DCDC5 cDNA ORF clone, Echinops telfairi(small Madagascar hedgehog)

The following DCDC5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DCDC5 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
OEc15183 XM_004708405.1
Latest version!
Echinops telfairi doublecortin domain containing 5 (DCDC5), mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $510.30
$729.00
OEc38237 XM_030885886.1
Latest version!
Echinops telfairi doublecortin domain containing 1 (DCDC1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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 OEc15183
    Clone ID Related Accession (Same CDS sequence) XM_004708405.1
    Accession Version XM_004708405.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2865bp)
    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 2015-06-24
    Organism Echinops telfairi(small Madagascar hedgehog)
    Product doublecortin domain-containing protein 5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004558732.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Echinops telfairi Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 8% of CDS bases ##RefSeq-Attributes-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
    ATGGTTGCAA TAAGGGGCTT CCGTCTGGGA GCAATTGTGA GGACGGTGCA GGATGCTGTG 
    GTTGCTCATT CTGCTGTGCA GCAGAATTTT GACTGGCCCA TAGAAGGACT GCTTGTTCCA
    AATAGCCCTC CCATGAAGAA GCCCTCCTAT AAAACACCAA AGCAGTGTGT TCCTGTGAGA
    CTCAGAGTTT TGCGAAATGG AGACAAGAAT AAAAAGACAG CTCTTATTTT AATTGGGACA
    GACAGCTCAC CAAGATGGAA AGTACAGTGC ACTGAAAATC TAAAGTTGCC TTCTGCAGCT
    CGGAGATTGT TCCGTGAAAA GGGGGAGGAA ATCTTTACCC TGAAAGACCT GCAAAGAGAT
    GAACTGGTAT ATGTTTCATG TGGAGAAAAT TGGATCAATC CTGACCTCTC CATTCATCAG
    CAAAAGAAGC ACATCCTCCT AAGGAACCTA ACCTCAGATA TTTCCAAAAT TCAACTCTTC
    TGCAGTCTGC AGAAGACTGG GGCTCTCTTT CTAGAAGTCC AGAGTGACAT TGTAGCGGGA
    GCCAAGCTTG CTGTGCATAA ACCTGTAGCA AATTCTGGAG AAGAGAAGGA AATTATAGAC
    CCAGAGGAAA TGCAAATGCG AAAAAATGCT TCGGCCAGAG AAAATGTTTC TGGTGAGATT
    CTAGATGCAC ACGCCAGAGC CCACCTCCGG ATGAAGGCTT GCCACTCGCT TCTCAAGTAT
    GCCTGGCAGA AATCTACTCA CGACTTTCCG GAGGCAGACA CTTTTCCAAA GAAAATGGAA
    GAAGGGCTCT TTGAAAACAT GGAACCTTCG AAGAAAGCCA GCCATTCGCC AAGGCATGGT
    AAATTGCCGA AACTTTGCTA TCAGCAATTT GAATACAGAG ATGGACAGAT TATAAGCCTC
    GTTGCTCCTC AGCTTGTCCT GGGGGTACCA GGTCCCCACC TCTGTTCTGG CACTGATGTG
    GTTTTAGTGG TGAAGGCATC TGACGAGAGT CATCAATTCT GGATACACAA GGAAGACAGC
    AGGACCTTCC ACCTGGCAAG TAACCCAAAC CTTGTGCTGG CCGTGTCTCT GACTAAGGCC
    ACAAATGAAG GTGGCGGCCA CCCGGTTGTC GTTCAGAAAT ATAAGCCATA TAGCAATGGG
    ACCTCCAATC AAAAATGGAA TTATATGGAA GACACGAAAG CCTTTGTGGC TTTTCATAGT
    ACTGCAGTGG ATAAGGAAAT CACAGCAGCA CACTATGCTG GCGTTTGCAC GTCCTCTGTG
    ATAAAAGACG AAAGCATTGA CCAACCAGGA TATTATTACA TCTCACCTGG TGGAAAGAGC
