA ACAGAGAAAG GACTGAAACA ATTGCTTCCA 
    GGGGTTCCAT TCCTCTGTAT TTCAGGCACC AAGACTCAGA AGCCCTTCTT ACAAGGGCCC 
    TTCAAGGTCA TCAGTGTGGC TGAGGTTGAT TTGTCGTGTG ACAAGGCTGA AAAAACTCTA 
    AGTTACTACC AAGCACGTCT ATTGTCTTTA CGGATGAAGA CCTGCACGCA AGCTGCATCT 
    CACAGTGGCA TGGCAGCCAC ACACCAGAAG GCAGTGAAAA TAATTGCATA CAAAAATGGG 
    GATGGGTATC GTAATGGGAA GTTAATTGTG GCTGGAACAT TCCCCATGCT TCTTACAGAA 
    TGCACGGAAC AACTTGGGCT TGCCAGAGCA GCCTCCAAAG TATATACCAA AGATGGAACC 
    CCAATCTTTA CCTTGCGTGA TTTGGTTTTA TGGGCTCTAG ATGAATCCTT TCTCCAGAGA 
    GACTCTGAGA AACAAAAGCA AGATGCAGCT CCTGTTGGAA AAGAACAGAT AATTGTTGAA 
    AGTATGGAAG AAAATCCAAG AATGAAAGTG AAAAACAGAT TATTTGCAAA ATCTGTGACA 
    TCCGATAGTT TGGATGGTAT AGACAAGTCT TTGCTTACCC TCATCCTCAG AAATCCTATT 
    GCCATCTGGG TGTCTTGTGG TGAACCATTT CTACCTCCAA ATGCTTTGCA GAAAGCAGAA 
    AAATTAGAGA AACAGAACTG GCTAAAAAAG GACAGAATTT TGGCTGATCT AGATACCATG 
    AGACACAAAA TGAGACAGTT AAAAGGGCGG CGAGTAGCGG CATGTCAGCC AGCCACCATG 
    GTTCCTACCA AGAGCCCTGT GCAGCCCGTG GTGGTTGAAG GAGGCTGGAC CGAACAGACT 
    CAACAGGAAA TTAAACTCAT GGAACTTATA AGACATACAG AGGCACACCT TTCTGAAATC 
    CAAGAAATGG AATCCAAAAT AAATTTTCCA ATTGCAACCA AACGTATAGC AGTCAAGCCG 
    AGCAACCTGT ATAAGCAGCC CAACACAAAA CGAGTGTGGA TTTATCTAAA TGGAGGCAGA 
    CCTGAAGATG GCACTTATGC CTGGGGCAAA ACTATTTCAG AGCTGCTGCA AGACTGCTCC 
    TCTCGTCTCA AAATGACCCA CCCAGCTAGA GCACTGTACA CCCCCAGTGG AGAGCCAATT 
    CAGTCCTGGG ACGACATAGA GCGAGATATG GTCATCTGTG TGTCTATGGG ACATGGTTTC 
    AAAACCCCAA AAGAGTTAAA ACAACTGATG GAGATCAGAG CAAATTATGC CAGAATCCGA 
    AGGCAGCAGG GCCCTCAAGC CACAGACATT GTGGTGTCAC CATCCACGAA GCTGCTGTCT 
    CTGGCACATC TCCACAATTA A

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

    DCDC1 ( XM_024448472.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304240.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu106649
    Clone ID Related Accession (Same CDS sequence) XM_024448473.1 , XM_024448472.1 , XM_024448470.1 , XM_024448471.1
    Accession Version XM_024448472.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5361bp)
    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 doublecortin domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGACCTTT 
    CACCTTGTGA GTAACCCTGA CCTTGTGCTG GCAGTGTCTA TGACCAAGAC TAGAAATGAA 
    GTTTGTGGCT ATCCAGTTAT TGTTCAGAAA TATAAGCCGT ACAACAATGG AGCTGCCAAT 
    CAAAAGTGGC ATTACATGAA AAATATAAAA GCACTTGTGG CCTTTCATAG CACTGCCTTG 
    GATAAGGAAA TTACATCAGC AAATTATGCT GGTGTCTGTA CATCATCTGT GATTAAAGAA 
    GAAAACATTG ATCAACCAGG ATACTGTTAT CTCTCACCTG ATGGAAAGAG AAAAACTATG 
    CTCTGCTTGG CTTGTGGACA ATCCATGAGA ACAGAGAAAG GACTGAAACA ATTGCTTCCA 
    GGGGTTCCAT TCCTCTGTAT TTCAGGCACC AAGACTCAGA AGCCCTTCTT ACAAGGGCCC 
    TTCAAGGTCA TCAGTGTGGC TGAGGTTGAT TTGTCGTGTG ACAAGGCTGA AAAAACTCTA 
    AGTTACTACC AAGCACGTCT ATTGTCTTTA CGGATGAAGA CCTGCACGCA AGCTGCATCT 
    CACAGTGGCA TGGCAGCCAC ACACCAGAAG GCAGTGAAAA TAATTGCATA CAAAAATGGG 
    GATGGGTATC GTAATGGGAA GTTAATTGTG GCTGGAACAT TCCCCATGCT TCTTACAGAA 
    TGCACGGAAC AACTTGGGCT TGCCAGAGCA GCCTCCAAAG TATATACCAA AGATGGAACC 
    CCAATCTTTA CCTTGCGTGA TTTGGTTTTA TGGGCTCTAG ATGAATCCTT TCTCCAGAGA 
    GACTCTGAGA AACAAAAGCA AGATGCAGCT CCTGTTGGAA AAGAACAGAT AATTGTTGAA 
    AGTATGGAAG AAAATCCAAG AATGAAAGTG AAAAACAGAT TATTTGCAAA ATCTGTGACA 
    TCCGATAGTT TGGATGGTAT AGACAAGTCT TTGCTTACCC TCATCCTCAG AAATCCTATT 
    GCCATCTGGG TGTCTTGTGG TGAACCATTT CTACCTCCAA ATGCTTTGCA GAAAGCAGAA 
    AAATTAGAGA AACAGAACTG GCTAAAAAAG GACAGAATTT TGGCTGATCT AGATACCATG 
    AGACACAAAA TGAGACAGTT AAAAGGGCGG CGAGTAGCGG CATGTCAGCC AGCCACCATG 
    GTTCCTACCA AGAGCCCTGT GCAGCCCGTG GTGGTTGAAG GAGGCTGGAC CGAACAGACT 
    CAACAGGAAA TTAAACTCAT GGAACTTATA AGACATACAG AGGCACACCT TTCTGAAATC 
    CAAGAAATGG AATCCAAAAT AAATTTTCCA ATTGCAACCA AACGTATAGC AGTCAAGCCG 
    AGCAACCTGT ATAAGCAGCC CAACACAAAA CGAGTGTGGA TTTATCTAAA TGGAGGCAGA 
    CCTGAAGATG GCACTTATGC CTGGGGCAAA ACTATTTCAG AGCTGCTGCA AGACTGCTCC 
    TCTCGTCTCA AAATGACCCA CCCAGCTAGA GCACTGTACA CCCCCAGTGG AGAGCCAATT 
    CAGTCCTGGG ACGACATAGA GCGAGATATG GTCATCTGTG TGTCTATGGG ACATGGTTTC 
    AAAACCCCAA AAGAGTTAAA ACAACTGATG GAGATCAGAG CAAATTATGC CAGAATCCGA 
    AGGCAGCAGG GCCCTCAAGC CACAGACATT GTGGTGTCAC CATCCACGAA GCTGCTGTCT 
    CTGGCACATC TCCACAATTA A

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

    RefSeq XP_024304240.1
    CDS239..5599
    Translation

    Target ORF information:

    RefSeq Version XM_024448472.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448472.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGACCTTT 
    CACCTTGTGA GTAACCCTGA CCTTGTGCTG GCAGTGTCTA TGACCAAGAC TAGAAATGAA 
    GTTTGTGGCT ATCCAGTTAT TGTTCAGAAA TATAAGCCGT ACAACAATGG AGCTGCCAAT 
    CAAAAGTGGC ATTACATGAA AAATATAAAA GCACTTGTGG CCTTTCATAG CACTGCCTTG 
    GATAAGGAAA TTACATCAGC AAATTATGCT GGTGTCTGTA CATCATCTGT GATTAAAGAA 
    GAAAACATTG ATCAACCAGG ATACTGTTAT CTCTCACCTG ATGGAAAGAG AAAAACTATG 
    CTCTGCTTGG CTTGTGGACA ATCCATGAGA ACAGAGAAAG GACTGAAACA ATTGCTTCCA 
    GGGGTTCCAT TCCTCTGTAT TTCAGGCACC AAGACTCAGA AGCCCTTCTT ACAAGGGCCC 
    TTCAAGGTCA TCAGTGTGGC TGAGGTTGAT TTGTCGTGTG ACAAGGCTGA AAAAACTCTA 
    AGTTACTACC AAGCACGTCT ATTGTCTTTA CGGATGAAGA CCTGCACGCA AGCTGCATCT 
    CACAGTGGCA TGGCAGCCAC ACACCAGAAG GCAGTGAAAA TAATTGCATA CAAAAATGGG 
    GATGGGTATC GTAATGGGAA GTTAATTGTG GCTGGAACAT TCCCCATGCT TCTTACAGAA 
    TGCACGGAAC AACTTGGGCT TGCCAGAGCA GCCTCCAAAG TATATACCAA AGATGGAACC 
    CCAATCTTTA CCTTGCGTGA TTTGGTTTTA TGGGCTCTAG ATGAATCCTT TCTCCAGAGA 
    GACTCTGAGA AACAAAAGCA AGATGCAGCT CCTGTTGGAA AAGAACAGAT AATTGTTGAA 
    AGTATGGAAG AAAATCCAAG AATGAAAGTG AAAAACAGAT TATTTGCAAA ATCTGTGACA 
    TCCGATAGTT TGGATGGTAT AGACAAGTCT TTGCTTACCC TCATCCTCAG AAATCCTATT 
    GCCATCTGGG TGTCTTGTGG TGAACCATTT CTACCTCCAA ATGCTTTGCA GAAAGCAGAA 
    AAATTAGAGA AACAGAACTG GCTAAAAAAG GACAGAATTT TGGCTGATCT AGATACCATG 
    AGACACAAAA TGAGACAGTT AAAAGGGCGG CGAGTAGCGG CATGTCAGCC AGCCACCATG 
    GTTCCTACCA AGAGCCCTGT GCAGCCCGTG GTGGTTGAAG GAGGCTGGAC CGAACAGACT 
    CAACAGGAAA TTAAACTCAT GGAACTTATA AGACATACAG AGGCACACCT TTCTGAAATC 
    CAAGAAATGG AATCCAAAAT AAATTTTCCA ATTGCAACCA AACGTATAGC AGTCAAGCCG 
    AGCAACCTGT ATAAGCAGCC CAACACAAAA CGAGTGTGGA TTTATCTAAA TGGAGGCAGA 
    CCTGAAGATG GCACTTATGC CTGGGGCAAA ACTATTTCAG AGCTGCTGCA AGACTGCTCC 
    TCTCGTCTCA AAATGACCCA CCCAGCTAGA GCACTGTACA CCCCCAGTGG AGAGCCAATT 
    CAGTCCTGGG ACGACATAGA GCGAGATATG GTCATCTGTG TGTCTATGGG ACATGGTTTC 
    AAAACCCCAA AAGAGTTAAA ACAACTGATG GAGATCAGAG CAAATTATGC CAGAATCCGA 
    AGGCAGCAGG GCCCTCAAGC CACAGACATT GTGGTGTCAC CATCCACGAA GCTGCTGTCT 
    CTGGCACATC TCCACAATTA A

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

    DCDC1 ( XM_024448470.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304238.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu106649
    Clone ID Related Accession (Same CDS sequence) XM_024448473.1 , XM_024448472.1 , XM_024448470.1 , XM_024448471.1
    Accession Version XM_024448470.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5361bp)
    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 doublecortin domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGACCTTT 
    CACCTTGTGA GTAACCCTGA CCTTGTGCTG GCAGTGTCTA TGACCAAGAC TAGAAATGAA 
    GTTTGTGGCT ATCCAGTTAT TGTTCAGAAA TATAAGCCGT ACAACAATGG AGCTGCCAAT 
    CAAAAGTGGC ATTACATGAA AAATATAAAA GCACTTGTGG CCTTTCATAG CACTGCCTTG 
    GATAAGGAAA TTACATCAGC AAATTATGCT GGTGTCTGTA CATCATCTGT GATTAAAGAA 
    GAAAACATTG ATCAACCAGG ATACTGTTAT CTCTCACCTG ATGGAAAGAG AAAAACTATG 
    CTCTGCTTGG CTTGTGGACA ATCCATGAGA ACAGAGAAAG GACTGAAACA ATTGCTTCCA 
    GGGGTTCCAT TCCTCTGTAT TTCAGGCACC AAGACTCAGA AGCCCTTCTT ACAAGGGCCC 
    TTCAAGGTCA TCAGTGTGGC TGAGGTTGAT TTGTCGTGTG ACAAGGCTGA AAAAACTCTA 
    AGTTACTACC AAGCACGTCT ATTGTCTTTA CGGATGAAGA CCTGCACGCA AGCTGCATCT 
    CACAGTGGCA TGGCAGCCAC ACACCAGAAG GCAGTGAAAA TAATTGCATA CAAAAATGGG 
    GATGGGTATC GTAATGGGAA GTTAATTGTG GCTGGAACAT TCCCCATGCT TCTTACAGAA 
    TGCACGGAAC AACTTGGGCT TGCCAGAGCA GCCTCCAAAG TATATACCAA AGATGGAACC 
    CCAATCTTTA CCTTGCGTGA TTTGGTTTTA TGGGCTCTAG ATGAATCCTT TCTCCAGAGA 
    GACTCTGAGA AACAAAAGCA AGATGCAGCT CCTGTTGGAA AAGAACAGAT AATTGTTGAA 
    AGTATGGAAG AAAATCCAAG AATGAAAGTG AAAAACAGAT TATTTGCAAA ATCTGTGACA 
    TCCGATAGTT TGGATGGTAT AGACAAGTCT TTGCTTACCC TCATCCTCAG AAATCCTATT 
    GCCATCTGGG TGTCTTGTGG TGAACCATTT CTACCTCCAA ATGCTTTGCA GAAAGCAGAA 
    AAATTAGAGA AACAGAACTG GCTAAAAAAG GACAGAATTT TGGCTGATCT AGATACCATG 
    AGACACAAAA TGAGACAGTT AAAAGGGCGG CGAGTAGCGG CATGTCAGCC AGCCACCATG 
    GTTCCTACCA AGAGCCCTGT GCAGCCCGTG GTGGTTGAAG GAGGCTGGAC CGAACAGACT 
    CAACAGGAAA TTAAACTCAT GGAACTTATA AGACATACAG AGGCACACCT TTCTGAAATC 
    CAAGAAATGG AATCCAAAAT AAATTTTCCA ATTGCAACCA AACGTATAGC AGTCAAGCCG 
    AGCAACCTGT ATAAGCAGCC CAACACAAAA CGAGTGTGGA TTTATCTAAA TGGAGGCAGA 
    CCTGAAGATG GCACTTATGC CTGGGGCAAA ACTATTTCAG AGCTGCTGCA AGACTGCTCC 
    TCTCGTCTCA AAATGACCCA CCCAGCTAGA GCACTGTACA CCCCCAGTGG AGAGCCAATT 
    CAGTCCTGGG ACGACATAGA GCGAGATATG GTCATCTGTG TGTCTATGGG ACATGGTTTC 
    AAAACCCCAA AAGAGTTAAA ACAACTGATG GAGATCAGAG CAAATTATGC CAGAATCCGA 
    AGGCAGCAGG GCCCTCAAGC CACAGACATT GTGGTGTCAC CATCCACGAA GCTGCTGTCT 
    CTGGCACATC TCCACAATTA A

