DCX-EMAP cDNA ORF clone, Drosophila melanogaster(fruit fly)

The following DCX-EMAP gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DCX-EMAP 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
OFa18514 NM_001274922.1
Latest version!
Drosophila melanogaster Doublecortin-domain-containing echinoderm-microtubule-associated protein (DCX-EMAP), transcript variant F, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $510.30
$729.00
OFa20210 NM_140472.2
Latest version!
Drosophila melanogaster Doublecortin-domain-containing echinoderm-microtubule-associated protein (DCX-EMAP), transcript variant D, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $426.30
$609.00
OFa18513 NM_001274921.1
Latest version!
Drosophila melanogaster Doublecortin-domain-containing echinoderm-microtubule-associated protein (DCX-EMAP), transcript variant G, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
OFa20209 NM_140471.3
Latest version!
Drosophila melanogaster Doublecortin-domain-containing echinoderm-microtubule-associated protein (DCX-EMAP), transcript variant C, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OFa18514
    Clone ID Related Accession (Same CDS sequence) NM_001274922.1
    Accession Version NM_001274922.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2556bp)
    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 2019-04-24
    Organism Drosophila melanogaster(fruit fly)
    Product Doublecortin-domain-containing echinoderm-microtubule-associated protein, isoform F
    Comment Comment: REVIEWED REFSEQ: This record has been curated by FlyBase. This record is derived from an annotated genomic sequence (NT_037436). ##Genome-Annotation-Data-START## Annotation Provider :: FlyBase Annotation Status :: Full annotation Annotation Version :: Release 6.26 URL :: http://flybase.org ##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
    ATGTACATCG ACGAGGATAG CGAGGAAAGT TCGCCCTTTG TGATGCTCAC ATCCCCCACG 
    AAGTCTTGGC CTGCCAGCTA CGGCAAGAAG AACGGGATGT GGTATGCATC GCCTGGAAAT
    CAGGGATGGG GCTCCAAGCC CGCCAGTCGG AAGCCCTCAA TAATGGAAGC GGATTTGGGC
    ACATTATCGA CCACATCAGG CTCGATAAAG CGCAGCGCCG GCCGTGTGAT ACGCATCATC
    AATAATTTGG ATCATTCGGT GCAGTGTCGC GTTTTGCTGA ACCTACGCAC CTCGCAGCCG
    TTCGAGGAAG TGCTAGAGGA TTTGGGTCAA GTGCTGAAAA TTAACGGAGC AAAGAAAATG
    TACACAGGCA CTGGCCAGGA GGTCCGCAGC TTTTCCCAGC TACGGAATGA GTTCGCCGAC
    GTTGACACCT TCTACCTGGC CACGGGAACT GCCCTGATTG CCGGCTCACC CATCCGGCGC
    TCCAGGTCCC GCCCCTCGGT GGTGGCCGCC GCACCCATTT TGCCCACGGA TGAGCTGCCC
    AAGGTGCCGC TGCGAGGAGC CCGTCCGCGG AGCAAGAGCC GACCGCGGAT CCTGTACGCT
    CCGGAGAGCG AGATCCTGCG GCCGAACGGC GAGTACACGA TGCTGGACAT CATGAAGGAG
    GAGCCCACCA AGGTCACAAT CCGGGGACTG CGGCGCACCT TCTATCCGCC CGTTCACCAT
    GCGCCGGCCG ACAATTCCCC GCCGGACAAA AAACTGCAAC TCCAATGGGT CCATGGCTAT
    CGCGGCATTG ATGCGCGGCG AAATCTCTGG GTTTTGCCCT CCGGAGAACT GCTCTACTAC
    GTGGCTGCCG TGGCCGTACT CTTTGACCGC GACGAGGATG CACAGAGGCA CTACACCGGA
    CACACTGAGG ATATCATGTG CATGGATGTG CATCCCTCCA GGGAACTGGT TGCGTCTGGA
    CAGAAAGCTG GACGAGATCG CAAGTCGCAG GCGCACGTCC GCATCTGGAG CACCGAGTCC
    CTGCAGACGC TCTACGTCTT TGGCATGGGT GAACTGGACA GTGGGGTGAC AGCAGTAGCC
    TTCTCGCAGC TGAACGGAGG TAGCTACATA CTGGCTGTGG ACAGTGGACG CGAGAGCATT
    CTGTCCGTGT GGCAGTGGCA ATGGGGTCAC CTGCTGGGCA AAGTGGCCAC CCTGCAGGAG
    GGTTTGTCGG GGGCTGCCTT CCACCCGTTG GACGATAATC TCATCATCAC CCATGGACGT
    GGTCACCTGG CCTTCTGGCA CCGGCGCAAG GATGGCTTCT TTGAGCGCAC GGACATCGTG
    AAACAGCCGT CGCGTTCCCA TGTCACCAGT GTGCAATTCG AGCCGGATGG CGATGTAATC
    ACTGCTGATT CGGATGGGTT CATAACCATT TACTCGGTGG ATTCCGATGG CGCCTACTTC
    GTCCGCACGG AGTTCGAGGC GCACAACAAG GGCATCGGAT GCCTGATCAT GCTGGGCGAG
    GGCACCCTTC TCTCCGGAGG CGAGAAAGAT CGCAAGATCG CCGCCTGGGA CTCCCTGCAG
    AACTACAAGA AGATTGCCGA TACAAAGCTC CCGGAGGCCG CCGGTGGAGT ACGTACCATC
    TATCCGCAGC GGCCCGGACG GAATGACGGG AACATTTACG TGGGCACCAC GCGGAACAAC
    ATCCTGGAGG GCTCGCTGCA GCGCCGCTTC ACCCAGGTGG TCTTTGGCCA CGGACGTCAA
    CTGTGGGGAT TGGCAGCCCA TCCGGACGAC GAGCTATACG CTACCGCAGG GCATGACAAG
    CACGTGGCCC TGTGGCGCAA GAACAAGCTC ATCTGGACCA TTCAAACAGG TTATGAGTGC
    GTGGCACTGG CATTCCATCC CTTCGGCACC TTGGCCGCCG GAAGCACCGA AGGTCACCTG
    CTTGTCATCA ACTGCGAAAA TGGGGCAGTC ATGCTGACCC TGAGGGTATG CGGGTCGCCC
    CTTAATTGCG TGGCTTACAA CCAGGTTGGC GACATGATAG CCATGGGCTC CCAAAACGGT
    AGCATTTATC TGTTCCGCGT GTCGCGCGAC GGCTTCTCGT ACAAGAAGGT GAACAAGATC
    CGAGGATCGC AGCCGCTGAC CCACTTGGAC TGGAGCATGG ACGGCAACTT TGTGCAGACG
    GTGACCATCG ATTTCGACCT GCTCTTTTGG GATGCCAAGT CCTTGTCCCC GGAGCGCAGT
    CCCATTGCCA TGAAGGACGT CAAGTGGCTG ACCAACAACT GCACCGTGGG CTTCCTGGTG
    GCGGGCCAGT GGAGCAACCG CTACTATAGC ACCACCAACA CCATCGTGGC CACCTGCAGT
    CGCTCCGCCG CCCACGACAT GCTCGCATCC GGTGACGCCG AGGGCTATCT AAGATTGTTC
    AGATATCCCT GCATCTCGCC GCGCGCCGAG TTTCACGAGT CGAAGGTGTA CTCCGGGATG
    CTGGCCTGCG TCCGCTTCCT GTGCGGCGAC CACACGCTCA TCACCGTGGG CGGCACAGAT
    GCGTCCCTGA TGGTGTGGGA CATTGTCGAG GAATAG