    AAAACGACGC TCTGCTTAGC TTGCGGTGGA TCCATGAGAG CAGAGAAGGG GCTCAAGCAA
    TTGCCACCAG GGGTCTCCTT CCTCTGCGCC TCGGGCTCCA AGACCCAGAA GCCCTTCTCA
    CTAGGGCCCT TCAAGGTCAT CACCGTGGCC AAGGCTGATT TATCTTCTAA CAAGGCTGAG
    GAAACACTAC GTTATTACGA AGGATTCCAA TTATCTTTAC GGACGCAGAC ATGCTCATGG
    GCTATATCTC ATGGTGGAAT GGCAACGCCT CACCAGAAGG CAGTGAAAAT AATTGCATAC
    AAAAATGGGA ACGGATATCA TGATGGGAAG TTAATTGAGG CTGGCACAGT CCCCATGCTT
    CTTACAGAAT GCAAGGAACA GCTCGGTCTT CCCAGAACAG CCTGCAAAAT GTATACAAAA
    GATGGAACCG CAGTTCTTAC TTTGCGTGAT TTGGTTGTAT GGGCTCATAA GGAATCCTTT
    TCCCAAAGAG ATTCTAAGGA TCAGACGAAA CACGAAGCCC CTGTTGGAAC AGAAGAGGCA
    ACTGTGAAAA AAAAACTGAG AACAAAAGTG AAAACCAAAT CCTTTCCCAA GTCTTTGACG
    CCGGATAGTT TAAGTGGCAA AGAGGAGTCT TTGCTTGCCC TCGCCCTCAG ATATCCTGTT
    GCCGTCTGGG TGTCTTGTGG TGAACCATTT ATTCCTCTGC CTGCTTTGCA GAAAGCAGAA
    AAATCGGAGA AGCCAAACTG GATTAAAAAG GGCAACGTTT TGGCTGATCT ACATGCTATG
    AAACACAAAA TGAGGCAGTT AAAAGGGCGC CGAGTAGCAG CATGTCAACC AGCCACCATG
    GTTCCCACCC AAAGCCCCGT GCAGCCAGTG GTGGTAGCGG GAGGCTGGAC TGAGCAGACT
    CAAGAGGAAA TTAGACTGAT GGAACGTATC ACACATATGG AGGCACACCT TTCCAAAGTC
    CAAGAGCTGC AATCCAGAAG AGAGCCTCTG ATTTCCACAA GAAGTCCAAC CAAGCCCAGC
    AGCCTGTACG TGCAACCAGA CACCAAACGC GTGTGGGCGT ATCTAAACGG AGGCAGCCCC
    CAAGATGGCA GTTATGCCAG GGGCAAAAAT ATTTCAGAGC TGCTTGATGA TTGCTCGTCT
    CGACTGAAAA TGCCTCACCC AGCCAGGATG CTGTACACCT CACATGGAGA GCCCATTCAG
    TCCTGGGAAG ACGTGGAGCG GGACATGGTC CTCTGTGTGT CCACTGGATA CGGCTTTGTA
    ACCCACAAAG AATTAAAGCA ACAGATGGAG GTCAGAGCAA ATTATGCCAG AATCCGAAGG
    CAGGAGGGCC CTGAAGCCAC AGACATCATG GTGTCTCCAC CGTCCAAACT GCTGTCTCTG
    CACCAGCGGC CTTGCCGGCC AGCAGAGAAG CTGGGAGGTC ACAGGGCCCT CAGCTTCTAT
    GTGAATTTAC CCATGCACAA TTGGTACTCT ATTCTGCAGT CAGCCCTAAA CCTAATTTTA
    GCTAATGATA TTGAGCTTTT CCATAATCTC GTCCCAGAGG TGTAG

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

    RefSeq XP_004708462.1
    CDS1..2865
    Translation

    Target ORF information:

    RefSeq Version XM_004708405.1
    Organism Echinops telfairi(small Madagascar hedgehog)
    Definition Echinops telfairi doublecortin domain containing 5 (DCDC5), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004708405.1

    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
    ATGGTTGCAA TAAGGGGCTT CCGTCTGGGA GCAATTGTGA GGACGGTGCA GGATGCTGTG 
    GTTGCTCATT CTGCTGTGCA GCAGAATTTT GACTGGCCCA TAGAAGGACT GCTTGTTCCA
    AATAGCCCTC CCATGAAGAA GCCCTCCTAT AAAACACCAA AGCAGTGTGT TCCTGTGAGA
    CTCAGAGTTT TGCGAAATGG AGACAAGAAT AAAAAGACAG CTCTTATTTT AATTGGGACA
    GACAGCTCAC CAAGATGGAA AGTACAGTGC ACTGAAAATC TAAAGTTGCC TTCTGCAGCT
    CGGAGATTGT TCCGTGAAAA GGGGGAGGAA ATCTTTACCC TGAAAGACCT GCAAAGAGAT
    GAACTGGTAT ATGTTTCATG TGGAGAAAAT TGGATCAATC CTGACCTCTC CATTCATCAG