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

    RefSeq XP_024304238.1
    CDS239..5599
    Translation

    Target ORF information:

    RefSeq Version XM_024448470.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448470.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGACCTTT 
    CACCTTGTGA GTAACCCTGA CCTTGTGCTG GCAGTGTCTA TGACCAAGAC TAGAAATGAA 
    GTTTGTGGCT ATCCAGTTAT TGTTCAGAAA TATAAGCCGT ACAACAATGG AGCTGCCAAT 
    CAAAAGTGGC ATTACATGAA AAATATAAAA GCACTTGTGG CCTTTCATAG CACTGCCTTG 
    GATAAGGAAA TTACATCAGC AAATTATGCT GGTGTCTGTA CATCATCTGT GATTAAAGAA 
    GAAAACATTG ATCAACCAGG ATACTGTTAT CTCTCACCTG ATGGAAAGAG AAAAACTATG 
    CTCTGCTTGG CTTGTGGACA ATCCATGAGA ACAGAGAAAG GACTGAAACA ATTGCTTCCA 
    GGGGTTCCAT TCCTCTGTAT TTCAGGCACC AAGACTCAGA AGCCCTTCTT ACAAGGGCCC 
    TTCAAGGTCA TCAGTGTGGC TGAGGTTGAT TTGTCGTGTG ACAAGGCTGA AAAAACTCTA 
    AGTTACTACC AAGCACGTCT ATTGTCTTTA CGGATGAAGA CCTGCACGCA AGCTGCATCT 
    CACAGTGGCA TGGCAGCCAC ACACCAGAAG GCAGTGAAAA TAATTGCATA CAAAAATGGG 
    GATGGGTATC GTAATGGGAA GTTAATTGTG GCTGGAACAT TCCCCATGCT TCTTACAGAA 
    TGCACGGAAC AACTTGGGCT TGCCAGAGCA GCCTCCAAAG TATATACCAA AGATGGAACC 
    CCAATCTTTA CCTTGCGTGA TTTGGTTTTA TGGGCTCTAG ATGAATCCTT TCTCCAGAGA 
    GACTCTGAGA AACAAAAGCA AGATGCAGCT CCTGTTGGAA AAGAACAGAT AATTGTTGAA 
    AGTATGGAAG AAAATCCAAG AATGAAAGTG AAAAACAGAT TATTTGCAAA ATCTGTGACA 
    TCCGATAGTT TGGATGGTAT AGACAAGTCT TTGCTTACCC TCATCCTCAG AAATCCTATT 
    GCCATCTGGG TGTCTTGTGG TGAACCATTT CTACCTCCAA ATGCTTTGCA GAAAGCAGAA 
    AAATTAGAGA AACAGAACTG GCTAAAAAAG GACAGAATTT TGGCTGATCT AGATACCATG 
    AGACACAAAA TGAGACAGTT AAAAGGGCGG CGAGTAGCGG CATGTCAGCC AGCCACCATG 
    GTTCCTACCA AGAGCCCTGT GCAGCCCGTG GTGGTTGAAG GAGGCTGGAC CGAACAGACT 
    CAACAGGAAA TTAAACTCAT GGAACTTATA AGACATACAG AGGCACACCT TTCTGAAATC 
    CAAGAAATGG AATCCAAAAT AAATTTTCCA ATTGCAACCA AACGTATAGC AGTCAAGCCG 
    AGCAACCTGT ATAAGCAGCC CAACACAAAA CGAGTGTGGA TTTATCTAAA TGGAGGCAGA 
    CCTGAAGATG GCACTTATGC CTGGGGCAAA ACTATTTCAG AGCTGCTGCA AGACTGCTCC 
    TCTCGTCTCA AAATGACCCA CCCAGCTAGA GCACTGTACA CCCCCAGTGG AGAGCCAATT 
    CAGTCCTGGG ACGACATAGA GCGAGATATG GTCATCTGTG TGTCTATGGG ACATGGTTTC 
    AAAACCCCAA AAGAGTTAAA ACAACTGATG GAGATCAGAG CAAATTATGC CAGAATCCGA 
    AGGCAGCAGG GCCCTCAAGC CACAGACATT GTGGTGTCAC CATCCACGAA GCTGCTGTCT 
    CTGGCACATC TCCACAATTA A

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

    DCDC1 ( XM_024448471.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304239.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu106649
    Clone ID Related Accession (Same CDS sequence) XM_024448473.1 , XM_024448472.1 , XM_024448470.1 , XM_024448471.1
    Accession Version XM_024448471.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5361bp)
    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 doublecortin domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGACCTTT 
    CACCTTGTGA GTAACCCTGA CCTTGTGCTG GCAGTGTCTA TGACCAAGAC TAGAAATGAA 
    GTTTGTGGCT ATCCAGTTAT TGTTCAGAAA TATAAGCCGT ACAACAATGG AGCTGCCAAT 
    CAAAAGTGGC ATTACATGAA AAATATAAAA GCACTTGTGG CCTTTCATAG CACTGCCTTG 
    GATAAGGAAA TTACATCAGC AAATTATGCT GGTGTCTGTA CATCATCTGT GATTAAAGAA 
    GAAAACATTG ATCAACCAGG ATACTGTTAT CTCTCACCTG ATGGAAAGAG AAAAACTATG 
    CTCTGCTTGG CTTGTGGACA ATCCATGAGA ACAGAGAAAG GACTGAAACA ATTGCTTCCA 
    GGGGTTCCAT TCCTCTGTAT TTCAGGCACC AAGACTCAGA AGCCCTTCTT ACAAGGGCCC 
    TTCAAGGTCA TCAGTGTGGC TGAGGTTGAT TTGTCGTGTG ACAAGGCTGA AAAAACTCTA 
    AGTTACTACC AAGCACGTCT ATTGTCTTTA CGGATGAAGA CCTGCACGCA AGCTGCATCT 
    CACAGTGGCA TGGCAGCCAC ACACCAGAAG GCAGTGAAAA TAATTGCATA CAAAAATGGG 
    GATGGGTATC GTAATGGGAA GTTAATTGTG GCTGGAACAT TCCCCATGCT TCTTACAGAA 
    TGCACGGAAC AACTTGGGCT TGCCAGAGCA GCCTCCAAAG TATATACCAA AGATGGAACC 
    CCAATCTTTA CCTTGCGTGA TTTGGTTTTA TGGGCTCTAG ATGAATCCTT TCTCCAGAGA 
    GACTCTGAGA AACAAAAGCA AGATGCAGCT CCTGTTGGAA AAGAACAGAT AATTGTTGAA 
    AGTATGGAAG AAAATCCAAG AATGAAAGTG AAAAACAGAT TATTTGCAAA ATCTGTGACA 
    TCCGATAGTT TGGATGGTAT AGACAAGTCT TTGCTTACCC TCATCCTCAG AAATCCTATT 
    GCCATCTGGG TGTCTTGTGG TGAACCATTT CTACCTCCAA ATGCTTTGCA GAAAGCAGAA 
    AAATTAGAGA AACAGAACTG GCTAAAAAAG GACAGAATTT TGGCTGATCT AGATACCATG 
    AGACACAAAA TGAGACAGTT AAAAGGGCGG CGAGTAGCGG CATGTCAGCC AGCCACCATG 
    GTTCCTACCA AGAGCCCTGT GCAGCCCGTG GTGGTTGAAG GAGGCTGGAC CGAACAGACT 
    CAACAGGAAA TTAAACTCAT GGAACTTATA AGACATACAG AGGCACACCT TTCTGAAATC 
    CAAGAAATGG AATCCAAAAT AAATTTTCCA ATTGCAACCA AACGTATAGC AGTCAAGCCG 
    AGCAACCTGT ATAAGCAGCC CAACACAAAA CGAGTGTGGA TTTATCTAAA TGGAGGCAGA 
    CCTGAAGATG GCACTTATGC CTGGGGCAAA ACTATTTCAG AGCTGCTGCA AGACTGCTCC 
    TCTCGTCTCA AAATGACCCA CCCAGCTAGA GCACTGTACA CCCCCAGTGG AGAGCCAATT 
    CAGTCCTGGG ACGACATAGA GCGAGATATG GTCATCTGTG TGTCTATGGG ACATGGTTTC 
    AAAACCCCAA AAGAGTTAAA ACAACTGATG GAGATCAGAG CAAATTATGC CAGAATCCGA 
    AGGCAGCAGG GCCCTCAAGC CACAGACATT GTGGTGTCAC CATCCACGAA GCTGCTGTCT 
    CTGGCACATC TCCACAATTA A

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

    RefSeq XP_024304239.1
    CDS232..5592
    Translation

    Target ORF information:

    RefSeq Version XM_024448471.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448471.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGACCTTT 
    CACCTTGTGA GTAACCCTGA CCTTGTGCTG GCAGTGTCTA TGACCAAGAC TAGAAATGAA 
    GTTTGTGGCT ATCCAGTTAT TGTTCAGAAA TATAAGCCGT ACAACAATGG AGCTGCCAAT 
    CAAAAGTGGC ATTACATGAA AAATATAAAA GCACTTGTGG CCTTTCATAG CACTGCCTTG 
    GATAAGGAAA TTACATCAGC AAATTATGCT GGTGTCTGTA CATCATCTGT GATTAAAGAA 
    GAAAACATTG ATCAACCAGG ATACTGTTAT CTCTCACCTG ATGGAAAGAG AAAAACTATG 
    CTCTGCTTGG CTTGTGGACA ATCCATGAGA ACAGAGAAAG GACTGAAACA ATTGCTTCCA 
    GGGGTTCCAT TCCTCTGTAT TTCAGGCACC AAGACTCAGA AGCCCTTCTT ACAAGGGCCC 
    TTCAAGGTCA TCAGTGTGGC TGAGGTTGAT TTGTCGTGTG ACAAGGCTGA AAAAACTCTA 
    AGTTACTACC AAGCACGTCT ATTGTCTTTA CGGATGAAGA CCTGCACGCA AGCTGCATCT 
    CACAGTGGCA TGGCAGCCAC ACACCAGAAG GCAGTGAAAA TAATTGCATA CAAAAATGGG 
    GATGGGTATC GTAATGGGAA GTTAATTGTG GCTGGAACAT TCCCCATGCT TCTTACAGAA 
    TGCACGGAAC AACTTGGGCT TGCCAGAGCA GCCTCCAAAG TATATACCAA AGATGGAACC 
    CCAATCTTTA CCTTGCGTGA TTTGGTTTTA TGGGCTCTAG ATGAATCCTT TCTCCAGAGA 
    GACTCTGAGA AACAAAAGCA AGATGCAGCT CCTGTTGGAA AAGAACAGAT AATTGTTGAA 
    AGTATGGAAG AAAATCCAAG AATGAAAGTG AAAAACAGAT TATTTGCAAA ATCTGTGACA 
    TCCGATAGTT TGGATGGTAT AGACAAGTCT TTGCTTACCC TCATCCTCAG AAATCCTATT 
    GCCATCTGGG TGTCTTGTGG TGAACCATTT CTACCTCCAA ATGCTTTGCA GAAAGCAGAA 
    AAATTAGAGA AACAGAACTG GCTAAAAAAG GACAGAATTT TGGCTGATCT AGATACCATG 
    AGACACAAAA TGAGACAGTT AAAAGGGCGG CGAGTAGCGG CATGTCAGCC AGCCACCATG 
    GTTCCTACCA AGAGCCCTGT GCAGCCCGTG GTGGTTGAAG GAGGCTGGAC CGAACAGACT 
    CAACAGGAAA TTAAACTCAT GGAACTTATA AGACATACAG AGGCACACCT TTCTGAAATC 
    CAAGAAATGG AATCCAAAAT AAATTTTCCA ATTGCAACCA AACGTATAGC AGTCAAGCCG 
    AGCAACCTGT ATAAGCAGCC CAACACAAAA CGAGTGTGGA TTTATCTAAA TGGAGGCAGA 
    CCTGAAGATG GCACTTATGC CTGGGGCAAA ACTATTTCAG AGCTGCTGCA AGACTGCTCC 
    TCTCGTCTCA AAATGACCCA CCCAGCTAGA GCACTGTACA CCCCCAGTGG AGAGCCAATT 
    CAGTCCTGGG ACGACATAGA GCGAGATATG GTCATCTGTG TGTCTATGGG ACATGGTTTC 
    AAAACCCCAA AAGAGTTAAA ACAACTGATG GAGATCAGAG CAAATTATGC CAGAATCCGA 
    AGGCAGCAGG GCCCTCAAGC CACAGACATT GTGGTGTCAC CATCCACGAA GCTGCTGTCT 
    CTGGCACATC TCCACAATTA A

