neo1a cDNA ORF clone, Danio rerio(zebrafish)

The following neo1a gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the neo1a 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
ODa53394 NM_173218.2
Latest version!
Danio rerio neogenin 1a (neo1a), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ODa39593 XM_021477387.1
Latest version!
Danio rerio neogenin 1a (neo1a), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ODa59603 XM_017356809.2
Latest version!
Danio rerio neogenin 1a (neo1a), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ODa39595 XM_009303469.2
Latest version!
Danio rerio neogenin 1a (neo1a), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
ODa13468 NM_001328497.1
Latest version!
Danio rerio neogenin 1a (neo1a), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa13466 XM_005166588.3
Latest version!
Danio rerio neogenin 1a (neo1a), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa39590 XM_009303464.3
Latest version!
Danio rerio neogenin 1a (neo1a), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa39591 XM_009303465.3
Latest version!
Danio rerio neogenin 1a (neo1a), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa39592 XM_009303466.3
Latest version!
Danio rerio neogenin 1a (neo1a), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa39594 XM_009303468.3
Latest version!
Danio rerio neogenin 1a (neo1a), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
View Old Accession Versions >>
ODa39594 XM_009303468.2 Danio rerio neogenin 1a (neo1a), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa39590 XM_009303464.2 Danio rerio neogenin 1a (neo1a), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa59603 XM_017356809.1 Danio rerio neogenin 1a (neo1a), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ODa39591 XM_009303465.2 Danio rerio neogenin 1a (neo1a), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa13466 XM_005166588.2 Danio rerio neogenin 1a (neo1a), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa39592 XM_009303466.2 Danio rerio neogenin 1a (neo1a), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID ODa53394
    Clone ID Related Accession (Same CDS sequence) NM_173218.2
    Accession Version NM_173218.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4287bp)
    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 2019-04-13
    Organism Danio rerio(zebrafish)
    Product neogenin isoform 1 precursor
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BX927344.10, BX927325.15, CU463832.12 and AL935050.11. On Jun 16, 2016 this sequence version replaced NM_173218.1. 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. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AY029280.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2168446, SAMEA2168447 [ECO:0000348] ##Evidence-Data-END##

    1
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    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
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GGCTCCAGAG GCGGCGCTGG CCCCACGCCC
    TCCGCCCCCC GTGATGTGGT AGCGTCCCTG GTGTCCACCC GCTTCCTCAA GCTGACCTGG
    CGCCTTCCTG CTGAACCACA CGGAGACGAT GTCACCTACT CAGTCTACTA CAGCCTGGAG
    GGCACTAACA GGGAGAGGAT CGTAAACACC AGTCGTCCAG GAGAAATGCA AGTCACCATT
    CAGAACCTCA TGCCAGACAC CAAGTATGCC TTCCGTGTGG TGGCGCACAA CAAAAACGGC
    CCTGGAGAGA GTTCAGTGCC TCTAAAGGTC GAAACTCAGC CCGAAGTCCA GGTACCTGGT
    CCGGCTCCAA ACCTGCATGC AGTGGTCATG TCCCCCAGCA CTGTCAGTCT CAGCTGGGAT
    GTGCCTCTTA TAGGCAATGG TGAGATCCAG AACTACAAGA TCTACTACAT GGAGAAGGGC
    ATGGACAGTG AACAGGATCT GGATGTAAAC ACATTGTCCT ACACCATGAC TGGCCTGAAG
    AAGTTCACGG AGTACAGTTT CAGACTGGTG GCCTATAACA AACATGGACC GGGAGTCTCC
    ACTGAGGACA TATCAGTGCG CACATACTCT GATGTCCCCA GCTCTCCTCC GCAGAACATG
    ACGGTGGAAG TGCTGAACTC CAAGAGCCTC ATGATCAGAT GGCAGCCTCC ACCAGCCGAT
    GCCCAGAACG GAGAGATCAC AGGCTACAAG ATCCGCTACA GGAAGGGTAC GAGGAAGAGC
    GAGGTGGCGG AGATCACTTC AGGATCACAG CTTTATCAGC TCATAGATGG TTTGCAGCGA
    GGCACTGAAT ATATGTTGCG AGTATCTGCA ATGACGGTCA ACGGCACAGG TCCTGCCACA
    GACTGGACCA CTGCAGAGAC ATTCGAAAGC GATCTGGACG AGTCAAGAGT GCCGGACGTC
    CCGAGCTCTC TGCATGTTCG TTCTCTGGTC AACAGTATTG TGGTGAGCTG GACGCCTCCA
    GAGAACCAGG ACATCGTGGT GAGGGGTTAC AGTATCAGCT ATGGGATTGG CAGTCCTCAC
    GCACAGACCA TCAAAGTGGA CTACAAGCAG AGATACTACA CCATTGAGAA CCTGAATCCC
    AACTCGCACT ACGTGATCAC GCTGAAGGCC TTCAACAACG TGGGTGAGGG AATCCCTGTG
    TACGAGAGCG CCATCACACG ACCACAGTCA GACCCCATAG ACCCTGACGT TGATTTGTAC
    GAACTTTTCC ATGCTCCATA CACTCCAGTA CCAGACCCTA TACCCATGCT GCCTCCTGTG
    GGCGTTCAGG CATCTGTCCT GAACCAAGAC ACCATCAAAG TCACCTGGGC GGACAACTCG
    CTGCCTAAGA ACCAGAAGAT CACAGATGCG CGCTACTATA CAGTGCGCTG GAAGACCAAC
    ATACCCGCAA ACACAAAGTT TAAGGTGGCT AATACCACGA CGCTATTTCA CACGGTGACG
    GGTCTTAAAC CCAATACCTT GTATGAGTTT TCGGTTATGG TGACCAAGGG ACGGAGGACC
    AGTACCTGGA GCATGACTGC ACACGGAACA ACTTTTGAGT CAATCCCAAG TTCTCCACCA
    AAAGATGTGA CTGTAGTGAG CAAAGAGGGA CGACCAAAAA CCATCATCGT CAACTGGCAG
    CCGCCATCAG AAGCCAATGG CAAAATTACA GGTTACATCA TTTATTACAG CACTGATGTG
    AAGGCAGAGG TTCATGACTG GGTCATTGAG CCAGTCGTGG GAAACAGGCT AACCCATCAA
    ATTCAGGAGC TGACCCTTGA TACCACCTAC TACTTTAAGA TCCAGGCTCG GAACTCCAAG
    GGCATGGGTC CCATGTCGGA AGCGGTCCAG TTCCGCACTC CTAAAGCTGA ATCCTCTGAC
    AAAATGGCTA ATGACCAAGC TCCAGGCATA TCTGTGAAAC AAGGAAGACC TTCTGCACCA
    GATAACGGCT TTGGATCACC TGGGAAACCA GACATGTCTG GCACTGGTGA TAACCACATC
    CTGGTTATTG TCATCATTGT GTCCGTGGGT GCTTTTACCA TCATCGTGGT GGTGGTGGGC
    GCCTTCCTTT GTACACGTCG TACCACAACA CAACAGAAAA AGAAAAGGGC CGCCTGCAAG
    TCCGCCAATG GATCCCACAA GTATAAGGGC AACTCCAAAG ATCTCAAACC ACCAGACCTC
    TGGATCCACC ATGAACGTTT GGAGCTAAAG CCCATAGACA AATCACCCGA ACCCAATCCA
    GTCATGACCG ACACACCAAT CCCCAGGACC TCCCAAGACA TCACGCCGGT GGACGGCTCC
    ATGGATCCTA TGCTCCAGAG ACGCAACTCT TACCGTGGCC ATGAATCAGA GGACAGCATG
    TCTACACTGG CAGGCCGTCG GGGGATGAGA CCTAAAATGA TGATGCCCTT TGATGCACAA
    CCCCCTCAGC CTGTGATTAG TGCTCACCCC ATCCATTCCC TCGATAACCA TCACCATCAT
    TATCACTTGG GCAGCCTGGC CTCGCCGACA CGCAGCTATC TCCACCACCA GAGCAGCACG
    CGCTCCATCG CCACCCCCAT CTCTCATCTA GACAGGGCAG AGTCCACAGA GTCAGTAAGG
    AACACCCCTA ATGCGGAGCT GCTCCCTCCA TCTGGGCAGC CATCTTGCAC CACTGACCTT
    TCAGAGACGG ACATTAGCTT TCACAGCTCA GCCGCTGAGG AGGAGCCAGC GTTCGCTACA
    CCCACAGCAC ACGTTCGACC TACACACCCA CTTAAGAGTT TTGCAGTGCC TGCCATCCCG
    GCCCATGCAA TGTATGACTC GGCAGCTTTG CCCAGCACTC CACTGCTGTC TCAGACAGGG
    CCTCACTCAG TTAAAACAGC CTCTATTGGT ACACTGGGAA GGACGAGAAC TCCTATGCCT
    GTCATAGTTC CAAATGCGCC GGATGTCTCA GAAGGCTGCA GACTTCATGA AGATGCAGGA
    AGTAATTACG AGACGGACGA GTTATCGGAG GAAATGGCCC ATCTCGAGGG CTTAATGAAG
    GACCTAAACG CCATCACAAC AGCCTGA

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

    RefSeq NP_775325.2
    CDS402..4688
    Translation

    Target ORF information:

    RefSeq Version NM_173218.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio neogenin 1a (neo1a), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_173218.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GGCTCCAGAG GCGGCGCTGG CCCCACGCCC
    TCCGCCCCCC GTGATGTGGT AGCGTCCCTG GTGTCCACCC GCTTCCTCAA GCTGACCTGG
    CGCCTTCCTG CTGAACCACA CGGAGACGAT GTCACCTACT CAGTCTACTA CAGCCTGGAG
    GGCACTAACA GGGAGAGGAT CGTAAACACC AGTCGTCCAG GAGAAATGCA AGTCACCATT
    CAGAACCTCA TGCCAGACAC CAAGTATGCC TTCCGTGTGG TGGCGCACAA CAAAAACGGC
    CCTGGAGAGA GTTCAGTGCC TCTAAAGGTC GAAACTCAGC CCGAAGTCCA GGTACCTGGT
    CCGGCTCCAA ACCTGCATGC AGTGGTCATG TCCCCCAGCA CTGTCAGTCT CAGCTGGGAT
    GTGCCTCTTA TAGGCAATGG TGAGATCCAG AACTACAAGA TCTACTACAT GGAGAAGGGC
    ATGGACAGTG AACAGGATCT GGATGTAAAC ACATTGTCCT ACACCATGAC TGGCCTGAAG
    AAGTTCACGG AGTACAGTTT CAGACTGGTG GCCTATAACA AACATGGACC GGGAGTCTCC
    ACTGAGGACA TATCAGTGCG CACATACTCT GATGTCCCCA GCTCTCCTCC GCAGAACATG
    ACGGTGGAAG TGCTGAACTC CAAGAGCCTC ATGATCAGAT GGCAGCCTCC ACCAGCCGAT
    GCCCAGAACG GAGAGATCAC AGGCTACAAG ATCCGCTACA GGAAGGGTAC GAGGAAGAGC
    GAGGTGGCGG AGATCACTTC AGGATCACAG CTTTATCAGC TCATAGATGG TTTGCAGCGA
    GGCACTGAAT ATATGTTGCG AGTATCTGCA ATGACGGTCA ACGGCACAGG TCCTGCCACA
    GACTGGACCA CTGCAGAGAC ATTCGAAAGC GATCTGGACG AGTCAAGAGT GCCGGACGTC
    CCGAGCTCTC TGCATGTTCG TTCTCTGGTC AACAGTATTG TGGTGAGCTG GACGCCTCCA
    GAGAACCAGG ACATCGTGGT GAGGGGTTAC AGTATCAGCT ATGGGATTGG CAGTCCTCAC
    GCACAGACCA TCAAAGTGGA CTACAAGCAG AGATACTACA CCATTGAGAA CCTGAATCCC
    AACTCGCACT ACGTGATCAC GCTGAAGGCC TTCAACAACG TGGGTGAGGG AATCCCTGTG
    TACGAGAGCG CCATCACACG ACCACAGTCA GACCCCATAG ACCCTGACGT TGATTTGTAC
    GAACTTTTCC ATGCTCCATA CACTCCAGTA CCAGACCCTA TACCCATGCT GCCTCCTGTG
    GGCGTTCAGG CATCTGTCCT GAACCAAGAC ACCATCAAAG TCACCTGGGC GGACAACTCG
    CTGCCTAAGA ACCAGAAGAT CACAGATGCG CGCTACTATA CAGTGCGCTG GAAGACCAAC
    ATACCCGCAA ACACAAAGTT TAAGGTGGCT AATACCACGA CGCTATTTCA CACGGTGACG
    GGTCTTAAAC CCAATACCTT GTATGAGTTT TCGGTTATGG TGACCAAGGG ACGGAGGACC
    AGTACCTGGA GCATGACTGC ACACGGAACA ACTTTTGAGT CAATCCCAAG TTCTCCACCA
    AAAGATGTGA CTGTAGTGAG CAAAGAGGGA CGACCAAAAA CCATCATCGT CAACTGGCAG
    CCGCCATCAG AAGCCAATGG CAAAATTACA GGTTACATCA TTTATTACAG CACTGATGTG
    AAGGCAGAGG TTCATGACTG GGTCATTGAG CCAGTCGTGG GAAACAGGCT AACCCATCAA
    ATTCAGGAGC TGACCCTTGA TACCACCTAC TACTTTAAGA TCCAGGCTCG GAACTCCAAG
    GGCATGGGTC CCATGTCGGA AGCGGTCCAG TTCCGCACTC CTAAAGCTGA ATCCTCTGAC
    AAAATGGCTA ATGACCAAGC TCCAGGCATA TCTGTGAAAC AAGGAAGACC TTCTGCACCA
    GATAACGGCT TTGGATCACC TGGGAAACCA GACATGTCTG GCACTGGTGA TAACCACATC
    CTGGTTATTG TCATCATTGT GTCCGTGGGT GCTTTTACCA TCATCGTGGT GGTGGTGGGC
    GCCTTCCTTT GTACACGTCG TACCACAACA CAACAGAAAA AGAAAAGGGC CGCCTGCAAG
    TCCGCCAATG GATCCCACAA GTATAAGGGC AACTCCAAAG ATCTCAAACC ACCAGACCTC
    TGGATCCACC ATGAACGTTT GGAGCTAAAG CCCATAGACA AATCACCCGA ACCCAATCCA
    GTCATGACCG ACACACCAAT CCCCAGGACC TCCCAAGACA TCACGCCGGT GGACGGCTCC
    ATGGATCCTA TGCTCCAGAG ACGCAACTCT TACCGTGGCC ATGAATCAGA GGACAGCATG
    TCTACACTGG CAGGCCGTCG GGGGATGAGA CCTAAAATGA TGATGCCCTT TGATGCACAA
    CCCCCTCAGC CTGTGATTAG TGCTCACCCC ATCCATTCCC TCGATAACCA TCACCATCAT
    TATCACTTGG GCAGCCTGGC CTCGCCGACA CGCAGCTATC TCCACCACCA GAGCAGCACG
    CGCTCCATCG CCACCCCCAT CTCTCATCTA GACAGGGCAG AGTCCACAGA GTCAGTAAGG
    AACACCCCTA ATGCGGAGCT GCTCCCTCCA TCTGGGCAGC CATCTTGCAC CACTGACCTT
    TCAGAGACGG ACATTAGCTT TCACAGCTCA GCCGCTGAGG AGGAGCCAGC GTTCGCTACA
    CCCACAGCAC ACGTTCGACC TACACACCCA CTTAAGAGTT TTGCAGTGCC TGCCATCCCG
    GCCCATGCAA TGTATGACTC GGCAGCTTTG CCCAGCACTC CACTGCTGTC TCAGACAGGG
    CCTCACTCAG TTAAAACAGC CTCTATTGGT ACACTGGGAA GGACGAGAAC TCCTATGCCT
    GTCATAGTTC CAAATGCGCC GGATGTCTCA GAAGGCTGCA GACTTCATGA AGATGCAGGA
    AGTAATTACG AGACGGACGA GTTATCGGAG GAAATGGCCC ATCTCGAGGG CTTAATGAAG
    GACCTAAACG CCATCACAAC AGCCTGA

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

    CloneID ODa39593
    Clone ID Related Accession (Same CDS sequence) XM_021477387.1
    Accession Version XM_021477387.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4278bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product neogenin isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007118.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTGAATCC
    TCTGACAAAA TGGCTAATGA CCAAGCTCCA GGCATATCTG TGAAACAAGG AAGACCTTCT
    GCACCAGATA ACGGCTTTGG ATCACCTGGG AAACCAGACA TGTCTGGCAC TGGTGATAAC
    CACATCCTGG TTATTGTCAT CATTGTGTCC GTGGGTGCTT TTACCATCAT CGTGGTGGTG
    GTGGGCGCCT TCCTTTGTAC ACGTCGTACC ACAACACAAC AGAAAAAGAA AAGGGCCGCC
    TGCAAGTCCG CCAATGGATC CCACAAGTAT AAGGGCAACT CCAAAGATCT CAAACCACCA
    GACCTCTGGA TCCACCATGA ACGTTTGGAG CTAAAGCCCA TAGACAAATC ACCCGAACCC
    AATCCAGTCA TGACCGACAC ACCAATCCCC AGGACCTCCC AAGACATCAC GCCGGTGGAC
    GGCTCCATGG ATCCTATGCT CCAGAGACGC AACTCTTACC GTGGCCATGA ATCAGAGGAC
    AGCATGTCTA CACTGGCAGG CCGTCGGGGG ATGAGACCTA AAATGATGAT GCCCTTTGAT
    GCACAACCCC CTCAGCCTGT GATTAGTGCT CACCCCATCC ATTCCCTCGA TAACCATCAC
    CATCATTATC ACTTGGGCAG CCTGGCCTCG CCGACACGCA GCTATCTCCA CCACCAGAGC
    AGCACGCGCT CCATCGCCAC CCCCATCTCT CATCTAGACA GGGCAGAGTC CACAGAGTCA
    GTAAGGAACA CCCCTAATGC GGAGCTGCTC CCTCCATCTG GGCAGCCATC TTGCACCACT
    GACCTTTCAG AGACGGACAT TAGCTTTCAC AGCTCAGCCG CTGAGGAGGA GCCAGCGTTC
    GCTACACCCA CAGCACACGT TCGACCTACA CACCCACTTA AGAGTTTTGC AGTGCCTGCC
    ATCCCGGCCC ATGCAATGTA TGACTCGGCA GCTTTGCCCA GCACTCCACT GCTGTCTCAG
    ACAGGGCCTC ACTCAGTTAA AACAGCCTCT ATTGGTACAC TGGGAAGGAC GAGAACTCCT
    ATGCCTGTCA TAGTTCCAAA TGCGCCGGAT GTCTCAGAAG GCTGCAGACT TCATGAAGAT
    GCAGGAAGTT ACCATTGA

