si:dkey-273o13.3 cDNA ORF clone, Danio rerio(zebrafish)

The following si:dkey-273o13.3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the si:dkey-273o13.3 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
ODa49157 XM_017356203.2
Latest version!
Danio rerio si:dkey-273o13.3 (si:dkey-273o13.3), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
ODa59162 XM_017356203.1
Latest version!
Danio rerio si:dkey-273o13.3 (si:dkey-273o13.3), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID ODa49157
    Clone ID Related Accession (Same CDS sequence) XM_017356203.2
    Accession Version XM_017356203.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4830bp)
    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 LIM domain-containing protein A
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007116.7) 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_017356203.1. ##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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCTCACC ATCAGATACA TCACCACAGT CAACACCATC ATCATCCTCA CCATCAGCGG 
    CGGCACTCGT CTCATCGCCA CCACCATCAT CACCACGACA CACACCATCA GGAGGACCAC
    GAGGAGAAGA GCATTTCAGA TGTCATCAGT GGTCATCATC ATATTCAGGA ACATTATAAC
    CATCGTCACT CCAAAGCAGA CAGCCATCAT CATCATCACC ACCATCAACA GCATCCACAA
    CGTCAGGACA AACGACACAC ACCGAGAAAA AAATCTCACT CCAAAGCTTC AGTGACTTCT
    TCAAACTCTT CTGGGTCTTC CTCTAGTTCC TTGTCAAAGA CTTCAAGCTC GTCCAGTTCT
    GATTCCTCTT CTTCTGAATC CTCTTCCTCC TCCAGTTCCA CTTCGTCTTC CTCTTCTAAA
    TCATATTTTT CCAATTCTAG CTTTTCATCC TCCTCTTCCT CTGGTTCAGG ATCTTCTTGG
    TCATCTGAAA CCAGTGTCGA AAATGTCCCT TTGCCTTCTG GGTCCAAGCG AGATATTCGG
    CGTCCGCAAC ACTCACAGTC ATGTATGGAT ATCAGCAGAG GCAGGAAAGC CTTTGAGGAT
    GATGAAGATG ATGTAGATAC AACGCCTTTA CTGGATGTTG ATTCTGATGA CCATCTCAAG
    AAGTCTACAA GCATGGAAAA GAACATGACC GTCAATGAGA AAAGTGGAGG GACTCTGAAG
    AAGCGTTCTC AACTACAGAA TGAAAAGGGG AATAAGGGGC AAAAACAGAG TCATGCCAAA
    GGAAATCCAA ACATTAGAAA GACCAAATCT ATGGAGGTTC TGTCAAGGCG ACTAGACCAT
    TCTGGTGTTG GAGACTTGGA TGAAAAAGAG CGAGAGAAAA GGAAACAAGA AGCCCATAAG
    ACCTTTGTGA AGGAGAAGAT GAAATTTTCA GCCTTTTTGA ATGAAATCAC TAGGCAGGTG
    CTCAGCCCAT CGAGACTTAC ATCTCTTGGG GTAACAGATG TTCAGAGGCC TTCGAGCCCT
    GGGCAGACTT CAACATCTCC AAAAATATTG TCTCCAAAGC CTGAACACAA AAGAGAAAAG
    AAGTCAAAGA TTACCAGAAG TCGCCCGGGA AGCAGTGCAA GTTCCAGAAC ATCGACTGCC
    CACTCTCATG TAAGCAAGCA TTCACACATC AGTAGGCATT CTCACTCCAG TAAGCGTTCT