    CAAAAGAAGC ACATCCTCCT AAGGAACCTA ACCTCAGATA TTTCCAAAAT TCAACTCTTC
    TGCAGTCTGC AGAAGACTGG GGCTCTCTTT CTAGAAGTCC AGAGTGACAT TGTAGCGGGA
    GCCAAGCTTG CTGTGCATAA ACCTGTAGCA AATTCTGGAG AAGAGAAGGA AATTATAGAC
    CCAGAGGAAA TGCAAATGCG AAAAAATGCT TCGGCCAGAG AAAATGTTTC TGGTGAGATT
    CTAGATGCAC ACGCCAGAGC CCACCTCCGG ATGAAGGCTT GCCACTCGCT TCTCAAGTAT
    GCCTGGCAGA AATCTACTCA CGACTTTCCG GAGGCAGACA CTTTTCCAAA GAAAATGGAA
    GAAGGGCTCT TTGAAAACAT GGAACCTTCG AAGAAAGCCA GCCATTCGCC AAGGCATGGT
    AAATTGCCGA AACTTTGCTA TCAGCAATTT GAATACAGAG ATGGACAGAT TATAAGCCTC
    GTTGCTCCTC AGCTTGTCCT GGGGGTACCA GGTCCCCACC TCTGTTCTGG CACTGATGTG
    GTTTTAGTGG TGAAGGCATC TGACGAGAGT CATCAATTCT GGATACACAA GGAAGACAGC
    AGGACCTTCC ACCTGGCAAG TAACCCAAAC CTTGTGCTGG CCGTGTCTCT GACTAAGGCC
    ACAAATGAAG GTGGCGGCCA CCCGGTTGTC GTTCAGAAAT ATAAGCCATA TAGCAATGGG
    ACCTCCAATC AAAAATGGAA TTATATGGAA GACACGAAAG CCTTTGTGGC TTTTCATAGT
    ACTGCAGTGG ATAAGGAAAT CACAGCAGCA CACTATGCTG GCGTTTGCAC GTCCTCTGTG
    ATAAAAGACG AAAGCATTGA CCAACCAGGA TATTATTACA TCTCACCTGG TGGAAAGAGC
    AAAACGACGC TCTGCTTAGC TTGCGGTGGA TCCATGAGAG CAGAGAAGGG GCTCAAGCAA
    TTGCCACCAG GGGTCTCCTT CCTCTGCGCC TCGGGCTCCA AGACCCAGAA GCCCTTCTCA
    CTAGGGCCCT TCAAGGTCAT CACCGTGGCC AAGGCTGATT TATCTTCTAA CAAGGCTGAG
    GAAACACTAC GTTATTACGA AGGATTCCAA TTATCTTTAC GGACGCAGAC ATGCTCATGG
    GCTATATCTC ATGGTGGAAT GGCAACGCCT CACCAGAAGG CAGTGAAAAT AATTGCATAC
    AAAAATGGGA ACGGATATCA TGATGGGAAG TTAATTGAGG CTGGCACAGT CCCCATGCTT
    CTTACAGAAT GCAAGGAACA GCTCGGTCTT CCCAGAACAG CCTGCAAAAT GTATACAAAA
    GATGGAACCG CAGTTCTTAC TTTGCGTGAT TTGGTTGTAT GGGCTCATAA GGAATCCTTT
    TCCCAAAGAG ATTCTAAGGA TCAGACGAAA CACGAAGCCC CTGTTGGAAC AGAAGAGGCA
    ACTGTGAAAA AAAAACTGAG AACAAAAGTG AAAACCAAAT CCTTTCCCAA GTCTTTGACG
    CCGGATAGTT TAAGTGGCAA AGAGGAGTCT TTGCTTGCCC TCGCCCTCAG ATATCCTGTT
    GCCGTCTGGG TGTCTTGTGG TGAACCATTT ATTCCTCTGC CTGCTTTGCA GAAAGCAGAA
    AAATCGGAGA AGCCAAACTG GATTAAAAAG GGCAACGTTT TGGCTGATCT ACATGCTATG
    AAACACAAAA TGAGGCAGTT AAAAGGGCGC CGAGTAGCAG CATGTCAACC AGCCACCATG
    GTTCCCACCC AAAGCCCCGT GCAGCCAGTG GTGGTAGCGG GAGGCTGGAC TGAGCAGACT
    CAAGAGGAAA TTAGACTGAT GGAACGTATC ACACATATGG AGGCACACCT TTCCAAAGTC
    CAAGAGCTGC AATCCAGAAG AGAGCCTCTG ATTTCCACAA GAAGTCCAAC CAAGCCCAGC
    AGCCTGTACG TGCAACCAGA CACCAAACGC GTGTGGGCGT ATCTAAACGG AGGCAGCCCC
    CAAGATGGCA GTTATGCCAG GGGCAAAAAT ATTTCAGAGC TGCTTGATGA TTGCTCGTCT
    CGACTGAAAA TGCCTCACCC AGCCAGGATG CTGTACACCT CACATGGAGA GCCCATTCAG
    TCCTGGGAAG ACGTGGAGCG GGACATGGTC CTCTGTGTGT CCACTGGATA CGGCTTTGTA
    ACCCACAAAG AATTAAAGCA ACAGATGGAG GTCAGAGCAA ATTATGCCAG AATCCGAAGG
    CAGGAGGGCC CTGAAGCCAC AGACATCATG GTGTCTCCAC CGTCCAAACT GCTGTCTCTG
    CACCAGCGGC CTTGCCGGCC AGCAGAGAAG CTGGGAGGTC ACAGGGCCCT CAGCTTCTAT