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

    DCDC1 ( XM_024448475.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304243.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu106650
    Clone ID Related Accession (Same CDS sequence) XM_024448475.1
    Accession Version XM_024448475.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5307bp)
    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 doublecortin domain-containing protein 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTGTATGCC 
    TGGCAGGAAA CTTCACATGA CTTTGATGAG GATGACAGTC TTCCAAAGAA AACGGAAAAA 
    GGGCTCTTTG AAAATGTGGA ACCACAGAAG AAACACAGCT GTTCACCAAA GCATAGTAAA 
    TTGCACAAGC ATTGTCATCA GCAGTTCGAA TACAGAGATG GGCAGATTAT AAGCCATGCT 
    GCTCCTCAGC TAGTCTTGGG GGTTCAAGGT CCCAATCTCC GATCAGGCAT GGAGGTGGTT 
    TTGGTGGAGA AGAAATCTGA TGGTAGTCAT CAGCGCTGGA TACACCAGGA AGACAGCAGG 
    ACCTTTCACC TTGTGAGTAA CCCTGACCTT GTGCTGGCAG TGTCTATGAC CAAGACTAGA 
    AATGAAGTTT GTGGCTATCC AGTTATTGTT CAGAAATATA AGCCGTACAA CAATGGAGCT 
    GCCAATCAAA AGTGGCATTA CATGAAAAAT ATAAAAGCAC TTGTGGCCTT TCATAGCACT 
    GCCTTGGATA AGGAAATTAC ATCAGCAAAT TATGCTGGTG TCTGTACATC ATCTGTGATT 
    AAAGAAGAAA ACATTGATCA ACCAGGATAC TGTTATCTCT CACCTGATGG AAAGAGAAAA 
    ACTATGCTCT GCTTGGCTTG TGGACAATCC ATGAGAACAG AGAAAGGACT GAAACAATTG 
    CTTCCAGGGG TTCCATTCCT CTGTATTTCA GGCACCAAGA CTCAGAAGCC CTTCTTACAA 
    GGGCCCTTCA AGGTCATCAG TGTGGCTGAG GTTGATTTGT CGTGTGACAA GGCTGAAAAA 
    ACTCTAAGTT ACTACCAAGC ACGTCTATTG TCTTTACGGA TGAAGACCTG CACGCAAGCT 
    GCATCTCACA GTGGCATGGC AGCCACACAC CAGAAGGCAG TGAAAATAAT TGCATACAAA 
    AATGGGGATG GGTATCGTAA TGGGAAGTTA ATTGTGGCTG GAACATTCCC CATGCTTCTT 
    ACAGAATGCA CGGAACAACT TGGGCTTGCC AGAGCAGCCT CCAAAGTATA TACCAAAGAT 
    GGAACCCCAA TCTTTACCTT GCGTGATTTG GTTTTATGGG CTCTAGATGA ATCCTTTCTC 
    CAGAGAGACT CTGAGAAACA AAAGCAAGAT GCAGCTCCTG TTGGAAAAGA ACAGATAATT 
    GTTGAAAGTA TGGAAGAAAA TCCAAGAATG AAAGTGAAAA ACAGATTATT TGCAAAATCT 
    GTGACATCCG ATAGTTTGGA TGGTATAGAC AAGTCTTTGC TTACCCTCAT CCTCAGAAAT 
    CCTATTGCCA TCTGGGTGTC TTGTGGTGAA CCATTTCTAC CTCCAAATGC TTTGCAGAAA 
    GCAGAAAAAT TAGAGAAACA GAACTGGCTA AAAAAGGACA GAATTTTGGC TGATCTAGAT 
    ACCATGAGAC ACAAAATGAG ACAGTTAAAA GGGCGGCGAG TAGCGGCATG TCAGCCAGCC 
    ACCATGGTTC CTACCAAGAG CCCTGTGCAG CCCGTGGTGG TTGAAGGAGG CTGGACCGAA 
    CAGACTCAAC AGGAAATTAA ACTCATGGAA CTTATAAGAC ATACAGAGGC ACACCTTTCT 
    GAAATCCAAG AAATGGAATC CAAAATAAAT TTTCCAATTG CAACCAAACG TATAGCAGTC 
    AAGCCGAGCA ACCTGTATAA GCAGCCCAAC ACAAAACGAG TGTGGATTTA TCTAAATGGA 
    GGCAGACCTG AAGATGGCAC TTATGCCTGG GGCAAAACTA TTTCAGAGCT GCTGCAAGAC 
    TGCTCCTCTC GTCTCAAAAT GACCCACCCA GCTAGAGCAC TGTACACCCC CAGTGGAGAG 
    CCAATTCAGT CCTGGGACGA CATAGAGCGA GATATGGTCA TCTGTGTGTC TATGGGACAT 
    GGTTTCAAAA CCCCAAAAGA GTTAAAACAA CTGATGGAGA TCAGAGCAAA TTATGCCAGA 
    ATCCGAAGGC AGCAGGGCCC TCAAGCCACA GACATTGTGG TGTCACCATC CACGAAGCTG 
    CTGTCTCTGG CACATCTCCA CAATTAA

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

    RefSeq XP_024304243.1
    CDS239..5545
    Translation

    Target ORF information:

    RefSeq Version XM_024448475.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448475.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTGTATGCC 
    TGGCAGGAAA CTTCACATGA CTTTGATGAG GATGACAGTC TTCCAAAGAA AACGGAAAAA 
    GGGCTCTTTG AAAATGTGGA ACCACAGAAG AAACACAGCT GTTCACCAAA GCATAGTAAA 
    TTGCACAAGC ATTGTCATCA GCAGTTCGAA TACAGAGATG GGCAGATTAT AAGCCATGCT 
    GCTCCTCAGC TAGTCTTGGG GGTTCAAGGT CCCAATCTCC GATCAGGCAT GGAGGTGGTT 
    TTGGTGGAGA AGAAATCTGA TGGTAGTCAT CAGCGCTGGA TACACCAGGA AGACAGCAGG 
    ACCTTTCACC TTGTGAGTAA CCCTGACCTT GTGCTGGCAG TGTCTATGAC CAAGACTAGA 
    AATGAAGTTT GTGGCTATCC AGTTATTGTT CAGAAATATA AGCCGTACAA CAATGGAGCT 
    GCCAATCAAA AGTGGCATTA CATGAAAAAT ATAAAAGCAC TTGTGGCCTT TCATAGCACT 
    GCCTTGGATA AGGAAATTAC ATCAGCAAAT TATGCTGGTG TCTGTACATC ATCTGTGATT 
    AAAGAAGAAA ACATTGATCA ACCAGGATAC TGTTATCTCT CACCTGATGG AAAGAGAAAA 
    ACTATGCTCT GCTTGGCTTG TGGACAATCC ATGAGAACAG AGAAAGGACT GAAACAATTG 
    CTTCCAGGGG TTCCATTCCT CTGTATTTCA GGCACCAAGA CTCAGAAGCC CTTCTTACAA 
    GGGCCCTTCA AGGTCATCAG TGTGGCTGAG GTTGATTTGT CGTGTGACAA GGCTGAAAAA 
    ACTCTAAGTT ACTACCAAGC ACGTCTATTG TCTTTACGGA TGAAGACCTG CACGCAAGCT 
    GCATCTCACA GTGGCATGGC AGCCACACAC CAGAAGGCAG TGAAAATAAT TGCATACAAA 
    AATGGGGATG GGTATCGTAA TGGGAAGTTA ATTGTGGCTG GAACATTCCC CATGCTTCTT 
    ACAGAATGCA CGGAACAACT TGGGCTTGCC AGAGCAGCCT CCAAAGTATA TACCAAAGAT 
    GGAACCCCAA TCTTTACCTT GCGTGATTTG GTTTTATGGG CTCTAGATGA ATCCTTTCTC 
    CAGAGAGACT CTGAGAAACA AAAGCAAGAT GCAGCTCCTG TTGGAAAAGA ACAGATAATT 
    GTTGAAAGTA TGGAAGAAAA TCCAAGAATG AAAGTGAAAA ACAGATTATT TGCAAAATCT 
    GTGACATCCG ATAGTTTGGA TGGTATAGAC AAGTCTTTGC TTACCCTCAT CCTCAGAAAT 
    CCTATTGCCA TCTGGGTGTC TTGTGGTGAA CCATTTCTAC CTCCAAATGC TTTGCAGAAA 
    GCAGAAAAAT TAGAGAAACA GAACTGGCTA AAAAAGGACA GAATTTTGGC TGATCTAGAT 
    ACCATGAGAC ACAAAATGAG ACAGTTAAAA GGGCGGCGAG TAGCGGCATG TCAGCCAGCC 
    ACCATGGTTC CTACCAAGAG CCCTGTGCAG CCCGTGGTGG TTGAAGGAGG CTGGACCGAA 
    CAGACTCAAC AGGAAATTAA ACTCATGGAA CTTATAAGAC ATACAGAGGC ACACCTTTCT 
    GAAATCCAAG AAATGGAATC CAAAATAAAT TTTCCAATTG CAACCAAACG TATAGCAGTC 
    AAGCCGAGCA ACCTGTATAA GCAGCCCAAC ACAAAACGAG TGTGGATTTA TCTAAATGGA 
    GGCAGACCTG AAGATGGCAC TTATGCCTGG GGCAAAACTA TTTCAGAGCT GCTGCAAGAC 
    TGCTCCTCTC GTCTCAAAAT GACCCACCCA GCTAGAGCAC TGTACACCCC CAGTGGAGAG 
    CCAATTCAGT CCTGGGACGA CATAGAGCGA GATATGGTCA TCTGTGTGTC TATGGGACAT 
    GGTTTCAAAA CCCCAAAAGA GTTAAAACAA CTGATGGAGA TCAGAGCAAA TTATGCCAGA 
    ATCCGAAGGC AGCAGGGCCC TCAAGCCACA GACATTGTGG TGTCACCATC CACGAAGCTG 
    CTGTCTCTGG CACATCTCCA CAATTAA

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

    DCDC1 ( XM_024448476.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304244.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu106651
    Clone ID Related Accession (Same CDS sequence) XM_024448476.1
    Accession Version XM_024448476.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5226bp)
    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 doublecortin domain-containing protein 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGACTGGAA TGATCCTGAG CCGAGCGATA ACTCAGGGCT GCCTGGCTAT TGGTCATCCT 
    ATCAGAGTCA AGGCTGCTGA GGGAACATCA CTAGAAGGAT ATAAATTAAT CTTACAGAAA 
    AGACATAGTG GAGATGACTC TCAGAAGTGG GTGTTTGGAA CTGATGGTTG CATTTATTCA 
    AAGGCTTATC CTCAGTTTGT TCTGACCTAC CTAGAGGAGC TAAATGCACA AGTAGATGTG 
    ACCCAGACAG AGTATCACAT TCACCATGGT GCCTGGACCA CAGCTCATCA GGAACATGGC 
    AGAAACTTAG CAGAAGAGGT TCTGCAAGAA AGTGCCAGCA ACCTTGGTCT GAAGCAACTG 
    CCAGAACCCT CAGACACCCA TTTAATGCCA GAAGGTTCTC TTGAGGAGAC GGGGGAGCTG 
    ACAGTAGCAC TGGTGAGGAA ACTGGAAGAG AAACATCCTA AGGCTTCTGC TCAGAGGTGG 
    GCCATAAAAC ATGAAGGAAC CAGTAAGCCA GGCCAGTGGA AACATTCTAG AGTTGAAAAT 
    CCTCTATGGA ACAAGCTTAC CTACATGTGG CCTGTCCTTC CCAGTGGCCA ACTTAATGAG 
    GAGTTTGATT GGCCAATACA AGGACTGCTT GTTCCGAGCA GTCCTCCCAT GAAGAAACCC 
    ATCTGTAAGA CAACAGAGCC ATATGCCCCT GTGCGACTCA GAGTTTTGCA GAATGGAGAG 
    AAGAATAAAA ACAGATCCGT TACTATCCTT GGTCCAGATA TCTCACCTGG ACGGAAAACG 
    CAGTGCACTG AGATTTTAAA TTTACCTTCT GCAGCTCGGA GATTGTACAA TGAAAAGGGG 
    AAGGAAATAT TTGCCTTAAA AGACCTGCAA AGAGATGAAC TGGTGTATGT TTCATGTGGA 
    GAACTCTGGA TCAATCCTGA CCTGTCCATT GCTCAGCAAA AGAAACAAAT ATTCCTGAGG 
    AACCTAGAAT CAGACATTGC CAAAATTCAA ATCTTCTGCA GCACACATAA AATAGAAGCT 
    CTTGTTTTAG AAGTCCAAAG TGACATTGTA TCTGGAAGCA AGCTTGCTGT GCATAAACCT 
    GTAGCAATTT TTGGAGAAGA GAAGCAAGTT ACAGAACCGG AAGAAAAGCA AATGCAAGAA 
    GATCCTCTAA CAACGGAAAA TGCTTCCAGT GAAATTCTAG ATTCACACGT AAGAGCTCAT 
    CTTCGAATGA AGGCTTGTCA CACACTTCCC AGGTATGCCT GGCAGGAAAC TTCACATGAC 
    TTTGATGAGG ATGACAGTCT TCCAAAGAAA ACGGAAAAAG GGCTCTTTGA AAATGTGGAA 
    CCACAGAAGA AACACAGCTG TTCACCAAAG CATAGTAAAT TGCACAAGCA TTGTCATCAG 
    CAGTTCGAAT ACAGAGATGG GCAGATTATA AGCCATGCTG CTCCTCAGCT AGTCTTGGGG 
    GTTCAAGGTC CCAATCTCCG ATCAGGCATG GAGGTGGTTT TGGTGGAGAA GAAATCTGAT 
    GGTAGTCATC AGCGCTGGAT ACACCAGGAA GACAGCAGGA CCTTTCACCT TGTGAGTAAC 
    CCTGACCTTG TGCTGGCAGT GTCTATGACC AAGACTAGAA ATGAAGTTTG TGGCTATCCA 
    GTTATTGTTC AGAAATATAA GCCGTACAAC AATGGAGCTG CCAATCAAAA GTGGCATTAC 
    ATGAAAAATA TAAAAGCACT TGTGGCCTTT CATAGCACTG CCTTGGATAA GGAAATTACA 
    TCAGCAAATT ATGCTGGTGT CTGTACATCA TCTGTGATTA AAGAAGAAAA CATTGATCAA 
    CCAGGATACT GTTATCTCTC ACCTGATGGA AAGAGAAAAA CTATGCTCTG CTTGGCTTGT 
    GGACAATCCA TGAGAACAGA GAAAGGACTG AAACAATTGC TTCCAGGGGT TCCATTCCTC 
    TGTATTTCAG GCACCAAGAC TCAGAAGCCC TTCTTACAAG GGCCCTTCAA GGTCATCAGT 
    GTGGCTGAGG TTGATTTGTC GTGTGACAAG GCTGAAAAAA CTCTAAGTTA CTACCAAGCA 
    CGTCTATTGT CTTTACGGAT GAAGACCTGC ACGCAAGCTG CATCTCACAG TGGCATGGCA 
    GCCACACACC AGAAGGCAGT GAAAATAATT GCATACAAAA ATGGGGATGG GTATCGTAAT 
    GGGAAGTTAA TTGTGGCTGG AACATTCCCC ATGCTTCTTA CAGAATGCAC GGAACAACTT 
    GGGCTTGCCA GAGCAGCCTC CAAAGTATAT ACCAAAGATG GAACCCCAAT CTTTACCTTG 
    CGTGATTTGG TTTTATGGGC TCTAGATGAA TCCTTTCTCC AGAGAGACTC TGAGAAACAA 
    AAGCAAGATG CAGCTCCTGT TGGAAAAGAA CAGATAATTG TTGAAAGTAT GGAAGAAAAT 
    CCAAGAATGA AAGTGAAAAA CAGATTATTT GCAAAATCTG TGACATCCGA TAGTTTGGAT 
    GGTATAGACA AGTCTTTGCT TACCCTCATC CTCAGAAATC CTATTGCCAT CTGGGTGTCT 
    TGTGGTGAAC CATTTCTACC TCCAAATGCT TTGCAGAAAG CAGAAAAATT AGAGAAACAG 
    AACTGGCTAA AAAAGGACAG AATTTTGGCT GATCTAGATA CCATGAGACA CAAAATGAGA 
    CAGTTAAAAG GGCGGCGAGT AGCGGCATGT CAGCCAGCCA CCATGGTTCC TACCAAGAGC 
    CCTGTGCAGC CCGTGGTGGT TGAAGGAGGC TGGACCGAAC AGACTCAACA GGAAATTAAA 
    CTCATGGAAC TTATAAGACA TACAGAGGCA CACCTTTCTG AAATCCAAGA AATGGAATCC 
    AAAATAAATT TTCCAATTGC AACCAAACGT ATAGCAGTCA AGCCGAGCAA CCTGTATAAG 
    CAGCCCAACA CAAAACGAGT GTGGATTTAT CTAAATGGAG GCAGACCTGA AGATGGCACT 
    TATGCCTGGG GCAAAACTAT TTCAGAGCTG CTGCAAGACT GCTCCTCTCG TCTCAAAATG 
    ACCCACCCAG CTAGAGCACT GTACACCCCC AGTGGAGAGC CAATTCAGTC CTGGGACGAC 
    ATAGAGCGAG ATATGGTCAT CTGTGTGTCT ATGGGACATG GTTTCAAAAC CCCAAAAGAG 
    TTAAAACAAC TGATGGAGAT CAGAGCAAAT TATGCCAGAA TCCGAAGGCA GCAGGGCCCT 
    CAAGCCACAG ACATTGTGGT GTCACCATCC ACGAAGCTGC TGTCTCTGGC ACATCTCCAC 
    AATTAA