    CACTCCAGTA AACACTCCCA TTCCAAAAAG CACTCACATT CAAGAAAAAA CTCCCACTCC
    AACAAGCATT GTTATTCCGA ACGGGACCTA CTTCACCAGC AGCAGCAGCA GCAGCAGTCT
    GCTTCCAGGC ATCGTCACAG CAGTACAAAA AGTGATACAA GCAATGCTAG CTCTTCCTCA
    AAAGGTCTTT CATCTGGGAC TGAACGTGGC CATAAAGGTC AGAAGAAGCA GCAAACGTCC
    CCCAAAGAGC AACATCTCAA TCATCGACAT TCACACCACA AATCCTCTCC ATCTCACCAT
    CATCACAAAG AAGATTGTCA CAGCTCACCT TCATGTCCTC GTTCTCCAGA ATCAGAAAAT
    CATCACCATC GTTCCCATTC AGGCTCTCAT CACCATCATG CCCATCCAGA CTCTCATCAT
    CATCATACCC ATCCAGAATC TCATCACAAT CATACCCATC CAGATTCAGA TCACCATCAT
    TCCCATCCAG TCTCTCAACT CCACCATTCT CATCCAGACT CCCATCACGC TCATACCCTT
    CCAGACTCTC ATCACCATCA TACCCATCCA GATTCAGACC ACCATCATTC CCGTCCAGAC
    TCTCAACACC ATCATTCCCA TCCAGACTCC CATCACCATC ATTCTCATTC AGACTCTCAT
    CACCATCATA CCCATTCAAA CACCCATCAC CATCATTCCC ATCCAGATTC AGACCACCAT
    CATTTCTATC CAGACTCTCA TCATCCTCAT ACCCATCCAG ACTCTCATGA CCATCATTCC
    TATCCAGACT CTCATCACTC TCATACCCAT CCAGACTCTC ATGACCATCA TTCCTATCCA
    GACTCTCATC TCTCTCATAC CCATCCAGAT TCTCATGACC ATCATACCCA TCCAGATTCA
    GACCACCATC AATCTCATTC AGACTCTCAA CACCACCATA CCCACCCAGA CTCTCATCAC
    CATCATTCCC ACCCAGACTC CCATCACCAT CATTCCCACC CAGACTCTCA TCACCATCAT
    TCCCATCCAG ACTCCTATCA CCATCATTCC CACCCAGACT CCCATCACCA TCATTCCCAT
    TCAGACTCTC ATCAACATCC CTCACCATCA TCACATCACC ACCATGAAAC TCATCATGAC
    CCATCACCTC ACTCTCATTC TCCTCATTCA GATTCCCATC ATCATTTACA TTCTCCATCA
    CAATACCATC AGGGAGCTCA GCACAGCCCA ACACACACCT CTAACTCAGA ATTACAAACT
    TATCATCATC ATCACTCACC TTCACCTCCA CATCACCACC ATGAAAGTCA CCATACCTCA
    GCTTCACACC ATAGTTCCAC CTATTCAGAA ACTACCCACC ATCATTCCCA TCCAAAATCT
    CACCGTTCTT ATTCACCACC CCCTCCTCTA CACCACCACA GAGAGCATGG AAGTATATCT
    CAACTCTCTA ACAATTCAGA AACTCACCAT CAGTCTGATT ATGAGTCCAC TCATCTCAAA
    TCTCAAAACC ATCATCATGC TCATCCTAAT CACTCCAACC CTCATCGCAC TTCAATTTCA
    GAACCAGAGC TCCATCATTT TCACAATGAT CCCCCCACTG AAACTCGCCA ACATTCTCAT
    AGCGCTTTAC CAGTTAACCA TTACCATTCC TCTCAAAGAG ACTCTCACCA TAATCTTCAC
    CACCATCACT TGTCTGATGG TTATCTAAAA AGCCCTGCTC ACTCTAATTC GCACCATCTT
    TACGAAAGTC ATCCCAACAC ACATTTTGAC GTCCAAGATC ACAGGCTATC ACAATCTAAA
    GGACATGTTT CCCATTTAGA ATTCCACCAC AGTGATAATA ATAATCCTCC AGAGTCTCAC
    CATTTTCACT CAGAAAGTCA CGATAAATCT CAAGTAGATA CTGATCATTG CACAAATCAC
    CACAAATCTC AAGATTCTCA CCATCCCTCC TTTTCTCATC ACCACTCTAG TTCAGATTCT
    AACCATCCTC AACATCTCAA GTATTCGGAA ACTCATCATT CCCAATTAGA ATCCCACCAT
    CACAATTCCC ACAATCACAA CACATCACTC TCTAAAGGAC ACCTTTCCCA TTTGGAGTTT