    GTGAATTTAC CCATGCACAA TTGGTACTCT ATTCTGCAGT CAGCCCTAAA CCTAATTTTA
    GCTAATGATA TTGAGCTTTT CCATAATCTC GTCCCAGAGG TGTAG

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

    CloneID OEc38237
    Clone ID Related Accession (Same CDS sequence) XM_030885886.1
    Accession Version XM_030885886.1 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 2019-09-18
    Organism Echinops telfairi(small Madagascar hedgehog)
    Product doublecortin domain-containing protein 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_022103958.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Echinops telfairi Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-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
    ATGTCAAAAA GCGAGAGAAG AGATCACAAT GCAGCTCGTC CTCAGTGCTC ACCAGGCTTG 
    ATGGAAGCAG CAGAGGTATC ACAGCAAAGC AACTCTGAAG GCACCTTGGA TGAGAATACT
    CTGGACCTAA TATACAAACA CTGTTCAAAA AAGTTACCAA GGAAGCTTAT GTCAAACCCG
    GTAAAAGCAG CTGTTAAAAC TAGGGGAGCT TACTTGCAGC CTGAGGTTGG TCCCTGCAGA
    CTTTTGCATT CAGCGGCTGT CTCCGAAGGG TCAGGACTTC CAGATTGCTC CACACATCAA
    ACAGCATCAG ATCACAGCCA TGATGAAATA CCAGCCCAAG ATAGCTACAA ATCAAACAGT
    AAAAACAATT CTTGTCTTAT ATCAGCATCC AAAAGAAACA GGCCTGTCAG TGCTCCAGCG
    GGTCAACTGA GAGTTGTAGG ATTCTCTTCT CTAACATTTC AGTCCACCCA GAGTTGGAAT
    AGAGGGTCTC AAAGACTCAA ACTTCAACCC AGAATGATTC GAGCAACAGC TTACAAAAAC
    GGATCCAGAA CAGTCTTTGT CAAAGTTATT GTTCCAACCA TCACCTCGCT GCTGGAGGAG
    TGCACCGAAA AGCTGAATCT GAACCTGGCT GCCCGACGAG TGTTCTTGGC AGATGGCACT
    GAAGTCCTCA AACCTAAGGA TATACCCCAT GAAGCTGACA TTTATGTTTC AATGGGAGAG
    CCCTTTATAG ATCCATTCAA AACAATTAAA GACCATCTGT TGTTAATGAA GAAAGTAACT
    TGGACAATGA ATGGGCTGAT GCTTCCTACT GATGTCAAAA GGCAGCAAAC CAAGCCTGTT
    CTTTCTGTTA GAATGAAGAA ACTTACAGAG AAGCCTTCAG TCCGAATCCT GGTTTTTAAG
    AATGGCATGG GACAGGATGG GCATGAGATT TCAGTGGGAA AGGAAACAAT GAAAAAGATT
    TTAGACTATT GCACAATTAA GATGAATTTA AATTCACCAG CCAGATACCT GTATGACTTT
    TGTGGCCAAA AAATTGAAGA TATTTCTAAA GTTTCTCTGC TTGAAAAATG CCTGCAAAAT
    TCCATCACAC CTTTACGGGG ACCAGTTTGG GTCTCTAAGG GAGAAGGTTT CAGCCCCTCT
    GGAGTTAAGA AGTACCTCCA AGGAGTTCTT TTGGCCTTGT ACCAACGATT AAAGTCTGCA
    CAAAATTATT ACAAGCAGTT GACCCTTGCT GTGGATGAAC AGAAGGAGAA AATTACTGAA
    AAAAGCATTC TTTCAATGTC AGCAAATGAA CACCATCAGG CACAAGAAGA AGTGAGCAGG
    CTGATTGATG AATTGCAGAC AGCTATCAAA AGCAACAGAG GTCATCTCTC TAAACTTGGC
    CCCCAATTAC AGGCTGAGCA GGAGCAATTC TCCTCTTATG TCTACCAACA CATTAAAAGC
    CCGCCAGCAA ACACTCTTCT CCCAGGAGGC CTGCGGCTCA AGGTATATGA AAATGGTAAA
    GACACTGGAG AGATTCCTGT TTGTATCAAT CCCAAAGATT TGCAGTCTAG TGGCTCAACT
    CAGCCTGCCG AGATGACAGA AAGATTACTT TGCAAGATTC ATCAAAGGCT TCAAGCCTCT
    TCCTTCAACC CACCGAGCCT CAGTTTTTCT TCAGTCCGGC TTTTCGATGA GTGTGGTCAA
    GAAATTAAGA ATCCACTTTT GCTGAAGAAT GAGCAAAAAA TTTGGGTCTC TTATGGTAAA