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

    RefSeq XP_021333062.1
    CDS403..4680
    Translation

    Target ORF information:

    RefSeq Version XM_021477387.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio neogenin 1a (neo1a), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021477387.1

    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
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTGAATCC
    TCTGACAAAA TGGCTAATGA CCAAGCTCCA GGCATATCTG TGAAACAAGG AAGACCTTCT
    GCACCAGATA ACGGCTTTGG ATCACCTGGG AAACCAGACA TGTCTGGCAC TGGTGATAAC
    CACATCCTGG TTATTGTCAT CATTGTGTCC GTGGGTGCTT TTACCATCAT CGTGGTGGTG
    GTGGGCGCCT TCCTTTGTAC ACGTCGTACC ACAACACAAC AGAAAAAGAA AAGGGCCGCC
    TGCAAGTCCG CCAATGGATC CCACAAGTAT AAGGGCAACT CCAAAGATCT CAAACCACCA
    GACCTCTGGA TCCACCATGA ACGTTTGGAG CTAAAGCCCA TAGACAAATC ACCCGAACCC
    AATCCAGTCA TGACCGACAC ACCAATCCCC AGGACCTCCC AAGACATCAC GCCGGTGGAC
    GGCTCCATGG ATCCTATGCT CCAGAGACGC AACTCTTACC GTGGCCATGA ATCAGAGGAC
    AGCATGTCTA CACTGGCAGG CCGTCGGGGG ATGAGACCTA AAATGATGAT GCCCTTTGAT
    GCACAACCCC CTCAGCCTGT GATTAGTGCT CACCCCATCC ATTCCCTCGA TAACCATCAC
    CATCATTATC ACTTGGGCAG CCTGGCCTCG CCGACACGCA GCTATCTCCA CCACCAGAGC
    AGCACGCGCT CCATCGCCAC CCCCATCTCT CATCTAGACA GGGCAGAGTC CACAGAGTCA
    GTAAGGAACA CCCCTAATGC GGAGCTGCTC CCTCCATCTG GGCAGCCATC TTGCACCACT
    GACCTTTCAG AGACGGACAT TAGCTTTCAC AGCTCAGCCG CTGAGGAGGA GCCAGCGTTC
    GCTACACCCA CAGCACACGT TCGACCTACA CACCCACTTA AGAGTTTTGC AGTGCCTGCC
    ATCCCGGCCC ATGCAATGTA TGACTCGGCA GCTTTGCCCA GCACTCCACT GCTGTCTCAG
    ACAGGGCCTC ACTCAGTTAA AACAGCCTCT ATTGGTACAC TGGGAAGGAC GAGAACTCCT
    ATGCCTGTCA TAGTTCCAAA TGCGCCGGAT GTCTCAGAAG GCTGCAGACT TCATGAAGAT
    GCAGGAAGTT ACCATTGA

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

    CloneID ODa59603
    Clone ID Related Accession (Same CDS sequence) XM_017356809.1 , XM_017356809.2
    Accession Version XM_017356809.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4194bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product neogenin isoform X5
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007118.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTGAATCC
    TCTGACAAAA TGGCTAATGA CCAAGCTCCA GGCATATCTG TGAAACAAGG AAGACCTTCT
    GCACCAGATA ACGGCTTTGG ATCACCTGGG AAACCAGACA TGTCTGGCAC TGGTGATAAC
    CACATCCTGG TTATTGTCAT CATTGTGTCC GTGGGTGCTT TTACCATCAT CGTGGTGGTG
    GTGGGCGCCT TCCTTTGTAC ACGTCGTACC ACAACACAAC AGAAAAAGAA AAGGGCCGCC
    TGCAAGTCCG CCAATGGATC CCACAAGTAT AAGGGCAACT CCAAAGATCT CAAACCACCA
    GACCTCTGGA TCCACCATGA ACGTTTGGAG CTAAAGCCCA TAGACAAATC ACCCGAACCC
    AATCCAGTCA TGACCGACAC ACCAATCCCC AGGACCTCCC AAGACATCAC GCCGGTGGAC
    GGCTCCATGG ATCCTATGCT CCAGAGACGC AACTCTTACC GTGGCCATGA ATCAGAGGAC
    AGCATGTCTA CACTGGCAGG CCGTCGGGGG ATGAGACCTA AAATGATGAT GCCCTTTGAT
    GCACAACCCC CTCAGCAGTC AGTAAGGAAC ACCCCTAATG CGGAGCTGCT CCCTCCATCT
    GGGCAGCCAT CTTGCACCAC TGACCTTTCA GAGACGGACA TTAGCTTTCA CAGCTCAGCC
    GCTGAGGAGG AGCCAGCGTT CGCTACACCC ACAGCACACG TTCGACCTAC ACACCCACTT
    AAGAGTTTTG CAGTGCCTGC CATCCCGGCC CATGCAATGT ATGACTCGGC AGCTTTGCCC
    AGCACTCCAC TGCTGTCTCA GACAGGGCCT CACTCAGTTA AAACAGCCTC TATTGGTACA
    CTGGGAAGGA CGAGAACTCC TATGCCTGTC ATAGTTCCAA ATGCGCCGGA TGTCTCAGAA
    GGCTGCAGAC TTCATGAAGA TGCAGGAAGT AATTACGAGA CGGACGAGTT ATCGGAGGAA
    ATGGCCCATC TCGAGGGCTT AATGAAGGAC CTAAACGCCA TCACAACAGC CTGA

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

    RefSeq XP_017212298.1
    CDS402..4595
    Translation

    Target ORF information:

    RefSeq Version XM_017356809.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio neogenin 1a (neo1a), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017356809.1

    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
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTGAATCC
    TCTGACAAAA TGGCTAATGA CCAAGCTCCA GGCATATCTG TGAAACAAGG AAGACCTTCT
    GCACCAGATA ACGGCTTTGG ATCACCTGGG AAACCAGACA TGTCTGGCAC TGGTGATAAC
    CACATCCTGG TTATTGTCAT CATTGTGTCC GTGGGTGCTT TTACCATCAT CGTGGTGGTG
    GTGGGCGCCT TCCTTTGTAC ACGTCGTACC ACAACACAAC AGAAAAAGAA AAGGGCCGCC
    TGCAAGTCCG CCAATGGATC CCACAAGTAT AAGGGCAACT CCAAAGATCT CAAACCACCA
    GACCTCTGGA TCCACCATGA ACGTTTGGAG CTAAAGCCCA TAGACAAATC ACCCGAACCC
    AATCCAGTCA TGACCGACAC ACCAATCCCC AGGACCTCCC AAGACATCAC GCCGGTGGAC
    GGCTCCATGG ATCCTATGCT CCAGAGACGC AACTCTTACC GTGGCCATGA ATCAGAGGAC
    AGCATGTCTA CACTGGCAGG CCGTCGGGGG ATGAGACCTA AAATGATGAT GCCCTTTGAT
    GCACAACCCC CTCAGCAGTC AGTAAGGAAC ACCCCTAATG CGGAGCTGCT CCCTCCATCT
    GGGCAGCCAT CTTGCACCAC TGACCTTTCA GAGACGGACA TTAGCTTTCA CAGCTCAGCC
    GCTGAGGAGG AGCCAGCGTT CGCTACACCC ACAGCACACG TTCGACCTAC ACACCCACTT
    AAGAGTTTTG CAGTGCCTGC CATCCCGGCC CATGCAATGT ATGACTCGGC AGCTTTGCCC
    AGCACTCCAC TGCTGTCTCA GACAGGGCCT CACTCAGTTA AAACAGCCTC TATTGGTACA
    CTGGGAAGGA CGAGAACTCC TATGCCTGTC ATAGTTCCAA ATGCGCCGGA TGTCTCAGAA
    GGCTGCAGAC TTCATGAAGA TGCAGGAAGT AATTACGAGA CGGACGAGTT ATCGGAGGAA
    ATGGCCCATC TCGAGGGCTT AATGAAGGAC CTAAACGCCA TCACAACAGC CTGA

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

    CloneID ODa59603
    Clone ID Related Accession (Same CDS sequence) XM_017356809.1 , XM_017356809.2
    Accession Version XM_017356809.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4194bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product neogenin isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007118.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_017356809.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTGAATCC
    TCTGACAAAA TGGCTAATGA CCAAGCTCCA GGCATATCTG TGAAACAAGG AAGACCTTCT
    GCACCAGATA ACGGCTTTGG ATCACCTGGG AAACCAGACA TGTCTGGCAC TGGTGATAAC
    CACATCCTGG TTATTGTCAT CATTGTGTCC GTGGGTGCTT TTACCATCAT CGTGGTGGTG
    GTGGGCGCCT TCCTTTGTAC ACGTCGTACC ACAACACAAC AGAAAAAGAA AAGGGCCGCC
    TGCAAGTCCG CCAATGGATC CCACAAGTAT AAGGGCAACT CCAAAGATCT CAAACCACCA
    GACCTCTGGA TCCACCATGA ACGTTTGGAG CTAAAGCCCA TAGACAAATC ACCCGAACCC
    AATCCAGTCA TGACCGACAC ACCAATCCCC AGGACCTCCC AAGACATCAC GCCGGTGGAC
    GGCTCCATGG ATCCTATGCT CCAGAGACGC AACTCTTACC GTGGCCATGA ATCAGAGGAC
    AGCATGTCTA CACTGGCAGG CCGTCGGGGG ATGAGACCTA AAATGATGAT GCCCTTTGAT
    GCACAACCCC CTCAGCAGTC AGTAAGGAAC ACCCCTAATG CGGAGCTGCT CCCTCCATCT
    GGGCAGCCAT CTTGCACCAC TGACCTTTCA GAGACGGACA TTAGCTTTCA CAGCTCAGCC
    GCTGAGGAGG AGCCAGCGTT CGCTACACCC ACAGCACACG TTCGACCTAC ACACCCACTT
    AAGAGTTTTG CAGTGCCTGC CATCCCGGCC CATGCAATGT ATGACTCGGC AGCTTTGCCC
    AGCACTCCAC TGCTGTCTCA GACAGGGCCT CACTCAGTTA AAACAGCCTC TATTGGTACA
    CTGGGAAGGA CGAGAACTCC TATGCCTGTC ATAGTTCCAA ATGCGCCGGA TGTCTCAGAA
    GGCTGCAGAC TTCATGAAGA TGCAGGAAGT AATTACGAGA CGGACGAGTT ATCGGAGGAA
    ATGGCCCATC TCGAGGGCTT AATGAAGGAC CTAAACGCCA TCACAACAGC CTGA

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

    RefSeq XP_017212298.1
    CDS403..4596
    Translation

    Target ORF information:

    RefSeq Version XM_017356809.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio neogenin 1a (neo1a), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017356809.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTGAATCC
    TCTGACAAAA TGGCTAATGA CCAAGCTCCA GGCATATCTG TGAAACAAGG AAGACCTTCT
    GCACCAGATA ACGGCTTTGG ATCACCTGGG AAACCAGACA TGTCTGGCAC TGGTGATAAC
    CACATCCTGG TTATTGTCAT CATTGTGTCC GTGGGTGCTT TTACCATCAT CGTGGTGGTG
    GTGGGCGCCT TCCTTTGTAC ACGTCGTACC ACAACACAAC AGAAAAAGAA AAGGGCCGCC
    TGCAAGTCCG CCAATGGATC CCACAAGTAT AAGGGCAACT CCAAAGATCT CAAACCACCA
    GACCTCTGGA TCCACCATGA ACGTTTGGAG CTAAAGCCCA TAGACAAATC ACCCGAACCC
    AATCCAGTCA TGACCGACAC ACCAATCCCC AGGACCTCCC AAGACATCAC GCCGGTGGAC
    GGCTCCATGG ATCCTATGCT CCAGAGACGC AACTCTTACC GTGGCCATGA ATCAGAGGAC
    AGCATGTCTA CACTGGCAGG CCGTCGGGGG ATGAGACCTA AAATGATGAT GCCCTTTGAT
    GCACAACCCC CTCAGCAGTC AGTAAGGAAC ACCCCTAATG CGGAGCTGCT CCCTCCATCT
    GGGCAGCCAT CTTGCACCAC TGACCTTTCA GAGACGGACA TTAGCTTTCA CAGCTCAGCC
    GCTGAGGAGG AGCCAGCGTT CGCTACACCC ACAGCACACG TTCGACCTAC ACACCCACTT
    AAGAGTTTTG CAGTGCCTGC CATCCCGGCC CATGCAATGT ATGACTCGGC AGCTTTGCCC
    AGCACTCCAC TGCTGTCTCA GACAGGGCCT CACTCAGTTA AAACAGCCTC TATTGGTACA
    CTGGGAAGGA CGAGAACTCC TATGCCTGTC ATAGTTCCAA ATGCGCCGGA TGTCTCAGAA
    GGCTGCAGAC TTCATGAAGA TGCAGGAAGT AATTACGAGA CGGACGAGTT ATCGGAGGAA
    ATGGCCCATC TCGAGGGCTT AATGAAGGAC CTAAACGCCA TCACAACAGC CTGA

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

    CloneID ODa39595
    Clone ID Related Accession (Same CDS sequence) XM_009303469.2
    Accession Version XM_009303469.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3288bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product neogenin isoform X7
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007118.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009303469.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GGCTCCAGAG GCGGCGCTGG CCCCACGCCC
    TCCGCCCCCC GTGATGTGGT AGCGTCCCTG GTGTCCACCC GCTTCCTCAA GCTGACCTGG
    CGCCTTCCTG CTGAACCACA CGGAGACGAT GTCACCTACT CAGTCTACTA CAGCCTGGAG
    GGCACTAACA GGGAGAGGAT CGTAAACACC AGTCGTCCAG GAGAAATGCA AGTCACCATT
    CAGAACCTCA TGCCAGACAC CAAGTATGCC TTCCGTGTGG TGGCGCACAA CAAAAACGGC
    CCTGGAGAGA GTTCAGTGCC TCTAAAGGTC GAAACTCAGC CCGAAGTCCA GGTACCTGGT
    CCGGCTCCAA ACCTGCATGC AGTGGTCATG TCCCCCAGCA CTGTCAGTCT CAGCTGGGAT
    GTGCCTCTTA TAGGCAATGG TGAGATCCAG AACTACAAGA TCTACTACAT GGAGAAGGGC
    ATGGACAGTG AACAGGATCT GGATGTAAAC ACATTGTCCT ACACCATGAC TGGCCTGAAG
    AAGTTCACGG AGTACAGTTT CAGACTGGTG GCCTATAACA AACATGGACC GGGAGTCTCC
    ACTGAGGACA TATCAGTGCG CACATACTCT GATGTCCCCA GCTCTCCTCC GCAGAACATG
    ACGGTGGAAG TGCTGAACTC CAAGAGCCTC ATGATCAGAT GGCAGCCTCC ACCAGCCGAT
    GCCCAGAACG GAGAGATCAC AGGCTACAAG ATCCGCTACA GGAAGGGTAC GAGGAAGAGC
    GAGGTGGCGG AGATCACTTC AGGATCACAG CTTTATCAGC TCATAGATGG TTTGCAGCGA
    GGCACTGAAT ATATGTTGCG AGTATCTGCA ATGACGGTCA ACGGCACAGG TCCTGCCACA
    GACTGGACCA CTGCAGAGAC ATTCGAAAGC GATCTGGACG AGTCAAGAGT GCCGGACGTC
    CCGAGCTCTC TGCATGTTCG TTCTCTGGTC AACAGTATTG TGGTGAGCTG GACGCCTCCA
    GAGAACCAGG ACATCGTGGT GAGGGGTTAC AGTATCAGCT ATGGGATTGG CAGTCCTCAC
    GCACAGACCA TCAAAGTGGA CTACAAGCAG AGATACTACA CCATTGAGAA CCTGAATCCC
    AACTCGCACT ACGTGATCAC GCTGAAGGCC TTCAACAACG TGGGTGAGGG AATCCCTGTG
    TACGAGAGCG CCATCACACG ACCACAGTCA GTACCAGACC CTATACCCAT GCTGCCTCCT
    GTGGGCGTTC AGGCATCTGT CCTGAACCAA GACACCATCA AAGTCACCTG GGCGGACAAC
    TCGCTGCCTA AGAACCAGAA GATCACAGAT GCGCGCTACT ATACAGTGCG CTGGAAGACC
    AACATACCCG CAAACACAAA GTTTAAGGTG GCTAATACCA CGACGCTATT TCACACGGTG
    ACGGGTCTTA AACCCAATAC CTTGTATGAG TTTTCGGTTA TGGTGACCAA GGGACGGAGG
    ACCAGTACCT GGAGCATGAC TGCACACGGA ACAACTTTTG AGTCAATCCC AAGTTCTCCA
    CCAAAAGATG TGACTGTAGT GAGCAAAGAG GGACGACCAA AAACCATCAT CGTCAACTGG
    CAGCCGCCAT CAGAAGCCAA TGGCAAAATT ACAGGTTACA TCATTTATTA CAGCACTGAT
    GTGAAGGCAG AGGTTCATGA CTGGGTCATT GAGCCAGTCG TGGGAAACAG GCTAACCCAT
    CAAATTCAGG AGCTGACCCT TGATACCACC TACTACTTTA AGATCCAGGC TCGGAACTCC
    AAGGGCATGG GTCCCATGTC GGAAGCGGTC CAGTTCCGCA CTCCTAAAGC TGAATCCTCT
    GACAAAATGG CTAATGACCA AGCTCCAGGC ATATCTGTGA AACAAGGAAG ACCTTCTGCA
    CCAGATAACG GCTTTGGATC ACCTGGGAAA CCAGACATGT CTGGCACTGG TGATAACCAC
    ATCCTGGTTA TTGTCATCAT TGTGTCCGTG GGTGCTTTTA CCATCATCGT GGTGGTGGTG
    GGCGCCTTCC TTTGTACACG TCGTACCACA ACACAACAGA AAAAGTAA