    CACCAACACC ACAGTGATCA CAACCCTTCG GAATCTCACC CTCAGATTTT ACACTGGGCA
    AGTCATGATA ACCCCTCTGA TGAATCAGAT CTTTACCATC ACCACAAATC TCAGGACTCT
    CATAATCTTT CCCATTCCAA TTTCCATCAA ATTTCCAACA TAGAGTCTAA CCATCCAGAG
    CACCACAAGC ATTCAGAATC TCATCACCAT TCCCAACCAG AGACCCAACA CCATCATCAT
    TACCACGATG ATGATCACCA AAGCCATCTT CGCCACTCGC CAGTTGGCCA GCGATCTACT
    TCTCCACATT CTACCAAGTC AGATTCTTCC GCCAGCTCCA CTATCCAGGA TGACCAGTCC
    ACAGTGAGCT ACCAAGAGCC ATCCTCATTT CCAAAGGGAA CCCACCCAGA ATTGGAGAAG
    TTAATGATGT TACAGGAACA GAATGAGGTT CTCCACCACA GCTTACTGCA GACCACTGTG
    CGCATGGAAT GTATGGGAGC TGAGTTCAAA ACTGGCCACC AGCTCCTTGA GTCTGAGCTA
    CAGAGAACTC GCATTGAGCT TACTAGCCTA ATGGATCGGT TCACAAGACT TCATGATAAC
    TACTCCTGCA CACAGCAAAC CAACCACCTG CTGGAGAAAA AACTGCATTG TGTGGCACAG
    AGTATGGATG GAGAGCGTGA ACGGCTGAAT CAGCGAATCT CAGAGCTCAC AGATCAACTG
    TCTACAGCAA AGACCACCAT CCAGGGTCTA GAGACTATTG ATGTGACATC AGCGCTACAG
    TCTGACGATG ACAAAACTCC ACTTCCAGTC GCACCACCTC CAGCTCAGTT CATGGACACT
    GATCACTATG ACAAAGTCTC CATGCGCGCC GATGACGGCC AATCACTGGG AACTCTTCCA
    GAGGAGGAGG AATCCGATTG GTCAGAAATG GGAGAAGAGG CGATCTTGAG AAATTCGCAA
    GGAAATCATG CGAATGCCTC GTATTTCCAG TGGCAGCAGA GGCAAGGCGG ATGGGACGGG
    ATGAATCAGT ATTCCAGGGG CATCATTGTG GATACAGAGA GTGAATCTGG CGGTGAGGAA
    AGTAAATGTC TTCCTCCTCA TGGCCTACAG ATACCACATC TCAAGTTCAC CGTACACCCT
    GAAACCTTAC CGGTTCCCAT CACTGATGCC AGCCTGGCCC GCTTTAAGCA GAATCCAGAT
    GGTCCAGCCT TTGAGATCAC TGAAGTGCGG AGTCTGGGAT CTCCCATTCG TGTACTTTCC
    GCTAGTCTGG AGGAGATCCA CTCGATTGGG CGTCTGGAGC AGCAGGAGCA GGATCATATT
    GTCCAGCTGA GGAGCAATAA ATCCATGATG GATCTCCACC ACTCACAGGC TGGCACCAGA
    CAGGTTTTGT ATGAGGATGA GATTGTCGGC AATTGGAGAG ATGCGAACAG CCATGCTGTA
    GTAGAGGATA TTAACGGGTT GGTTGGTCTA GAGTCTGCTC AGAAAATGCT CAACCACTTT
    ATTCACGATG GGGAGAGCAC TCACTTGTGA

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

    RefSeq XP_017211692.2
    CDS280..5109
    Translation

    Target ORF information:

    RefSeq Version XM_017356203.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio si:dkey-273o13.3 (si:dkey-273o13.3), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017356203.2

    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
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCTCACC ATCAGATACA TCACCACAGT CAACACCATC ATCATCCTCA CCATCAGCGG 
    CGGCACTCGT CTCATCGCCA CCACCATCAT CACCACGACA CACACCATCA GGAGGACCAC