    GCATACAGAT CTCCTCTGAA TCCTGTTTTG GGTTTGACCT TTGACCGAGT GTCTGCTTTT
    GACAAAGGTG GCATCACAGT TGCATATAAA ACCTTTTTGG ATCCTGATGC TGTTCTACTA
    CCTGGATGTG ACAGGTGGGA AGTTTGTGAG GGATTTCCAA TTACCTTTAA GTGCACCAGT
    CAGATGATAC CAGATCAGTT CGAAAAGGTG GACCTGCAGA GCCATTTCCT ACAGAACAAA
    GTGGATCCTA ACATCGTTCT GTGTGCCTCG GTTGCCATGG GAAAGTGGAG TTCCTCGAGC
    AGGGATATGA AAATTGGGAG TCAGATGGCA CCCTCAGTCC TGGGGCCGGC AGCCAGCATG
    TGGCTGATCA CAAAGACGGG AATGATCCTG AGTCGAGCTA TAACTCAAGG CTGTTTGGCT
    ATTGGTCACC CAATCAGAGT CAAGGCTGCC GAAGGAACTT CCCGAGAAGG CTATAAACTA
    ACCCTACAGA AAAGACATAA AGAAGATGAT TCGCAGAAGT GGGTGTTTGG AACTGACGGC
    TGCATTTATT CTAAGGCCCA TCCTCAGTTT GTTCTGACCT ACCTCGAGGA GCTAGATGCA
    CACGTGGATG TGACCCAGAC AGAATACCAC CTCCACCATG GCTCCTGGAC CACAGCTCAA
    CAGGAACGAG ACAGCAGCCT AGCAGGAGAG GTCCTGCACC ACAGTGCCTG CAATCCTGAT
    CTGCACCAAC TGCCAGACCC TTCAGACACC CCTGTAATGC CAGAAGGTTC TCTTGGGGAG
    AAAGAGCAGC TGACGGTGGC ACTGGTGAGG AAACTGGCAG AGAAACATCC TAAGGCTTCT
    GCTCAGAGGT GGGCCATAAA GCATGAAGGG ACCAGTAAGC CAAGCCAGTG GAAACATTCC
    AAAGTTGAAA ATCCTTTGTG GAACAAGCTT AACTATATGT GGCCAGTCCT CCCCAGTGGC
    CAACTTAATG AGAATTTTGA CTGGCCCATA GAAGGACTGC TTGTTCCAAA TAGCCCTCCC
    ATGAAGAAGC CCTCCTATAA AACACCAAAG CAGTGTGTTC CTGTGAGACT CAGAGTTTTG
    CGAAATGGAG ACAAGAATAA AAAGACAGCT CTTATTTTAA TTGGGACAGA CAGCTCACCA
    AGATGGAAAG TACAGTGCAC TGAAAATCTA AAGTTGCCTT CTGCAGCTCG GAGATTGTTC
    CGTGAAAAGG GGGAGGAAAT CTTTACCCTG AAAGACCTGC AAAGAGATGA ACTGGTATAT
    GTTTCATGTG GAGAAAATTG GATCAATCCT GACCTCTCCA TTCATCAGCA AAAGAAGCAC
    ATCCTCCTAA GGAACCTAAC CTCAGATATT TCCAAAATTC AACTCTTCTG CAGTCTGCAG
    AAGACTGGGG CTCTCTTTCT AGAAGTCCAG AGTGACATTG TAGCGGGAGC CAAGCTTGCT
    GTGCATAAAC CTGTAGCAAA TTCTGGAGAA GAGAAGGAAA TTATAGACCC AGAGGAAATG
    CAAATGCGAA AAAATGCTTC GGCCAGAGAA AATGTTTCTG GTGAGATTCT AGATGCACAC
    GCCAGAGCCC ACCTCCGGAT GAAGGCTTGC CACTCGCTTC TCAAGTATGC CTGGCAGAAA
    TCTACTCACG ACTTTCCGGA GGCAGACACT TTTCCAAAGA AAATGGAAGA AGGGCTCTTT
    GAAAACATGG AACCTTCGAA GAAAGCCAGC CATTCGCCAA GGCATGGTAA ATTGCCGAAA
    CTTTGCTATC AGCAATTTGA ATACAGAGAT GGACAGATTA TAAGCCTCGT TGCTCCTCAG
    CTTGTCCTGG GGGTACCAGG TCCCCACCTC TGTTCTGGCA CTGATGTGGT TTTAGTGGTG
    AAGGCATCTG ACGAGAGTCA TCAATTCTGG ATACACAAGG AAGACAGCAG GACCTTCCAC
    CTGGCAAGTA ACCCAAACCT TGTGCTGGCC GTGTCTCTGA CTAAGGCCAC AAATGAAGGT
    GGCGGCCACC CGGTTGTCGT TCAGAAATAT AAGCCATATA GCAATGGGAC CTCCAATCAA
    AAATGGAATT ATATGGAAGA CACGAAAGCC TTTGTGGCTT TTCATAGTAC TGCAGTGGAT
    AAGGAAATCA CAGCAGCACA CTATGCTGGC GTTTGCACGT CCTCTGTGAT AAAAGACGAA
    AGCATTGACC AACCAGGATA TTATTACATC TCACCTGGTG GAAAGAGCAA AACGACGCTC
    TGCTTAGCTT GCGGTGGATC CATGAGAGCA GAGAAGGGGC TCAAGCAATT GCCACCAGGG
    GTCTCCTTCC TCTGCGCCTC GGGCTCCAAG ACCCAGAAGC CCTTCTCACT AGGGCCCTTC