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

    RefSeq XP_009301744.1
    CDS402..3689
    Translation

    Target ORF information:

    RefSeq Version XM_009303469.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio neogenin 1a (neo1a), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009303469.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GGCTCCAGAG GCGGCGCTGG CCCCACGCCC
    TCCGCCCCCC GTGATGTGGT AGCGTCCCTG GTGTCCACCC GCTTCCTCAA GCTGACCTGG
    CGCCTTCCTG CTGAACCACA CGGAGACGAT GTCACCTACT CAGTCTACTA CAGCCTGGAG
    GGCACTAACA GGGAGAGGAT CGTAAACACC AGTCGTCCAG GAGAAATGCA AGTCACCATT
    CAGAACCTCA TGCCAGACAC CAAGTATGCC TTCCGTGTGG TGGCGCACAA CAAAAACGGC
    CCTGGAGAGA GTTCAGTGCC TCTAAAGGTC GAAACTCAGC CCGAAGTCCA GGTACCTGGT
    CCGGCTCCAA ACCTGCATGC AGTGGTCATG TCCCCCAGCA CTGTCAGTCT CAGCTGGGAT
    GTGCCTCTTA TAGGCAATGG TGAGATCCAG AACTACAAGA TCTACTACAT GGAGAAGGGC
    ATGGACAGTG AACAGGATCT GGATGTAAAC ACATTGTCCT ACACCATGAC TGGCCTGAAG
    AAGTTCACGG AGTACAGTTT CAGACTGGTG GCCTATAACA AACATGGACC GGGAGTCTCC
    ACTGAGGACA TATCAGTGCG CACATACTCT GATGTCCCCA GCTCTCCTCC GCAGAACATG
    ACGGTGGAAG TGCTGAACTC CAAGAGCCTC ATGATCAGAT GGCAGCCTCC ACCAGCCGAT
    GCCCAGAACG GAGAGATCAC AGGCTACAAG ATCCGCTACA GGAAGGGTAC GAGGAAGAGC
    GAGGTGGCGG AGATCACTTC AGGATCACAG CTTTATCAGC TCATAGATGG TTTGCAGCGA
    GGCACTGAAT ATATGTTGCG AGTATCTGCA ATGACGGTCA ACGGCACAGG TCCTGCCACA
    GACTGGACCA CTGCAGAGAC ATTCGAAAGC GATCTGGACG AGTCAAGAGT GCCGGACGTC
    CCGAGCTCTC TGCATGTTCG TTCTCTGGTC AACAGTATTG TGGTGAGCTG GACGCCTCCA
    GAGAACCAGG ACATCGTGGT GAGGGGTTAC AGTATCAGCT ATGGGATTGG CAGTCCTCAC
    GCACAGACCA TCAAAGTGGA CTACAAGCAG AGATACTACA CCATTGAGAA CCTGAATCCC
    AACTCGCACT ACGTGATCAC GCTGAAGGCC TTCAACAACG TGGGTGAGGG AATCCCTGTG
    TACGAGAGCG CCATCACACG ACCACAGTCA GTACCAGACC CTATACCCAT GCTGCCTCCT
    GTGGGCGTTC AGGCATCTGT CCTGAACCAA GACACCATCA AAGTCACCTG GGCGGACAAC
    TCGCTGCCTA AGAACCAGAA GATCACAGAT GCGCGCTACT ATACAGTGCG CTGGAAGACC
    AACATACCCG CAAACACAAA GTTTAAGGTG GCTAATACCA CGACGCTATT TCACACGGTG
    ACGGGTCTTA AACCCAATAC CTTGTATGAG TTTTCGGTTA TGGTGACCAA GGGACGGAGG
    ACCAGTACCT GGAGCATGAC TGCACACGGA ACAACTTTTG AGTCAATCCC AAGTTCTCCA
    CCAAAAGATG TGACTGTAGT GAGCAAAGAG GGACGACCAA AAACCATCAT CGTCAACTGG
    CAGCCGCCAT CAGAAGCCAA TGGCAAAATT ACAGGTTACA TCATTTATTA CAGCACTGAT
    GTGAAGGCAG AGGTTCATGA CTGGGTCATT GAGCCAGTCG TGGGAAACAG GCTAACCCAT
    CAAATTCAGG AGCTGACCCT TGATACCACC TACTACTTTA AGATCCAGGC TCGGAACTCC
    AAGGGCATGG GTCCCATGTC GGAAGCGGTC CAGTTCCGCA CTCCTAAAGC TGAATCCTCT
    GACAAAATGG CTAATGACCA AGCTCCAGGC ATATCTGTGA AACAAGGAAG ACCTTCTGCA
    CCAGATAACG GCTTTGGATC ACCTGGGAAA CCAGACATGT CTGGCACTGG TGATAACCAC
    ATCCTGGTTA TTGTCATCAT TGTGTCCGTG GGTGCTTTTA CCATCATCGT GGTGGTGGTG
    GGCGCCTTCC TTTGTACACG TCGTACCACA ACACAACAGA AAAAGTAA

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

    CloneID ODa13468
    Clone ID Related Accession (Same CDS sequence) NM_001328497.1
    Accession Version NM_001328497.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4230bp)
    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 2019-04-13
    Organism Danio rerio(zebrafish)
    Product neogenin isoform 2 precursor
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BX927344.10, BX927325.15, CU463832.12 and AL935050.11. On Jun 16, 2016 this sequence version replaced XM_005166590.2. 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. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: GFIL01028126.1, AY082380.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2168446, SAMEA2168447 [ECO:0000348] ##Evidence-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GGCTCCAGAG GCGGCGCTGG CCCCACGCCC
    TCCGCCCCCC GTGATGTGGT AGCGTCCCTG GTGTCCACCC GCTTCCTCAA GCTGACCTGG
    CGCCTTCCTG CTGAACCACA CGGAGACGAT GTCACCTACT CAGTCTACTA CAGCCTGGAG
    GGCACTAACA GGGAGAGGAT CGTAAACACC AGTCGTCCAG GAGAAATGCA AGTCACCATT
    CAGAACCTCA TGCCAGACAC CAAGTATGCC TTCCGTGTGG TGGCGCACAA CAAAAACGGC
    CCTGGAGAGA GTTCAGTGCC TCTAAAGGTC GAAACTCAGC CCGAAGTCCA GGTACCTGGT
    CCGGCTCCAA ACCTGCATGC AGTGGTCATG TCCCCCAGCA CTGTCAGTCT CAGCTGGGAT
    GTGCCTCTTA TAGGCAATGG TGAGATCCAG AACTACAAGA TCTACTACAT GGAGAAGGGC
    ATGGACAGTG AACAGGATCT GGATGTAAAC ACATTGTCCT ACACCATGAC TGGCCTGAAG
    AAGTTCACGG AGTACAGTTT CAGACTGGTG GCCTATAACA AACATGGACC GGGAGTCTCC
    ACTGAGGACA TATCAGTGCG CACATACTCT GATGTCCCCA GCTCTCCTCC GCAGAACATG
    ACGGTGGAAG TGCTGAACTC CAAGAGCCTC ATGATCAGAT GGCAGCCTCC ACCAGCCGAT
    GCCCAGAACG GAGAGATCAC AGGCTACAAG ATCCGCTACA GGAAGGGTAC GAGGAAGAGC
    GAGGTGGCGG AGATCACTTC AGGATCACAG CTTTATCAGC TCATAGATGG TTTGCAGCGA
    GGCACTGAAT ATATGTTGCG AGTATCTGCA ATGACGGTCA ACGGCACAGG TCCTGCCACA
    GACTGGACCA CTGCAGAGAC ATTCGAAAGC GATCTGGACG AGTCAAGAGT GCCGGACGTC
    CCGAGCTCTC TGCATGTTCG TTCTCTGGTC AACAGTATTG TGGTGAGCTG GACGCCTCCA
    GAGAACCAGG ACATCGTGGT GAGGGGTTAC AGTATCAGCT ATGGGATTGG CAGTCCTCAC
    GCACAGACCA TCAAAGTGGA CTACAAGCAG AGATACTACA CCATTGAGAA CCTGAATCCC
    AACTCGCACT ACGTGATCAC GCTGAAGGCC TTCAACAACG TGGGTGAGGG AATCCCTGTG
    TACGAGAGCG CCATCACACG ACCACAGTCA GTACCAGACC CTATACCCAT GCTGCCTCCT
    GTGGGCGTTC AGGCATCTGT CCTGAACCAA GACACCATCA AAGTCACCTG GGCGGACAAC
    TCGCTGCCTA AGAACCAGAA GATCACAGAT GCGCGCTACT ATACAGTGCG CTGGAAGACC
    AACATACCCG CAAACACAAA GTTTAAGGTG GCTAATACCA CGACGCTATT TCACACGGTG
    ACGGGTCTTA AACCCAATAC CTTGTATGAG TTTTCGGTTA TGGTGACCAA GGGACGGAGG
    ACCAGTACCT GGAGCATGAC TGCACACGGA ACAACTTTTG AGTCAATCCC AAGTTCTCCA
    CCAAAAGATG TGACTGTAGT GAGCAAAGAG GGACGACCAA AAACCATCAT CGTCAACTGG
    CAGCCGCCAT CAGAAGCCAA TGGCAAAATT ACAGGTTACA TCATTTATTA CAGCACTGAT
    GTGAAGGCAG AGGTTCATGA CTGGGTCATT GAGCCAGTCG TGGGAAACAG GCTAACCCAT
    CAAATTCAGG AGCTGACCCT TGATACCACC TACTACTTTA AGATCCAGGC TCGGAACTCC
    AAGGGCATGG GTCCCATGTC GGAAGCGGTC CAGTTCCGCA CTCCTAAAGC TGAATCCTCT
    GACAAAATGG CTAATGACCA AGCTCCAGGC ATATCTGTGA AACAAGGAAG ACCTTCTGCA
    CCAGATAACG GCTTTGGATC ACCTGGGAAA CCAGACATGT CTGGCACTGG TGATAACCAC
    ATCCTGGTTA TTGTCATCAT TGTGTCCGTG GGTGCTTTTA CCATCATCGT GGTGGTGGTG
    GGCGCCTTCC TTTGTACACG TCGTACCACA ACACAACAGA AAAAGAAAAG GGCCGCCTGC
    AAGTCCGCCA ATGGATCCCA CAAGTATAAG GGCAACTCCA AAGATCTCAA ACCACCAGAC
    CTCTGGATCC ACCATGAACG TTTGGAGCTA AAGCCCATAG ACAAATCACC CGAACCCAAT
    CCAGTCATGA CCGACACACC AATCCCCAGG ACCTCCCAAG ACATCACGCC GGTGGACGGC
    TCCATGGATC CTATGCTCCA GAGACGCAAC TCTTACCGTG GCCATGAATC AGAGGACAGC
    ATGTCTACAC TGGCAGGCCG TCGGGGGATG AGACCTAAAA TGATGATGCC CTTTGATGCA
    CAACCCCCTC AGCCTGTGAT TAGTGCTCAC CCCATCCATT CCCTCGATAA CCATCACCAT
    CATTATCACT TGGGCAGCCT GGCCTCGCCG ACACGCAGCT ATCTCCACCA CCAGAGCAGC
    ACGCGCTCCA TCGCCACCCC CATCTCTCAT CTAGACAGGG CAGAGTCCAC AGAGTCAGTA
    AGGAACACCC CTAATGCGGA GCTGCTCCCT CCATCTGGGC AGCCATCTTG CACCACTGAC
    CTTTCAGAGA CGGACATTAG CTTTCACAGC TCAGCCGCTG AGGAGGAGCC AGCGTTCGCT
    ACACCCACAG CACACGTTCG ACCTACACAC CCACTTAAGA GTTTTGCAGT GCCTGCCATC
    CCGGCCCATG CAATGTATGA CTCGGCAGCT TTGCCCAGCA CTCCACTGCT GTCTCAGACA
    GGGCCTCACT CAGTTAAAAC AGCCTCTATT GGTACACTGG GAAGGACGAG AACTCCTATG
    CCTGTCATAG TTCCAAATGC GCCGGATGTC TCAGAAGGCT GCAGACTTCA TGAAGATGCA
    GGAAGTAATT ACGAGACGGA CGAGTTATCG GAGGAAATGG CCCATCTCGA GGGCTTAATG
    AAGGACCTAA ACGCCATCAC AACAGCCTGA

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

    RefSeq NP_001315426.1
    CDS402..4631
    Translation

    Target ORF information:

    RefSeq Version NM_001328497.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio neogenin 1a (neo1a), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001328497.1

    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
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GGCTCCAGAG GCGGCGCTGG CCCCACGCCC
    TCCGCCCCCC GTGATGTGGT AGCGTCCCTG GTGTCCACCC GCTTCCTCAA GCTGACCTGG
    CGCCTTCCTG CTGAACCACA CGGAGACGAT GTCACCTACT CAGTCTACTA CAGCCTGGAG
    GGCACTAACA GGGAGAGGAT CGTAAACACC AGTCGTCCAG GAGAAATGCA AGTCACCATT
    CAGAACCTCA TGCCAGACAC CAAGTATGCC TTCCGTGTGG TGGCGCACAA CAAAAACGGC
    CCTGGAGAGA GTTCAGTGCC TCTAAAGGTC GAAACTCAGC CCGAAGTCCA GGTACCTGGT
    CCGGCTCCAA ACCTGCATGC AGTGGTCATG TCCCCCAGCA CTGTCAGTCT CAGCTGGGAT
    GTGCCTCTTA TAGGCAATGG TGAGATCCAG AACTACAAGA TCTACTACAT GGAGAAGGGC
    ATGGACAGTG AACAGGATCT GGATGTAAAC ACATTGTCCT ACACCATGAC TGGCCTGAAG
    AAGTTCACGG AGTACAGTTT CAGACTGGTG GCCTATAACA AACATGGACC GGGAGTCTCC
    ACTGAGGACA TATCAGTGCG CACATACTCT GATGTCCCCA GCTCTCCTCC GCAGAACATG
    ACGGTGGAAG TGCTGAACTC CAAGAGCCTC ATGATCAGAT GGCAGCCTCC ACCAGCCGAT
    GCCCAGAACG GAGAGATCAC AGGCTACAAG ATCCGCTACA GGAAGGGTAC GAGGAAGAGC
    GAGGTGGCGG AGATCACTTC AGGATCACAG CTTTATCAGC TCATAGATGG TTTGCAGCGA
    GGCACTGAAT ATATGTTGCG AGTATCTGCA ATGACGGTCA ACGGCACAGG TCCTGCCACA
    GACTGGACCA CTGCAGAGAC ATTCGAAAGC GATCTGGACG AGTCAAGAGT GCCGGACGTC
    CCGAGCTCTC TGCATGTTCG TTCTCTGGTC AACAGTATTG TGGTGAGCTG GACGCCTCCA
    GAGAACCAGG ACATCGTGGT GAGGGGTTAC AGTATCAGCT ATGGGATTGG CAGTCCTCAC
    GCACAGACCA TCAAAGTGGA CTACAAGCAG AGATACTACA CCATTGAGAA CCTGAATCCC
    AACTCGCACT ACGTGATCAC GCTGAAGGCC TTCAACAACG TGGGTGAGGG AATCCCTGTG
    TACGAGAGCG CCATCACACG ACCACAGTCA GTACCAGACC CTATACCCAT GCTGCCTCCT
    GTGGGCGTTC AGGCATCTGT CCTGAACCAA GACACCATCA AAGTCACCTG GGCGGACAAC
    TCGCTGCCTA AGAACCAGAA GATCACAGAT GCGCGCTACT ATACAGTGCG CTGGAAGACC
    AACATACCCG CAAACACAAA GTTTAAGGTG GCTAATACCA CGACGCTATT TCACACGGTG
    ACGGGTCTTA AACCCAATAC CTTGTATGAG TTTTCGGTTA TGGTGACCAA GGGACGGAGG
    ACCAGTACCT GGAGCATGAC TGCACACGGA ACAACTTTTG AGTCAATCCC AAGTTCTCCA
    CCAAAAGATG TGACTGTAGT GAGCAAAGAG GGACGACCAA AAACCATCAT CGTCAACTGG
    CAGCCGCCAT CAGAAGCCAA TGGCAAAATT ACAGGTTACA TCATTTATTA CAGCACTGAT
    GTGAAGGCAG AGGTTCATGA CTGGGTCATT GAGCCAGTCG TGGGAAACAG GCTAACCCAT
    CAAATTCAGG AGCTGACCCT TGATACCACC TACTACTTTA AGATCCAGGC TCGGAACTCC
    AAGGGCATGG GTCCCATGTC GGAAGCGGTC CAGTTCCGCA CTCCTAAAGC TGAATCCTCT
    GACAAAATGG CTAATGACCA AGCTCCAGGC ATATCTGTGA AACAAGGAAG ACCTTCTGCA
    CCAGATAACG GCTTTGGATC ACCTGGGAAA CCAGACATGT CTGGCACTGG TGATAACCAC
    ATCCTGGTTA TTGTCATCAT TGTGTCCGTG GGTGCTTTTA CCATCATCGT GGTGGTGGTG
    GGCGCCTTCC TTTGTACACG TCGTACCACA ACACAACAGA AAAAGAAAAG GGCCGCCTGC
    AAGTCCGCCA ATGGATCCCA CAAGTATAAG GGCAACTCCA AAGATCTCAA ACCACCAGAC
    CTCTGGATCC ACCATGAACG TTTGGAGCTA AAGCCCATAG ACAAATCACC CGAACCCAAT
    CCAGTCATGA CCGACACACC AATCCCCAGG ACCTCCCAAG ACATCACGCC GGTGGACGGC
    TCCATGGATC CTATGCTCCA GAGACGCAAC TCTTACCGTG GCCATGAATC AGAGGACAGC
    ATGTCTACAC TGGCAGGCCG TCGGGGGATG AGACCTAAAA TGATGATGCC CTTTGATGCA
    CAACCCCCTC AGCCTGTGAT TAGTGCTCAC CCCATCCATT CCCTCGATAA CCATCACCAT
    CATTATCACT TGGGCAGCCT GGCCTCGCCG ACACGCAGCT ATCTCCACCA CCAGAGCAGC
    ACGCGCTCCA TCGCCACCCC CATCTCTCAT CTAGACAGGG CAGAGTCCAC AGAGTCAGTA
    AGGAACACCC CTAATGCGGA GCTGCTCCCT CCATCTGGGC AGCCATCTTG CACCACTGAC
    CTTTCAGAGA CGGACATTAG CTTTCACAGC TCAGCCGCTG AGGAGGAGCC AGCGTTCGCT
    ACACCCACAG CACACGTTCG ACCTACACAC CCACTTAAGA GTTTTGCAGT GCCTGCCATC
    CCGGCCCATG CAATGTATGA CTCGGCAGCT TTGCCCAGCA CTCCACTGCT GTCTCAGACA
    GGGCCTCACT CAGTTAAAAC AGCCTCTATT GGTACACTGG GAAGGACGAG AACTCCTATG
    CCTGTCATAG TTCCAAATGC GCCGGATGTC TCAGAAGGCT GCAGACTTCA TGAAGATGCA
    GGAAGTAATT ACGAGACGGA CGAGTTATCG GAGGAAATGG CCCATCTCGA GGGCTTAATG
    AAGGACCTAA ACGCCATCAC AACAGCCTGA