    GAGGAGAAGA GCATTTCAGA TGTCATCAGT GGTCATCATC ATATTCAGGA ACATTATAAC
    CATCGTCACT CCAAAGCAGA CAGCCATCAT CATCATCACC ACCATCAACA GCATCCACAA
    CGTCAGGACA AACGACACAC ACCGAGAAAA AAATCTCACT CCAAAGCTTC AGTGACTTCT
    TCAAACTCTT CTGGGTCTTC CTCTAGTTCC TTGTCAAAGA CTTCAAGCTC GTCCAGTTCT
    GATTCCTCTT CTTCTGAATC CTCTTCCTCC TCCAGTTCCA CTTCGTCTTC CTCTTCTAAA
    TCATATTTTT CCAATTCTAG CTTTTCATCC TCCTCTTCCT CTGGTTCAGG ATCTTCTTGG
    TCATCTGAAA CCAGTGTCGA AAATGTCCCT TTGCCTTCTG GGTCCAAGCG AGATATTCGG
    CGTCCGCAAC ACTCACAGTC ATGTATGGAT ATCAGCAGAG GCAGGAAAGC CTTTGAGGAT
    GATGAAGATG ATGTAGATAC AACGCCTTTA CTGGATGTTG ATTCTGATGA CCATCTCAAG
    AAGTCTACAA GCATGGAAAA GAACATGACC GTCAATGAGA AAAGTGGAGG GACTCTGAAG
    AAGCGTTCTC AACTACAGAA TGAAAAGGGG AATAAGGGGC AAAAACAGAG TCATGCCAAA
    GGAAATCCAA ACATTAGAAA GACCAAATCT ATGGAGGTTC TGTCAAGGCG ACTAGACCAT
    TCTGGTGTTG GAGACTTGGA TGAAAAAGAG CGAGAGAAAA GGAAACAAGA AGCCCATAAG
    ACCTTTGTGA AGGAGAAGAT GAAATTTTCA GCCTTTTTGA ATGAAATCAC TAGGCAGGTG
    CTCAGCCCAT CGAGACTTAC ATCTCTTGGG GTAACAGATG TTCAGAGGCC TTCGAGCCCT
    GGGCAGACTT CAACATCTCC AAAAATATTG TCTCCAAAGC CTGAACACAA AAGAGAAAAG
    AAGTCAAAGA TTACCAGAAG TCGCCCGGGA AGCAGTGCAA GTTCCAGAAC ATCGACTGCC
    CACTCTCATG TAAGCAAGCA TTCACACATC AGTAGGCATT CTCACTCCAG TAAGCGTTCT
    CACTCCAGTA AACACTCCCA TTCCAAAAAG CACTCACATT CAAGAAAAAA CTCCCACTCC
    AACAAGCATT GTTATTCCGA ACGGGACCTA CTTCACCAGC AGCAGCAGCA GCAGCAGTCT
    GCTTCCAGGC ATCGTCACAG CAGTACAAAA AGTGATACAA GCAATGCTAG CTCTTCCTCA
    AAAGGTCTTT CATCTGGGAC TGAACGTGGC CATAAAGGTC AGAAGAAGCA GCAAACGTCC
    CCCAAAGAGC AACATCTCAA TCATCGACAT TCACACCACA AATCCTCTCC ATCTCACCAT
    CATCACAAAG AAGATTGTCA CAGCTCACCT TCATGTCCTC GTTCTCCAGA ATCAGAAAAT
    CATCACCATC GTTCCCATTC AGGCTCTCAT CACCATCATG CCCATCCAGA CTCTCATCAT
    CATCATACCC ATCCAGAATC TCATCACAAT CATACCCATC CAGATTCAGA TCACCATCAT
    TCCCATCCAG TCTCTCAACT CCACCATTCT CATCCAGACT CCCATCACGC TCATACCCTT
    CCAGACTCTC ATCACCATCA TACCCATCCA GATTCAGACC ACCATCATTC CCGTCCAGAC
    TCTCAACACC ATCATTCCCA TCCAGACTCC CATCACCATC ATTCTCATTC AGACTCTCAT
    CACCATCATA CCCATTCAAA CACCCATCAC CATCATTCCC ATCCAGATTC AGACCACCAT
    CATTTCTATC CAGACTCTCA TCATCCTCAT ACCCATCCAG ACTCTCATGA CCATCATTCC
    TATCCAGACT CTCATCACTC TCATACCCAT CCAGACTCTC ATGACCATCA TTCCTATCCA
    GACTCTCATC TCTCTCATAC CCATCCAGAT TCTCATGACC ATCATACCCA TCCAGATTCA
    GACCACCATC AATCTCATTC AGACTCTCAA CACCACCATA CCCACCCAGA CTCTCATCAC