    AAGGTCATCA CCGTGGCCAA GGCTGATTTA TCTTCTAACA AGGCTGAGGA AACACTACGT
    TATTACGAAG GATTCCAATT ATCTTTACGG ACGCAGACAT GCTCATGGGC TATATCTCAT
    GGTGGAATGG CAACGCCTCA CCAGAAGGCA GTGAAAATAA TTGCATACAA AAATGGGAAC
    GGATATCATG ATGGGAAGTT AATTGAGGCT GGCACAGTCC CCATGCTTCT TACAGAATGC
    AAGGAACAGC TCGGTCTTCC CAGAACAGCC TGCAAAATGT ATACAAAAGA TGGAACCGCA
    GTTCTTACTT TGCGTGATTT GGTTGTATGG GCTCATAAGG AATCCTTTTC CCAAAGAGAT
    TCTAAGGATC AGACGAAACA CGAAGCCCCT GTTGGAACAG AAGAGGCAAC TGTGAAAAAA
    AAACTGAGAA CAAAAGTGAA AACCAAATCC TTTCCCAAGT CTTTGACGCC GGATAGTTTA
    AGTGGCAAAG AGGAGTCTTT GCTTGCCCTC GCCCTCAGAT ATCCTGTTGC CGTCTGGGTG
    TCTTGTGGTG AACCATTTAT TCCTCTGCCT GCTTTGCAGA AAGCAGAAAA ATCGGAGAAG
    CCAAACTGGA TTAAAAAGGG CAACGTTTTG GCTGATCTAC ATGCTATGAA ACACAAAATG
    AGGCAGTTAA AAGGGCGCCG AGTAGCAGCA TGTCAACCAG CCACCATGGT TCCCACCCAA
    AGCCCCGTGC AGCCAGTGGT GGTAGCGGGA GGCTGGACTG AGCAGACTCA AGAGGAAATT
    AGACTGATGG AACGTATCAC ACATATGGAG GCACACCTTT CCAAAGTCCA AGAGCTGCAA
    TCCAGAAGAG AGCCTCTGAT TTCCACAAGA AGTCCAACCA AGCCCAGCAG CCTGTACGTG
    CAACCAGACA CCAAACGCGT GTGGGCGTAT CTAAACGGAG GCAGCCCCCA AGATGGCAGT
    TATGCCAGGG GCAAAAATAT TTCAGAGCTG CTTGATGATT GCTCGTCTCG ACTGAAAATG
    CCTCACCCAG CCAGGATGCT GTACACCTCA CATGGAGAGC CCATTCAGTC CTGGGAAGAC
    GTGGAGCGGG ACATGGTCCT CTGTGTGTCC ACTGGATACG GCTTTGTAAC CCACAAAGAA
    TTAAAGCAAC AGATGGAGGT CAGAGCAAAT TATGCCAGAA TCCGAAGGCA GGAGGGCCCT
    GAAGCCACAG ACATCATGGT GTCTCCACCG TCCAAACTGC TGTCTCTGGA AGAGAAACAT
    GGAAACTGCT AG

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

    RefSeq XP_030741746.1
    CDS1..5352
    Translation

    Target ORF information:

    RefSeq Version XM_030885886.1
    Organism Echinops telfairi(small Madagascar hedgehog)
    Definition Echinops telfairi doublecortin domain containing 1 (DCDC1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_030885886.1

    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
    ATGTCAAAAA GCGAGAGAAG AGATCACAAT GCAGCTCGTC CTCAGTGCTC ACCAGGCTTG 
    ATGGAAGCAG CAGAGGTATC ACAGCAAAGC AACTCTGAAG GCACCTTGGA TGAGAATACT
    CTGGACCTAA TATACAAACA CTGTTCAAAA AAGTTACCAA GGAAGCTTAT GTCAAACCCG
    GTAAAAGCAG CTGTTAAAAC TAGGGGAGCT TACTTGCAGC CTGAGGTTGG TCCCTGCAGA
    CTTTTGCATT CAGCGGCTGT CTCCGAAGGG TCAGGACTTC CAGATTGCTC CACACATCAA
    ACAGCATCAG ATCACAGCCA TGATGAAATA CCAGCCCAAG ATAGCTACAA ATCAAACAGT
    AAAAACAATT CTTGTCTTAT ATCAGCATCC AAAAGAAACA GGCCTGTCAG TGCTCCAGCG
    GGTCAACTGA GAGTTGTAGG ATTCTCTTCT CTAACATTTC AGTCCACCCA GAGTTGGAAT
    AGAGGGTCTC AAAGACTCAA ACTTCAACCC AGAATGATTC GAGCAACAGC TTACAAAAAC
    GGATCCAGAA CAGTCTTTGT CAAAGTTATT GTTCCAACCA TCACCTCGCT GCTGGAGGAG
    TGCACCGAAA AGCTGAATCT GAACCTGGCT GCCCGACGAG TGTTCTTGGC AGATGGCACT
    GAAGTCCTCA AACCTAAGGA TATACCCCAT GAAGCTGACA TTTATGTTTC AATGGGAGAG