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

    CloneID ODa13466
    Clone ID Related Accession (Same CDS sequence) XM_005166588.2 , XM_005166588.3
    Accession Version XM_005166588.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4296bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product neogenin isoform X4
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007118.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005166588.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGTAC CAGACCCTAT ACCCATGCTG
    CCTCCTGTGG GCGTTCAGGC ATCTGTCCTG AACCAAGACA CCATCAAAGT CACCTGGGCG
    GACAACTCGC TGCCTAAGAA CCAGAAGATC ACAGATGCGC GCTACTATAC AGTGCGCTGG
    AAGACCAACA TACCCGCAAA CACAAAGTTT AAGGTGGCTA ATACCACGAC GCTATTTCAC
    ACGGTGACGG GTCTTAAACC CAATACCTTG TATGAGTTTT CGGTTATGGT GACCAAGGGA
    CGGAGGACCA GTACCTGGAG CATGACTGCA CACGGAACAA CTTTTGAGTC AATCCCAAGT
    TCTCCACCAA AAGATGTGAC TGTAGTGAGC AAAGAGGGAC GACCAAAAAC CATCATCGTC
    AACTGGCAGC CGCCATCAGA AGCCAATGGC AAAATTACAG GTTACATCAT TTATTACAGC
    ACTGATGTGA AGGCAGAGGT TCATGACTGG GTCATTGAGC CAGTCGTGGG AAACAGGCTA
    ACCCATCAAA TTCAGGAGCT GACCCTTGAT ACCACCTACT ACTTTAAGAT CCAGGCTCGG
    AACTCCAAGG GCATGGGTCC CATGTCGGAA GCGGTCCAGT TCCGCACTCC TAAAGCTGAA
    TCCTCTGACA AAATGGCTAA TGACCAAGCT CCAGGCATAT CTGTGAAACA AGGAAGACCT
    TCTGCACCAG ATAACGGCTT TGGATCACCT GGGAAACCAG ACATGTCTGG CACTGGTGAT
    AACCACATCC TGGTTATTGT CATCATTGTG TCCGTGGGTG CTTTTACCAT CATCGTGGTG
    GTGGTGGGCG CCTTCCTTTG TACACGTCGT ACCACAACAC AACAGAAAAA GAAAAGGGCC
    GCCTGCAAGT CCGCCAATGG ATCCCACAAG TATAAGGGCA ACTCCAAAGA TCTCAAACCA
    CCAGACCTCT GGATCCACCA TGAACGTTTG GAGCTAAAGC CCATAGACAA ATCACCCGAA
    CCCAATCCAG TCATGACCGA CACACCAATC CCCAGGACCT CCCAAGACAT CACGCCGGTG
    GACGGCTCCA TGGATCCTAT GCTCCAGAGA CGCAACTCTT ACCGTGGCCA TGAATCAGAG
    GACAGCATGT CTACACTGGC AGGCCGTCGG GGGATGAGAC CTAAAATGAT GATGCCCTTT
    GATGCACAAC CCCCTCAGCC TGTGATTAGT GCTCACCCCA TCCATTCCCT CGATAACCAT
    CACCATCATT ATCACTTGGG CAGCCTGGCC TCGCCGACAC GCAGCTATCT CCACCACCAG
    AGCAGCACGC GCTCCATCGC CACCCCCATC TCTCATCTAG ACAGGGCAGA GTCCACAGAG
    TCAGTAAGGA ACACCCCTAA TGCGGAGCTG CTCCCTCCAT CTGGGCAGCC ATCTTGCACC
    ACTGACCTTT CAGAGACGGA CATTAGCTTT CACAGCTCAG CCGCTGAGGA GGAGCCAGCG
    TTCGCTACAC CCACAGCACA CGTTCGACCT ACACACCCAC TTAAGAGTTT TGCAGTGCCT
    GCCATCCCGG CCCATGCAAT GTATGACTCG GCAGCTTTGC CCAGCACTCC ACTGCTGTCT
    CAGACAGGGC CTCACTCAGT TAAAACAGCC TCTATTGGTA CACTGGGAAG GACGAGAACT
    CCTATGCCTG TCATAGTTCC AAATGCGCCG GATGTCTCAG AAGGCTGCAG ACTTCATGAA
    GATGCAGGAA GTAATTACGA GACGGACGAG TTATCGGAGG AAATGGCCCA TCTCGAGGGC
    TTAATGAAGG ACCTAAACGC CATCACAACA GCCTGA

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

    RefSeq XP_005166645.1
    CDS402..4697
    Translation

    Target ORF information:

    RefSeq Version XM_005166588.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio neogenin 1a (neo1a), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005166588.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGTAC CAGACCCTAT ACCCATGCTG
    CCTCCTGTGG GCGTTCAGGC ATCTGTCCTG AACCAAGACA CCATCAAAGT CACCTGGGCG
    GACAACTCGC TGCCTAAGAA CCAGAAGATC ACAGATGCGC GCTACTATAC AGTGCGCTGG
    AAGACCAACA TACCCGCAAA CACAAAGTTT AAGGTGGCTA ATACCACGAC GCTATTTCAC
    ACGGTGACGG GTCTTAAACC CAATACCTTG TATGAGTTTT CGGTTATGGT GACCAAGGGA
    CGGAGGACCA GTACCTGGAG CATGACTGCA CACGGAACAA CTTTTGAGTC AATCCCAAGT
    TCTCCACCAA AAGATGTGAC TGTAGTGAGC AAAGAGGGAC GACCAAAAAC CATCATCGTC
    AACTGGCAGC CGCCATCAGA AGCCAATGGC AAAATTACAG GTTACATCAT TTATTACAGC
    ACTGATGTGA AGGCAGAGGT TCATGACTGG GTCATTGAGC CAGTCGTGGG AAACAGGCTA
    ACCCATCAAA TTCAGGAGCT GACCCTTGAT ACCACCTACT ACTTTAAGAT CCAGGCTCGG
    AACTCCAAGG GCATGGGTCC CATGTCGGAA GCGGTCCAGT TCCGCACTCC TAAAGCTGAA
    TCCTCTGACA AAATGGCTAA TGACCAAGCT CCAGGCATAT CTGTGAAACA AGGAAGACCT
    TCTGCACCAG ATAACGGCTT TGGATCACCT GGGAAACCAG ACATGTCTGG CACTGGTGAT
    AACCACATCC TGGTTATTGT CATCATTGTG TCCGTGGGTG CTTTTACCAT CATCGTGGTG
    GTGGTGGGCG CCTTCCTTTG TACACGTCGT ACCACAACAC AACAGAAAAA GAAAAGGGCC
    GCCTGCAAGT CCGCCAATGG ATCCCACAAG TATAAGGGCA ACTCCAAAGA TCTCAAACCA
    CCAGACCTCT GGATCCACCA TGAACGTTTG GAGCTAAAGC CCATAGACAA ATCACCCGAA
    CCCAATCCAG TCATGACCGA CACACCAATC CCCAGGACCT CCCAAGACAT CACGCCGGTG
    GACGGCTCCA TGGATCCTAT GCTCCAGAGA CGCAACTCTT ACCGTGGCCA TGAATCAGAG
    GACAGCATGT CTACACTGGC AGGCCGTCGG GGGATGAGAC CTAAAATGAT GATGCCCTTT
    GATGCACAAC CCCCTCAGCC TGTGATTAGT GCTCACCCCA TCCATTCCCT CGATAACCAT
    CACCATCATT ATCACTTGGG CAGCCTGGCC TCGCCGACAC GCAGCTATCT CCACCACCAG
    AGCAGCACGC GCTCCATCGC CACCCCCATC TCTCATCTAG ACAGGGCAGA GTCCACAGAG
    TCAGTAAGGA ACACCCCTAA TGCGGAGCTG CTCCCTCCAT CTGGGCAGCC ATCTTGCACC
    ACTGACCTTT CAGAGACGGA CATTAGCTTT CACAGCTCAG CCGCTGAGGA GGAGCCAGCG
    TTCGCTACAC CCACAGCACA CGTTCGACCT ACACACCCAC TTAAGAGTTT TGCAGTGCCT
    GCCATCCCGG CCCATGCAAT GTATGACTCG GCAGCTTTGC CCAGCACTCC ACTGCTGTCT
    CAGACAGGGC CTCACTCAGT TAAAACAGCC TCTATTGGTA CACTGGGAAG GACGAGAACT
    CCTATGCCTG TCATAGTTCC AAATGCGCCG GATGTCTCAG AAGGCTGCAG ACTTCATGAA
    GATGCAGGAA GTAATTACGA GACGGACGAG TTATCGGAGG AAATGGCCCA TCTCGAGGGC
    TTAATGAAGG ACCTAAACGC CATCACAACA GCCTGA

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

    CloneID ODa13466
    Clone ID Related Accession (Same CDS sequence) XM_005166588.2 , XM_005166588.3
    Accession Version XM_005166588.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4296bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product neogenin isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007118.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005166588.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGTAC CAGACCCTAT ACCCATGCTG
    CCTCCTGTGG GCGTTCAGGC ATCTGTCCTG AACCAAGACA CCATCAAAGT CACCTGGGCG
    GACAACTCGC TGCCTAAGAA CCAGAAGATC ACAGATGCGC GCTACTATAC AGTGCGCTGG
    AAGACCAACA TACCCGCAAA CACAAAGTTT AAGGTGGCTA ATACCACGAC GCTATTTCAC
    ACGGTGACGG GTCTTAAACC CAATACCTTG TATGAGTTTT CGGTTATGGT GACCAAGGGA
    CGGAGGACCA GTACCTGGAG CATGACTGCA CACGGAACAA CTTTTGAGTC AATCCCAAGT
    TCTCCACCAA AAGATGTGAC TGTAGTGAGC AAAGAGGGAC GACCAAAAAC CATCATCGTC
    AACTGGCAGC CGCCATCAGA AGCCAATGGC AAAATTACAG GTTACATCAT TTATTACAGC
    ACTGATGTGA AGGCAGAGGT TCATGACTGG GTCATTGAGC CAGTCGTGGG AAACAGGCTA
    ACCCATCAAA TTCAGGAGCT GACCCTTGAT ACCACCTACT ACTTTAAGAT CCAGGCTCGG
    AACTCCAAGG GCATGGGTCC CATGTCGGAA GCGGTCCAGT TCCGCACTCC TAAAGCTGAA
    TCCTCTGACA AAATGGCTAA TGACCAAGCT CCAGGCATAT CTGTGAAACA AGGAAGACCT
    TCTGCACCAG ATAACGGCTT TGGATCACCT GGGAAACCAG ACATGTCTGG CACTGGTGAT
    AACCACATCC TGGTTATTGT CATCATTGTG TCCGTGGGTG CTTTTACCAT CATCGTGGTG
    GTGGTGGGCG CCTTCCTTTG TACACGTCGT ACCACAACAC AACAGAAAAA GAAAAGGGCC
    GCCTGCAAGT CCGCCAATGG ATCCCACAAG TATAAGGGCA ACTCCAAAGA TCTCAAACCA
    CCAGACCTCT GGATCCACCA TGAACGTTTG GAGCTAAAGC CCATAGACAA ATCACCCGAA
    CCCAATCCAG TCATGACCGA CACACCAATC CCCAGGACCT CCCAAGACAT CACGCCGGTG
    GACGGCTCCA TGGATCCTAT GCTCCAGAGA CGCAACTCTT ACCGTGGCCA TGAATCAGAG
    GACAGCATGT CTACACTGGC AGGCCGTCGG GGGATGAGAC CTAAAATGAT GATGCCCTTT
    GATGCACAAC CCCCTCAGCC TGTGATTAGT GCTCACCCCA TCCATTCCCT CGATAACCAT
    CACCATCATT ATCACTTGGG CAGCCTGGCC TCGCCGACAC GCAGCTATCT CCACCACCAG
    AGCAGCACGC GCTCCATCGC CACCCCCATC TCTCATCTAG ACAGGGCAGA GTCCACAGAG
    TCAGTAAGGA ACACCCCTAA TGCGGAGCTG CTCCCTCCAT CTGGGCAGCC ATCTTGCACC
    ACTGACCTTT CAGAGACGGA CATTAGCTTT CACAGCTCAG CCGCTGAGGA GGAGCCAGCG
    TTCGCTACAC CCACAGCACA CGTTCGACCT ACACACCCAC TTAAGAGTTT TGCAGTGCCT
    GCCATCCCGG CCCATGCAAT GTATGACTCG GCAGCTTTGC CCAGCACTCC ACTGCTGTCT
    CAGACAGGGC CTCACTCAGT TAAAACAGCC TCTATTGGTA CACTGGGAAG GACGAGAACT
    CCTATGCCTG TCATAGTTCC AAATGCGCCG GATGTCTCAG AAGGCTGCAG ACTTCATGAA
    GATGCAGGAA GTAATTACGA GACGGACGAG TTATCGGAGG AAATGGCCCA TCTCGAGGGC
    TTAATGAAGG ACCTAAACGC CATCACAACA GCCTGA

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

    RefSeq XP_005166645.1
    CDS402..4697
    Translation

    Target ORF information:

    RefSeq Version XM_005166588.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio neogenin 1a (neo1a), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005166588.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGTAC CAGACCCTAT ACCCATGCTG
    CCTCCTGTGG GCGTTCAGGC ATCTGTCCTG AACCAAGACA CCATCAAAGT CACCTGGGCG
    GACAACTCGC TGCCTAAGAA CCAGAAGATC ACAGATGCGC GCTACTATAC AGTGCGCTGG
    AAGACCAACA TACCCGCAAA CACAAAGTTT AAGGTGGCTA ATACCACGAC GCTATTTCAC
    ACGGTGACGG GTCTTAAACC CAATACCTTG TATGAGTTTT CGGTTATGGT GACCAAGGGA
    CGGAGGACCA GTACCTGGAG CATGACTGCA CACGGAACAA CTTTTGAGTC AATCCCAAGT
    TCTCCACCAA AAGATGTGAC TGTAGTGAGC AAAGAGGGAC GACCAAAAAC CATCATCGTC
    AACTGGCAGC CGCCATCAGA AGCCAATGGC AAAATTACAG GTTACATCAT TTATTACAGC
    ACTGATGTGA AGGCAGAGGT TCATGACTGG GTCATTGAGC CAGTCGTGGG AAACAGGCTA
    ACCCATCAAA TTCAGGAGCT GACCCTTGAT ACCACCTACT ACTTTAAGAT CCAGGCTCGG
    AACTCCAAGG GCATGGGTCC CATGTCGGAA GCGGTCCAGT TCCGCACTCC TAAAGCTGAA
    TCCTCTGACA AAATGGCTAA TGACCAAGCT CCAGGCATAT CTGTGAAACA AGGAAGACCT
    TCTGCACCAG ATAACGGCTT TGGATCACCT GGGAAACCAG ACATGTCTGG CACTGGTGAT
    AACCACATCC TGGTTATTGT CATCATTGTG TCCGTGGGTG CTTTTACCAT CATCGTGGTG
    GTGGTGGGCG CCTTCCTTTG TACACGTCGT ACCACAACAC AACAGAAAAA GAAAAGGGCC
    GCCTGCAAGT CCGCCAATGG ATCCCACAAG TATAAGGGCA ACTCCAAAGA TCTCAAACCA
    CCAGACCTCT GGATCCACCA TGAACGTTTG GAGCTAAAGC CCATAGACAA ATCACCCGAA
    CCCAATCCAG TCATGACCGA CACACCAATC CCCAGGACCT CCCAAGACAT CACGCCGGTG
    GACGGCTCCA TGGATCCTAT GCTCCAGAGA CGCAACTCTT ACCGTGGCCA TGAATCAGAG
    GACAGCATGT CTACACTGGC AGGCCGTCGG GGGATGAGAC CTAAAATGAT GATGCCCTTT
    GATGCACAAC CCCCTCAGCC TGTGATTAGT GCTCACCCCA TCCATTCCCT CGATAACCAT
    CACCATCATT ATCACTTGGG CAGCCTGGCC TCGCCGACAC GCAGCTATCT CCACCACCAG
    AGCAGCACGC GCTCCATCGC CACCCCCATC TCTCATCTAG ACAGGGCAGA GTCCACAGAG
    TCAGTAAGGA ACACCCCTAA TGCGGAGCTG CTCCCTCCAT CTGGGCAGCC ATCTTGCACC
    ACTGACCTTT CAGAGACGGA CATTAGCTTT CACAGCTCAG CCGCTGAGGA GGAGCCAGCG
    TTCGCTACAC CCACAGCACA CGTTCGACCT ACACACCCAC TTAAGAGTTT TGCAGTGCCT
    GCCATCCCGG CCCATGCAAT GTATGACTCG GCAGCTTTGC CCAGCACTCC ACTGCTGTCT
    CAGACAGGGC CTCACTCAGT TAAAACAGCC TCTATTGGTA CACTGGGAAG GACGAGAACT
    CCTATGCCTG TCATAGTTCC AAATGCGCCG GATGTCTCAG AAGGCTGCAG ACTTCATGAA
    GATGCAGGAA GTAATTACGA GACGGACGAG TTATCGGAGG AAATGGCCCA TCTCGAGGGC
    TTAATGAAGG ACCTAAACGC CATCACAACA GCCTGA