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

    RefSeq XP_024304244.1
    CDS239..5464
    Translation

    Target ORF information:

    RefSeq Version XM_024448476.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448476.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGACTGGAA TGATCCTGAG CCGAGCGATA ACTCAGGGCT GCCTGGCTAT TGGTCATCCT 
    ATCAGAGTCA AGGCTGCTGA GGGAACATCA CTAGAAGGAT ATAAATTAAT CTTACAGAAA 
    AGACATAGTG GAGATGACTC TCAGAAGTGG GTGTTTGGAA CTGATGGTTG CATTTATTCA 
    AAGGCTTATC CTCAGTTTGT TCTGACCTAC CTAGAGGAGC TAAATGCACA AGTAGATGTG 
    ACCCAGACAG AGTATCACAT TCACCATGGT GCCTGGACCA CAGCTCATCA GGAACATGGC 
    AGAAACTTAG CAGAAGAGGT TCTGCAAGAA AGTGCCAGCA ACCTTGGTCT GAAGCAACTG 
    CCAGAACCCT CAGACACCCA TTTAATGCCA GAAGGTTCTC TTGAGGAGAC GGGGGAGCTG 
    ACAGTAGCAC TGGTGAGGAA ACTGGAAGAG AAACATCCTA AGGCTTCTGC TCAGAGGTGG 
    GCCATAAAAC ATGAAGGAAC CAGTAAGCCA GGCCAGTGGA AACATTCTAG AGTTGAAAAT 
    CCTCTATGGA ACAAGCTTAC CTACATGTGG CCTGTCCTTC CCAGTGGCCA ACTTAATGAG 
    GAGTTTGATT GGCCAATACA AGGACTGCTT GTTCCGAGCA GTCCTCCCAT GAAGAAACCC 
    ATCTGTAAGA CAACAGAGCC ATATGCCCCT GTGCGACTCA GAGTTTTGCA GAATGGAGAG 
    AAGAATAAAA ACAGATCCGT TACTATCCTT GGTCCAGATA TCTCACCTGG ACGGAAAACG 
    CAGTGCACTG AGATTTTAAA TTTACCTTCT GCAGCTCGGA GATTGTACAA TGAAAAGGGG 
    AAGGAAATAT TTGCCTTAAA AGACCTGCAA AGAGATGAAC TGGTGTATGT TTCATGTGGA 
    GAACTCTGGA TCAATCCTGA CCTGTCCATT GCTCAGCAAA AGAAACAAAT ATTCCTGAGG 
    AACCTAGAAT CAGACATTGC CAAAATTCAA ATCTTCTGCA GCACACATAA AATAGAAGCT 
    CTTGTTTTAG AAGTCCAAAG TGACATTGTA TCTGGAAGCA AGCTTGCTGT GCATAAACCT 
    GTAGCAATTT TTGGAGAAGA GAAGCAAGTT ACAGAACCGG AAGAAAAGCA AATGCAAGAA 
    GATCCTCTAA CAACGGAAAA TGCTTCCAGT GAAATTCTAG ATTCACACGT AAGAGCTCAT 
    CTTCGAATGA AGGCTTGTCA CACACTTCCC AGGTATGCCT GGCAGGAAAC TTCACATGAC 
    TTTGATGAGG ATGACAGTCT TCCAAAGAAA ACGGAAAAAG GGCTCTTTGA AAATGTGGAA 
    CCACAGAAGA AACACAGCTG TTCACCAAAG CATAGTAAAT TGCACAAGCA TTGTCATCAG 
    CAGTTCGAAT ACAGAGATGG GCAGATTATA AGCCATGCTG CTCCTCAGCT AGTCTTGGGG 
    GTTCAAGGTC CCAATCTCCG ATCAGGCATG GAGGTGGTTT TGGTGGAGAA GAAATCTGAT 
    GGTAGTCATC AGCGCTGGAT ACACCAGGAA GACAGCAGGA CCTTTCACCT TGTGAGTAAC 
    CCTGACCTTG TGCTGGCAGT GTCTATGACC AAGACTAGAA ATGAAGTTTG TGGCTATCCA 
    GTTATTGTTC AGAAATATAA GCCGTACAAC AATGGAGCTG CCAATCAAAA GTGGCATTAC 
    ATGAAAAATA TAAAAGCACT TGTGGCCTTT CATAGCACTG CCTTGGATAA GGAAATTACA 
    TCAGCAAATT ATGCTGGTGT CTGTACATCA TCTGTGATTA AAGAAGAAAA CATTGATCAA 
    CCAGGATACT GTTATCTCTC ACCTGATGGA AAGAGAAAAA CTATGCTCTG CTTGGCTTGT 
    GGACAATCCA TGAGAACAGA GAAAGGACTG AAACAATTGC TTCCAGGGGT TCCATTCCTC 
    TGTATTTCAG GCACCAAGAC TCAGAAGCCC TTCTTACAAG GGCCCTTCAA GGTCATCAGT 
    GTGGCTGAGG TTGATTTGTC GTGTGACAAG GCTGAAAAAA CTCTAAGTTA CTACCAAGCA 
    CGTCTATTGT CTTTACGGAT GAAGACCTGC ACGCAAGCTG CATCTCACAG TGGCATGGCA 
    GCCACACACC AGAAGGCAGT GAAAATAATT GCATACAAAA ATGGGGATGG GTATCGTAAT 
    GGGAAGTTAA TTGTGGCTGG AACATTCCCC ATGCTTCTTA CAGAATGCAC GGAACAACTT 
    GGGCTTGCCA GAGCAGCCTC CAAAGTATAT ACCAAAGATG GAACCCCAAT CTTTACCTTG 
    CGTGATTTGG TTTTATGGGC TCTAGATGAA TCCTTTCTCC AGAGAGACTC TGAGAAACAA 
    AAGCAAGATG CAGCTCCTGT TGGAAAAGAA CAGATAATTG TTGAAAGTAT GGAAGAAAAT 
    CCAAGAATGA AAGTGAAAAA CAGATTATTT GCAAAATCTG TGACATCCGA TAGTTTGGAT 
    GGTATAGACA AGTCTTTGCT TACCCTCATC CTCAGAAATC CTATTGCCAT CTGGGTGTCT 
    TGTGGTGAAC CATTTCTACC TCCAAATGCT TTGCAGAAAG CAGAAAAATT AGAGAAACAG 
    AACTGGCTAA AAAAGGACAG AATTTTGGCT GATCTAGATA CCATGAGACA CAAAATGAGA 
    CAGTTAAAAG GGCGGCGAGT AGCGGCATGT CAGCCAGCCA CCATGGTTCC TACCAAGAGC 
    CCTGTGCAGC CCGTGGTGGT TGAAGGAGGC TGGACCGAAC AGACTCAACA GGAAATTAAA 
    CTCATGGAAC TTATAAGACA TACAGAGGCA CACCTTTCTG AAATCCAAGA AATGGAATCC 
    AAAATAAATT TTCCAATTGC AACCAAACGT ATAGCAGTCA AGCCGAGCAA CCTGTATAAG 
    CAGCCCAACA CAAAACGAGT GTGGATTTAT CTAAATGGAG GCAGACCTGA AGATGGCACT 
    TATGCCTGGG GCAAAACTAT TTCAGAGCTG CTGCAAGACT GCTCCTCTCG TCTCAAAATG 
    ACCCACCCAG CTAGAGCACT GTACACCCCC AGTGGAGAGC CAATTCAGTC CTGGGACGAC 
    ATAGAGCGAG ATATGGTCAT CTGTGTGTCT ATGGGACATG GTTTCAAAAC CCCAAAAGAG 
    TTAAAACAAC TGATGGAGAT CAGAGCAAAT TATGCCAGAA TCCGAAGGCA GCAGGGCCCT 
    CAAGCCACAG ACATTGTGGT GTCACCATCC ACGAAGCTGC TGTCTCTGGC ACATCTCCAC 
    AATTAA

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

    DCDC1 ( XM_024448477.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304245.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu106652
    Clone ID Related Accession (Same CDS sequence) XM_024448477.1
    Accession Version XM_024448477.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5157bp)
    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 doublecortin domain-containing protein 1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGACCTTT 
    CACCTTGTGA GTAACCCTGA CCTTGTGCTG GCAGTGTCTA TGACCAAGAC TAGAAATGAA 
    GTTTGTGGCT ATCCAGTTAT TGTTCAGAAA TATAAGCCGT ACAACAATGG AGCTGCCAAT 
    CAAAAGTGGC ATTACATGAA AAATATAAAA GCACTTGTGG CCTTTCATAG CACTGCCTTG 
    GATAAGGAAA TTACATCAGC AAATTATGCT GGTGTCTGTA CATCATCTGT GATTAAAGAA 
    GAAAACATTG ATCAACCAGG ATACTGTTAT CTCTCACCTG ATGGAAAGAG AAAAACTATG 
    CTCTGCTTGG CTTGTGGACA ATCCATGAGA ACAGAGAAAG GACTGAAACA ATTGCTTCCA 
    GGGGTTCCAT TCCTCTGTAT TTCAGGCACC AAGACTCAGA AGCCCTTCTT ACAAGGGCCC 
    TTCAAGGTCA TCAGTGTGGC TGAGCTTCTT ACAGAATGCA CGGAACAACT TGGGCTTGCC 
    AGAGCAGCCT CCAAAGTATA TACCAAAGAT GGAACCCCAA TCTTTACCTT GCGTGATTTG 
    GTTTTATGGG CTCTAGATGA ATCCTTTCTC CAGAGAGACT CTGAGAAACA AAAGCAAGAT 
    GCAGCTCCTG TTGGAAAAGA ACAGATAATT GTTGAAAGTA TGGAAGAAAA TCCAAGAATG 
    AAAGTGAAAA ACAGATTATT TGCAAAATCT GTGACATCCG ATAGTTTGGA TGGTATAGAC 
    AAGTCTTTGC TTACCCTCAT CCTCAGAAAT CCTATTGCCA TCTGGGTGTC TTGTGGTGAA 
    CCATTTCTAC CTCCAAATGC TTTGCAGAAA GCAGAAAAAT TAGAGAAACA GAACTGGCTA 
    AAAAAGGACA GAATTTTGGC TGATCTAGAT ACCATGAGAC ACAAAATGAG ACAGTTAAAA 
    GGGCGGCGAG TAGCGGCATG TCAGCCAGCC ACCATGGTTC CTACCAAGAG CCCTGTGCAG 
    CCCGTGGTGG TTGAAGGAGG CTGGACCGAA CAGACTCAAC AGGAAATTAA ACTCATGGAA 
    CTTATAAGAC ATACAGAGGC ACACCTTTCT GAAATCCAAG AAATGGAATC CAAAATAAAT 
    TTTCCAATTG CAACCAAACG TATAGCAGTC AAGCCGAGCA ACCTGTATAA GCAGCCCAAC 
    ACAAAACGAG TGTGGATTTA TCTAAATGGA GGCAGACCTG AAGATGGCAC TTATGCCTGG 
    GGCAAAACTA TTTCAGAGCT GCTGCAAGAC TGCTCCTCTC GTCTCAAAAT GACCCACCCA 
    GCTAGAGCAC TGTACACCCC CAGTGGAGAG CCAATTCAGT CCTGGGACGA CATAGAGCGA 
    GATATGGTCA TCTGTGTGTC TATGGGACAT GGTTTCAAAA CCCCAAAAGA GTTAAAACAA 
    CTGATGGAGA TCAGAGCAAA TTATGCCAGA ATCCGAAGGC AGCAGGGCCC TCAAGCCACA 
    GACATTGTGG TGTCACCATC CACGAAGCTG CTGTCTCTGG CACATCTCCA CAATTAA