    CCCTTTATAG ATCCATTCAA AACAATTAAA GACCATCTGT TGTTAATGAA GAAAGTAACT
    TGGACAATGA ATGGGCTGAT GCTTCCTACT GATGTCAAAA GGCAGCAAAC CAAGCCTGTT
    CTTTCTGTTA GAATGAAGAA ACTTACAGAG AAGCCTTCAG TCCGAATCCT GGTTTTTAAG
    AATGGCATGG GACAGGATGG GCATGAGATT TCAGTGGGAA AGGAAACAAT GAAAAAGATT
    TTAGACTATT GCACAATTAA GATGAATTTA AATTCACCAG CCAGATACCT GTATGACTTT
    TGTGGCCAAA AAATTGAAGA TATTTCTAAA GTTTCTCTGC TTGAAAAATG CCTGCAAAAT
    TCCATCACAC CTTTACGGGG ACCAGTTTGG GTCTCTAAGG GAGAAGGTTT CAGCCCCTCT
    GGAGTTAAGA AGTACCTCCA AGGAGTTCTT TTGGCCTTGT ACCAACGATT AAAGTCTGCA
    CAAAATTATT ACAAGCAGTT GACCCTTGCT GTGGATGAAC AGAAGGAGAA AATTACTGAA
    AAAAGCATTC TTTCAATGTC AGCAAATGAA CACCATCAGG CACAAGAAGA AGTGAGCAGG
    CTGATTGATG AATTGCAGAC AGCTATCAAA AGCAACAGAG GTCATCTCTC TAAACTTGGC
    CCCCAATTAC AGGCTGAGCA GGAGCAATTC TCCTCTTATG TCTACCAACA CATTAAAAGC
    CCGCCAGCAA ACACTCTTCT CCCAGGAGGC CTGCGGCTCA AGGTATATGA AAATGGTAAA
    GACACTGGAG AGATTCCTGT TTGTATCAAT CCCAAAGATT TGCAGTCTAG TGGCTCAACT
    CAGCCTGCCG AGATGACAGA AAGATTACTT TGCAAGATTC ATCAAAGGCT TCAAGCCTCT
    TCCTTCAACC CACCGAGCCT CAGTTTTTCT TCAGTCCGGC TTTTCGATGA GTGTGGTCAA
    GAAATTAAGA ATCCACTTTT GCTGAAGAAT GAGCAAAAAA TTTGGGTCTC TTATGGTAAA
    GCATACAGAT CTCCTCTGAA TCCTGTTTTG GGTTTGACCT TTGACCGAGT GTCTGCTTTT
    GACAAAGGTG GCATCACAGT TGCATATAAA ACCTTTTTGG ATCCTGATGC TGTTCTACTA
    CCTGGATGTG ACAGGTGGGA AGTTTGTGAG GGATTTCCAA TTACCTTTAA GTGCACCAGT
    CAGATGATAC CAGATCAGTT CGAAAAGGTG GACCTGCAGA GCCATTTCCT ACAGAACAAA
    GTGGATCCTA ACATCGTTCT GTGTGCCTCG GTTGCCATGG GAAAGTGGAG TTCCTCGAGC
    AGGGATATGA AAATTGGGAG TCAGATGGCA CCCTCAGTCC TGGGGCCGGC AGCCAGCATG
    TGGCTGATCA CAAAGACGGG AATGATCCTG AGTCGAGCTA TAACTCAAGG CTGTTTGGCT
    ATTGGTCACC CAATCAGAGT CAAGGCTGCC GAAGGAACTT CCCGAGAAGG CTATAAACTA
    ACCCTACAGA AAAGACATAA AGAAGATGAT TCGCAGAAGT GGGTGTTTGG AACTGACGGC
    TGCATTTATT CTAAGGCCCA TCCTCAGTTT GTTCTGACCT ACCTCGAGGA GCTAGATGCA
    CACGTGGATG TGACCCAGAC AGAATACCAC CTCCACCATG GCTCCTGGAC CACAGCTCAA
    CAGGAACGAG ACAGCAGCCT AGCAGGAGAG GTCCTGCACC ACAGTGCCTG CAATCCTGAT
    CTGCACCAAC TGCCAGACCC TTCAGACACC CCTGTAATGC CAGAAGGTTC TCTTGGGGAG
    AAAGAGCAGC TGACGGTGGC ACTGGTGAGG AAACTGGCAG AGAAACATCC TAAGGCTTCT
    GCTCAGAGGT GGGCCATAAA GCATGAAGGG ACCAGTAAGC CAAGCCAGTG GAAACATTCC
    AAAGTTGAAA ATCCTTTGTG GAACAAGCTT AACTATATGT GGCCAGTCCT CCCCAGTGGC
    CAACTTAATG AGAATTTTGA CTGGCCCATA GAAGGACTGC TTGTTCCAAA TAGCCCTCCC
    ATGAAGAAGC CCTCCTATAA AACACCAAAG CAGTGTGTTC CTGTGAGACT CAGAGTTTTG
    CGAAATGGAG ACAAGAATAA AAAGACAGCT CTTATTTTAA TTGGGACAGA CAGCTCACCA
    AGATGGAAAG TACAGTGCAC TGAAAATCTA AAGTTGCCTT CTGCAGCTCG GAGATTGTTC
    CGTGAAAAGG GGGAGGAAAT CTTTACCCTG AAAGACCTGC AAAGAGATGA ACTGGTATAT
    GTTTCATGTG GAGAAAATTG GATCAATCCT GACCTCTCCA TTCATCAGCA AAAGAAGCAC