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

    CloneID ODa39590
    Clone ID Related Accession (Same CDS sequence) XM_009303464.2 , XM_009303464.3
    Accession Version XM_009303464.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4353bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product neogenin isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007118.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009303464.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTGAATCC
    TCTGACAAAA TGGCTAATGA CCAAGCTCCA GGCATATCTG TGAAACAAGG AAGACCTTCT
    GCACCAGATA ACGGCTTTGG ATCACCTGGG AAACCAGACA TGTCTGGCAC TGGTGATAAC
    CACATCCTGG TTATTGTCAT CATTGTGTCC GTGGGTGCTT TTACCATCAT CGTGGTGGTG
    GTGGGCGCCT TCCTTTGTAC ACGTCGTACC ACAACACAAC AGAAAAAGAA AAGGGCCGCC
    TGCAAGTCCG CCAATGGATC CCACAAGTAT AAGGGCAACT CCAAAGATCT CAAACCACCA
    GACCTCTGGA TCCACCATGA ACGTTTGGAG CTAAAGCCCA TAGACAAATC ACCCGAACCC
    AATCCAGTCA TGACCGACAC ACCAATCCCC AGGACCTCCC AAGACATCAC GCCGGTGGAC
    GGCTCCATGG ATCCTATGCT CCAGAGACGC AACTCTTACC GTGGCCATGA ATCAGAGGAC
    AGCATGTCTA CACTGGCAGG CCGTCGGGGG ATGAGACCTA AAATGATGAT GCCCTTTGAT
    GCACAACCCC CTCAGCCTGT GATTAGTGCT CACCCCATCC ATTCCCTCGA TAACCATCAC
    CATCATTATC ACTTGGGCAG CCTGGCCTCG CCGACACGCA GCTATCTCCA CCACCAGAGC
    AGCACGCGCT CCATCGCCAC CCCCATCTCT CATCTAGACA GGGCAGAGTC CACAGAGTCA
    GTAAGGAACA CCCCTAATGC GGAGCTGCTC CCTCCATCTG GGCAGCCATC TTGCACCACT
    GACCTTTCAG AGACGGACAT TAGCTTTCAC AGCTCAGCCG CTGAGGAGGA GCCAGCGTTC
    GCTACACCCA CAGCACACGT TCGACCTACA CACCCACTTA AGAGTTTTGC AGTGCCTGCC
    ATCCCGGCCC ATGCAATGTA TGACTCGGCA GCTTTGCCCA GCACTCCACT GCTGTCTCAG
    ACAGGGCCTC ACTCAGTTAA AACAGCCTCT ATTGGTACAC TGGGAAGGAC GAGAACTCCT
    ATGCCTGTCA TAGTTCCAAA TGCGCCGGAT GTCTCAGAAG GCTGCAGACT TCATGAAGAT
    GCAGGAAGTA ATTACGAGAC GGACGAGTTA TCGGAGGAAA TGGCCCATCT CGAGGGCTTA
    ATGAAGGACC TAAACGCCAT CACAACAGCC TGA

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

    RefSeq XP_009301739.1
    CDS402..4754
    Translation

    Target ORF information:

    RefSeq Version XM_009303464.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio neogenin 1a (neo1a), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009303464.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTGAATCC
    TCTGACAAAA TGGCTAATGA CCAAGCTCCA GGCATATCTG TGAAACAAGG AAGACCTTCT
    GCACCAGATA ACGGCTTTGG ATCACCTGGG AAACCAGACA TGTCTGGCAC TGGTGATAAC
    CACATCCTGG TTATTGTCAT CATTGTGTCC GTGGGTGCTT TTACCATCAT CGTGGTGGTG
    GTGGGCGCCT TCCTTTGTAC ACGTCGTACC ACAACACAAC AGAAAAAGAA AAGGGCCGCC
    TGCAAGTCCG CCAATGGATC CCACAAGTAT AAGGGCAACT CCAAAGATCT CAAACCACCA
    GACCTCTGGA TCCACCATGA ACGTTTGGAG CTAAAGCCCA TAGACAAATC ACCCGAACCC
    AATCCAGTCA TGACCGACAC ACCAATCCCC AGGACCTCCC AAGACATCAC GCCGGTGGAC
    GGCTCCATGG ATCCTATGCT CCAGAGACGC AACTCTTACC GTGGCCATGA ATCAGAGGAC
    AGCATGTCTA CACTGGCAGG CCGTCGGGGG ATGAGACCTA AAATGATGAT GCCCTTTGAT
    GCACAACCCC CTCAGCCTGT GATTAGTGCT CACCCCATCC ATTCCCTCGA TAACCATCAC
    CATCATTATC ACTTGGGCAG CCTGGCCTCG CCGACACGCA GCTATCTCCA CCACCAGAGC
    AGCACGCGCT CCATCGCCAC CCCCATCTCT CATCTAGACA GGGCAGAGTC CACAGAGTCA
    GTAAGGAACA CCCCTAATGC GGAGCTGCTC CCTCCATCTG GGCAGCCATC TTGCACCACT
    GACCTTTCAG AGACGGACAT TAGCTTTCAC AGCTCAGCCG CTGAGGAGGA GCCAGCGTTC
    GCTACACCCA CAGCACACGT TCGACCTACA CACCCACTTA AGAGTTTTGC AGTGCCTGCC
    ATCCCGGCCC ATGCAATGTA TGACTCGGCA GCTTTGCCCA GCACTCCACT GCTGTCTCAG
    ACAGGGCCTC ACTCAGTTAA AACAGCCTCT ATTGGTACAC TGGGAAGGAC GAGAACTCCT
    ATGCCTGTCA TAGTTCCAAA TGCGCCGGAT GTCTCAGAAG GCTGCAGACT TCATGAAGAT
    GCAGGAAGTA ATTACGAGAC GGACGAGTTA TCGGAGGAAA TGGCCCATCT CGAGGGCTTA
    ATGAAGGACC TAAACGCCAT CACAACAGCC TGA

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

    CloneID ODa39590
    Clone ID Related Accession (Same CDS sequence) XM_009303464.2 , XM_009303464.3
    Accession Version XM_009303464.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4353bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product neogenin isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007118.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009303464.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTGAATCC
    TCTGACAAAA TGGCTAATGA CCAAGCTCCA GGCATATCTG TGAAACAAGG AAGACCTTCT
    GCACCAGATA ACGGCTTTGG ATCACCTGGG AAACCAGACA TGTCTGGCAC TGGTGATAAC
    CACATCCTGG TTATTGTCAT CATTGTGTCC GTGGGTGCTT TTACCATCAT CGTGGTGGTG
    GTGGGCGCCT TCCTTTGTAC ACGTCGTACC ACAACACAAC AGAAAAAGAA AAGGGCCGCC
    TGCAAGTCCG CCAATGGATC CCACAAGTAT AAGGGCAACT CCAAAGATCT CAAACCACCA
    GACCTCTGGA TCCACCATGA ACGTTTGGAG CTAAAGCCCA TAGACAAATC ACCCGAACCC
    AATCCAGTCA TGACCGACAC ACCAATCCCC AGGACCTCCC AAGACATCAC GCCGGTGGAC
    GGCTCCATGG ATCCTATGCT CCAGAGACGC AACTCTTACC GTGGCCATGA ATCAGAGGAC
    AGCATGTCTA CACTGGCAGG CCGTCGGGGG ATGAGACCTA AAATGATGAT GCCCTTTGAT
    GCACAACCCC CTCAGCCTGT GATTAGTGCT CACCCCATCC ATTCCCTCGA TAACCATCAC
    CATCATTATC ACTTGGGCAG CCTGGCCTCG CCGACACGCA GCTATCTCCA CCACCAGAGC
    AGCACGCGCT CCATCGCCAC CCCCATCTCT CATCTAGACA GGGCAGAGTC CACAGAGTCA
    GTAAGGAACA CCCCTAATGC GGAGCTGCTC CCTCCATCTG GGCAGCCATC TTGCACCACT
    GACCTTTCAG AGACGGACAT TAGCTTTCAC AGCTCAGCCG CTGAGGAGGA GCCAGCGTTC
    GCTACACCCA CAGCACACGT TCGACCTACA CACCCACTTA AGAGTTTTGC AGTGCCTGCC
    ATCCCGGCCC ATGCAATGTA TGACTCGGCA GCTTTGCCCA GCACTCCACT GCTGTCTCAG
    ACAGGGCCTC ACTCAGTTAA AACAGCCTCT ATTGGTACAC TGGGAAGGAC GAGAACTCCT
    ATGCCTGTCA TAGTTCCAAA TGCGCCGGAT GTCTCAGAAG GCTGCAGACT TCATGAAGAT
    GCAGGAAGTA ATTACGAGAC GGACGAGTTA TCGGAGGAAA TGGCCCATCT CGAGGGCTTA
    ATGAAGGACC TAAACGCCAT CACAACAGCC TGA

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

    RefSeq XP_009301739.1
    CDS402..4754
    Translation

    Target ORF information:

    RefSeq Version XM_009303464.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio neogenin 1a (neo1a), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009303464.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTGAATCC
    TCTGACAAAA TGGCTAATGA CCAAGCTCCA GGCATATCTG TGAAACAAGG AAGACCTTCT
    GCACCAGATA ACGGCTTTGG ATCACCTGGG AAACCAGACA TGTCTGGCAC TGGTGATAAC
    CACATCCTGG TTATTGTCAT CATTGTGTCC GTGGGTGCTT TTACCATCAT CGTGGTGGTG
    GTGGGCGCCT TCCTTTGTAC ACGTCGTACC ACAACACAAC AGAAAAAGAA AAGGGCCGCC
    TGCAAGTCCG CCAATGGATC CCACAAGTAT AAGGGCAACT CCAAAGATCT CAAACCACCA
    GACCTCTGGA TCCACCATGA ACGTTTGGAG CTAAAGCCCA TAGACAAATC ACCCGAACCC
    AATCCAGTCA TGACCGACAC ACCAATCCCC AGGACCTCCC AAGACATCAC GCCGGTGGAC
    GGCTCCATGG ATCCTATGCT CCAGAGACGC AACTCTTACC GTGGCCATGA ATCAGAGGAC
    AGCATGTCTA CACTGGCAGG CCGTCGGGGG ATGAGACCTA AAATGATGAT GCCCTTTGAT
    GCACAACCCC CTCAGCCTGT GATTAGTGCT CACCCCATCC ATTCCCTCGA TAACCATCAC
    CATCATTATC ACTTGGGCAG CCTGGCCTCG CCGACACGCA GCTATCTCCA CCACCAGAGC
    AGCACGCGCT CCATCGCCAC CCCCATCTCT CATCTAGACA GGGCAGAGTC CACAGAGTCA
    GTAAGGAACA CCCCTAATGC GGAGCTGCTC CCTCCATCTG GGCAGCCATC TTGCACCACT
    GACCTTTCAG AGACGGACAT TAGCTTTCAC AGCTCAGCCG CTGAGGAGGA GCCAGCGTTC
    GCTACACCCA CAGCACACGT TCGACCTACA CACCCACTTA AGAGTTTTGC AGTGCCTGCC
    ATCCCGGCCC ATGCAATGTA TGACTCGGCA GCTTTGCCCA GCACTCCACT GCTGTCTCAG
    ACAGGGCCTC ACTCAGTTAA AACAGCCTCT ATTGGTACAC TGGGAAGGAC GAGAACTCCT
    ATGCCTGTCA TAGTTCCAAA TGCGCCGGAT GTCTCAGAAG GCTGCAGACT TCATGAAGAT
    GCAGGAAGTA ATTACGAGAC GGACGAGTTA TCGGAGGAAA TGGCCCATCT CGAGGGCTTA
    ATGAAGGACC TAAACGCCAT CACAACAGCC TGA

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

    CloneID ODa39591
    Clone ID Related Accession (Same CDS sequence) XM_009303465.3 , XM_009303465.2
    Accession Version XM_009303465.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4350bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product neogenin isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007118.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009303465.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGTG GCCGCTTTGA GATACTCGGC
    GGGGGGAGTC TGCGGATCTT CAATCTCACA GAGGAGGATG CCGGGGTGTA CAACTGTCTC
    GCAGAAAACA CCAATGGGTC CATTGAGGCC CAGGCTGAGC TCACGCTGAA GGATTCTCCA
    CAGTTCCTGA AGAAACCTGT GAATGTGTTT GCTCATGAAG CCACAGACGT CATCTTCGAG
    TGCGAGGTCT CAGGATCACC TTCTCCCACC ATCAAATGGG TGAAAAATGG AGACGCCGTC
    ATCCCAAGCG ATTATTTCAA AATCATTAAG GAGCAGAACC TGCAGGTGTT GGGACTGGTC
    AAGTCAGATG AAGGTTTTTA TCAGTGTTTA GCTGAGAATG ACGCTGGCAA CGTGCAGTCA
    AGTGCTCAGC TCGTCATATT GGATCAAGAT GTAACCCTCC CCTTACCCCG TCCCACCTCA
    CTGACCCGTG CTACTACTGA CCGTCTAATG CCAGGCTCCA GAGGCGGCGC TGGCCCCACG
    CCCTCCGCCC CCCGTGATGT GGTAGCGTCC CTGGTGTCCA CCCGCTTCCT CAAGCTGACC
    TGGCGCCTTC CTGCTGAACC ACACGGAGAC GATGTCACCT ACTCAGTCTA CTACAGCCTG
    GAGGGCACTA ACAGGGAGAG GATCGTAAAC ACCAGTCGTC CAGGAGAAAT GCAAGTCACC
    ATTCAGAACC TCATGCCAGA CACCAAGTAT GCCTTCCGTG TGGTGGCGCA CAACAAAAAC
    GGCCCTGGAG AGAGTTCAGT GCCTCTAAAG GTCGAAACTC AGCCCGAAGT CCAGGTACCT
    GGTCCGGCTC CAAACCTGCA TGCAGTGGTC ATGTCCCCCA GCACTGTCAG TCTCAGCTGG
    GATGTGCCTC TTATAGGCAA TGGTGAGATC CAGAACTACA AGATCTACTA CATGGAGAAG
    GGCATGGACA GTGAACAGGA TCTGGATGTA AACACATTGT CCTACACCAT GACTGGCCTG
    AAGAAGTTCA CGGAGTACAG TTTCAGACTG GTGGCCTATA ACAAACATGG ACCGGGAGTC
    TCCACTGAGG ACATATCAGT GCGCACATAC TCTGATGTCC CCAGCTCTCC TCCGCAGAAC
    ATGACGGTGG AAGTGCTGAA CTCCAAGAGC CTCATGATCA GATGGCAGCC TCCACCAGCC
    GATGCCCAGA ACGGAGAGAT CACAGGCTAC AAGATCCGCT ACAGGAAGGG TACGAGGAAG
    AGCGAGGTGG CGGAGATCAC TTCAGGATCA CAGCTTTATC AGCTCATAGA TGGTTTGCAG
    CGAGGCACTG AATATATGTT GCGAGTATCT GCAATGACGG TCAACGGCAC AGGTCCTGCC
    ACAGACTGGA CCACTGCAGA GACATTCGAA AGCGATCTGG ACGAGTCAAG AGTGCCGGAC
    GTCCCGAGCT CTCTGCATGT TCGTTCTCTG GTCAACAGTA TTGTGGTGAG CTGGACGCCT
    CCAGAGAACC AGGACATCGT GGTGAGGGGT TACAGTATCA GCTATGGGAT TGGCAGTCCT
    CACGCACAGA CCATCAAAGT GGACTACAAG CAGAGATACT ACACCATTGA GAACCTGAAT
    CCCAACTCGC ACTACGTGAT CACGCTGAAG GCCTTCAACA ACGTGGGTGA GGGAATCCCT
    GTGTACGAGA GCGCCATCAC ACGACCACAG TCAGACCCCA TAGACCCTGA CGTTGATTTG
    TACGAACTTT TCCATGCTCC ATACACTCCA GTACCAGACC CTATACCCAT GCTGCCTCCT
    GTGGGCGTTC AGGCATCTGT CCTGAACCAA GACACCATCA AAGTCACCTG GGCGGACAAC
    TCGCTGCCTA AGAACCAGAA GATCACAGAT GCGCGCTACT ATACAGTGCG CTGGAAGACC
    AACATACCCG CAAACACAAA GTTTAAGGTG GCTAATACCA CGACGCTATT TCACACGGTG
    ACGGGTCTTA AACCCAATAC CTTGTATGAG TTTTCGGTTA TGGTGACCAA GGGACGGAGG
    ACCAGTACCT GGAGCATGAC TGCACACGGA ACAACTTTTG AGTCAATCCC AAGTTCTCCA
    CCAAAAGATG TGACTGTAGT GAGCAAAGAG GGACGACCAA AAACCATCAT CGTCAACTGG
    CAGCCGCCAT CAGAAGCCAA TGGCAAAATT ACAGGTTACA TCATTTATTA CAGCACTGAT
    GTGAAGGCAG AGGTTCATGA CTGGGTCATT GAGCCAGTCG TGGGAAACAG GCTAACCCAT
    CAAATTCAGG AGCTGACCCT TGATACCACC TACTACTTTA AGATCCAGGC TCGGAACTCC
    AAGGGCATGG GTCCCATGTC GGAAGCGGTC CAGTTCCGCA CTCCTAAAGC TGAATCCTCT
    GACAAAATGG CTAATGACCA AGCTCCAGGC ATATCTGTGA AACAAGGAAG ACCTTCTGCA
    CCAGATAACG GCTTTGGATC ACCTGGGAAA CCAGACATGT CTGGCACTGG TGATAACCAC
    ATCCTGGTTA TTGTCATCAT TGTGTCCGTG GGTGCTTTTA CCATCATCGT GGTGGTGGTG
    GGCGCCTTCC TTTGTACACG TCGTACCACA ACACAACAGA AAAAGAAAAG GGCCGCCTGC
    AAGTCCGCCA ATGGATCCCA CAAGTATAAG GGCAACTCCA AAGATCTCAA ACCACCAGAC
    CTCTGGATCC ACCATGAACG TTTGGAGCTA AAGCCCATAG ACAAATCACC CGAACCCAAT
    CCAGTCATGA CCGACACACC AATCCCCAGG ACCTCCCAAG ACATCACGCC GGTGGACGGC
    TCCATGGATC CTATGCTCCA GAGACGCAAC TCTTACCGTG GCCATGAATC AGAGGACAGC
    ATGTCTACAC TGGCAGGCCG TCGGGGGATG AGACCTAAAA TGATGATGCC CTTTGATGCA
    CAACCCCCTC AGCCTGTGAT TAGTGCTCAC CCCATCCATT CCCTCGATAA CCATCACCAT
    CATTATCACT TGGGCAGCCT GGCCTCGCCG ACACGCAGCT ATCTCCACCA CCAGAGCAGC
    ACGCGCTCCA TCGCCACCCC CATCTCTCAT CTAGACAGGG CAGAGTCCAC AGAGTCAGTA
    AGGAACACCC CTAATGCGGA GCTGCTCCCT CCATCTGGGC AGCCATCTTG CACCACTGAC
    CTTTCAGAGA CGGACATTAG CTTTCACAGC TCAGCCGCTG AGGAGGAGCC AGCGTTCGCT
    ACACCCACAG CACACGTTCG ACCTACACAC CCACTTAAGA GTTTTGCAGT GCCTGCCATC
    CCGGCCCATG CAATGTATGA CTCGGCAGCT TTGCCCAGCA CTCCACTGCT GTCTCAGACA
    GGGCCTCACT CAGTTAAAAC AGCCTCTATT GGTACACTGG GAAGGACGAG AACTCCTATG
    CCTGTCATAG TTCCAAATGC GCCGGATGTC TCAGAAGGCT GCAGACTTCA TGAAGATGCA
    GGAAGTAATT ACGAGACGGA CGAGTTATCG GAGGAAATGG CCCATCTCGA GGGCTTAATG
    AAGGACCTAA ACGCCATCAC AACAGCCTGA