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

    RefSeq XP_024304245.1
    CDS239..5395
    Translation

    Target ORF information:

    RefSeq Version XM_024448477.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448477.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGACCTTT 
    CACCTTGTGA GTAACCCTGA CCTTGTGCTG GCAGTGTCTA TGACCAAGAC TAGAAATGAA 
    GTTTGTGGCT ATCCAGTTAT TGTTCAGAAA TATAAGCCGT ACAACAATGG AGCTGCCAAT 
    CAAAAGTGGC ATTACATGAA AAATATAAAA GCACTTGTGG CCTTTCATAG CACTGCCTTG 
    GATAAGGAAA TTACATCAGC AAATTATGCT GGTGTCTGTA CATCATCTGT GATTAAAGAA 
    GAAAACATTG ATCAACCAGG ATACTGTTAT CTCTCACCTG ATGGAAAGAG AAAAACTATG 
    CTCTGCTTGG CTTGTGGACA ATCCATGAGA ACAGAGAAAG GACTGAAACA ATTGCTTCCA 
    GGGGTTCCAT TCCTCTGTAT TTCAGGCACC AAGACTCAGA AGCCCTTCTT ACAAGGGCCC 
    TTCAAGGTCA TCAGTGTGGC TGAGCTTCTT ACAGAATGCA CGGAACAACT TGGGCTTGCC 
    AGAGCAGCCT CCAAAGTATA TACCAAAGAT GGAACCCCAA TCTTTACCTT GCGTGATTTG 
    GTTTTATGGG CTCTAGATGA ATCCTTTCTC CAGAGAGACT CTGAGAAACA AAAGCAAGAT 
    GCAGCTCCTG TTGGAAAAGA ACAGATAATT GTTGAAAGTA TGGAAGAAAA TCCAAGAATG 
    AAAGTGAAAA ACAGATTATT TGCAAAATCT GTGACATCCG ATAGTTTGGA TGGTATAGAC 
    AAGTCTTTGC TTACCCTCAT CCTCAGAAAT CCTATTGCCA TCTGGGTGTC TTGTGGTGAA 
    CCATTTCTAC CTCCAAATGC TTTGCAGAAA GCAGAAAAAT TAGAGAAACA GAACTGGCTA 
    AAAAAGGACA GAATTTTGGC TGATCTAGAT ACCATGAGAC ACAAAATGAG ACAGTTAAAA 
    GGGCGGCGAG TAGCGGCATG TCAGCCAGCC ACCATGGTTC CTACCAAGAG CCCTGTGCAG 
    CCCGTGGTGG TTGAAGGAGG CTGGACCGAA CAGACTCAAC AGGAAATTAA ACTCATGGAA 
    CTTATAAGAC ATACAGAGGC ACACCTTTCT GAAATCCAAG AAATGGAATC CAAAATAAAT 
    TTTCCAATTG CAACCAAACG TATAGCAGTC AAGCCGAGCA ACCTGTATAA GCAGCCCAAC 
    ACAAAACGAG TGTGGATTTA TCTAAATGGA GGCAGACCTG AAGATGGCAC TTATGCCTGG 
    GGCAAAACTA TTTCAGAGCT GCTGCAAGAC TGCTCCTCTC GTCTCAAAAT GACCCACCCA 
    GCTAGAGCAC TGTACACCCC CAGTGGAGAG CCAATTCAGT CCTGGGACGA CATAGAGCGA 
    GATATGGTCA TCTGTGTGTC TATGGGACAT GGTTTCAAAA CCCCAAAAGA GTTAAAACAA 
    CTGATGGAGA TCAGAGCAAA TTATGCCAGA ATCCGAAGGC AGCAGGGCCC TCAAGCCACA 
    GACATTGTGG TGTCACCATC CACGAAGCTG CTGTCTCTGG CACATCTCCA CAATTAA

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

    DCDC1 ( XM_024448478.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304246.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu106653
    Clone ID Related Accession (Same CDS sequence) XM_024448478.1
    Accession Version XM_024448478.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5061bp)
    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 doublecortin domain-containing protein 1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGACCTTT 
    CACCTTGTGA GTAACCCTGA CCTTGTGCTG GCAGTGTCTA TGACCAAGAC TAGAAATGAA 
    GTTTGTGGCT ATCCAGTTAT TGTTCAGAAA TATAAGCCGT ACAACAATGG AGCTGCCAAT 
    CAAAAGTGGC ATTACATGAA AAATATAAAA GCACTTGTGG CCTTTCATAG CACTGCCTTG 
    GATAAGGAAA TTACATCAGC AAATTATGCT GGTGTCTGTA CATCATCTGT GATTAAAGAA 
    GAAAACATTG ATCAACCAGG ATACTGTTAT CTCTCACCTG ATGGAAAGAG AAAAACTATG 
    CTCTGCTTGG CTTGTGGACA ATCCATGAGA ACAGAGAAAG GACTGAAACA ATTGCTTCCA 
    GGGGTTCCAT TCCTCTGTAT TTCAGGCACC AAGACTCAGA AGCCCTTCTT ACAAGGGCCC 
    TTCAAGGTCA TCAGTGTGGC TGAGGTTGAT TTGTCGTGTG ACAAGGCTGA AAAAACTCTA 
    AGTTACTACC AAGCACGTCT ATTGTCTTTA CGGATGAAGA CCTGCACGCA AGCTGCATCT 
    CACAGTGGCA TGGCAGCCAC ACACCAGAAG GCAGTGAAAA TAATTGCATA CAAAAATGGG 
    GATGGGTATC GTAATGGGAA GTTAATTGTG GCTGGAACAT TCCCCATGCT TCTTACAGAA 
    TGCACGGAAC AACTTGGGCT TGCCAGAGCA GCCTCCAAAG TATATACCAA AGATGGAACC 
    CCAATCTTTA CCTTGCGTGA TTTGGTTTTA TGGGCTCTAG ATGAATCCTT TCTCCAGAGA 
    GACTCTGAGA AACAAAAGCA AGATGCAGCT CCTGTTGGAA AAGAACAGAT AATTGTTGAA 
    AGTATGGAAG AAAATCCAAG AATGAAAGTG AAAAACAGAT TATTTGCAAA ATCTGTGACA 
    TCCGATAGTT TGGATGGTAT AGACAAGTCT TTGCTTACCC TCATCCTCAG AAATCCTATT 
    GCCATCTGGG TGTCTTGTGG TGAACCATTT CTACCTCCAA ATGCTTTGCA GAAAGCAGAA 
    AAATTAGAGA AACAGAACTG GCTAAAAAAG GACAGAATTT TGGCTGATCT AGATACCATG 
    AGACACAAAA TGAGACAGTT AAAAGGGCGG CGAGTAGCGG CATGTCAGCC AGCCACCATG 
    GTTCCTACCA AGAGCCCTGT GCAGCCCGTG GTGGTTGAAG GAGGCTGGAC CGAACAGACT 
    CAACAGGAAA TTAAACTCAT GGAACTTATA AGACATACAG AGGCACACCT TTCTGAAATC 
    CAAGAAATGG AATCCAAAAT AAATTTTCCA ATTGCAACCA AACGTATAGC AGTCAAGCCG 
    AGCAACCTGT ATAAGCAGCC CAACACAAAA CGAGTGTGGA TTTATCTAAA TGGAGGCAGA 
    CCTGAAGATG GCACTTATGC CTGGGGCAAA ACTATTTCAG AGCTGCTGCA AGACTGCTCC 
    TCTCGTCTCA AAATGACCCA CCCAGCTAGA GCACTGTACA CCCCCAGTGG AGAGCCAATT 
    CAGTCCTGGG ACGACATAGA GCGAGATATG GTCATCTGTG TGTCTATGGG ACATGGTTTC 
    AAAACCCCAA AAGAGTTAAA ACAACTGATG GAGATCAGAG CAAATTATGC CAGAATCCGA 
    AGGCAGCAGG GCCCTCAAGC CACAGACATT GTGGTGTCAC CATCCACGAA GCTGCTGTCT 
    CTGGCACATC TCCACAATTA A

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

    RefSeq XP_024304246.1
    CDS239..5299
    Translation

    Target ORF information:

    RefSeq Version XM_024448478.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448478.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGGCAAAAA CAGGAGCAGA AGATCACAGA GAAGCACTAT CTCAGTCTTC CTTATCCCTC 
    TTGACTGAAG CAATGGAAGT ATTACAGCAA AGTAGCCCTG AAGGCACTTT GGATGGGAAT 
    ACTGTAAACC CAATTTACAA ATATATTTTG AATGATTTAC CAAGAGAGTT TATGTCATCC 
    CAGGCAAAAG CAGTTATTAA AACTACTGAT GATTATTTGC AGTCTCAGTT TGGCCCCAAC 
    AGACTCGTGC ATTCAGCAGC AGTATCAGAA GGGTCAGGAC TTCAAGATTG CTCCACACAT 
    CAAACAGCAT CAGATCACAG CCATGATGAA ATATCAGACC TAGATAGCTA CAAATCAAAC 
    AGTAAAAACA ATTCTTGTTC TATATCAGCA TCCAAGAGAA ACAGACCTGT CAGTGCTCCA 
    GTGGGTCAAC TGAGGGTTGC AGAGTTCTCT TCTTTAAAAT TTCAGTCAGC CCGGAATTGG 
    CAGAAATTGT CTCAAAGACA CAAACTTCAA CCAAGAGTGA TTAAAGTAAC AGCTTACAAA 
    AATGGATCTA GAACAGTCTT TGCCAGAGTT ACTGTACCAA CCATCACCTT GCTGCTGGAG 
    GAGTGCACAG AAAAGCTGAA TCTGAACATG GCCGCAAGAC GAGTGTTCTT GGCAGACGGC 
    AAGGAAGCCC TCGAACCTGA AGATATACCC CATGAAGCCG ATGTTTATGT TTCAACGGGA 
    GAGCCCTTTT TAAATCCATT CAAAAAAATT AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGACCTTT 
    CACCTTGTGA GTAACCCTGA CCTTGTGCTG GCAGTGTCTA TGACCAAGAC TAGAAATGAA 
    GTTTGTGGCT ATCCAGTTAT TGTTCAGAAA TATAAGCCGT ACAACAATGG AGCTGCCAAT 
    CAAAAGTGGC ATTACATGAA AAATATAAAA GCACTTGTGG CCTTTCATAG CACTGCCTTG 
    GATAAGGAAA TTACATCAGC AAATTATGCT GGTGTCTGTA CATCATCTGT GATTAAAGAA 
    GAAAACATTG ATCAACCAGG ATACTGTTAT CTCTCACCTG ATGGAAAGAG AAAAACTATG 
    CTCTGCTTGG CTTGTGGACA ATCCATGAGA ACAGAGAAAG GACTGAAACA ATTGCTTCCA 
    GGGGTTCCAT TCCTCTGTAT TTCAGGCACC AAGACTCAGA AGCCCTTCTT ACAAGGGCCC 
    TTCAAGGTCA TCAGTGTGGC TGAGGTTGAT TTGTCGTGTG ACAAGGCTGA AAAAACTCTA 
    AGTTACTACC AAGCACGTCT ATTGTCTTTA CGGATGAAGA CCTGCACGCA AGCTGCATCT 
    CACAGTGGCA TGGCAGCCAC ACACCAGAAG GCAGTGAAAA TAATTGCATA CAAAAATGGG 
    GATGGGTATC GTAATGGGAA GTTAATTGTG GCTGGAACAT TCCCCATGCT TCTTACAGAA 
    TGCACGGAAC AACTTGGGCT TGCCAGAGCA GCCTCCAAAG TATATACCAA AGATGGAACC 
    CCAATCTTTA CCTTGCGTGA TTTGGTTTTA TGGGCTCTAG ATGAATCCTT TCTCCAGAGA 
    GACTCTGAGA AACAAAAGCA AGATGCAGCT CCTGTTGGAA AAGAACAGAT AATTGTTGAA 
    AGTATGGAAG AAAATCCAAG AATGAAAGTG AAAAACAGAT TATTTGCAAA ATCTGTGACA 
    TCCGATAGTT TGGATGGTAT AGACAAGTCT TTGCTTACCC TCATCCTCAG AAATCCTATT 
    GCCATCTGGG TGTCTTGTGG TGAACCATTT CTACCTCCAA ATGCTTTGCA GAAAGCAGAA 
    AAATTAGAGA AACAGAACTG GCTAAAAAAG GACAGAATTT TGGCTGATCT AGATACCATG 
    AGACACAAAA TGAGACAGTT AAAAGGGCGG CGAGTAGCGG CATGTCAGCC AGCCACCATG 
    GTTCCTACCA AGAGCCCTGT GCAGCCCGTG GTGGTTGAAG GAGGCTGGAC CGAACAGACT 
    CAACAGGAAA TTAAACTCAT GGAACTTATA AGACATACAG AGGCACACCT TTCTGAAATC 
    CAAGAAATGG AATCCAAAAT AAATTTTCCA ATTGCAACCA AACGTATAGC AGTCAAGCCG 
    AGCAACCTGT ATAAGCAGCC CAACACAAAA CGAGTGTGGA TTTATCTAAA TGGAGGCAGA 
    CCTGAAGATG GCACTTATGC CTGGGGCAAA ACTATTTCAG AGCTGCTGCA AGACTGCTCC 
    TCTCGTCTCA AAATGACCCA CCCAGCTAGA GCACTGTACA CCCCCAGTGG AGAGCCAATT 
    CAGTCCTGGG ACGACATAGA GCGAGATATG GTCATCTGTG TGTCTATGGG ACATGGTTTC 
    AAAACCCCAA AAGAGTTAAA ACAACTGATG GAGATCAGAG CAAATTATGC CAGAATCCGA 
    AGGCAGCAGG GCCCTCAAGC CACAGACATT GTGGTGTCAC CATCCACGAA GCTGCTGTCT 
    CTGGCACATC TCCACAATTA A