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

    RefSeq NP_001261851.1
    CDS171..2726
    Translation

    Target ORF information:

    RefSeq Version NM_001274922.1
    Organism Drosophila melanogaster(fruit fly)
    Definition Drosophila melanogaster Doublecortin-domain-containing echinoderm-microtubule-associated protein (DCX-EMAP), transcript variant F, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001274922.1

    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
    ATGTACATCG ACGAGGATAG CGAGGAAAGT TCGCCCTTTG TGATGCTCAC ATCCCCCACG 
    AAGTCTTGGC CTGCCAGCTA CGGCAAGAAG AACGGGATGT GGTATGCATC GCCTGGAAAT
    CAGGGATGGG GCTCCAAGCC CGCCAGTCGG AAGCCCTCAA TAATGGAAGC GGATTTGGGC
    ACATTATCGA CCACATCAGG CTCGATAAAG CGCAGCGCCG GCCGTGTGAT ACGCATCATC
    AATAATTTGG ATCATTCGGT GCAGTGTCGC GTTTTGCTGA ACCTACGCAC CTCGCAGCCG
    TTCGAGGAAG TGCTAGAGGA TTTGGGTCAA GTGCTGAAAA TTAACGGAGC AAAGAAAATG
    TACACAGGCA CTGGCCAGGA GGTCCGCAGC TTTTCCCAGC TACGGAATGA GTTCGCCGAC
    GTTGACACCT TCTACCTGGC CACGGGAACT GCCCTGATTG CCGGCTCACC CATCCGGCGC
    TCCAGGTCCC GCCCCTCGGT GGTGGCCGCC GCACCCATTT TGCCCACGGA TGAGCTGCCC
    AAGGTGCCGC TGCGAGGAGC CCGTCCGCGG AGCAAGAGCC GACCGCGGAT CCTGTACGCT
    CCGGAGAGCG AGATCCTGCG GCCGAACGGC GAGTACACGA TGCTGGACAT CATGAAGGAG
    GAGCCCACCA AGGTCACAAT CCGGGGACTG CGGCGCACCT TCTATCCGCC CGTTCACCAT
    GCGCCGGCCG ACAATTCCCC GCCGGACAAA AAACTGCAAC TCCAATGGGT CCATGGCTAT
    CGCGGCATTG ATGCGCGGCG AAATCTCTGG GTTTTGCCCT CCGGAGAACT GCTCTACTAC
    GTGGCTGCCG TGGCCGTACT CTTTGACCGC GACGAGGATG CACAGAGGCA CTACACCGGA
    CACACTGAGG ATATCATGTG CATGGATGTG CATCCCTCCA GGGAACTGGT TGCGTCTGGA
    CAGAAAGCTG GACGAGATCG CAAGTCGCAG GCGCACGTCC GCATCTGGAG CACCGAGTCC
    CTGCAGACGC TCTACGTCTT TGGCATGGGT GAACTGGACA GTGGGGTGAC AGCAGTAGCC
    TTCTCGCAGC TGAACGGAGG TAGCTACATA CTGGCTGTGG ACAGTGGACG CGAGAGCATT
    CTGTCCGTGT GGCAGTGGCA ATGGGGTCAC CTGCTGGGCA AAGTGGCCAC CCTGCAGGAG
    GGTTTGTCGG GGGCTGCCTT CCACCCGTTG GACGATAATC TCATCATCAC CCATGGACGT
    GGTCACCTGG CCTTCTGGCA CCGGCGCAAG GATGGCTTCT TTGAGCGCAC GGACATCGTG
    AAACAGCCGT CGCGTTCCCA TGTCACCAGT GTGCAATTCG AGCCGGATGG CGATGTAATC
    ACTGCTGATT CGGATGGGTT CATAACCATT TACTCGGTGG ATTCCGATGG CGCCTACTTC
    GTCCGCACGG AGTTCGAGGC GCACAACAAG GGCATCGGAT GCCTGATCAT GCTGGGCGAG
    GGCACCCTTC TCTCCGGAGG CGAGAAAGAT CGCAAGATCG CCGCCTGGGA CTCCCTGCAG
    AACTACAAGA AGATTGCCGA TACAAAGCTC CCGGAGGCCG CCGGTGGAGT ACGTACCATC
    TATCCGCAGC GGCCCGGACG GAATGACGGG AACATTTACG TGGGCACCAC GCGGAACAAC
    ATCCTGGAGG GCTCGCTGCA GCGCCGCTTC ACCCAGGTGG TCTTTGGCCA CGGACGTCAA
    CTGTGGGGAT TGGCAGCCCA TCCGGACGAC GAGCTATACG CTACCGCAGG GCATGACAAG
    CACGTGGCCC TGTGGCGCAA GAACAAGCTC ATCTGGACCA TTCAAACAGG TTATGAGTGC
    GTGGCACTGG CATTCCATCC CTTCGGCACC TTGGCCGCCG GAAGCACCGA AGGTCACCTG
    CTTGTCATCA ACTGCGAAAA TGGGGCAGTC ATGCTGACCC TGAGGGTATG CGGGTCGCCC
    CTTAATTGCG TGGCTTACAA CCAGGTTGGC GACATGATAG CCATGGGCTC CCAAAACGGT
    AGCATTTATC TGTTCCGCGT GTCGCGCGAC GGCTTCTCGT ACAAGAAGGT GAACAAGATC
    CGAGGATCGC AGCCGCTGAC CCACTTGGAC TGGAGCATGG ACGGCAACTT TGTGCAGACG
    GTGACCATCG ATTTCGACCT GCTCTTTTGG GATGCCAAGT CCTTGTCCCC GGAGCGCAGT
    CCCATTGCCA TGAAGGACGT CAAGTGGCTG ACCAACAACT GCACCGTGGG CTTCCTGGTG
    GCGGGCCAGT GGAGCAACCG CTACTATAGC ACCACCAACA CCATCGTGGC CACCTGCAGT
    CGCTCCGCCG CCCACGACAT GCTCGCATCC GGTGACGCCG AGGGCTATCT AAGATTGTTC
    AGATATCCCT GCATCTCGCC GCGCGCCGAG TTTCACGAGT CGAAGGTGTA CTCCGGGATG
    CTGGCCTGCG TCCGCTTCCT GTGCGGCGAC CACACGCTCA TCACCGTGGG CGGCACAGAT
    GCGTCCCTGA TGGTGTGGGA CATTGTCGAG GAATAG