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

    RefSeq XP_009301740.1
    CDS403..4752
    Translation

    Target ORF information:

    RefSeq Version XM_009303465.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio neogenin 1a (neo1a), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009303465.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGTG GCCGCTTTGA GATACTCGGC
    GGGGGGAGTC TGCGGATCTT CAATCTCACA GAGGAGGATG CCGGGGTGTA CAACTGTCTC
    GCAGAAAACA CCAATGGGTC CATTGAGGCC CAGGCTGAGC TCACGCTGAA GGATTCTCCA
    CAGTTCCTGA AGAAACCTGT GAATGTGTTT GCTCATGAAG CCACAGACGT CATCTTCGAG
    TGCGAGGTCT CAGGATCACC TTCTCCCACC ATCAAATGGG TGAAAAATGG AGACGCCGTC
    ATCCCAAGCG ATTATTTCAA AATCATTAAG GAGCAGAACC TGCAGGTGTT GGGACTGGTC
    AAGTCAGATG AAGGTTTTTA TCAGTGTTTA GCTGAGAATG ACGCTGGCAA CGTGCAGTCA
    AGTGCTCAGC TCGTCATATT GGATCAAGAT GTAACCCTCC CCTTACCCCG TCCCACCTCA
    CTGACCCGTG CTACTACTGA CCGTCTAATG CCAGGCTCCA GAGGCGGCGC TGGCCCCACG
    CCCTCCGCCC CCCGTGATGT GGTAGCGTCC CTGGTGTCCA CCCGCTTCCT CAAGCTGACC
    TGGCGCCTTC CTGCTGAACC ACACGGAGAC GATGTCACCT ACTCAGTCTA CTACAGCCTG
    GAGGGCACTA ACAGGGAGAG GATCGTAAAC ACCAGTCGTC CAGGAGAAAT GCAAGTCACC
    ATTCAGAACC TCATGCCAGA CACCAAGTAT GCCTTCCGTG TGGTGGCGCA CAACAAAAAC
    GGCCCTGGAG AGAGTTCAGT GCCTCTAAAG GTCGAAACTC AGCCCGAAGT CCAGGTACCT
    GGTCCGGCTC CAAACCTGCA TGCAGTGGTC ATGTCCCCCA GCACTGTCAG TCTCAGCTGG
    GATGTGCCTC TTATAGGCAA TGGTGAGATC CAGAACTACA AGATCTACTA CATGGAGAAG
    GGCATGGACA GTGAACAGGA TCTGGATGTA AACACATTGT CCTACACCAT GACTGGCCTG
    AAGAAGTTCA CGGAGTACAG TTTCAGACTG GTGGCCTATA ACAAACATGG ACCGGGAGTC
    TCCACTGAGG ACATATCAGT GCGCACATAC TCTGATGTCC CCAGCTCTCC TCCGCAGAAC
    ATGACGGTGG AAGTGCTGAA CTCCAAGAGC CTCATGATCA GATGGCAGCC TCCACCAGCC
    GATGCCCAGA ACGGAGAGAT CACAGGCTAC AAGATCCGCT ACAGGAAGGG TACGAGGAAG
    AGCGAGGTGG CGGAGATCAC TTCAGGATCA CAGCTTTATC AGCTCATAGA TGGTTTGCAG
    CGAGGCACTG AATATATGTT GCGAGTATCT GCAATGACGG TCAACGGCAC AGGTCCTGCC
    ACAGACTGGA CCACTGCAGA GACATTCGAA AGCGATCTGG ACGAGTCAAG AGTGCCGGAC
    GTCCCGAGCT CTCTGCATGT TCGTTCTCTG GTCAACAGTA TTGTGGTGAG CTGGACGCCT
    CCAGAGAACC AGGACATCGT GGTGAGGGGT TACAGTATCA GCTATGGGAT TGGCAGTCCT
    CACGCACAGA CCATCAAAGT GGACTACAAG CAGAGATACT ACACCATTGA GAACCTGAAT
    CCCAACTCGC ACTACGTGAT CACGCTGAAG GCCTTCAACA ACGTGGGTGA GGGAATCCCT
    GTGTACGAGA GCGCCATCAC ACGACCACAG TCAGACCCCA TAGACCCTGA CGTTGATTTG
    TACGAACTTT TCCATGCTCC ATACACTCCA GTACCAGACC CTATACCCAT GCTGCCTCCT
    GTGGGCGTTC AGGCATCTGT CCTGAACCAA GACACCATCA AAGTCACCTG GGCGGACAAC
    TCGCTGCCTA AGAACCAGAA GATCACAGAT GCGCGCTACT ATACAGTGCG CTGGAAGACC
    AACATACCCG CAAACACAAA GTTTAAGGTG GCTAATACCA CGACGCTATT TCACACGGTG
    ACGGGTCTTA AACCCAATAC CTTGTATGAG TTTTCGGTTA TGGTGACCAA GGGACGGAGG
    ACCAGTACCT GGAGCATGAC TGCACACGGA ACAACTTTTG AGTCAATCCC AAGTTCTCCA
    CCAAAAGATG TGACTGTAGT GAGCAAAGAG GGACGACCAA AAACCATCAT CGTCAACTGG
    CAGCCGCCAT CAGAAGCCAA TGGCAAAATT ACAGGTTACA TCATTTATTA CAGCACTGAT
    GTGAAGGCAG AGGTTCATGA CTGGGTCATT GAGCCAGTCG TGGGAAACAG GCTAACCCAT
    CAAATTCAGG AGCTGACCCT TGATACCACC TACTACTTTA AGATCCAGGC TCGGAACTCC
    AAGGGCATGG GTCCCATGTC GGAAGCGGTC CAGTTCCGCA CTCCTAAAGC TGAATCCTCT
    GACAAAATGG CTAATGACCA AGCTCCAGGC ATATCTGTGA AACAAGGAAG ACCTTCTGCA
    CCAGATAACG GCTTTGGATC ACCTGGGAAA CCAGACATGT CTGGCACTGG TGATAACCAC
    ATCCTGGTTA TTGTCATCAT TGTGTCCGTG GGTGCTTTTA CCATCATCGT GGTGGTGGTG
    GGCGCCTTCC TTTGTACACG TCGTACCACA ACACAACAGA AAAAGAAAAG GGCCGCCTGC
    AAGTCCGCCA ATGGATCCCA CAAGTATAAG GGCAACTCCA AAGATCTCAA ACCACCAGAC
    CTCTGGATCC ACCATGAACG TTTGGAGCTA AAGCCCATAG ACAAATCACC CGAACCCAAT
    CCAGTCATGA CCGACACACC AATCCCCAGG ACCTCCCAAG ACATCACGCC GGTGGACGGC
    TCCATGGATC CTATGCTCCA GAGACGCAAC TCTTACCGTG GCCATGAATC AGAGGACAGC
    ATGTCTACAC TGGCAGGCCG TCGGGGGATG AGACCTAAAA TGATGATGCC CTTTGATGCA
    CAACCCCCTC AGCCTGTGAT TAGTGCTCAC CCCATCCATT CCCTCGATAA CCATCACCAT
    CATTATCACT TGGGCAGCCT GGCCTCGCCG ACACGCAGCT ATCTCCACCA CCAGAGCAGC
    ACGCGCTCCA TCGCCACCCC CATCTCTCAT CTAGACAGGG CAGAGTCCAC AGAGTCAGTA
    AGGAACACCC CTAATGCGGA GCTGCTCCCT CCATCTGGGC AGCCATCTTG CACCACTGAC
    CTTTCAGAGA CGGACATTAG CTTTCACAGC TCAGCCGCTG AGGAGGAGCC AGCGTTCGCT
    ACACCCACAG CACACGTTCG ACCTACACAC CCACTTAAGA GTTTTGCAGT GCCTGCCATC
    CCGGCCCATG CAATGTATGA CTCGGCAGCT TTGCCCAGCA CTCCACTGCT GTCTCAGACA
    GGGCCTCACT CAGTTAAAAC AGCCTCTATT GGTACACTGG GAAGGACGAG AACTCCTATG
    CCTGTCATAG TTCCAAATGC GCCGGATGTC TCAGAAGGCT GCAGACTTCA TGAAGATGCA
    GGAAGTAATT ACGAGACGGA CGAGTTATCG GAGGAAATGG CCCATCTCGA GGGCTTAATG
    AAGGACCTAA ACGCCATCAC AACAGCCTGA

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

    CloneID ODa39591
    Clone ID Related Accession (Same CDS sequence) XM_009303465.3 , XM_009303465.2
    Accession Version XM_009303465.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4350bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product neogenin isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007118.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009303465.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGTG GCCGCTTTGA GATACTCGGC
    GGGGGGAGTC TGCGGATCTT CAATCTCACA GAGGAGGATG CCGGGGTGTA CAACTGTCTC
    GCAGAAAACA CCAATGGGTC CATTGAGGCC CAGGCTGAGC TCACGCTGAA GGATTCTCCA
    CAGTTCCTGA AGAAACCTGT GAATGTGTTT GCTCATGAAG CCACAGACGT CATCTTCGAG
    TGCGAGGTCT CAGGATCACC TTCTCCCACC ATCAAATGGG TGAAAAATGG AGACGCCGTC
    ATCCCAAGCG ATTATTTCAA AATCATTAAG GAGCAGAACC TGCAGGTGTT GGGACTGGTC
    AAGTCAGATG AAGGTTTTTA TCAGTGTTTA GCTGAGAATG ACGCTGGCAA CGTGCAGTCA
    AGTGCTCAGC TCGTCATATT GGATCAAGAT GTAACCCTCC CCTTACCCCG TCCCACCTCA
    CTGACCCGTG CTACTACTGA CCGTCTAATG CCAGGCTCCA GAGGCGGCGC TGGCCCCACG
    CCCTCCGCCC CCCGTGATGT GGTAGCGTCC CTGGTGTCCA CCCGCTTCCT CAAGCTGACC
    TGGCGCCTTC CTGCTGAACC ACACGGAGAC GATGTCACCT ACTCAGTCTA CTACAGCCTG
    GAGGGCACTA ACAGGGAGAG GATCGTAAAC ACCAGTCGTC CAGGAGAAAT GCAAGTCACC
    ATTCAGAACC TCATGCCAGA CACCAAGTAT GCCTTCCGTG TGGTGGCGCA CAACAAAAAC
    GGCCCTGGAG AGAGTTCAGT GCCTCTAAAG GTCGAAACTC AGCCCGAAGT CCAGGTACCT
    GGTCCGGCTC CAAACCTGCA TGCAGTGGTC ATGTCCCCCA GCACTGTCAG TCTCAGCTGG
    GATGTGCCTC TTATAGGCAA TGGTGAGATC CAGAACTACA AGATCTACTA CATGGAGAAG
    GGCATGGACA GTGAACAGGA TCTGGATGTA AACACATTGT CCTACACCAT GACTGGCCTG
    AAGAAGTTCA CGGAGTACAG TTTCAGACTG GTGGCCTATA ACAAACATGG ACCGGGAGTC
    TCCACTGAGG ACATATCAGT GCGCACATAC TCTGATGTCC CCAGCTCTCC TCCGCAGAAC
    ATGACGGTGG AAGTGCTGAA CTCCAAGAGC CTCATGATCA GATGGCAGCC TCCACCAGCC
    GATGCCCAGA ACGGAGAGAT CACAGGCTAC AAGATCCGCT ACAGGAAGGG TACGAGGAAG
    AGCGAGGTGG CGGAGATCAC TTCAGGATCA CAGCTTTATC AGCTCATAGA TGGTTTGCAG
    CGAGGCACTG AATATATGTT GCGAGTATCT GCAATGACGG TCAACGGCAC AGGTCCTGCC
    ACAGACTGGA CCACTGCAGA GACATTCGAA AGCGATCTGG ACGAGTCAAG AGTGCCGGAC
    GTCCCGAGCT CTCTGCATGT TCGTTCTCTG GTCAACAGTA TTGTGGTGAG CTGGACGCCT
    CCAGAGAACC AGGACATCGT GGTGAGGGGT TACAGTATCA GCTATGGGAT TGGCAGTCCT
    CACGCACAGA CCATCAAAGT GGACTACAAG CAGAGATACT ACACCATTGA GAACCTGAAT
    CCCAACTCGC ACTACGTGAT CACGCTGAAG GCCTTCAACA ACGTGGGTGA GGGAATCCCT
    GTGTACGAGA GCGCCATCAC ACGACCACAG TCAGACCCCA TAGACCCTGA CGTTGATTTG
    TACGAACTTT TCCATGCTCC ATACACTCCA GTACCAGACC CTATACCCAT GCTGCCTCCT
    GTGGGCGTTC AGGCATCTGT CCTGAACCAA GACACCATCA AAGTCACCTG GGCGGACAAC
    TCGCTGCCTA AGAACCAGAA GATCACAGAT GCGCGCTACT ATACAGTGCG CTGGAAGACC
    AACATACCCG CAAACACAAA GTTTAAGGTG GCTAATACCA CGACGCTATT TCACACGGTG
    ACGGGTCTTA AACCCAATAC CTTGTATGAG TTTTCGGTTA TGGTGACCAA GGGACGGAGG
    ACCAGTACCT GGAGCATGAC TGCACACGGA ACAACTTTTG AGTCAATCCC AAGTTCTCCA
    CCAAAAGATG TGACTGTAGT GAGCAAAGAG GGACGACCAA AAACCATCAT CGTCAACTGG
    CAGCCGCCAT CAGAAGCCAA TGGCAAAATT ACAGGTTACA TCATTTATTA CAGCACTGAT
    GTGAAGGCAG AGGTTCATGA CTGGGTCATT GAGCCAGTCG TGGGAAACAG GCTAACCCAT
    CAAATTCAGG AGCTGACCCT TGATACCACC TACTACTTTA AGATCCAGGC TCGGAACTCC
    AAGGGCATGG GTCCCATGTC GGAAGCGGTC CAGTTCCGCA CTCCTAAAGC TGAATCCTCT
    GACAAAATGG CTAATGACCA AGCTCCAGGC ATATCTGTGA AACAAGGAAG ACCTTCTGCA
    CCAGATAACG GCTTTGGATC ACCTGGGAAA CCAGACATGT CTGGCACTGG TGATAACCAC
    ATCCTGGTTA TTGTCATCAT TGTGTCCGTG GGTGCTTTTA CCATCATCGT GGTGGTGGTG
    GGCGCCTTCC TTTGTACACG TCGTACCACA ACACAACAGA AAAAGAAAAG GGCCGCCTGC
    AAGTCCGCCA ATGGATCCCA CAAGTATAAG GGCAACTCCA AAGATCTCAA ACCACCAGAC
    CTCTGGATCC ACCATGAACG TTTGGAGCTA AAGCCCATAG ACAAATCACC CGAACCCAAT
    CCAGTCATGA CCGACACACC AATCCCCAGG ACCTCCCAAG ACATCACGCC GGTGGACGGC
    TCCATGGATC CTATGCTCCA GAGACGCAAC TCTTACCGTG GCCATGAATC AGAGGACAGC
    ATGTCTACAC TGGCAGGCCG TCGGGGGATG AGACCTAAAA TGATGATGCC CTTTGATGCA
    CAACCCCCTC AGCCTGTGAT TAGTGCTCAC CCCATCCATT CCCTCGATAA CCATCACCAT
    CATTATCACT TGGGCAGCCT GGCCTCGCCG ACACGCAGCT ATCTCCACCA CCAGAGCAGC
    ACGCGCTCCA TCGCCACCCC CATCTCTCAT CTAGACAGGG CAGAGTCCAC AGAGTCAGTA
    AGGAACACCC CTAATGCGGA GCTGCTCCCT CCATCTGGGC AGCCATCTTG CACCACTGAC
    CTTTCAGAGA CGGACATTAG CTTTCACAGC TCAGCCGCTG AGGAGGAGCC AGCGTTCGCT
    ACACCCACAG CACACGTTCG ACCTACACAC CCACTTAAGA GTTTTGCAGT GCCTGCCATC
    CCGGCCCATG CAATGTATGA CTCGGCAGCT TTGCCCAGCA CTCCACTGCT GTCTCAGACA
    GGGCCTCACT CAGTTAAAAC AGCCTCTATT GGTACACTGG GAAGGACGAG AACTCCTATG
    CCTGTCATAG TTCCAAATGC GCCGGATGTC TCAGAAGGCT GCAGACTTCA TGAAGATGCA
    GGAAGTAATT ACGAGACGGA CGAGTTATCG GAGGAAATGG CCCATCTCGA GGGCTTAATG
    AAGGACCTAA ACGCCATCAC AACAGCCTGA