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

    DCDC1 ( XM_024448479.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304247.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu106654
    Clone ID Related Accession (Same CDS sequence) XM_024448479.1
    Accession Version XM_024448479.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4641bp)
    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 doublecortin domain-containing protein 1 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGATCAGAA GTTGGATAAT TGAACATGCT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGACCTTT 
    CACCTTGTGA GTAACCCTGA CCTTGTGCTG GCAGTGTCTA TGACCAAGAC TAGAAATGAA 
    GTTTGTGGCT ATCCAGTTAT TGTTCAGAAA TATAAGCCGT ACAACAATGG AGCTGCCAAT 
    CAAAAGTGGC ATTACATGAA AAATATAAAA GCACTTGTGG CCTTTCATAG CACTGCCTTG 
    GATAAGGAAA TTACATCAGC AAATTATGCT GGTGTCTGTA CATCATCTGT GATTAAAGAA 
    GAAAACATTG ATCAACCAGG ATACTGTTAT CTCTCACCTG ATGGAAAGAG AAAAACTATG 
    CTCTGCTTGG CTTGTGGACA ATCCATGAGA ACAGAGAAAG GACTGAAACA ATTGCTTCCA 
    GGGGTTCCAT TCCTCTGTAT TTCAGGCACC AAGACTCAGA AGCCCTTCTT ACAAGGGCCC 
    TTCAAGGTCA TCAGTGTGGC TGAGGTTGAT TTGTCGTGTG ACAAGGCTGA AAAAACTCTA 
    AGTTACTACC AAGCACGTCT ATTGTCTTTA CGGATGAAGA CCTGCACGCA AGCTGCATCT 
    CACAGTGGCA TGGCAGCCAC ACACCAGAAG GCAGTGAAAA TAATTGCATA CAAAAATGGG 
    GATGGGTATC GTAATGGGAA GTTAATTGTG GCTGGAACAT TCCCCATGCT TCTTACAGAA 
    TGCACGGAAC AACTTGGGCT TGCCAGAGCA GCCTCCAAAG TATATACCAA AGATGGAACC 
    CCAATCTTTA CCTTGCGTGA TTTGGTTTTA TGGGCTCTAG ATGAATCCTT TCTCCAGAGA 
    GACTCTGAGA AACAAAAGCA AGATGCAGCT CCTGTTGGAA AAGAACAGAT AATTGTTGAA 
    AGTATGGAAG AAAATCCAAG AATGAAAGTG AAAAACAGAT TATTTGCAAA ATCTGTGACA 
    TCCGATAGTT TGGATGGTAT AGACAAGTCT TTGCTTACCC TCATCCTCAG AAATCCTATT 
    GCCATCTGGG TGTCTTGTGG TGAACCATTT CTACCTCCAA ATGCTTTGCA GAAAGCAGAA 
    AAATTAGAGA AACAGAACTG GCTAAAAAAG GACAGAATTT TGGCTGATCT AGATACCATG 
    AGACACAAAA TGAGACAGTT AAAAGGGCGG CGAGTAGCGG CATGTCAGCC AGCCACCATG 
    GTTCCTACCA AGAGCCCTGT GCAGCCCGTG GTGGTTGAAG GAGGCTGGAC CGAACAGACT 
    CAACAGGAAA TTAAACTCAT GGAACTTATA AGACATACAG AGGCACACCT TTCTGAAATC 
    CAAGAAATGG AATCCAAAAT AAATTTTCCA ATTGCAACCA AACGTATAGC AGTCAAGCCG 
    AGCAACCTGT ATAAGCAGCC CAACACAAAA CGAGTGTGGA TTTATCTAAA TGGAGGCAGA 
    CCTGAAGATG GCACTTATGC CTGGGGCAAA ACTATTTCAG AGCTGCTGCA AGACTGCTCC 
    TCTCGTCTCA AAATGACCCA CCCAGCTAGA GCACTGTACA CCCCCAGTGG AGAGCCAATT 
    CAGTCCTGGG ACGACATAGA GCGAGATATG GTCATCTGTG TGTCTATGGG ACATGGTTTC 
    AAAACCCCAA AAGAGTTAAA ACAACTGATG GAGATCAGAG CAAATTATGC CAGAATCCGA 
    AGGCAGCAGG GCCCTCAAGC CACAGACATT GTGGTGTCAC CATCCACGAA GCTGCTGTCT 
    CTGGCACATC TCCACAATTA A

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

    RefSeq XP_024304247.1
    CDS178..4818
    Translation

    Target ORF information:

    RefSeq Version XM_024448479.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448479.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGATCAGAA GTTGGATAAT TGAACATGCT AAAGACCATC TGTTGTTAAT TAAGAAAGTA 
    ACTTGGACAA TGAATGGGTT GATGCTTCCT ACTGATATCA AAAGACGGAA AACCAAGCCT 
    GTTCTTTCTA TTAGAATGAA GAAACTTACT GAGAGGACCT CAGTCCGAAT TCTGTTCTTT 
    AAGAATGGCA TGGGGCAGGA TGGGCATGAG ATTACAGTGG GAAAAGAAAC AATGAAAAAG 
    GTTTTAGATA CTTGTACAAT AAGAATGAAT CTAAATTTAC CAGCCAGATA TTTTTATGAT 
    TTGTATGGCA GAAAAATTGA AGATATTTCA AAAGTTCCTC TGCTTGAAAA ATGCCTGCAA 
    AATTCCATCA CACCTTTGCG AGGACTACTT TGGGTCTCTA AGGGAGAAGG TTTCAGCCCC 
    TCAGGAGCTA AGATGTACAT CCAAGGAGTT CTTTTGGCCC TGTACCAACG ATTAAAGTCT 
    GCAAAAAAAT ATTATAAACA GTTGAACCTG GTCATGAATG AACAGAAGGA GAAAATTACA 
    GAAAAAGTCA TTCTTTCAAT GACGGCAAAG GAACACCATA AGGAACAGGA AGAAGTGAGC 
    AGGCTGATTG ATGAATTGCA GACAGCTATC AAAAGTAACA TAGGTCATCT CTGTAAACTT 
    GGCCCCCAAT TACAGGCTGA GCAGGAGCAA TTCTCCTCTT ATGTCTACCA ACACATTAAA 
    AGCCTTCCAG CAAACACGCT TGTCCCAGGA GGCCTGCAGC TTAAGGTATT TGAAAATGGT 
    AAAAACACTG GAGAGATCTC TGTTGGTATC AGTAAAAAAG ATTTGGGATC GGATAGCCCA 
    ATTCAAACTG ACCATATGAT GGAAAGATTA CTTCTCAAGA TTCATCAAAG GCTTCAAGGT 
    TCTTCCATCA ACCCACCAGG CCTCAATTAT TCTTCAATGC GGCTTTTTGA TGAGAATGGC 
    CAAGAAATTA AGAATCCACT TTCGCTGAAG AATGAGCAAA AAATTTGGGT CTCTTATGGT 
    AGAGCATACA GATCTCCACT AAATCTTGCT TTGGGTTTGA CCTTTGACCG AGTGAGTGCA 
    TTTGCCAGAG GTGATATCAT GGTTGCATAT AAGACCTTTT TGGATCCTAA TGCTGTTCTG 
    CTACCTGGAT GTGGCAATTG GGAAGTTTGT GAGGGATTTC CAATTAATTT CAACTGTACC 
    AGTCAACAGA TACCTGACCA GTTTGAAAAG GTGGACTTGG AGAACCATTT TCTACAGAAC 
    AAGGTAGATC CCAATATTGT CCTTCATGCC TCTGTTTCCA TTGGAAAGTG GAGTTTCTCA 
    GGCAGTGAAG CAAGCAGCAG GAGTCAAATA GCGCCATCGA TCCTGTGGCC TGTAGCCAGT 
    GTGTGGCTGA TCACCAAGAC TGGAATGATC CTGAGCCGAG CGATAACTCA GGGCTGCCTG 
    GCTATTGGTC ATCCTATCAG AGTCAAGGCT GCTGAGGGAA CATCACTAGA AGGATATAAA 
    TTAATCTTAC AGAAAAGACA TAGTGGAGAT GACTCTCAGA AGTGGGTGTT TGGAACTGAT 
    GGTTGCATTT ATTCAAAGGC TTATCCTCAG TTTGTTCTGA CCTACCTAGA GGAGCTAAAT 
    GCACAAGTAG ATGTGACCCA GACAGAGTAT CACATTCACC ATGGTGCCTG GACCACAGCT 
    CATCAGGAAC ATGGCAGAAA CTTAGCAGAA GAGGTTCTGC AAGAAAGTGC CAGCAACCTT 
    GGTCTGAAGC AACTGCCAGA ACCCTCAGAC ACCCATTTAA TGCCAGAAGG TTCTCTTGAG 
    GAGACGGGGG AGCTGACAGT AGCACTGGTG AGGAAACTGG AAGAGAAACA TCCTAAGGCT 
    TCTGCTCAGA GGTGGGCCAT AAAACATGAA GGAACCAGTA AGCCAGGCCA GTGGAAACAT 
    TCTAGAGTTG AAAATCCTCT ATGGAACAAG CTTACCTACA TGTGGCCTGT CCTTCCCAGT 
    GGCCAACTTA ATGAGGAGTT TGATTGGCCA ATACAAGGAC TGCTTGTTCC GAGCAGTCCT 
    CCCATGAAGA AACCCATCTG TAAGACAACA GAGCCATATG CCCCTGTGCG ACTCAGAGTT 
    TTGCAGAATG GAGAGAAGAA TAAAAACAGA TCCGTTACTA TCCTTGGTCC AGATATCTCA 
    CCTGGACGGA AAACGCAGTG CACTGAGATT TTAAATTTAC CTTCTGCAGC TCGGAGATTG 
    TACAATGAAA AGGGGAAGGA AATATTTGCC TTAAAAGACC TGCAAAGAGA TGAACTGGTG 
    TATGTTTCAT GTGGAGAACT CTGGATCAAT CCTGACCTGT CCATTGCTCA GCAAAAGAAA 
    CAAATATTCC TGAGGAACCT AGAATCAGAC ATTGCCAAAA TTCAAATCTT CTGCAGCACA 
    CATAAAATAG AAGCTCTTGT TTTAGAAGTC CAAAGTGACA TTGTATCTGG AAGCAAGCTT 
    GCTGTGCATA AACCTGTAGC AATTTTTGGA GAAGAGAAGC AAGTTACAGA ACCGGAAGAA 
    AAGCAAATGC AAGAAGATCC TCTAACAACG GAAAATGCTT CCAGTGAAAT TCTAGATTCA 
    CACGTAAGAG CTCATCTTCG AATGAAGGCT TGTCACACAC TTCCCAGGTA TGCCTGGCAG 
    GAAACTTCAC ATGACTTTGA TGAGGATGAC AGTCTTCCAA AGAAAACGGA AAAAGGGCTC 
    TTTGAAAATG TGGAACCACA GAAGAAACAC AGCTGTTCAC CAAAGCATAG TAAATTGCAC 
    AAGCATTGTC ATCAGCAGTT CGAATACAGA GATGGGCAGA TTATAAGCCA TGCTGCTCCT 
    CAGCTAGTCT TGGGGGTTCA AGGTCCCAAT CTCCGATCAG GCATGGAGGT GGTTTTGGTG 
    GAGAAGAAAT CTGATGGTAG TCATCAGCGC TGGATACACC AGGAAGACAG CAGGACCTTT 
    CACCTTGTGA GTAACCCTGA CCTTGTGCTG GCAGTGTCTA TGACCAAGAC TAGAAATGAA 
    GTTTGTGGCT ATCCAGTTAT TGTTCAGAAA TATAAGCCGT ACAACAATGG AGCTGCCAAT 
    CAAAAGTGGC ATTACATGAA AAATATAAAA GCACTTGTGG CCTTTCATAG CACTGCCTTG 
    GATAAGGAAA TTACATCAGC AAATTATGCT GGTGTCTGTA CATCATCTGT GATTAAAGAA 
    GAAAACATTG ATCAACCAGG ATACTGTTAT CTCTCACCTG ATGGAAAGAG AAAAACTATG 
    CTCTGCTTGG CTTGTGGACA ATCCATGAGA ACAGAGAAAG GACTGAAACA ATTGCTTCCA 
    GGGGTTCCAT TCCTCTGTAT TTCAGGCACC AAGACTCAGA AGCCCTTCTT ACAAGGGCCC 
    TTCAAGGTCA TCAGTGTGGC TGAGGTTGAT TTGTCGTGTG ACAAGGCTGA AAAAACTCTA 
    AGTTACTACC AAGCACGTCT ATTGTCTTTA CGGATGAAGA CCTGCACGCA AGCTGCATCT 
    CACAGTGGCA TGGCAGCCAC ACACCAGAAG GCAGTGAAAA TAATTGCATA CAAAAATGGG 
    GATGGGTATC GTAATGGGAA GTTAATTGTG GCTGGAACAT TCCCCATGCT TCTTACAGAA 
    TGCACGGAAC AACTTGGGCT TGCCAGAGCA GCCTCCAAAG TATATACCAA AGATGGAACC 
    CCAATCTTTA CCTTGCGTGA TTTGGTTTTA TGGGCTCTAG ATGAATCCTT TCTCCAGAGA 
    GACTCTGAGA AACAAAAGCA AGATGCAGCT CCTGTTGGAA AAGAACAGAT AATTGTTGAA 
    AGTATGGAAG AAAATCCAAG AATGAAAGTG AAAAACAGAT TATTTGCAAA ATCTGTGACA 
    TCCGATAGTT TGGATGGTAT AGACAAGTCT TTGCTTACCC TCATCCTCAG AAATCCTATT 
    GCCATCTGGG TGTCTTGTGG TGAACCATTT CTACCTCCAA ATGCTTTGCA GAAAGCAGAA 
    AAATTAGAGA AACAGAACTG GCTAAAAAAG GACAGAATTT TGGCTGATCT AGATACCATG 
    AGACACAAAA TGAGACAGTT AAAAGGGCGG CGAGTAGCGG CATGTCAGCC AGCCACCATG 
    GTTCCTACCA AGAGCCCTGT GCAGCCCGTG GTGGTTGAAG GAGGCTGGAC CGAACAGACT 
    CAACAGGAAA TTAAACTCAT GGAACTTATA AGACATACAG AGGCACACCT TTCTGAAATC 
    CAAGAAATGG AATCCAAAAT AAATTTTCCA ATTGCAACCA AACGTATAGC AGTCAAGCCG 
    AGCAACCTGT ATAAGCAGCC CAACACAAAA CGAGTGTGGA TTTATCTAAA TGGAGGCAGA 
    CCTGAAGATG GCACTTATGC CTGGGGCAAA ACTATTTCAG AGCTGCTGCA AGACTGCTCC 
    TCTCGTCTCA AAATGACCCA CCCAGCTAGA GCACTGTACA CCCCCAGTGG AGAGCCAATT 
    CAGTCCTGGG ACGACATAGA GCGAGATATG GTCATCTGTG TGTCTATGGG ACATGGTTTC 
    AAAACCCCAA AAGAGTTAAA ACAACTGATG GAGATCAGAG CAAATTATGC CAGAATCCGA 
    AGGCAGCAGG GCCCTCAAGC CACAGACATT GTGGTGTCAC CATCCACGAA GCTGCTGTCT 
    CTGGCACATC TCCACAATTA A