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

    CloneID OFa20210
    Clone ID Related Accession (Same CDS sequence) NM_140472.2
    Accession Version NM_140472.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2460bp)
    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 2019-04-24
    Organism Drosophila melanogaster(fruit fly)
    Product Doublecortin-domain-containing echinoderm-microtubule-associated protein, isoform D
    Comment Comment: REVIEWED REFSEQ: This record has been curated by FlyBase. This record is derived from an annotated genomic sequence (NT_037436). On Jan 16, 2013 this sequence version replaced NM_140472.1. ##Genome-Annotation-Data-START## Annotation Provider :: FlyBase Annotation Status :: Full annotation Annotation Version :: Release 6.26 URL :: http://flybase.org ##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
    ATGTGGTATG CATCGCCTGG AAATCAGGGA TGGGGCTCCA AGCCCGCCAG TCGGAAGCCC 
    TCAATAATGG AAGCGGATTT GGGCACATTA TCGACCACAT CAGGCTCGAT AAAGCGCAGC
    GCCGGCCGTG TGATACGCAT CATCAATAAT TTGGATCATT CGGTGCAGTG TCGCGTTTTG
    CTGAACCTAC GCACCTCGCA GCCGTTCGAG GAAGTGCTAG AGGATTTGGG TCAAGTGCTG
    AAAATTAACG GAGCAAAGAA AATGTACACA GGCACTGGCC AGGAGGTCCG CAGCTTTTCC
    CAGCTACGGA ATGAGTTCGC CGACGTTGAC ACCTTCTACC TGGCCACGGG AACTGCCCTG
    ATTGCCGGCT CACCCATCCG GCGCTCCAGG TCCCGCCCCT CGGTGGTGGC CGCCGCACCC
    ATTTTGCCCA CGGATGAGCT GCCCAAGGTG CCGCTGCGAG GAGCCCGTCC GCGGAGCAAG
    AGCCGACCGC GGATCCTGTA CGCTCCGGAG AGCGAGATCC TGCGGCCGAA CGGCGAGTAC
    ACGATGCTGG ACATCATGAA GGAGGAGCCC ACCAAGGTCA CAATCCGGGG ACTGCGGCGC
    ACCTTCTATC CGCCCGTTCA CCATGCGCCG GCCGACAATT CCCCGCCGGA CAAAAAACTG
    CAACTCCAAT GGGTCCATGG CTATCGCGGC ATTGATGCGC GGCGAAATCT CTGGGTTTTG
    CCCTCCGGAG AACTGCTCTA CTACGTGGCT GCCGTGGCCG TACTCTTTGA CCGCGACGAG
    GATGCACAGA GGCACTACAC CGGACACACT GAGGATATCA TGTGCATGGA TGTGCATCCC
    TCCAGGGAAC TGGTTGCGTC TGGACAGAAA GCTGGACGAG ATCGCAAGTC GCAGGCGCAC
    GTCCGCATCT GGAGCACCGA GTCCCTGCAG ACGCTCTACG TCTTTGGCAT GGGTGAACTG
    GACAGTGGGG TGACAGCAGT AGCCTTCTCG CAGCTGAACG GAGGTAGCTA CATACTGGCT
    GTGGACAGTG GACGCGAGAG CATTCTGTCC GTGTGGCAGT GGCAATGGGG TCACCTGCTG
    GGCAAAGTGG CCACCCTGCA GGAGGGTTTG TCGGGGGCTG CCTTCCACCC GTTGGACGAT
    AATCTCATCA TCACCCATGG ACGTGGTCAC CTGGCCTTCT GGCACCGGCG CAAGGATGGC
    TTCTTTGAGC GCACGGACAT CGTGAAACAG CCGTCGCGTT CCCATGTCAC CAGTGTGCAA
    TTCGAGCCGG ATGGCGATGT AATCACTGCT GATTCGGATG GGTTCATAAC CATTTACTCG
    GTGGATTCCG ATGGCGCCTA CTTCGTCCGC ACGGAGTTCG AGGCGCACAA CAAGGGCATC
    GGATGCCTGA TCATGCTGGG CGAGGGCACC CTTCTCTCCG GAGGCGAGAA AGATCGCAAG
    ATCGCCGCCT GGGACTCCCT GCAGAACTAC AAGAAGATTG CCGATACAAA GCTCCCGGAG
    GCCGCCGGTG GAGTACGTAC CATCTATCCG CAGCGGCCCG GACGGAATGA CGGGAACATT
    TACGTGGGCA CCACGCGGAA CAACATCCTG GAGGGCTCGC TGCAGCGCCG CTTCACCCAG
    GTGGTCTTTG GCCACGGACG TCAACTGTGG GGATTGGCAG CCCATCCGGA CGACGAGCTA
    TACGCTACCG CAGGGCATGA CAAGCACGTG GCCCTGTGGC GCAAGAACAA GCTCATCTGG
    ACCATTCAAA CAGGTTATGA GTGCGTGGCA CTGGCATTCC ATCCCTTCGG CACCTTGGCC
    GCCGGAAGCA CCGAAGGTCA CCTGCTTGTC ATCAACTGCG AAAATGGGGC AGTCATGCTG
    ACCCTGAGGG TATGCGGGTC GCCCCTTAAT TGCGTGGCTT ACAACCAGGT TGGCGACATG
    ATAGCCATGG GCTCCCAAAA CGGTAGCATT TATCTGTTCC GCGTGTCGCG CGACGGCTTC
    TCGTACAAGA AGGTGAACAA GATCCGAGGA TCGCAGCCGC TGACCCACTT GGACTGGAGC
    ATGGACGGCA ACTTTGTGCA GACGGTGACC ATCGATTTCG ACCTGCTCTT TTGGGATGCC
    AAGTCCTTGT CCCCGGAGCG CAGTCCCATT GCCATGAAGG ACGTCAAGTG GCTGACCAAC
    AACTGCACCG TGGGCTTCCT GGTGGCGGGC CAGTGGAGCA ACCGCTACTA TAGCACCACC
    AACACCATCG TGGCCACCTG CAGTCGCTCC GCCGCCCACG ACATGCTCGC ATCCGGTGAC
    GCCGAGGGCT ATCTAAGATT GTTCAGATAT CCCTGCATCT CGCCGCGCGC CGAGTTTCAC
    GAGTCGAAGG TGTACTCCGG GATGCTGGCC TGCGTCCGCT TCCTGTGCGG CGACCACACG
    CTCATCACCG TGGGCGGCAC AGATGCGTCC CTGATGGTGT GGGACATTGT CGAGGAATAG

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

    RefSeq NP_648729.1
    CDS228..2687
    Translation

    Target ORF information:

    RefSeq Version NM_140472.2
    Organism Drosophila melanogaster(fruit fly)
    Definition Drosophila melanogaster Doublecortin-domain-containing echinoderm-microtubule-associated protein (DCX-EMAP), transcript variant D, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_140472.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    ATGTGGTATG CATCGCCTGG AAATCAGGGA TGGGGCTCCA AGCCCGCCAG TCGGAAGCCC 
    TCAATAATGG AAGCGGATTT GGGCACATTA TCGACCACAT CAGGCTCGAT AAAGCGCAGC
    GCCGGCCGTG TGATACGCAT CATCAATAAT TTGGATCATT CGGTGCAGTG TCGCGTTTTG
    CTGAACCTAC GCACCTCGCA GCCGTTCGAG GAAGTGCTAG AGGATTTGGG TCAAGTGCTG
    AAAATTAACG GAGCAAAGAA AATGTACACA GGCACTGGCC AGGAGGTCCG CAGCTTTTCC
    CAGCTACGGA ATGAGTTCGC CGACGTTGAC ACCTTCTACC TGGCCACGGG AACTGCCCTG
    ATTGCCGGCT CACCCATCCG GCGCTCCAGG TCCCGCCCCT CGGTGGTGGC CGCCGCACCC
    ATTTTGCCCA CGGATGAGCT GCCCAAGGTG CCGCTGCGAG GAGCCCGTCC GCGGAGCAAG
    AGCCGACCGC GGATCCTGTA CGCTCCGGAG AGCGAGATCC TGCGGCCGAA CGGCGAGTAC
    ACGATGCTGG ACATCATGAA GGAGGAGCCC ACCAAGGTCA CAATCCGGGG ACTGCGGCGC
    ACCTTCTATC CGCCCGTTCA CCATGCGCCG GCCGACAATT CCCCGCCGGA CAAAAAACTG
    CAACTCCAAT GGGTCCATGG CTATCGCGGC ATTGATGCGC GGCGAAATCT CTGGGTTTTG
    CCCTCCGGAG AACTGCTCTA CTACGTGGCT GCCGTGGCCG TACTCTTTGA CCGCGACGAG
    GATGCACAGA GGCACTACAC CGGACACACT GAGGATATCA TGTGCATGGA TGTGCATCCC
    TCCAGGGAAC TGGTTGCGTC TGGACAGAAA GCTGGACGAG ATCGCAAGTC GCAGGCGCAC
    GTCCGCATCT GGAGCACCGA GTCCCTGCAG ACGCTCTACG TCTTTGGCAT GGGTGAACTG
    GACAGTGGGG TGACAGCAGT AGCCTTCTCG CAGCTGAACG GAGGTAGCTA CATACTGGCT
    GTGGACAGTG GACGCGAGAG CATTCTGTCC GTGTGGCAGT GGCAATGGGG TCACCTGCTG
    GGCAAAGTGG CCACCCTGCA GGAGGGTTTG TCGGGGGCTG CCTTCCACCC GTTGGACGAT
    AATCTCATCA TCACCCATGG ACGTGGTCAC CTGGCCTTCT GGCACCGGCG CAAGGATGGC
    TTCTTTGAGC GCACGGACAT CGTGAAACAG CCGTCGCGTT CCCATGTCAC CAGTGTGCAA
    TTCGAGCCGG ATGGCGATGT AATCACTGCT GATTCGGATG GGTTCATAAC CATTTACTCG
    GTGGATTCCG ATGGCGCCTA CTTCGTCCGC ACGGAGTTCG AGGCGCACAA CAAGGGCATC
    GGATGCCTGA TCATGCTGGG CGAGGGCACC CTTCTCTCCG GAGGCGAGAA AGATCGCAAG
    ATCGCCGCCT GGGACTCCCT GCAGAACTAC AAGAAGATTG CCGATACAAA GCTCCCGGAG
    GCCGCCGGTG GAGTACGTAC CATCTATCCG CAGCGGCCCG GACGGAATGA CGGGAACATT
    TACGTGGGCA CCACGCGGAA CAACATCCTG GAGGGCTCGC TGCAGCGCCG CTTCACCCAG
    GTGGTCTTTG GCCACGGACG TCAACTGTGG GGATTGGCAG CCCATCCGGA CGACGAGCTA
    TACGCTACCG CAGGGCATGA CAAGCACGTG GCCCTGTGGC GCAAGAACAA GCTCATCTGG
    ACCATTCAAA CAGGTTATGA GTGCGTGGCA CTGGCATTCC ATCCCTTCGG CACCTTGGCC
    GCCGGAAGCA CCGAAGGTCA CCTGCTTGTC ATCAACTGCG AAAATGGGGC AGTCATGCTG
    ACCCTGAGGG TATGCGGGTC GCCCCTTAAT TGCGTGGCTT ACAACCAGGT TGGCGACATG
    ATAGCCATGG GCTCCCAAAA CGGTAGCATT TATCTGTTCC GCGTGTCGCG CGACGGCTTC
    TCGTACAAGA AGGTGAACAA GATCCGAGGA TCGCAGCCGC TGACCCACTT GGACTGGAGC
    ATGGACGGCA ACTTTGTGCA GACGGTGACC ATCGATTTCG ACCTGCTCTT TTGGGATGCC
    AAGTCCTTGT CCCCGGAGCG CAGTCCCATT GCCATGAAGG ACGTCAAGTG GCTGACCAAC
    AACTGCACCG TGGGCTTCCT GGTGGCGGGC CAGTGGAGCA ACCGCTACTA TAGCACCACC
    AACACCATCG TGGCCACCTG CAGTCGCTCC GCCGCCCACG ACATGCTCGC ATCCGGTGAC
    GCCGAGGGCT ATCTAAGATT GTTCAGATAT CCCTGCATCT CGCCGCGCGC CGAGTTTCAC
    GAGTCGAAGG TGTACTCCGG GATGCTGGCC TGCGTCCGCT TCCTGTGCGG CGACCACACG
    CTCATCACCG TGGGCGGCAC AGATGCGTCC CTGATGGTGT GGGACATTGT CGAGGAATAG