    ATCCTCCTAA GGAACCTAAC CTCAGATATT TCCAAAATTC AACTCTTCTG CAGTCTGCAG
    AAGACTGGGG CTCTCTTTCT AGAAGTCCAG AGTGACATTG TAGCGGGAGC CAAGCTTGCT
    GTGCATAAAC CTGTAGCAAA TTCTGGAGAA GAGAAGGAAA TTATAGACCC AGAGGAAATG
    CAAATGCGAA AAAATGCTTC GGCCAGAGAA AATGTTTCTG GTGAGATTCT AGATGCACAC
    GCCAGAGCCC ACCTCCGGAT GAAGGCTTGC CACTCGCTTC TCAAGTATGC CTGGCAGAAA
    TCTACTCACG ACTTTCCGGA GGCAGACACT TTTCCAAAGA AAATGGAAGA AGGGCTCTTT
    GAAAACATGG AACCTTCGAA GAAAGCCAGC CATTCGCCAA GGCATGGTAA ATTGCCGAAA
    CTTTGCTATC AGCAATTTGA ATACAGAGAT GGACAGATTA TAAGCCTCGT TGCTCCTCAG
    CTTGTCCTGG GGGTACCAGG TCCCCACCTC TGTTCTGGCA CTGATGTGGT TTTAGTGGTG
    AAGGCATCTG ACGAGAGTCA TCAATTCTGG ATACACAAGG AAGACAGCAG GACCTTCCAC
    CTGGCAAGTA ACCCAAACCT TGTGCTGGCC GTGTCTCTGA CTAAGGCCAC AAATGAAGGT
    GGCGGCCACC CGGTTGTCGT TCAGAAATAT AAGCCATATA GCAATGGGAC CTCCAATCAA
    AAATGGAATT ATATGGAAGA CACGAAAGCC TTTGTGGCTT TTCATAGTAC TGCAGTGGAT
    AAGGAAATCA CAGCAGCACA CTATGCTGGC GTTTGCACGT CCTCTGTGAT AAAAGACGAA
    AGCATTGACC AACCAGGATA TTATTACATC TCACCTGGTG GAAAGAGCAA AACGACGCTC
    TGCTTAGCTT GCGGTGGATC CATGAGAGCA GAGAAGGGGC TCAAGCAATT GCCACCAGGG
    GTCTCCTTCC TCTGCGCCTC GGGCTCCAAG ACCCAGAAGC CCTTCTCACT AGGGCCCTTC
    AAGGTCATCA CCGTGGCCAA GGCTGATTTA TCTTCTAACA AGGCTGAGGA AACACTACGT
    TATTACGAAG GATTCCAATT ATCTTTACGG ACGCAGACAT GCTCATGGGC TATATCTCAT
    GGTGGAATGG CAACGCCTCA CCAGAAGGCA GTGAAAATAA TTGCATACAA AAATGGGAAC
    GGATATCATG ATGGGAAGTT AATTGAGGCT GGCACAGTCC CCATGCTTCT TACAGAATGC
    AAGGAACAGC TCGGTCTTCC CAGAACAGCC TGCAAAATGT ATACAAAAGA TGGAACCGCA
    GTTCTTACTT TGCGTGATTT GGTTGTATGG GCTCATAAGG AATCCTTTTC CCAAAGAGAT
    TCTAAGGATC AGACGAAACA CGAAGCCCCT GTTGGAACAG AAGAGGCAAC TGTGAAAAAA
    AAACTGAGAA CAAAAGTGAA AACCAAATCC TTTCCCAAGT CTTTGACGCC GGATAGTTTA
    AGTGGCAAAG AGGAGTCTTT GCTTGCCCTC GCCCTCAGAT ATCCTGTTGC CGTCTGGGTG
    TCTTGTGGTG AACCATTTAT TCCTCTGCCT GCTTTGCAGA AAGCAGAAAA ATCGGAGAAG
    CCAAACTGGA TTAAAAAGGG CAACGTTTTG GCTGATCTAC ATGCTATGAA ACACAAAATG
    AGGCAGTTAA AAGGGCGCCG AGTAGCAGCA TGTCAACCAG CCACCATGGT TCCCACCCAA
    AGCCCCGTGC AGCCAGTGGT GGTAGCGGGA GGCTGGACTG AGCAGACTCA AGAGGAAATT
    AGACTGATGG AACGTATCAC ACATATGGAG GCACACCTTT CCAAAGTCCA AGAGCTGCAA
    TCCAGAAGAG AGCCTCTGAT TTCCACAAGA AGTCCAACCA AGCCCAGCAG CCTGTACGTG
    CAACCAGACA CCAAACGCGT GTGGGCGTAT CTAAACGGAG GCAGCCCCCA AGATGGCAGT
    TATGCCAGGG GCAAAAATAT TTCAGAGCTG CTTGATGATT GCTCGTCTCG ACTGAAAATG
    CCTCACCCAG CCAGGATGCT GTACACCTCA CATGGAGAGC CCATTCAGTC CTGGGAAGAC
    GTGGAGCGGG ACATGGTCCT CTGTGTGTCC ACTGGATACG GCTTTGTAAC CCACAAAGAA
    TTAAAGCAAC AGATGGAGGT CAGAGCAAAT TATGCCAGAA TCCGAAGGCA GGAGGGCCCT
    GAAGCCACAG ACATCATGGT GTCTCCACCG TCCAAACTGC TGTCTCTGGA AGAGAAACAT
    GGAAACTGCT AG

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