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

    DCDC1 ( XM_024448480.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024304248.1 Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OHu106655
    Clone ID Related Accession (Same CDS sequence) XM_024448480.1
    Accession Version XM_024448480.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4506bp)
    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 doublecortin domain-containing protein 1 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    4201
    4261
    4321
    4381
    4441
    4501
    ATGAAGAAAC TTACTGAGAG GACCTCAGTC CGAATTCTGT TCTTTAAGAA TGGCATGGGG 
    CAGGATGGGC ATGAGATTAC AGTGGGAAAA GAAACAATGA AAAAGGTTTT AGATACTTGT 
    ACAATAAGAA TGAATCTAAA TTTACCAGCC AGATATTTTT ATGATTTGTA TGGCAGAAAA 
    ATTGAAGATA TTTCAAAAGT TCCTCTGCTT GAAAAATGCC TGCAAAATTC CATCACACCT 
    TTGCGAGGAC TACTTTGGGT CTCTAAGGGA GAAGGTTTCA GCCCCTCAGG AGCTAAGATG 
    TACATCCAAG GAGTTCTTTT GGCCCTGTAC CAACGATTAA AGTCTGCAAA AAAATATTAT 
    AAACAGTTGA ACCTGGTCAT GAATGAACAG AAGGAGAAAA TTACAGAAAA AGTCATTCTT 
    TCAATGACGG CAAAGGAACA CCATAAGGAA CAGGAAGAAG TGAGCAGGCT GATTGATGAA 
    TTGCAGACAG CTATCAAAAG TAACATAGGT CATCTCTGTA AACTTGGCCC CCAATTACAG 
    GCTGAGCAGG AGCAATTCTC CTCTTATGTC TACCAACACA TTAAAAGCCT TCCAGCAAAC 
    ACGCTTGTCC CAGGAGGCCT GCAGCTTAAG GTATTTGAAA ATGGTAAAAA CACTGGAGAG 
    ATCTCTGTTG GTATCAGTAA AAAAGATTTG GGATCGGATA GCCCAATTCA AACTGACCAT 
    ATGATGGAAA GATTACTTCT CAAGATTCAT CAAAGGCTTC AAGGTTCTTC CATCAACCCA 
    CCAGGCCTCA ATTATTCTTC AATGCGGCTT TTTGATGAGA ATGGCCAAGA AATTAAGAAT 
    CCACTTTCGC TGAAGAATGA GCAAAAAATT TGGGTCTCTT ATGGTAGAGC ATACAGATCT 
    CCACTAAATC TTGCTTTGGG TTTGACCTTT GACCGAGTGA GTGCATTTGC CAGAGGTGAT 
    ATCATGGTTG CATATAAGAC CTTTTTGGAT CCTAATGCTG TTCTGCTACC TGGATGTGGC 
    AATTGGGAAG TTTGTGAGGG ATTTCCAATT AATTTCAACT GTACCAGTCA ACAGATACCT 
    GACCAGTTTG AAAAGGTGGA CTTGGAGAAC CATTTTCTAC AGAACAAGGT AGATCCCAAT 
    ATTGTCCTTC ATGCCTCTGT TTCCATTGGA AAGTGGAGTT TCTCAGGCAG TGAAGCAAGC 
    AGCAGGAGTC AAATAGCGCC ATCGATCCTG TGGCCTGTAG CCAGTGTGTG GCTGATCACC 
    AAGACTGGAA TGATCCTGAG CCGAGCGATA ACTCAGGGCT GCCTGGCTAT TGGTCATCCT 
    ATCAGAGTCA AGGCTGCTGA GGGAACATCA CTAGAAGGAT ATAAATTAAT CTTACAGAAA 
    AGACATAGTG GAGATGACTC TCAGAAGTGG GTGTTTGGAA CTGATGGTTG CATTTATTCA 
    AAGGCTTATC CTCAGTTTGT TCTGACCTAC CTAGAGGAGC TAAATGCACA AGTAGATGTG 
    ACCCAGACAG AGTATCACAT TCACCATGGT GCCTGGACCA CAGCTCATCA GGAACATGGC 
    AGAAACTTAG CAGAAGAGGT TCTGCAAGAA AGTGCCAGCA ACCTTGGTCT GAAGCAACTG 
    CCAGAACCCT CAGACACCCA TTTAATGCCA GAAGGTTCTC TTGAGGAGAC GGGGGAGCTG 
    ACAGTAGCAC TGGTGAGGAA ACTGGAAGAG AAACATCCTA AGGCTTCTGC TCAGAGGTGG 
    GCCATAAAAC ATGAAGGAAC CAGTAAGCCA GGCCAGTGGA AACATTCTAG AGTTGAAAAT 
    CCTCTATGGA ACAAGCTTAC CTACATGTGG CCTGTCCTTC CCAGTGGCCA ACTTAATGAG 
    GAGTTTGATT GGCCAATACA AGGACTGCTT GTTCCGAGCA GTCCTCCCAT GAAGAAACCC 
    ATCTGTAAGA CAACAGAGCC ATATGCCCCT GTGCGACTCA GAGTTTTGCA GAATGGAGAG 
    AAGAATAAAA ACAGATCCGT TACTATCCTT GGTCCAGATA TCTCACCTGG ACGGAAAACG 
    CAGTGCACTG AGATTTTAAA TTTACCTTCT GCAGCTCGGA GATTGTACAA TGAAAAGGGG 
    AAGGAAATAT TTGCCTTAAA AGACCTGCAA AGAGATGAAC TGGTGTATGT TTCATGTGGA 
    GAACTCTGGA TCAATCCTGA CCTGTCCATT GCTCAGCAAA AGAAACAAAT ATTCCTGAGG 
    AACCTAGAAT CAGACATTGC CAAAATTCAA ATCTTCTGCA GCACACATAA AATAGAAGCT 
    CTTGTTTTAG AAGTCCAAAG TGACATTGTA TCTGGAAGCA AGCTTGCTGT GCATAAACCT 
    GTAGCAATTT TTGGAGAAGA GAAGCAAGTT ACAGAACCGG AAGAAAAGCA AATGCAAGAA 
    GATCCTCTAA CAACGGAAAA TGCTTCCAGT GAAATTCTAG ATTCACACGT AAGAGCTCAT 
    CTTCGAATGA AGGCTTGTCA CACACTTCCC AGGTATGCCT GGCAGGAAAC TTCACATGAC 
    TTTGATGAGG ATGACAGTCT TCCAAAGAAA ACGGAAAAAG GGCTCTTTGA AAATGTGGAA 
    CCACAGAAGA AACACAGCTG TTCACCAAAG CATAGTAAAT TGCACAAGCA TTGTCATCAG 
    CAGTTCGAAT ACAGAGATGG GCAGATTATA AGCCATGCTG CTCCTCAGCT AGTCTTGGGG 
    GTTCAAGGTC CCAATCTCCG ATCAGGCATG GAGGTGGTTT TGGTGGAGAA GAAATCTGAT 
    GGTAGTCATC AGCGCTGGAT ACACCAGGAA GACAGCAGGA CCTTTCACCT TGTGAGTAAC 
    CCTGACCTTG TGCTGGCAGT GTCTATGACC AAGACTAGAA ATGAAGTTTG TGGCTATCCA 
    GTTATTGTTC AGAAATATAA GCCGTACAAC AATGGAGCTG CCAATCAAAA GTGGCATTAC 
    ATGAAAAATA TAAAAGCACT TGTGGCCTTT CATAGCACTG CCTTGGATAA GGAAATTACA 
    TCAGCAAATT ATGCTGGTGT CTGTACATCA TCTGTGATTA AAGAAGAAAA CATTGATCAA 
    CCAGGATACT GTTATCTCTC ACCTGATGGA AAGAGAAAAA CTATGCTCTG CTTGGCTTGT 
    GGACAATCCA TGAGAACAGA GAAAGGACTG AAACAATTGC TTCCAGGGGT TCCATTCCTC 
    TGTATTTCAG GCACCAAGAC TCAGAAGCCC TTCTTACAAG GGCCCTTCAA GGTCATCAGT 
    GTGGCTGAGG TTGATTTGTC GTGTGACAAG GCTGAAAAAA CTCTAAGTTA CTACCAAGCA 
    CGTCTATTGT CTTTACGGAT GAAGACCTGC ACGCAAGCTG CATCTCACAG TGGCATGGCA 
    GCCACACACC AGAAGGCAGT GAAAATAATT GCATACAAAA ATGGGGATGG GTATCGTAAT 
    GGGAAGTTAA TTGTGGCTGG AACATTCCCC ATGCTTCTTA CAGAATGCAC GGAACAACTT 
    GGGCTTGCCA GAGCAGCCTC CAAAGTATAT ACCAAAGATG GAACCCCAAT CTTTACCTTG 
    CGTGATTTGG TTTTATGGGC TCTAGATGAA TCCTTTCTCC AGAGAGACTC TGAGAAACAA 
    AAGCAAGATG CAGCTCCTGT TGGAAAAGAA CAGATAATTG TTGAAAGTAT GGAAGAAAAT 
    CCAAGAATGA AAGTGAAAAA CAGATTATTT GCAAAATCTG TGACATCCGA TAGTTTGGAT 
    GGTATAGACA AGTCTTTGCT TACCCTCATC CTCAGAAATC CTATTGCCAT CTGGGTGTCT 
    TGTGGTGAAC CATTTCTACC TCCAAATGCT TTGCAGAAAG CAGAAAAATT AGAGAAACAG 
    AACTGGCTAA AAAAGGACAG AATTTTGGCT GATCTAGATA CCATGAGACA CAAAATGAGA 
    CAGTTAAAAG GGCGGCGAGT AGCGGCATGT CAGCCAGCCA CCATGGTTCC TACCAAGAGC 
    CCTGTGCAGC CCGTGGTGGT TGAAGGAGGC TGGACCGAAC AGACTCAACA GGAAATTAAA 
    CTCATGGAAC TTATAAGACA TACAGAGGCA CACCTTTCTG AAATCCAAGA AATGGAATCC 
    AAAATAAATT TTCCAATTGC AACCAAACGT ATAGCAGTCA AGCCGAGCAA CCTGTATAAG 
    CAGCCCAACA CAAAACGAGT GTGGATTTAT CTAAATGGAG GCAGACCTGA AGATGGCACT 
    TATGCCTGGG GCAAAACTAT TTCAGAGCTG CTGCAAGACT GCTCCTCTCG TCTCAAAATG 
    ACCCACCCAG CTAGAGCACT GTACACCCCC AGTGGAGAGC CAATTCAGTC CTGGGACGAC 
    ATAGAGCGAG ATATGGTCAT CTGTGTGTCT ATGGGACATG GTTTCAAAAC CCCAAAAGAG 
    TTAAAACAAC TGATGGAGAT CAGAGCAAAT TATGCCAGAA TCCGAAGGCA GCAGGGCCCT 
    CAAGCCACAG ACATTGTGGT GTCACCATCC ACGAAGCTGC TGTCTCTGGC ACATCTCCAC 
    AATTAA

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

    RefSeq XP_024304248.1
    CDS87..4592
    Translation

    Target ORF information:

    RefSeq Version XM_024448480.1
    Organism Homo sapiens(human)
    Definition Homo sapiens doublecortin domain containing 1 (DCDC1), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_024448480.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGAAGAAAC TTACTGAGAG GACCTCAGTC CGAATTCTGT TCTTTAAGAA TGGCATGGGG 
    CAGGATGGGC ATGAGATTAC AGTGGGAAAA GAAACAATGA AAAAGGTTTT AGATACTTGT 
    ACAATAAGAA TGAATCTAAA TTTACCAGCC AGATATTTTT ATGATTTGTA TGGCAGAAAA 
    ATTGAAGATA TTTCAAAAGT TCCTCTGCTT GAAAAATGCC TGCAAAATTC CATCACACCT 
    TTGCGAGGAC TACTTTGGGT CTCTAAGGGA GAAGGTTTCA GCCCCTCAGG AGCTAAGATG 
    TACATCCAAG GAGTTCTTTT GGCCCTGTAC CAACGATTAA AGTCTGCAAA AAAATATTAT 
    AAACAGTTGA ACCTGGTCAT GAATGAACAG AAGGAGAAAA TTACAGAAAA AGTCATTCTT 
    TCAATGACGG CAAAGGAACA CCATAAGGAA CAGGAAGAAG TGAGCAGGCT GATTGATGAA 
    TTGCAGACAG CTATCAAAAG TAACATAGGT CATCTCTGTA AACTTGGCCC CCAATTACAG 
    GCTGAGCAGG AGCAATTCTC CTCTTATGTC TACCAACACA TTAAAAGCCT TCCAGCAAAC 
    ACGCTTGTCC CAGGAGGCCT GCAGCTTAAG GTATTTGAAA ATGGTAAAAA CACTGGAGAG 
    ATCTCTGTTG GTATCAGTAA AAAAGATTTG GGATCGGATA GCCCAATTCA AACTGACCAT 
    ATGATGGAAA GATTACTTCT CAAGATTCAT CAAAGGCTTC AAGGTTCTTC CATCAACCCA 
    CCAGGCCTCA ATTATTCTTC AATGCGGCTT TTTGATGAGA ATGGCCAAGA AATTAAGAAT 
    CCACTTTCGC TGAAGAATGA GCAAAAAATT TGGGTCTCTT ATGGTAGAGC ATACAGATCT 
    CCACTAAATC TTGCTTTGGG TTTGACCTTT GACCGAGTGA GTGCATTTGC CAGAGGTGAT 
    ATCATGGTTG CATATAAGAC CTTTTTGGAT CCTAATGCTG TTCTGCTACC TGGATGTGGC 
    AATTGGGAAG TTTGTGAGGG ATTTCCAATT AATTTCAACT GTACCAGTCA ACAGATACCT 
    GACCAGTTTG AAAAGGTGGA CTTGGAGAAC CATTTTCTAC AGAACAAGGT AGATCCCAAT 
    ATTGTCCTTC ATGCCTCTGT TTCCATTGGA AAGTGGAGTT TCTCAGGCAG TGAAGCAAGC 
    AGCAGGAGTC AAATAGCGCC ATCGATCCTG TGGCCTGTAG CCAGTGTGTG GCTGATCACC 
    AAGACTGGAA TGATCCTGAG CCGAGCGATA ACTCAGGGCT GCCTGGCTAT TGGTCATCCT 
    ATCAGAGTCA AGGCTGCTGA GGGAACATCA CTAGAAGGAT ATAAATTAAT CTTACAGAAA 
    AGACATAGTG GAGATGACTC TCAGAAGTGG GTGTTTGGAA CTGATGGTTG CATTTATTCA 
    AAGGCTTATC CTCAGTTTGT TCTGACCTAC CTAGAGGAGC TAAATGCACA AGTAGATGTG 
    ACCCAGACAG AGTATCACAT TCACCATGGT GCCTGGACCA CAGCTCATCA GGAACATGGC 
    AGAAACTTAG CAGAAGAGGT TCTGCAAGAA AGTGCCAGCA ACCTTGGTCT GAAGCAACTG 
    CCAGAACCCT CAGACACCCA TTTAATGCCA GAAGGTTCTC TTGAGGAGAC GGGGGAGCTG 
    ACAGTAGCAC TGGTGAGGAA ACTGGAAGAG AAACATCCTA AGGCTTCTGC TCAGAGGTGG 
    GCCATAAAAC ATGAAGGAAC CAGTAAGCCA GGCCAGTGGA AACATTCTAG AGTTGAAAAT 
    CCTCTATGGA ACAAGCTTAC CTACATGTGG CCTGTCCTTC CCAGTGGCCA ACTTAATGAG 
    GAGTTTGATT GGCCAATACA AGGACTGCTT GTTCCGAGCA GTCCTCCCAT GAAGAAACCC 
    ATCTGTAAGA CAACAGAGCC ATATGCCCCT GTGCGACTCA GAGTTTTGCA GAATGGAGAG 
    AAGAATAAAA ACAGATCCGT TACTATCCTT GGTCCAGATA TCTCACCTGG ACGGAAAACG 
    CAGTGCACTG AGATTTTAAA TTTACCTTCT GCAGCTCGGA GATTGTACAA TGAAAAGGGG 
    AAGGAAATAT TTGCCTTAAA AGACCTGCAA AGAGATGAAC TGGTGTATGT TTCATGTGGA 
    GAACTCTGGA TCAATCCTGA CCTGTCCATT GCTCAGCAAA AGAAACAAAT ATTCCTGAGG 
    AACCTAGAAT CAGACATTGC CAAAATTCAA ATCTTCTGCA GCACACATAA AATAGAAGCT 
    CTTGTTTTAG AAGTCCAAAG TGACATTGTA TCTGGAAGCA AGCTTGCTGT GCATAAACCT 
    GTAGCAATTT TTGGAGAAGA GAAGCAAGTT ACAGAACCGG AAGAAAAGCA AATGCAAGAA 
    GATCCTCTAA CAACGGAAAA TGCTTCCAGT GAAATTCTAG ATTCACACGT AAGAGCTCAT 
    CTTCGAATGA AGGCTTGTCA CACACTTCCC AGGTATGCCT GGCAGGAAAC TTCACATGAC 
    TTTGATGAGG ATGACAGTCT TCCAAAGAAA ACGGAAAAAG GGCTCTTTGA AAATGTGGAA 
    CCACAGAAGA AACACAGCTG TTCACCAAAG CATAGTAAAT TGCACAAGCA TTGTCATCAG 
    CAGTTCGAAT ACAGAGATGG GCAGATTATA AGCCATGCTG CTCCTCAGCT AGTCTTGGGG 
    GTTCAAGGTC CCAATCTCCG ATCAGGCATG GAGGTGGTTT TGGTGGAGAA GAAATCTGAT 
    GGTAGTCATC AGCGCTGGAT ACACCAGGAA GACAGCAGGA CCTTTCACCT TGTGAGTAAC 
    CCTGACCTTG TGCTGGCAGT GTCTATGACC AAGACTAGAA ATGAAGTTTG TGGCTATCCA 
    GTTATTGTTC AGAAATATAA GCCGTACAAC AATGGAGCTG CCAATCAAAA GTGGCATTAC 
    ATGAAAAATA TAAAAGCACT TGTGGCCTTT CATAGCACTG CCTTGGATAA GGAAATTACA 
    TCAGCAAATT ATGCTGGTGT CTGTACATCA TCTGTGATTA AAGAAGAAAA CATTGATCAA 
    CCAGGATACT GTTATCTCTC ACCTGATGGA AAGAGAAAAA CTATGCTCTG CTTGGCTTGT 
    GGACAATCCA TGAGAACAGA GAAAGGACTG AAACAATTGC TTCCAGGGGT TCCATTCCTC 
    TGTATTTCAG GCACCAAGAC TCAGAAGCCC TTCTTACAAG GGCCCTTCAA GGTCATCAGT 
    GTGGCTGAGG TTGATTTGTC GTGTGACAAG GCTGAAAAAA CTCTAAGTTA CTACCAAGCA 
    CGTCTATTGT CTTTACGGAT GAAGACCTGC ACGCAAGCTG CATCTCACAG TGGCATGGCA 
    GCCACACACC AGAAGGCAGT GAAAATAATT GCATACAAAA ATGGGGATGG GTATCGTAAT 
    GGGAAGTTAA TTGTGGCTGG AACATTCCCC ATGCTTCTTA CAGAATGCAC GGAACAACTT 
    GGGCTTGCCA GAGCAGCCTC CAAAGTATAT ACCAAAGATG GAACCCCAAT CTTTACCTTG 
    CGTGATTTGG TTTTATGGGC TCTAGATGAA TCCTTTCTCC AGAGAGACTC TGAGAAACAA 
    AAGCAAGATG CAGCTCCTGT TGGAAAAGAA CAGATAATTG TTGAAAGTAT GGAAGAAAAT 
    CCAAGAATGA AAGTGAAAAA CAGATTATTT GCAAAATCTG TGACATCCGA TAGTTTGGAT 
    GGTATAGACA AGTCTTTGCT TACCCTCATC CTCAGAAATC CTATTGCCAT CTGGGTGTCT 
    TGTGGTGAAC CATTTCTACC TCCAAATGCT TTGCAGAAAG CAGAAAAATT AGAGAAACAG 
    AACTGGCTAA AAAAGGACAG AATTTTGGCT GATCTAGATA CCATGAGACA CAAAATGAGA 
    CAGTTAAAAG GGCGGCGAGT AGCGGCATGT CAGCCAGCCA CCATGGTTCC TACCAAGAGC 
    CCTGTGCAGC CCGTGGTGGT TGAAGGAGGC TGGACCGAAC AGACTCAACA GGAAATTAAA 
    CTCATGGAAC TTATAAGACA TACAGAGGCA CACCTTTCTG AAATCCAAGA AATGGAATCC 
    AAAATAAATT TTCCAATTGC AACCAAACGT ATAGCAGTCA AGCCGAGCAA CCTGTATAAG 
    CAGCCCAACA CAAAACGAGT GTGGATTTAT CTAAATGGAG GCAGACCTGA AGATGGCACT 
    TATGCCTGGG GCAAAACTAT TTCAGAGCTG CTGCAAGACT GCTCCTCTCG TCTCAAAATG 
    ACCCACCCAG CTAGAGCACT GTACACCCCC AGTGGAGAGC CAATTCAGTC CTGGGACGAC 
    ATAGAGCGAG ATATGGTCAT CTGTGTGTCT ATGGGACATG GTTTCAAAAC CCCAAAAGAG 
    TTAAAACAAC TGATGGAGAT CAGAGCAAAT TATGCCAGAA TCCGAAGGCA GCAGGGCCCT 
    CAAGCCACAG ACATTGTGGT GTCACCATCC ACGAAGCTGC TGTCTCTGGC ACATCTCCAC 
    AATTAA

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

  • PubMed

    Meta-analysis identifies multiple loci associated with kidney function-related traits in east Asian populations.
    Nature genetics44(8)904-9(2012 Jul)
    Okada Y,Sim X,Go MJ,Wu JY,Gu D,Takeuchi F,Takahashi A,Maeda S,Tsunoda T,Chen P,Lim SC,Wong TY,Liu J,Young TL,Aung T,Seielstad M,Teo YY,Kim YJ,Lee JY,Han BG,Kang D,Chen CH,Tsai FJ,Chang LC,Fann SJ,Mei H,Rao DC,Hixson JE,Chen S,Katsuya T,Isono M,Ogihara T,Chambers JC,Zhang W,Kooner JS,,,Albrecht E,,Yamamoto K,Kubo M,Nakamura Y,Kamatani N,Kato N,He J,Chen YT,Cho YS,Tai ES,Tanaka T


    Genome-wide meta-analysis identifies 56 bone mineral density loci and reveals 14 loci associated with risk of fracture.
    Nature genetics44(5)491-501(2012 Apr)
    Estrada K,Styrkarsdottir U,Evangelou E,Hsu YH,Duncan EL,Ntzani EE,Oei L,Albagha OM,Amin N,Kemp JP,Koller DL,Li G,Liu CT,Minster RL,Moayyeri A,Vandenput L,Willner D,Xiao SM,Yerges-Armstrong LM,Zheng HF,Alonso N,Eriksson J,Kammerer CM,Kaptoge SK,Leo PJ,Thorleifsson G,Wilson SG,Wilson JF,Aalto V,Alen M,Aragaki AK,Aspelund T,Center JR,Dailiana Z,Duggan DJ,Garcia M,Garcia-Giralt N,Giroux S,Hallmans G,Hocking LJ,Husted LB,Jameson KA,Khusainova R,Kim GS,Kooperberg C,Koromila T,Kruk M,Laaksonen M,Lacroix AZ,Lee SH,Leung PC,Lewis JR,Masi L,Mencej-Bedrac S,Nguyen TV,Nogues X,Patel MS,Prezelj J,Rose LM,Scollen S,Siggeirsdottir K,Smith AV,Svensson O,Trompet S,Trummer O,van Schoor NM,Woo J,Zhu K,Balcells S,Brandi ML,Buckley BM,Cheng S,Christiansen C,Cooper C,Dedoussis G,Ford I,Frost M,Goltzman D,Gonz?lez-Mac?as J,K?h?nen M,Karlsson M,Khusnutdinova E,Koh JM,Kollia P,Langdahl BL,Leslie WD,Lips P,Ljunggren ?,Lorenc RS,Marc J,Mellstr?m D,Obermayer-Pietsch B,Olmos JM,Pettersson-Kymmer U,Reid DM,Riancho JA,Ridker PM,Rousseau F,Slagboom PE,Tang NL,Urreizti R,Van Hul W,Viikari J,Zarrabeitia MT,Aulchenko YS,Castano-Betancourt M,Grundberg E,Herrera L,Ingvarsson T,Johannsdottir H,Kwan T,Li R,Luben R,Medina-G?mez C,Palsson ST,Reppe S,Rotter JI,Sigurdsson G,van Meurs JB,Verlaan D,Williams FM,Wood AR,Zhou Y,Gautvik KM,Pastinen T,Raychaudhuri S,Cauley JA,Chasman DI,Clark GR,Cummings SR,Danoy P,Dennison EM,Eastell R,Eisman JA,Gudnason V,Hofman A,Jackson RD,Jones G,Jukema JW,Khaw KT,Lehtim?ki T,Liu Y,Lorentzon M,McCloskey E,Mitchell BD,Nandakumar K,Nicholson GC,Oostra BA,Peacock M,Pols HA,Prince RL,Raitakari O,Reid IR,Robbins J,Sambrook PN,Sham PC,Shuldiner AR,Tylavsky FA,van Duijn CM,Wareham NJ,Cupples LA,Econs MJ,Evans DM,Harris TB,Kung AW,Psaty BM,Reeve J,Spector TD,Streeten EA,Zillikens MC,Thorsteinsdottir U,Ohlsson C,Karasik D,Richards JB,Brown MA,Stefansson K,Uitterlinden AG,Ralston SH,Ioannidis JP,Kiel DP,Rivadeneira F


    Linking cytoplasmic dynein and transport of Rab8 vesicles to the midbody during cytokinesis by the doublecortin domain-containing 5 protein.
    Journal of cell science124(Pt 23)3989-4000(2011 Dec)
    Kaplan A,Reiner O


    A 556 kb deletion in the downstream region of the PAX6 gene causes familial aniridia and other eye anomalies in a Chinese family.
    Molecular vision17448-55(2011 Feb)
    Cheng F,Song W,Kang Y,Yu S,Yuan H


    The doublecortin gene family and disorders of neuronal structure.
    Central nervous system agents in medicinal chemistry10(1)32-46(2010 Mar)
    Dijkmans TF,van Hooijdonk LW,Fitzsimons CP,Vreugdenhil E


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