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

    CloneID OFa18513
    Clone ID Related Accession (Same CDS sequence) NM_001274921.1
    Accession Version NM_001274921.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3357bp)
    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 2019-04-24
    Organism Drosophila melanogaster(fruit fly)
    Product Doublecortin-domain-containing echinoderm-microtubule-associated protein, isoform G
    Comment Comment: REVIEWED REFSEQ: This record has been curated by FlyBase. This record is derived from an annotated genomic sequence (NT_037436). ##Genome-Annotation-Data-START## Annotation Provider :: FlyBase Annotation Status :: Full annotation Annotation Version :: Release 6.26 URL :: http://flybase.org ##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
    ATGCCACAAA TTAGTCCGAA CGCACCGCTC GAGGGAAACG TTTCGCCGCC ACCGACGCAG 
    CCCCATTTGG ATGATAATCT GCACAACGGG AACGGGAACG GGAACGGCAT CCACAGCAGC
    AGCAGCAACA TTAACAAGCA CGGCAGCAAC ATCAACGGCA ACAACGATAG CAACCGCAGC
    AGTCCTGCGA AGAGTCCCAA GCGCCCAGTG TCCTCCAGCT TCCGGATTCA GAACACCAGC
    CGGTACGATA ATGATGAGGA GGACTTAGCA GCCAGCGAGC AGGTGGCTGG TGGAGATCGC
    CAGGTGCCGG ATTATTGGCA GCAACGGAAC GGTGCGACCA CTGGTGCAAC CAGTGGGCGG
    CAGAGTCGCG CCATTAGTCC CGGGTATCTG GACAACATGA GCGAGAACTC GGAGCAGCCG
    CCAGTGGTGC CGCTGGTGCG ATCTAAATCC CGTCCAGAAA TTTCAAGTGC AGCGGCATCG
    CGATATAATA ATCTCTCCTA TTGGAAGGCA CGCCGTGTGG TGTTCTACCG GAATGGGGAT
    CCATTCTTTC CGGGTGTGGA GCTGCGCTAT CGTCCCGGAC GGGATGTAAC CTCACTGGAC
    AATCTTCTCG ATAAGATCTC GCCCAAGATG GACTTGCCAC GGGGTGCTCG ATATGTGTTC
    TCCATGGACG GAGATCGAAA ATATCATCTC GATGAACTGG AGGATGGAGC CTTCTATGTC
    GTATCCTCGT TCAAGGCCTT CAAGCCTGCC AGCTACGGCA AGAAGAACGG GATGTGGTAT
    GCATCGCCTG GAAATCAGGG ATGGGGCTCC AAGCCCGCCA GTCGGAAGCC CTCAATAATG
    GAAGCGGATT TGGGCACATT ATCGACCACA TCAGGCTCGA TAAAGCGCAG CGCCGGCCGT
    GTGATACGCA TCATCAATAA TTTGGATCAT TCGGTGCAGT GTCGCGTTTT GCTGAACCTA
    CGCACCTCGC AGCCGTTCGA GGAAGTGCTA GAGGATTTGG GTCAAGTGCT GAAAATTAAC
    GGAGCAAAGA AAATGTACAC AGGCACTGGC CAGGAGGTCC GCAGCTTTTC CCAGCTACGG
    AATGAGTTCG CCGACGTTGA CACCTTCTAC CTGGCCACGG GAACTGCCCT GATTGCCGGC
    TCACCCATCC GGCGCTCCAG GTCCCGCCCC TCGGTGGTGG CCGCCGCACC CATTTTGCCC
    ACGGATGAGC TGCCCAAGGT GCCGCTGCGA GGAGCCCGTC CGCGGAGCAA GAGCCGACCG
    CGGATCCTGT ACGCTCCGGA GAGCGAGATC CTGCGGCCGA ACGGCGAGTA CACGATGCTG
    GACATCATGA AGGAGGAGCC CACCAAGGTC ACAATCCGGG GACTGCGGCG CACCTTCTAT
    CCGCCCGTTC ACCATGCGCC GGCCGACAAT TCCCCGCCGG ACAAAAAACT GCAACTCCAA
    TGGGTCCATG GCTATCGCGG CATTGATGCG CGGCGAAATC TCTGGGTTTT GCCCTCCGGA
    GAACTGCTCT ACTACGTGGC TGCCGTGGCC GTACTCTTTG ACCGCGACGA GGATGCACAG
    AGGCACTACA CCGGACACAC TGAGGATATC ATGTGCATGG ATGTGCATCC CTCCAGGGAA
    CTGGTTGCGT CTGGACAGAA AGCTGGACGA GATCGCAAGT CGCAGGCGCA CGTCCGCATC
    TGGAGCACCG AGTCCCTGCA GACGCTCTAC GTCTTTGGCA TGGGTGAACT GGACAGTGGG
    GTGACAGCAG TAGCCTTCTC GCAGCTGAAC GGAGGTAGCT ACATACTGGC TGTGGACAGT
    GGACGCGAGA GCATTCTGTC CGTGTGGCAG TGGCAATGGG GTCACCTGCT GGGCAAAGTG
    GCCACCCTGC AGGAGGGTTT GTCGGGGGCT GCCTTCCACC CGTTGGACGA TAATCTCATC
    ATCACCCATG GACGTGGTCA CCTGGCCTTC TGGCACCGGC GCAAGGATGG CTTCTTTGAG
    CGCACGGACA TCGTGAAACA GCCGTCGCGT TCCCATGTCA CCAGTGTGCA ATTCGAGCCG
    GATGGCGATG TAATCACTGC TGATTCGGAT GGGTTCATAA CCATTTACTC GGTGGATTCC
    GATGGCGCCT ACTTCGTCCG CACGGAGTTC GAGGCGCACA ACAAGGGCAT CGGATGCCTG
    ATCATGCTGG GCGAGGGCAC CCTTCTCTCC GGAGGCGAGA AAGATCGCAA GATCGCCGCC
    TGGGACTCCC TGCAGAACTA CAAGAAGATT GCCGATACAA AGCTCCCGGA GGCCGCCGGT
    GGAGTACGTA CCATCTATCC GCAGCGGCCC GGACGGAATG ACGGGAACAT TTACGTGGGC
    ACCACGCGGA ACAACATCCT GGAGGGCTCG CTGCAGCGCC GCTTCACCCA GGTGGTCTTT
    GGCCACGGAC GTCAACTGTG GGGATTGGCA GCCCATCCGG ACGACGAGCT ATACGCTACC
    GCAGGGCATG ACAAGCACGT GGCCCTGTGG CGCAAGAACA AGCTCATCTG GACCATTCAA
    ACAGGTTATG AGTGCGTGGC ACTGGCATTC CATCCCTTCG GCACCTTGGC CGCCGGAAGC
    ACCGAAGGTC ACCTGCTTGT CATCAACTGC GAAAATGGGG CAGTCATGCT GACCCTGAGG
    GTATGCGGGT CGCCCCTTAA TTGCGTGGCT TACAACCAGG TTGGCGACAT GATAGCCATG
    GGCTCCCAAA ACGGTAGCAT TTATCTGTTC CGCGTGTCGC GCGACGGCTT CTCGTACAAG
    AAGGTGAACA AGATCCGAGG ATCGCAGCCG CTGACCCACT TGGACTGGAG CATGGACGGC
    AACTTTGTGC AGACGGTGAC CATCGATTTC GACCTGCTCT TTTGGGATGC CAAGTCCTTG
    TCCCCGGAGC GCAGTCCCAT TGCCATGAAG GACGTCAAGT GGCTGACCAA CAACTGCACC
    GTGGGCTTCC TGGTGGCGGG CCAGTGGAGC AACCGCTACT ATAGCACCAC CAACACCATC
    GTGGCCACCT GCAGTCGCTC CGCCGCCCAC GACATGCTCG CATCCGGTGA CGCCGAGGGC
    TATCTAAGAT TGTTCAGATA TCCCTGCATC TCGCCGCGCG CCGAGTTTCA CGAGTCGAAG
    GTGTACTCCG GGATGCTGGC CTGCGTCCGC TTCCTGTGCG GCGACCACAC GCTCATCACC
    GTGGGCGGCA CAGATGCGTC CCTGATGGTG TGGGACATTG TCGAGGAATA GCTGAAATGG
    CCACCGTGGC ACCGCACCGC CGCCCAGTAC GAGGCCAGTT ACTCGGACTA CTGGCACCGA
    CGCGCCTCGA GGGTCTCCTC CACGATCCTC GACAGTGATT CGGTGGACTA TCCGTAG

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

    RefSeq NP_001261850.1
    CDS433..3789
    Translation

    Target ORF information:

    RefSeq Version NM_001274921.1
    Organism Drosophila melanogaster(fruit fly)
    Definition Drosophila melanogaster Doublecortin-domain-containing echinoderm-microtubule-associated protein (DCX-EMAP), transcript variant G, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001274921.1