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

    RefSeq XP_009301740.1
    CDS402..4751
    Translation

    Target ORF information:

    RefSeq Version XM_009303465.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio neogenin 1a (neo1a), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009303465.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGTG GCCGCTTTGA GATACTCGGC
    GGGGGGAGTC TGCGGATCTT CAATCTCACA GAGGAGGATG CCGGGGTGTA CAACTGTCTC
    GCAGAAAACA CCAATGGGTC CATTGAGGCC CAGGCTGAGC TCACGCTGAA GGATTCTCCA
    CAGTTCCTGA AGAAACCTGT GAATGTGTTT GCTCATGAAG CCACAGACGT CATCTTCGAG
    TGCGAGGTCT CAGGATCACC TTCTCCCACC ATCAAATGGG TGAAAAATGG AGACGCCGTC
    ATCCCAAGCG ATTATTTCAA AATCATTAAG GAGCAGAACC TGCAGGTGTT GGGACTGGTC
    AAGTCAGATG AAGGTTTTTA TCAGTGTTTA GCTGAGAATG ACGCTGGCAA CGTGCAGTCA
    AGTGCTCAGC TCGTCATATT GGATCAAGAT GTAACCCTCC CCTTACCCCG TCCCACCTCA
    CTGACCCGTG CTACTACTGA CCGTCTAATG CCAGGCTCCA GAGGCGGCGC TGGCCCCACG
    CCCTCCGCCC CCCGTGATGT GGTAGCGTCC CTGGTGTCCA CCCGCTTCCT CAAGCTGACC
    TGGCGCCTTC CTGCTGAACC ACACGGAGAC GATGTCACCT ACTCAGTCTA CTACAGCCTG
    GAGGGCACTA ACAGGGAGAG GATCGTAAAC ACCAGTCGTC CAGGAGAAAT GCAAGTCACC
    ATTCAGAACC TCATGCCAGA CACCAAGTAT GCCTTCCGTG TGGTGGCGCA CAACAAAAAC
    GGCCCTGGAG AGAGTTCAGT GCCTCTAAAG GTCGAAACTC AGCCCGAAGT CCAGGTACCT
    GGTCCGGCTC CAAACCTGCA TGCAGTGGTC ATGTCCCCCA GCACTGTCAG TCTCAGCTGG
    GATGTGCCTC TTATAGGCAA TGGTGAGATC CAGAACTACA AGATCTACTA CATGGAGAAG
    GGCATGGACA GTGAACAGGA TCTGGATGTA AACACATTGT CCTACACCAT GACTGGCCTG
    AAGAAGTTCA CGGAGTACAG TTTCAGACTG GTGGCCTATA ACAAACATGG ACCGGGAGTC
    TCCACTGAGG ACATATCAGT GCGCACATAC TCTGATGTCC CCAGCTCTCC TCCGCAGAAC
    ATGACGGTGG AAGTGCTGAA CTCCAAGAGC CTCATGATCA GATGGCAGCC TCCACCAGCC
    GATGCCCAGA ACGGAGAGAT CACAGGCTAC AAGATCCGCT ACAGGAAGGG TACGAGGAAG
    AGCGAGGTGG CGGAGATCAC TTCAGGATCA CAGCTTTATC AGCTCATAGA TGGTTTGCAG
    CGAGGCACTG AATATATGTT GCGAGTATCT GCAATGACGG TCAACGGCAC AGGTCCTGCC
    ACAGACTGGA CCACTGCAGA GACATTCGAA AGCGATCTGG ACGAGTCAAG AGTGCCGGAC
    GTCCCGAGCT CTCTGCATGT TCGTTCTCTG GTCAACAGTA TTGTGGTGAG CTGGACGCCT
    CCAGAGAACC AGGACATCGT GGTGAGGGGT TACAGTATCA GCTATGGGAT TGGCAGTCCT
    CACGCACAGA CCATCAAAGT GGACTACAAG CAGAGATACT ACACCATTGA GAACCTGAAT
    CCCAACTCGC ACTACGTGAT CACGCTGAAG GCCTTCAACA ACGTGGGTGA GGGAATCCCT
    GTGTACGAGA GCGCCATCAC ACGACCACAG TCAGACCCCA TAGACCCTGA CGTTGATTTG
    TACGAACTTT TCCATGCTCC ATACACTCCA GTACCAGACC CTATACCCAT GCTGCCTCCT
    GTGGGCGTTC AGGCATCTGT CCTGAACCAA GACACCATCA AAGTCACCTG GGCGGACAAC
    TCGCTGCCTA AGAACCAGAA GATCACAGAT GCGCGCTACT ATACAGTGCG CTGGAAGACC
    AACATACCCG CAAACACAAA GTTTAAGGTG GCTAATACCA CGACGCTATT TCACACGGTG
    ACGGGTCTTA AACCCAATAC CTTGTATGAG TTTTCGGTTA TGGTGACCAA GGGACGGAGG
    ACCAGTACCT GGAGCATGAC TGCACACGGA ACAACTTTTG AGTCAATCCC AAGTTCTCCA
    CCAAAAGATG TGACTGTAGT GAGCAAAGAG GGACGACCAA AAACCATCAT CGTCAACTGG
    CAGCCGCCAT CAGAAGCCAA TGGCAAAATT ACAGGTTACA TCATTTATTA CAGCACTGAT
    GTGAAGGCAG AGGTTCATGA CTGGGTCATT GAGCCAGTCG TGGGAAACAG GCTAACCCAT
    CAAATTCAGG AGCTGACCCT TGATACCACC TACTACTTTA AGATCCAGGC TCGGAACTCC
    AAGGGCATGG GTCCCATGTC GGAAGCGGTC CAGTTCCGCA CTCCTAAAGC TGAATCCTCT
    GACAAAATGG CTAATGACCA AGCTCCAGGC ATATCTGTGA AACAAGGAAG ACCTTCTGCA
    CCAGATAACG GCTTTGGATC ACCTGGGAAA CCAGACATGT CTGGCACTGG TGATAACCAC
    ATCCTGGTTA TTGTCATCAT TGTGTCCGTG GGTGCTTTTA CCATCATCGT GGTGGTGGTG
    GGCGCCTTCC TTTGTACACG TCGTACCACA ACACAACAGA AAAAGAAAAG GGCCGCCTGC
    AAGTCCGCCA ATGGATCCCA CAAGTATAAG GGCAACTCCA AAGATCTCAA ACCACCAGAC
    CTCTGGATCC ACCATGAACG TTTGGAGCTA AAGCCCATAG ACAAATCACC CGAACCCAAT
    CCAGTCATGA CCGACACACC AATCCCCAGG ACCTCCCAAG ACATCACGCC GGTGGACGGC
    TCCATGGATC CTATGCTCCA GAGACGCAAC TCTTACCGTG GCCATGAATC AGAGGACAGC
    ATGTCTACAC TGGCAGGCCG TCGGGGGATG AGACCTAAAA TGATGATGCC CTTTGATGCA
    CAACCCCCTC AGCCTGTGAT TAGTGCTCAC CCCATCCATT CCCTCGATAA CCATCACCAT
    CATTATCACT TGGGCAGCCT GGCCTCGCCG ACACGCAGCT ATCTCCACCA CCAGAGCAGC
    ACGCGCTCCA TCGCCACCCC CATCTCTCAT CTAGACAGGG CAGAGTCCAC AGAGTCAGTA
    AGGAACACCC CTAATGCGGA GCTGCTCCCT CCATCTGGGC AGCCATCTTG CACCACTGAC
    CTTTCAGAGA CGGACATTAG CTTTCACAGC TCAGCCGCTG AGGAGGAGCC AGCGTTCGCT
    ACACCCACAG CACACGTTCG ACCTACACAC CCACTTAAGA GTTTTGCAGT GCCTGCCATC
    CCGGCCCATG CAATGTATGA CTCGGCAGCT TTGCCCAGCA CTCCACTGCT GTCTCAGACA
    GGGCCTCACT CAGTTAAAAC AGCCTCTATT GGTACACTGG GAAGGACGAG AACTCCTATG
    CCTGTCATAG TTCCAAATGC GCCGGATGTC TCAGAAGGCT GCAGACTTCA TGAAGATGCA
    GGAAGTAATT ACGAGACGGA CGAGTTATCG GAGGAAATGG CCCATCTCGA GGGCTTAATG
    AAGGACCTAA ACGCCATCAC AACAGCCTGA

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

    CloneID ODa39592
    Clone ID Related Accession (Same CDS sequence) XM_009303466.2 , XM_009303466.3
    Accession Version XM_009303466.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4320bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product neogenin isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007118.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009303466.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTCCAGGC
    ATATCTGTGA AACAAGGAAG ACCTTCTGCA CCAGATAACG GCTTTGGATC ACCTGGGAAA
    CCAGACATGT CTGGCACTGG TGATAACCAC ATCCTGGTTA TTGTCATCAT TGTGTCCGTG
    GGTGCTTTTA CCATCATCGT GGTGGTGGTG GGCGCCTTCC TTTGTACACG TCGTACCACA
    ACACAACAGA AAAAGAAAAG GGCCGCCTGC AAGTCCGCCA ATGGATCCCA CAAGTATAAG
    GGCAACTCCA AAGATCTCAA ACCACCAGAC CTCTGGATCC ACCATGAACG TTTGGAGCTA
    AAGCCCATAG ACAAATCACC CGAACCCAAT CCAGTCATGA CCGACACACC AATCCCCAGG
    ACCTCCCAAG ACATCACGCC GGTGGACGGC TCCATGGATC CTATGCTCCA GAGACGCAAC
    TCTTACCGTG GCCATGAATC AGAGGACAGC ATGTCTACAC TGGCAGGCCG TCGGGGGATG
    AGACCTAAAA TGATGATGCC CTTTGATGCA CAACCCCCTC AGCCTGTGAT TAGTGCTCAC
    CCCATCCATT CCCTCGATAA CCATCACCAT CATTATCACT TGGGCAGCCT GGCCTCGCCG
    ACACGCAGCT ATCTCCACCA CCAGAGCAGC ACGCGCTCCA TCGCCACCCC CATCTCTCAT
    CTAGACAGGG CAGAGTCCAC AGAGTCAGTA AGGAACACCC CTAATGCGGA GCTGCTCCCT
    CCATCTGGGC AGCCATCTTG CACCACTGAC CTTTCAGAGA CGGACATTAG CTTTCACAGC
    TCAGCCGCTG AGGAGGAGCC AGCGTTCGCT ACACCCACAG CACACGTTCG ACCTACACAC
    CCACTTAAGA GTTTTGCAGT GCCTGCCATC CCGGCCCATG CAATGTATGA CTCGGCAGCT
    TTGCCCAGCA CTCCACTGCT GTCTCAGACA GGGCCTCACT CAGTTAAAAC AGCCTCTATT
    GGTACACTGG GAAGGACGAG AACTCCTATG CCTGTCATAG TTCCAAATGC GCCGGATGTC
    TCAGAAGGCT GCAGACTTCA TGAAGATGCA GGAAGTAATT ACGAGACGGA CGAGTTATCG
    GAGGAAATGG CCCATCTCGA GGGCTTAATG AAGGACCTAA ACGCCATCAC AACAGCCTGA

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

    RefSeq XP_009301741.1
    CDS402..4721
    Translation

    Target ORF information:

    RefSeq Version XM_009303466.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio neogenin 1a (neo1a), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009303466.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTCCAGGC
    ATATCTGTGA AACAAGGAAG ACCTTCTGCA CCAGATAACG GCTTTGGATC ACCTGGGAAA
    CCAGACATGT CTGGCACTGG TGATAACCAC ATCCTGGTTA TTGTCATCAT TGTGTCCGTG
    GGTGCTTTTA CCATCATCGT GGTGGTGGTG GGCGCCTTCC TTTGTACACG TCGTACCACA
    ACACAACAGA AAAAGAAAAG GGCCGCCTGC AAGTCCGCCA ATGGATCCCA CAAGTATAAG
    GGCAACTCCA AAGATCTCAA ACCACCAGAC CTCTGGATCC ACCATGAACG TTTGGAGCTA
    AAGCCCATAG ACAAATCACC CGAACCCAAT CCAGTCATGA CCGACACACC AATCCCCAGG
    ACCTCCCAAG ACATCACGCC GGTGGACGGC TCCATGGATC CTATGCTCCA GAGACGCAAC
    TCTTACCGTG GCCATGAATC AGAGGACAGC ATGTCTACAC TGGCAGGCCG TCGGGGGATG
    AGACCTAAAA TGATGATGCC CTTTGATGCA CAACCCCCTC AGCCTGTGAT TAGTGCTCAC
    CCCATCCATT CCCTCGATAA CCATCACCAT CATTATCACT TGGGCAGCCT GGCCTCGCCG
    ACACGCAGCT ATCTCCACCA CCAGAGCAGC ACGCGCTCCA TCGCCACCCC CATCTCTCAT
    CTAGACAGGG CAGAGTCCAC AGAGTCAGTA AGGAACACCC CTAATGCGGA GCTGCTCCCT
    CCATCTGGGC AGCCATCTTG CACCACTGAC CTTTCAGAGA CGGACATTAG CTTTCACAGC
    TCAGCCGCTG AGGAGGAGCC AGCGTTCGCT ACACCCACAG CACACGTTCG ACCTACACAC
    CCACTTAAGA GTTTTGCAGT GCCTGCCATC CCGGCCCATG CAATGTATGA CTCGGCAGCT
    TTGCCCAGCA CTCCACTGCT GTCTCAGACA GGGCCTCACT CAGTTAAAAC AGCCTCTATT
    GGTACACTGG GAAGGACGAG AACTCCTATG CCTGTCATAG TTCCAAATGC GCCGGATGTC
    TCAGAAGGCT GCAGACTTCA TGAAGATGCA GGAAGTAATT ACGAGACGGA CGAGTTATCG
    GAGGAAATGG CCCATCTCGA GGGCTTAATG AAGGACCTAA ACGCCATCAC AACAGCCTGA

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

    CloneID ODa39592
    Clone ID Related Accession (Same CDS sequence) XM_009303466.2 , XM_009303466.3
    Accession Version XM_009303466.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4320bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product neogenin isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007118.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009303466.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTCCAGGC
    ATATCTGTGA AACAAGGAAG ACCTTCTGCA CCAGATAACG GCTTTGGATC ACCTGGGAAA
    CCAGACATGT CTGGCACTGG TGATAACCAC ATCCTGGTTA TTGTCATCAT TGTGTCCGTG
    GGTGCTTTTA CCATCATCGT GGTGGTGGTG GGCGCCTTCC TTTGTACACG TCGTACCACA
    ACACAACAGA AAAAGAAAAG GGCCGCCTGC AAGTCCGCCA ATGGATCCCA CAAGTATAAG
    GGCAACTCCA AAGATCTCAA ACCACCAGAC CTCTGGATCC ACCATGAACG TTTGGAGCTA
    AAGCCCATAG ACAAATCACC CGAACCCAAT CCAGTCATGA CCGACACACC AATCCCCAGG
    ACCTCCCAAG ACATCACGCC GGTGGACGGC TCCATGGATC CTATGCTCCA GAGACGCAAC
    TCTTACCGTG GCCATGAATC AGAGGACAGC ATGTCTACAC TGGCAGGCCG TCGGGGGATG
    AGACCTAAAA TGATGATGCC CTTTGATGCA CAACCCCCTC AGCCTGTGAT TAGTGCTCAC
    CCCATCCATT CCCTCGATAA CCATCACCAT CATTATCACT TGGGCAGCCT GGCCTCGCCG
    ACACGCAGCT ATCTCCACCA CCAGAGCAGC ACGCGCTCCA TCGCCACCCC CATCTCTCAT
    CTAGACAGGG CAGAGTCCAC AGAGTCAGTA AGGAACACCC CTAATGCGGA GCTGCTCCCT
    CCATCTGGGC AGCCATCTTG CACCACTGAC CTTTCAGAGA CGGACATTAG CTTTCACAGC
    TCAGCCGCTG AGGAGGAGCC AGCGTTCGCT ACACCCACAG CACACGTTCG ACCTACACAC
    CCACTTAAGA GTTTTGCAGT GCCTGCCATC CCGGCCCATG CAATGTATGA CTCGGCAGCT
    TTGCCCAGCA CTCCACTGCT GTCTCAGACA GGGCCTCACT CAGTTAAAAC AGCCTCTATT
    GGTACACTGG GAAGGACGAG AACTCCTATG CCTGTCATAG TTCCAAATGC GCCGGATGTC
    TCAGAAGGCT GCAGACTTCA TGAAGATGCA GGAAGTAATT ACGAGACGGA CGAGTTATCG
    GAGGAAATGG CCCATCTCGA GGGCTTAATG AAGGACCTAA ACGCCATCAC AACAGCCTGA

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

    RefSeq XP_009301741.1
    CDS402..4721
    Translation

    Target ORF information:

    RefSeq Version XM_009303466.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio neogenin 1a (neo1a), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009303466.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTCCAGGC
    ATATCTGTGA AACAAGGAAG ACCTTCTGCA CCAGATAACG GCTTTGGATC ACCTGGGAAA
    CCAGACATGT CTGGCACTGG TGATAACCAC ATCCTGGTTA TTGTCATCAT TGTGTCCGTG
    GGTGCTTTTA CCATCATCGT GGTGGTGGTG GGCGCCTTCC TTTGTACACG TCGTACCACA
    ACACAACAGA AAAAGAAAAG GGCCGCCTGC AAGTCCGCCA ATGGATCCCA CAAGTATAAG
    GGCAACTCCA AAGATCTCAA ACCACCAGAC CTCTGGATCC ACCATGAACG TTTGGAGCTA
    AAGCCCATAG ACAAATCACC CGAACCCAAT CCAGTCATGA CCGACACACC AATCCCCAGG
    ACCTCCCAAG ACATCACGCC GGTGGACGGC TCCATGGATC CTATGCTCCA GAGACGCAAC
    TCTTACCGTG GCCATGAATC AGAGGACAGC ATGTCTACAC TGGCAGGCCG TCGGGGGATG
    AGACCTAAAA TGATGATGCC CTTTGATGCA CAACCCCCTC AGCCTGTGAT TAGTGCTCAC
    CCCATCCATT CCCTCGATAA CCATCACCAT CATTATCACT TGGGCAGCCT GGCCTCGCCG
    ACACGCAGCT ATCTCCACCA CCAGAGCAGC ACGCGCTCCA TCGCCACCCC CATCTCTCAT
    CTAGACAGGG CAGAGTCCAC AGAGTCAGTA AGGAACACCC CTAATGCGGA GCTGCTCCCT
    CCATCTGGGC AGCCATCTTG CACCACTGAC CTTTCAGAGA CGGACATTAG CTTTCACAGC
    TCAGCCGCTG AGGAGGAGCC AGCGTTCGCT ACACCCACAG CACACGTTCG ACCTACACAC
    CCACTTAAGA GTTTTGCAGT GCCTGCCATC CCGGCCCATG CAATGTATGA CTCGGCAGCT
    TTGCCCAGCA CTCCACTGCT GTCTCAGACA GGGCCTCACT CAGTTAAAAC AGCCTCTATT
    GGTACACTGG GAAGGACGAG AACTCCTATG CCTGTCATAG TTCCAAATGC GCCGGATGTC
    TCAGAAGGCT GCAGACTTCA TGAAGATGCA GGAAGTAATT ACGAGACGGA CGAGTTATCG
    GAGGAAATGG CCCATCTCGA GGGCTTAATG AAGGACCTAA ACGCCATCAC AACAGCCTGA

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

    CloneID ODa39594
    Clone ID Related Accession (Same CDS sequence) XM_009303468.3 , XM_009303468.2
    Accession Version XM_009303468.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4101bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product neogenin isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007118.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009303468.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTGAATCC
    TCTGACAAAA TGGCTAATGA CCAAGCTCCA GGCATATCTG TGAAACAAGG AAGACCTTCT
    GCACCAGATA ACGGCTTTGG ATCACCTGGG AAACCAGACA TGTCTGGCAC TGGTGATAAC
    CACATCCTGG TTATTGTCAT CATTGTGTCC GTGGGTGCTT TTACCATCAT CGTGGTGGTG
    GTGGGCGCCT TCCTTTGTAC ACGTCGTACC ACAACACAAC AGAAAAAGAA AAGGGCCGCC
    TGCAAGTCCG CCAATGGATC CCACAAGTAT AAGGGCAACT CCAAAGATCT CAAACCACCA
    GACCTCTGGA TCCACCATGA ACGTTTGGAG CTAAAGCCCA TAGACAAATC ACCCGAACCC
    AATCCAGTCA TGACCGACAC ACCAATCCCC AGGACCTCCC AAGACATCAC GCCGGTGGAC
    GGCTCCATGG ATCCTATGCT CCAGAGACGC AACTCTTACC GTGAGTCAGT AAGGAACACC
    CCTAATGCGG AGCTGCTCCC TCCATCTGGG CAGCCATCTT GCACCACTGA CCTTTCAGAG
    ACGGACATTA GCTTTCACAG CTCAGCCGCT GAGGAGGAGC CAGCGTTCGC TACACCCACA
    GCACACGTTC GACCTACACA CCCACTTAAG AGTTTTGCAG TGCCTGCCAT CCCGGCCCAT
    GCAATGTATG ACTCGGCAGC TTTGCCCAGC ACTCCACTGC TGTCTCAGAC AGGGCCTCAC
    TCAGTTAAAA CAGCCTCTAT TGGTACACTG GGAAGGACGA GAACTCCTAT GCCTGTCATA
    GTTCCAAATG CGCCGGATGT CTCAGAAGGC TGCAGACTTC ATGAAGATGC AGGAAGTAAT
    TACGAGACGG ACGAGTTATC GGAGGAAATG GCCCATCTCG AGGGCTTAAT GAAGGACCTA
    AACGCCATCA CAACAGCCTG A

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

    RefSeq XP_009301743.1
    CDS403..4503
    Translation

    Target ORF information:

    RefSeq Version XM_009303468.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio neogenin 1a (neo1a), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009303468.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTGAATCC
    TCTGACAAAA TGGCTAATGA CCAAGCTCCA GGCATATCTG TGAAACAAGG AAGACCTTCT
    GCACCAGATA ACGGCTTTGG ATCACCTGGG AAACCAGACA TGTCTGGCAC TGGTGATAAC
    CACATCCTGG TTATTGTCAT CATTGTGTCC GTGGGTGCTT TTACCATCAT CGTGGTGGTG
    GTGGGCGCCT TCCTTTGTAC ACGTCGTACC ACAACACAAC AGAAAAAGAA AAGGGCCGCC
    TGCAAGTCCG CCAATGGATC CCACAAGTAT AAGGGCAACT CCAAAGATCT CAAACCACCA
    GACCTCTGGA TCCACCATGA ACGTTTGGAG CTAAAGCCCA TAGACAAATC ACCCGAACCC
    AATCCAGTCA TGACCGACAC ACCAATCCCC AGGACCTCCC AAGACATCAC GCCGGTGGAC
    GGCTCCATGG ATCCTATGCT CCAGAGACGC AACTCTTACC GTGAGTCAGT AAGGAACACC
    CCTAATGCGG AGCTGCTCCC TCCATCTGGG CAGCCATCTT GCACCACTGA CCTTTCAGAG
    ACGGACATTA GCTTTCACAG CTCAGCCGCT GAGGAGGAGC CAGCGTTCGC TACACCCACA
    GCACACGTTC GACCTACACA CCCACTTAAG AGTTTTGCAG TGCCTGCCAT CCCGGCCCAT
    GCAATGTATG ACTCGGCAGC TTTGCCCAGC ACTCCACTGC TGTCTCAGAC AGGGCCTCAC
    TCAGTTAAAA CAGCCTCTAT TGGTACACTG GGAAGGACGA GAACTCCTAT GCCTGTCATA
    GTTCCAAATG CGCCGGATGT CTCAGAAGGC TGCAGACTTC ATGAAGATGC AGGAAGTAAT
    TACGAGACGG ACGAGTTATC GGAGGAAATG GCCCATCTCG AGGGCTTAAT GAAGGACCTA
    AACGCCATCA CAACAGCCTG A

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

    CloneID ODa39594
    Clone ID Related Accession (Same CDS sequence) XM_009303468.3 , XM_009303468.2
    Accession Version XM_009303468.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4101bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product neogenin isoform X6
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007118.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009303468.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTGAATCC
    TCTGACAAAA TGGCTAATGA CCAAGCTCCA GGCATATCTG TGAAACAAGG AAGACCTTCT
    GCACCAGATA ACGGCTTTGG ATCACCTGGG AAACCAGACA TGTCTGGCAC TGGTGATAAC
    CACATCCTGG TTATTGTCAT CATTGTGTCC GTGGGTGCTT TTACCATCAT CGTGGTGGTG
    GTGGGCGCCT TCCTTTGTAC ACGTCGTACC ACAACACAAC AGAAAAAGAA AAGGGCCGCC
    TGCAAGTCCG CCAATGGATC CCACAAGTAT AAGGGCAACT CCAAAGATCT CAAACCACCA
    GACCTCTGGA TCCACCATGA ACGTTTGGAG CTAAAGCCCA TAGACAAATC ACCCGAACCC
    AATCCAGTCA TGACCGACAC ACCAATCCCC AGGACCTCCC AAGACATCAC GCCGGTGGAC
    GGCTCCATGG ATCCTATGCT CCAGAGACGC AACTCTTACC GTGAGTCAGT AAGGAACACC
    CCTAATGCGG AGCTGCTCCC TCCATCTGGG CAGCCATCTT GCACCACTGA CCTTTCAGAG
    ACGGACATTA GCTTTCACAG CTCAGCCGCT GAGGAGGAGC CAGCGTTCGC TACACCCACA
    GCACACGTTC GACCTACACA CCCACTTAAG AGTTTTGCAG TGCCTGCCAT CCCGGCCCAT
    GCAATGTATG ACTCGGCAGC TTTGCCCAGC ACTCCACTGC TGTCTCAGAC AGGGCCTCAC
    TCAGTTAAAA CAGCCTCTAT TGGTACACTG GGAAGGACGA GAACTCCTAT GCCTGTCATA
    GTTCCAAATG CGCCGGATGT CTCAGAAGGC TGCAGACTTC ATGAAGATGC AGGAAGTAAT
    TACGAGACGG ACGAGTTATC GGAGGAAATG GCCCATCTCG AGGGCTTAAT GAAGGACCTA
    AACGCCATCA CAACAGCCTG A

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

    RefSeq XP_009301743.1
    CDS402..4502
    Translation

    Target ORF information:

    RefSeq Version XM_009303468.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio neogenin 1a (neo1a), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009303468.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGCGGAGC GGGGAGCCCG GCTGCTCCTC TCTCTTTTCT GCCTCACGAT CACAGTTTCA 
    CATGCTGAAA AAGGATCAGC AGTGAGGAAC TTCAGCCCAT TCTGGTTCTC CACGGAGCCG
    TCGGATACAC TAGCGGTGCG AGGAGCGCCA GTTCTCCTCA ACTGCTCAGT CCACAGCGAG
    TCTCCTGCCA AGATCGAGTG GAAAAAAGAT GGCTCTTTCC TCAGCCTGGC TTCAGACGAG
    CGCAGACAGG TCCTGGCCGA TGGCTCTCTG CTCATCAGCT CAGTGGTGCA CTCCAAACAC
    AATAAACCCG ATGAGGGGGT TTACCAGTGC GTGGCTACTA TAGACAACCT GGGCACCATC
    ATTAGCCGTA CAGCTAGACT CAACGTAGCA GGTATAGCGC GGTTCCTCAG TCAGCCTGAG
    ATGGCGTCGG TGCGGGTGGG CGACAGTCAA GTGTTGAGCT GTGAAGTCAA CCCAGACCTG
    GTGTCCTTCA TCCGCTGGGA ACAGAATAAA GAGGCGGTGG AGCTGGACCA CAGAGTCTTC
    AGTCTGCCCA GTGGAGCTCT GGTTATCAGT AACGCCACAG AGACAGACGC GGGTCTGTAC
    CGCTGTGTCA TCGACAACGC TGGACCCACC AAGACCAGTG AAGAAGCACA GTTGCACATA
    CTGACAGAAA CGGGTGAGGA AAGGACGCTG GAGTTTCTCC AGGAGCCTCA ACATGTGTCT
    AAACTGGTCG GCGAAAGTGT CCTGCTCCCC TGTGTGGTGA CGGGATATCC CACTCCTGAA
    ATCACATGGA TGTACAAAGA CCAGCTCATT GAGGACAGCA GTGGCCGCTT TGAGATACTC
    GGCGGGGGGA GTCTGCGGAT CTTCAATCTC ACAGAGGAGG ATGCCGGGGT GTACAACTGT
    CTCGCAGAAA ACACCAATGG GTCCATTGAG GCCCAGGCTG AGCTCACGCT GAAGGATTCT
    CCACAGTTCC TGAAGAAACC TGTGAATGTG TTTGCTCATG AAGCCACAGA CGTCATCTTC
    GAGTGCGAGG TCTCAGGATC ACCTTCTCCC ACCATCAAAT GGGTGAAAAA TGGAGACGCC
    GTCATCCCAA GCGATTATTT CAAAATCATT AAGGAGCAGA ACCTGCAGGT GTTGGGACTG
    GTCAAGTCAG ATGAAGGTTT TTATCAGTGT TTAGCTGAGA ATGACGCTGG CAACGTGCAG
    TCAAGTGCTC AGCTCGTCAT ATTGGATCAA GATGTAACCC TCCCCTTACC CCGTCCCACC
    TCACTGACCC GTGCTACTAC TGACCGTCTA ATGCCAGGCT CCAGAGGCGG CGCTGGCCCC
    ACGCCCTCCG CCCCCCGTGA TGTGGTAGCG TCCCTGGTGT CCACCCGCTT CCTCAAGCTG
    ACCTGGCGCC TTCCTGCTGA ACCACACGGA GACGATGTCA CCTACTCAGT CTACTACAGC
    CTGGAGGGCA CTAACAGGGA GAGGATCGTA AACACCAGTC GTCCAGGAGA AATGCAAGTC
    ACCATTCAGA ACCTCATGCC AGACACCAAG TATGCCTTCC GTGTGGTGGC GCACAACAAA
    AACGGCCCTG GAGAGAGTTC AGTGCCTCTA AAGGTCGAAA CTCAGCCCGA AGTCCAGGTA
    CCTGGTCCGG CTCCAAACCT GCATGCAGTG GTCATGTCCC CCAGCACTGT CAGTCTCAGC
    TGGGATGTGC CTCTTATAGG CAATGGTGAG ATCCAGAACT ACAAGATCTA CTACATGGAG
    AAGGGCATGG ACAGTGAACA GGATCTGGAT GTAAACACAT TGTCCTACAC CATGACTGGC
    CTGAAGAAGT TCACGGAGTA CAGTTTCAGA CTGGTGGCCT ATAACAAACA TGGACCGGGA
    GTCTCCACTG AGGACATATC AGTGCGCACA TACTCTGATG TCCCCAGCTC TCCTCCGCAG
    AACATGACGG TGGAAGTGCT GAACTCCAAG AGCCTCATGA TCAGATGGCA GCCTCCACCA
    GCCGATGCCC AGAACGGAGA GATCACAGGC TACAAGATCC GCTACAGGAA GGGTACGAGG
    AAGAGCGAGG TGGCGGAGAT CACTTCAGGA TCACAGCTTT ATCAGCTCAT AGATGGTTTG
    CAGCGAGGCA CTGAATATAT GTTGCGAGTA TCTGCAATGA CGGTCAACGG CACAGGTCCT
    GCCACAGACT GGACCACTGC AGAGACATTC GAAAGCGATC TGGACGAGTC AAGAGTGCCG
    GACGTCCCGA GCTCTCTGCA TGTTCGTTCT CTGGTCAACA GTATTGTGGT GAGCTGGACG
    CCTCCAGAGA ACCAGGACAT CGTGGTGAGG GGTTACAGTA TCAGCTATGG GATTGGCAGT
    CCTCACGCAC AGACCATCAA AGTGGACTAC AAGCAGAGAT ACTACACCAT TGAGAACCTG
    AATCCCAACT CGCACTACGT GATCACGCTG AAGGCCTTCA ACAACGTGGG TGAGGGAATC
    CCTGTGTACG AGAGCGCCAT CACACGACCA CAGTCAGACC CCATAGACCC TGACGTTGAT
    TTGTACGAAC TTTTCCATGC TCCATACACT CCAGTACCAG ACCCTATACC CATGCTGCCT
    CCTGTGGGCG TTCAGGCATC TGTCCTGAAC CAAGACACCA TCAAAGTCAC CTGGGCGGAC
    AACTCGCTGC CTAAGAACCA GAAGATCACA GATGCGCGCT ACTATACAGT GCGCTGGAAG
    ACCAACATAC CCGCAAACAC AAAGTTTAAG GTGGCTAATA CCACGACGCT ATTTCACACG
    GTGACGGGTC TTAAACCCAA TACCTTGTAT GAGTTTTCGG TTATGGTGAC CAAGGGACGG
    AGGACCAGTA CCTGGAGCAT GACTGCACAC GGAACAACTT TTGAGTCAAT CCCAAGTTCT
    CCACCAAAAG ATGTGACTGT AGTGAGCAAA GAGGGACGAC CAAAAACCAT CATCGTCAAC
    TGGCAGCCGC CATCAGAAGC CAATGGCAAA ATTACAGGTT ACATCATTTA TTACAGCACT
    GATGTGAAGG CAGAGGTTCA TGACTGGGTC ATTGAGCCAG TCGTGGGAAA CAGGCTAACC
    CATCAAATTC AGGAGCTGAC CCTTGATACC ACCTACTACT TTAAGATCCA GGCTCGGAAC
    TCCAAGGGCA TGGGTCCCAT GTCGGAAGCG GTCCAGTTCC GCACTCCTAA AGCTGAATCC
    TCTGACAAAA TGGCTAATGA CCAAGCTCCA GGCATATCTG TGAAACAAGG AAGACCTTCT
    GCACCAGATA ACGGCTTTGG ATCACCTGGG AAACCAGACA TGTCTGGCAC TGGTGATAAC
    CACATCCTGG TTATTGTCAT CATTGTGTCC GTGGGTGCTT TTACCATCAT CGTGGTGGTG
    GTGGGCGCCT TCCTTTGTAC ACGTCGTACC ACAACACAAC AGAAAAAGAA AAGGGCCGCC
    TGCAAGTCCG CCAATGGATC CCACAAGTAT AAGGGCAACT CCAAAGATCT CAAACCACCA
    GACCTCTGGA TCCACCATGA ACGTTTGGAG CTAAAGCCCA TAGACAAATC ACCCGAACCC
    AATCCAGTCA TGACCGACAC ACCAATCCCC AGGACCTCCC AAGACATCAC GCCGGTGGAC
    GGCTCCATGG ATCCTATGCT CCAGAGACGC AACTCTTACC GTGAGTCAGT AAGGAACACC
    CCTAATGCGG AGCTGCTCCC TCCATCTGGG CAGCCATCTT GCACCACTGA CCTTTCAGAG
    ACGGACATTA GCTTTCACAG CTCAGCCGCT GAGGAGGAGC CAGCGTTCGC TACACCCACA
    GCACACGTTC GACCTACACA CCCACTTAAG AGTTTTGCAG TGCCTGCCAT CCCGGCCCAT
    GCAATGTATG ACTCGGCAGC TTTGCCCAGC ACTCCACTGC TGTCTCAGAC AGGGCCTCAC
    TCAGTTAAAA CAGCCTCTAT TGGTACACTG GGAAGGACGA GAACTCCTAT GCCTGTCATA
    GTTCCAAATG CGCCGGATGT CTCAGAAGGC TGCAGACTTC ATGAAGATGC AGGAAGTAAT
    TACGAGACGG ACGAGTTATC GGAGGAAATG GCCCATCTCG AGGGCTTAAT GAAGGACCTA
    AACGCCATCA CAACAGCCTG A

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