    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
    ATGCCACAAA TTAGTCCGAA CGCACCGCTC GAGGGAAACG TTTCGCCGCC ACCGACGCAG 
    CCCCATTTGG ATGATAATCT GCACAACGGG AACGGGAACG GGAACGGCAT CCACAGCAGC
    AGCAGCAACA TTAACAAGCA CGGCAGCAAC ATCAACGGCA ACAACGATAG CAACCGCAGC
    AGTCCTGCGA AGAGTCCCAA GCGCCCAGTG TCCTCCAGCT TCCGGATTCA GAACACCAGC
    CGGTACGATA ATGATGAGGA GGACTTAGCA GCCAGCGAGC AGGTGGCTGG TGGAGATCGC
    CAGGTGCCGG ATTATTGGCA GCAACGGAAC GGTGCGACCA CTGGTGCAAC CAGTGGGCGG
    CAGAGTCGCG CCATTAGTCC CGGGTATCTG GACAACATGA GCGAGAACTC GGAGCAGCCG
    CCAGTGGTGC CGCTGGTGCG ATCTAAATCC CGTCCAGAAA TTTCAAGTGC AGCGGCATCG
    CGATATAATA ATCTCTCCTA TTGGAAGGCA CGCCGTGTGG TGTTCTACCG GAATGGGGAT
    CCATTCTTTC CGGGTGTGGA GCTGCGCTAT CGTCCCGGAC GGGATGTAAC CTCACTGGAC
    AATCTTCTCG ATAAGATCTC GCCCAAGATG GACTTGCCAC GGGGTGCTCG ATATGTGTTC
    TCCATGGACG GAGATCGAAA ATATCATCTC GATGAACTGG AGGATGGAGC CTTCTATGTC
    GTATCCTCGT TCAAGGCCTT CAAGCCTGCC AGCTACGGCA AGAAGAACGG GATGTGGTAT
    GCATCGCCTG GAAATCAGGG ATGGGGCTCC AAGCCCGCCA GTCGGAAGCC CTCAATAATG
    GAAGCGGATT TGGGCACATT ATCGACCACA TCAGGCTCGA TAAAGCGCAG CGCCGGCCGT
    GTGATACGCA TCATCAATAA TTTGGATCAT TCGGTGCAGT GTCGCGTTTT GCTGAACCTA
    CGCACCTCGC AGCCGTTCGA GGAAGTGCTA GAGGATTTGG GTCAAGTGCT GAAAATTAAC
    GGAGCAAAGA AAATGTACAC AGGCACTGGC CAGGAGGTCC GCAGCTTTTC CCAGCTACGG
    AATGAGTTCG CCGACGTTGA CACCTTCTAC CTGGCCACGG GAACTGCCCT GATTGCCGGC
    TCACCCATCC GGCGCTCCAG GTCCCGCCCC TCGGTGGTGG CCGCCGCACC CATTTTGCCC
    ACGGATGAGC TGCCCAAGGT GCCGCTGCGA GGAGCCCGTC CGCGGAGCAA GAGCCGACCG
    CGGATCCTGT ACGCTCCGGA GAGCGAGATC CTGCGGCCGA ACGGCGAGTA CACGATGCTG
    GACATCATGA AGGAGGAGCC CACCAAGGTC ACAATCCGGG GACTGCGGCG CACCTTCTAT
    CCGCCCGTTC ACCATGCGCC GGCCGACAAT TCCCCGCCGG ACAAAAAACT GCAACTCCAA
    TGGGTCCATG GCTATCGCGG CATTGATGCG CGGCGAAATC TCTGGGTTTT GCCCTCCGGA
    GAACTGCTCT ACTACGTGGC TGCCGTGGCC GTACTCTTTG ACCGCGACGA GGATGCACAG
    AGGCACTACA CCGGACACAC TGAGGATATC ATGTGCATGG ATGTGCATCC CTCCAGGGAA
    CTGGTTGCGT CTGGACAGAA AGCTGGACGA GATCGCAAGT CGCAGGCGCA CGTCCGCATC
    TGGAGCACCG AGTCCCTGCA GACGCTCTAC GTCTTTGGCA TGGGTGAACT GGACAGTGGG
    GTGACAGCAG TAGCCTTCTC GCAGCTGAAC GGAGGTAGCT ACATACTGGC TGTGGACAGT
    GGACGCGAGA GCATTCTGTC CGTGTGGCAG TGGCAATGGG GTCACCTGCT GGGCAAAGTG
    GCCACCCTGC AGGAGGGTTT GTCGGGGGCT GCCTTCCACC CGTTGGACGA TAATCTCATC
    ATCACCCATG GACGTGGTCA CCTGGCCTTC TGGCACCGGC GCAAGGATGG CTTCTTTGAG
    CGCACGGACA TCGTGAAACA GCCGTCGCGT TCCCATGTCA CCAGTGTGCA ATTCGAGCCG
    GATGGCGATG TAATCACTGC TGATTCGGAT GGGTTCATAA CCATTTACTC GGTGGATTCC
    GATGGCGCCT ACTTCGTCCG CACGGAGTTC GAGGCGCACA ACAAGGGCAT CGGATGCCTG
    ATCATGCTGG GCGAGGGCAC CCTTCTCTCC GGAGGCGAGA AAGATCGCAA GATCGCCGCC
    TGGGACTCCC TGCAGAACTA CAAGAAGATT GCCGATACAA AGCTCCCGGA GGCCGCCGGT
    GGAGTACGTA CCATCTATCC GCAGCGGCCC GGACGGAATG ACGGGAACAT TTACGTGGGC
    ACCACGCGGA ACAACATCCT GGAGGGCTCG CTGCAGCGCC GCTTCACCCA GGTGGTCTTT
    GGCCACGGAC GTCAACTGTG GGGATTGGCA GCCCATCCGG ACGACGAGCT ATACGCTACC
    GCAGGGCATG ACAAGCACGT GGCCCTGTGG CGCAAGAACA AGCTCATCTG GACCATTCAA
    ACAGGTTATG AGTGCGTGGC ACTGGCATTC CATCCCTTCG GCACCTTGGC CGCCGGAAGC
    ACCGAAGGTC ACCTGCTTGT CATCAACTGC GAAAATGGGG CAGTCATGCT GACCCTGAGG
    GTATGCGGGT CGCCCCTTAA TTGCGTGGCT TACAACCAGG TTGGCGACAT GATAGCCATG
    GGCTCCCAAA ACGGTAGCAT TTATCTGTTC CGCGTGTCGC GCGACGGCTT CTCGTACAAG
    AAGGTGAACA AGATCCGAGG ATCGCAGCCG CTGACCCACT TGGACTGGAG CATGGACGGC
    AACTTTGTGC AGACGGTGAC CATCGATTTC GACCTGCTCT TTTGGGATGC CAAGTCCTTG
    TCCCCGGAGC GCAGTCCCAT TGCCATGAAG GACGTCAAGT GGCTGACCAA CAACTGCACC
    GTGGGCTTCC TGGTGGCGGG CCAGTGGAGC AACCGCTACT ATAGCACCAC CAACACCATC
    GTGGCCACCT GCAGTCGCTC CGCCGCCCAC GACATGCTCG CATCCGGTGA CGCCGAGGGC
    TATCTAAGAT TGTTCAGATA TCCCTGCATC TCGCCGCGCG CCGAGTTTCA CGAGTCGAAG
    GTGTACTCCG GGATGCTGGC CTGCGTCCGC TTCCTGTGCG GCGACCACAC GCTCATCACC
    GTGGGCGGCA CAGATGCGTC CCTGATGGTG TGGGACATTG TCGAGGAATA GCTGAAATGG
    CCACCGTGGC ACCGCACCGC CGCCCAGTAC GAGGCCAGTT ACTCGGACTA CTGGCACCGA
    CGCGCCTCGA GGGTCTCCTC CACGATCCTC GACAGTGATT CGGTGGACTA TCCGTAG

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

    CloneID OFa20209
    Clone ID Related Accession (Same CDS sequence) NM_140471.3
    Accession Version NM_140471.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3231bp)
    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 2019-04-24
    Organism Drosophila melanogaster(fruit fly)
    Product Doublecortin-domain-containing echinoderm-microtubule-associated protein, isoform C
    Comment Comment: REVIEWED REFSEQ: This record has been curated by FlyBase. This record is derived from an annotated genomic sequence (NT_037436). On Jan 16, 2013 this sequence version replaced NM_140471.2. ##Genome-Annotation-Data-START## Annotation Provider :: FlyBase Annotation Status :: Full annotation Annotation Version :: Release 6.26 URL :: http://flybase.org ##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
    ATGCCACAAA TTAGTCCGAA CGCACCGCTC GAGGGAAACG TTTCGCCGCC ACCGACGCAG 
    CCCCATTTGG ATGATAATCT GCACAACGGG AACGGGAACG GGAACGGCAT CCACAGCAGC
    AGCAGCAACA TTAACAAGCA CGGCAGCAAC ATCAACGGCA ACAACGATAG CAACCGCAGC
    AGTCCTGCGA AGAGTCCCAA GCGCCCAGTG TCCTCCAGCT TCCGGATTCA GAACACCAGC
    CGGTACGATA ATGATGAGGA GGACTTAGCA GCCAGCGAGC AGGTGGCTGG TGGAGATCGC
    CAGGTGCCGG ATTATTGGCA GCAACGGAAC GGTGCGACCA CTGGTGCAAC CAGTGGGCGG
    CAGAGTCGCG CCATTAGTCC CGGGTATCTG GACAACATGA GCGAGAACTC GGAGCAGCCG
    CCAGTGGTGC CGCTGGTGCG ATCTAAATCC CGTCCAGAAA TTTCAAGTGC AGCGGCATCG
    CGATATAATA ATCTCTCCTA TTGGAAGGCA CGCCGTGTGG TGTTCTACCG GAATGGGGAT
    CCATTCTTTC CGGGTGTGGA GCTGCGCTAT CGTCCCGGAC GGGATGTAAC CTCACTGGAC
    AATCTTCTCG ATAAGATCTC GCCCAAGATG GACTTGCCAC GGGGTGCTCG ATATGTGTTC
    TCCATGGACG GAGATCGAAA ATATCATCTC GATGAACTGG AGGATGGAGC CTTCTATGTC
    GTATCCTCGT TCAAGGCCTT CAAGCCTGCC AGCTACGGCA AGAAGAACGG GATGTGGTAT
    GCATCGCCTG GAAATCAGGG ATGGGGCTCC AAGCCCGCCA GTCGGAAGCC CTCAATAATG
    GAAGCGGATT TGGGCACATT ATCGACCACA TCAGGCTCGA TAAAGCGCAG CGCCGGCCGT
    GTGATACGCA TCATCAATAA TTTGGATCAT TCGGTGCAGT GTCGCGTTTT GCTGAACCTA
    CGCACCTCGC AGCCGTTCGA GGAAGTGCTA GAGGATTTGG GTCAAGTGCT GAAAATTAAC
    GGAGCAAAGA AAATGTACAC AGGCACTGGC CAGGAGGTCC GCAGCTTTTC CCAGCTACGG
    AATGAGTTCG CCGACGTTGA CACCTTCTAC CTGGCCACGG GAACTGCCCT GATTGCCGGC
    TCACCCATCC GGCGCTCCAG GTCCCGCCCC TCGGTGGTGG CCGCCGCACC CATTTTGCCC
    ACGGATGAGC TGCCCAAGGT GCCGCTGCGA GGAGCCCGTC CGCGGAGCAA GAGCCGACCG
    CGGATCCTGT ACGCTCCGGA GAGCGAGATC CTGCGGCCGA ACGGCGAGTA CACGATGCTG
    GACATCATGA AGGAGGAGCC CACCAAGGTC ACAATCCGGG GACTGCGGCG CACCTTCTAT
    CCGCCCGTTC ACCATGCGCC GGCCGACAAT TCCCCGCCGG ACAAAAAACT GCAACTCCAA
    TGGGTCCATG GCTATCGCGG CATTGATGCG CGGCGAAATC TCTGGGTTTT GCCCTCCGGA
    GAACTGCTCT ACTACGTGGC TGCCGTGGCC GTACTCTTTG ACCGCGACGA GGATGCACAG
    AGGCACTACA CCGGACACAC TGAGGATATC ATGTGCATGG ATGTGCATCC CTCCAGGGAA
    CTGGTTGCGT CTGGACAGAA AGCTGGACGA GATCGCAAGT CGCAGGCGCA CGTCCGCATC
    TGGAGCACCG AGTCCCTGCA GACGCTCTAC GTCTTTGGCA TGGGTGAACT GGACAGTGGG
    GTGACAGCAG TAGCCTTCTC GCAGCTGAAC GGAGGTAGCT ACATACTGGC TGTGGACAGT
    GGACGCGAGA GCATTCTGTC CGTGTGGCAG TGGCAATGGG GTCACCTGCT GGGCAAAGTG
    GCCACCCTGC AGGAGGGTTT GTCGGGGGCT GCCTTCCACC CGTTGGACGA TAATCTCATC
    ATCACCCATG GACGTGGTCA CCTGGCCTTC TGGCACCGGC GCAAGGATGG CTTCTTTGAG
    CGCACGGACA TCGTGAAACA GCCGTCGCGT TCCCATGTCA CCAGTGTGCA ATTCGAGCCG
    GATGGCGATG TAATCACTGC TGATTCGGAT GGGTTCATAA CCATTTACTC GGTGGATTCC
    GATGGCGCCT ACTTCGTCCG CACGGAGTTC GAGGCGCACA ACAAGGGCAT CGGATGCCTG
    ATCATGCTGG GCGAGGGCAC CCTTCTCTCC GGAGGCGAGA AAGATCGCAA GATCGCCGCC
    TGGGACTCCC TGCAGAACTA CAAGAAGATT GCCGATACAA AGCTCCCGGA GGCCGCCGGT
    GGAGTACGTA CCATCTATCC GCAGCGGCCC GGACGGAATG ACGGGAACAT TTACGTGGGC
    ACCACGCGGA ACAACATCCT GGAGGGCTCG CTGCAGCGCC GCTTCACCCA GGTGGTCTTT
    GGCCACGGAC GTCAACTGTG GGGATTGGCA GCCCATCCGG ACGACGAGCT ATACGCTACC
    GCAGGGCATG ACAAGCACGT GGCCCTGTGG CGCAAGAACA AGCTCATCTG GACCATTCAA
    ACAGGTTATG AGTGCGTGGC ACTGGCATTC CATCCCTTCG GCACCTTGGC CGCCGGAAGC
    ACCGAAGGTC ACCTGCTTGT CATCAACTGC GAAAATGGGG CAGTCATGCT GACCCTGAGG
    GTATGCGGGT CGCCCCTTAA TTGCGTGGCT TACAACCAGG TTGGCGACAT GATAGCCATG
    GGCTCCCAAA ACGGTAGCAT TTATCTGTTC CGCGTGTCGC GCGACGGCTT CTCGTACAAG
    AAGGTGAACA AGATCCGAGG ATCGCAGCCG CTGACCCACT TGGACTGGAG CATGGACGGC
    AACTTTGTGC AGACGGTGAC CATCGATTTC GACCTGCTCT TTTGGGATGC CAAGTCCTTG
    TCCCCGGAGC GCAGTCCCAT TGCCATGAAG GACGTCAAGT GGCTGACCAA CAACTGCACC
    GTGGGCTTCC TGGTGGCGGG CCAGTGGAGC AACCGCTACT ATAGCACCAC CAACACCATC
    GTGGCCACCT GCAGTCGCTC CGCCGCCCAC GACATGCTCG CATCCGGTGA CGCCGAGGGC
    TATCTAAGAT TGTTCAGATA TCCCTGCATC TCGCCGCGCG CCGAGTTTCA CGAGTCGAAG
    GTGTACTCCG GGATGCTGGC CTGCGTCCGC TTCCTGTGCG GCGACCACAC GCTCATCACC
    GTGGGCGGCA CAGATGCGTC CCTGATGGTG TGGGACATTG TCGAGGAATA G

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

    RefSeq NP_648728.2
    CDS433..3663
    Translation

    Target ORF information:

    RefSeq Version NM_140471.3
    Organism Drosophila melanogaster(fruit fly)
    Definition Drosophila melanogaster Doublecortin-domain-containing echinoderm-microtubule-associated protein (DCX-EMAP), transcript variant C, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_140471.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGCCACAAA TTAGTCCGAA CGCACCGCTC GAGGGAAACG TTTCGCCGCC ACCGACGCAG 
    CCCCATTTGG ATGATAATCT GCACAACGGG AACGGGAACG GGAACGGCAT CCACAGCAGC
    AGCAGCAACA TTAACAAGCA CGGCAGCAAC ATCAACGGCA ACAACGATAG CAACCGCAGC
    AGTCCTGCGA AGAGTCCCAA GCGCCCAGTG TCCTCCAGCT TCCGGATTCA GAACACCAGC
    CGGTACGATA ATGATGAGGA GGACTTAGCA GCCAGCGAGC AGGTGGCTGG TGGAGATCGC
    CAGGTGCCGG ATTATTGGCA GCAACGGAAC GGTGCGACCA CTGGTGCAAC CAGTGGGCGG
    CAGAGTCGCG CCATTAGTCC CGGGTATCTG GACAACATGA GCGAGAACTC GGAGCAGCCG
    CCAGTGGTGC CGCTGGTGCG ATCTAAATCC CGTCCAGAAA TTTCAAGTGC AGCGGCATCG
    CGATATAATA ATCTCTCCTA TTGGAAGGCA CGCCGTGTGG TGTTCTACCG GAATGGGGAT
    CCATTCTTTC CGGGTGTGGA GCTGCGCTAT CGTCCCGGAC GGGATGTAAC CTCACTGGAC
    AATCTTCTCG ATAAGATCTC GCCCAAGATG GACTTGCCAC GGGGTGCTCG ATATGTGTTC
    TCCATGGACG GAGATCGAAA ATATCATCTC GATGAACTGG AGGATGGAGC CTTCTATGTC
    GTATCCTCGT TCAAGGCCTT CAAGCCTGCC AGCTACGGCA AGAAGAACGG GATGTGGTAT
    GCATCGCCTG GAAATCAGGG ATGGGGCTCC AAGCCCGCCA GTCGGAAGCC CTCAATAATG
    GAAGCGGATT TGGGCACATT ATCGACCACA TCAGGCTCGA TAAAGCGCAG CGCCGGCCGT
    GTGATACGCA TCATCAATAA TTTGGATCAT TCGGTGCAGT GTCGCGTTTT GCTGAACCTA
    CGCACCTCGC AGCCGTTCGA GGAAGTGCTA GAGGATTTGG GTCAAGTGCT GAAAATTAAC
    GGAGCAAAGA AAATGTACAC AGGCACTGGC CAGGAGGTCC GCAGCTTTTC CCAGCTACGG
    AATGAGTTCG CCGACGTTGA CACCTTCTAC CTGGCCACGG GAACTGCCCT GATTGCCGGC
    TCACCCATCC GGCGCTCCAG GTCCCGCCCC TCGGTGGTGG CCGCCGCACC CATTTTGCCC
    ACGGATGAGC TGCCCAAGGT GCCGCTGCGA GGAGCCCGTC CGCGGAGCAA GAGCCGACCG
    CGGATCCTGT ACGCTCCGGA GAGCGAGATC CTGCGGCCGA ACGGCGAGTA CACGATGCTG
    GACATCATGA AGGAGGAGCC CACCAAGGTC ACAATCCGGG GACTGCGGCG CACCTTCTAT
    CCGCCCGTTC ACCATGCGCC GGCCGACAAT TCCCCGCCGG ACAAAAAACT GCAACTCCAA
    TGGGTCCATG GCTATCGCGG CATTGATGCG CGGCGAAATC TCTGGGTTTT GCCCTCCGGA
    GAACTGCTCT ACTACGTGGC TGCCGTGGCC GTACTCTTTG ACCGCGACGA GGATGCACAG
    AGGCACTACA CCGGACACAC TGAGGATATC ATGTGCATGG ATGTGCATCC CTCCAGGGAA
    CTGGTTGCGT CTGGACAGAA AGCTGGACGA GATCGCAAGT CGCAGGCGCA CGTCCGCATC
    TGGAGCACCG AGTCCCTGCA GACGCTCTAC GTCTTTGGCA TGGGTGAACT GGACAGTGGG
    GTGACAGCAG TAGCCTTCTC GCAGCTGAAC GGAGGTAGCT ACATACTGGC TGTGGACAGT
    GGACGCGAGA GCATTCTGTC CGTGTGGCAG TGGCAATGGG GTCACCTGCT GGGCAAAGTG
    GCCACCCTGC AGGAGGGTTT GTCGGGGGCT GCCTTCCACC CGTTGGACGA TAATCTCATC
    ATCACCCATG GACGTGGTCA CCTGGCCTTC TGGCACCGGC GCAAGGATGG CTTCTTTGAG
    CGCACGGACA TCGTGAAACA GCCGTCGCGT TCCCATGTCA CCAGTGTGCA ATTCGAGCCG
    GATGGCGATG TAATCACTGC TGATTCGGAT GGGTTCATAA CCATTTACTC GGTGGATTCC
    GATGGCGCCT ACTTCGTCCG CACGGAGTTC GAGGCGCACA ACAAGGGCAT CGGATGCCTG
    ATCATGCTGG GCGAGGGCAC CCTTCTCTCC GGAGGCGAGA AAGATCGCAA GATCGCCGCC
    TGGGACTCCC TGCAGAACTA CAAGAAGATT GCCGATACAA AGCTCCCGGA GGCCGCCGGT
    GGAGTACGTA CCATCTATCC GCAGCGGCCC GGACGGAATG ACGGGAACAT TTACGTGGGC
    ACCACGCGGA ACAACATCCT GGAGGGCTCG CTGCAGCGCC GCTTCACCCA GGTGGTCTTT
    GGCCACGGAC GTCAACTGTG GGGATTGGCA GCCCATCCGG ACGACGAGCT ATACGCTACC
    GCAGGGCATG ACAAGCACGT GGCCCTGTGG CGCAAGAACA AGCTCATCTG GACCATTCAA
    ACAGGTTATG AGTGCGTGGC ACTGGCATTC CATCCCTTCG GCACCTTGGC CGCCGGAAGC
    ACCGAAGGTC ACCTGCTTGT CATCAACTGC GAAAATGGGG CAGTCATGCT GACCCTGAGG
    GTATGCGGGT CGCCCCTTAA TTGCGTGGCT TACAACCAGG TTGGCGACAT GATAGCCATG
    GGCTCCCAAA ACGGTAGCAT TTATCTGTTC CGCGTGTCGC GCGACGGCTT CTCGTACAAG
    AAGGTGAACA AGATCCGAGG ATCGCAGCCG CTGACCCACT TGGACTGGAG CATGGACGGC
    AACTTTGTGC AGACGGTGAC CATCGATTTC GACCTGCTCT TTTGGGATGC CAAGTCCTTG
    TCCCCGGAGC GCAGTCCCAT TGCCATGAAG GACGTCAAGT GGCTGACCAA CAACTGCACC
    GTGGGCTTCC TGGTGGCGGG CCAGTGGAGC AACCGCTACT ATAGCACCAC CAACACCATC
    GTGGCCACCT GCAGTCGCTC CGCCGCCCAC GACATGCTCG CATCCGGTGA CGCCGAGGGC
    TATCTAAGAT TGTTCAGATA TCCCTGCATC TCGCCGCGCG CCGAGTTTCA CGAGTCGAAG
    GTGTACTCCG GGATGCTGGC CTGCGTCCGC TTCCTGTGCG GCGACCACAC GCTCATCACC
    GTGGGCGGCA CAGATGCGTC CCTGATGGTG TGGGACATTG TCGAGGAATA G

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