    CATCATTCCC ACCCAGACTC CCATCACCAT CATTCCCACC CAGACTCTCA TCACCATCAT
    TCCCATCCAG ACTCCTATCA CCATCATTCC CACCCAGACT CCCATCACCA TCATTCCCAT
    TCAGACTCTC ATCAACATCC CTCACCATCA TCACATCACC ACCATGAAAC TCATCATGAC
    CCATCACCTC ACTCTCATTC TCCTCATTCA GATTCCCATC ATCATTTACA TTCTCCATCA
    CAATACCATC AGGGAGCTCA GCACAGCCCA ACACACACCT CTAACTCAGA ATTACAAACT
    TATCATCATC ATCACTCACC TTCACCTCCA CATCACCACC ATGAAAGTCA CCATACCTCA
    GCTTCACACC ATAGTTCCAC CTATTCAGAA ACTACCCACC ATCATTCCCA TCCAAAATCT
    CACCGTTCTT ATTCACCACC CCCTCCTCTA CACCACCACA GAGAGCATGG AAGTATATCT
    CAACTCTCTA ACAATTCAGA AACTCACCAT CAGTCTGATT ATGAGTCCAC TCATCTCAAA
    TCTCAAAACC ATCATCATGC TCATCCTAAT CACTCCAACC CTCATCGCAC TTCAATTTCA
    GAACCAGAGC TCCATCATTT TCACAATGAT CCCCCCACTG AAACTCGCCA ACATTCTCAT
    AGCGCTTTAC CAGTTAACCA TTACCATTCC TCTCAAAGAG ACTCTCACCA TAATCTTCAC
    CACCATCACT TGTCTGATGG TTATCTAAAA AGCCCTGCTC ACTCTAATTC GCACCATCTT
    TACGAAAGTC ATCCCAACAC ACATTTTGAC GTCCAAGATC ACAGGCTATC ACAATCTAAA
    GGACATGTTT CCCATTTAGA ATTCCACCAC AGTGATAATA ATAATCCTCC AGAGTCTCAC
    CATTTTCACT CAGAAAGTCA CGATAAATCT CAAGTAGATA CTGATCATTG CACAAATCAC
    CACAAATCTC AAGATTCTCA CCATCCCTCC TTTTCTCATC ACCACTCTAG TTCAGATTCT
    AACCATCCTC AACATCTCAA GTATTCGGAA ACTCATCATT CCCAATTAGA ATCCCACCAT
    CACAATTCCC ACAATCACAA CACATCACTC TCTAAAGGAC ACCTTTCCCA TTTGGAGTTT
    CACCAACACC ACAGTGATCA CAACCCTTCG GAATCTCACC CTCAGATTTT ACACTGGGCA
    AGTCATGATA ACCCCTCTGA TGAATCAGAT CTTTACCATC ACCACAAATC TCAGGACTCT
    CATAATCTTT CCCATTCCAA TTTCCATCAA ATTTCCAACA TAGAGTCTAA CCATCCAGAG
    CACCACAAGC ATTCAGAATC TCATCACCAT TCCCAACCAG AGACCCAACA CCATCATCAT
    TACCACGATG ATGATCACCA AAGCCATCTT CGCCACTCGC CAGTTGGCCA GCGATCTACT
    TCTCCACATT CTACCAAGTC AGATTCTTCC GCCAGCTCCA CTATCCAGGA TGACCAGTCC
    ACAGTGAGCT ACCAAGAGCC ATCCTCATTT CCAAAGGGAA CCCACCCAGA ATTGGAGAAG
    TTAATGATGT TACAGGAACA GAATGAGGTT CTCCACCACA GCTTACTGCA GACCACTGTG
    CGCATGGAAT GTATGGGAGC TGAGTTCAAA ACTGGCCACC AGCTCCTTGA GTCTGAGCTA
    CAGAGAACTC GCATTGAGCT TACTAGCCTA ATGGATCGGT TCACAAGACT TCATGATAAC
    TACTCCTGCA CACAGCAAAC CAACCACCTG CTGGAGAAAA AACTGCATTG TGTGGCACAG
    AGTATGGATG GAGAGCGTGA ACGGCTGAAT CAGCGAATCT CAGAGCTCAC AGATCAACTG
    TCTACAGCAA AGACCACCAT CCAGGGTCTA GAGACTATTG ATGTGACATC AGCGCTACAG
    TCTGACGATG ACAAAACTCC ACTTCCAGTC GCACCACCTC CAGCTCAGTT CATGGACACT
    GATCACTATG ACAAAGTCTC CATGCGCGCC GATGACGGCC AATCACTGGG AACTCTTCCA
    GAGGAGGAGG AATCCGATTG GTCAGAAATG GGAGAAGAGG CGATCTTGAG AAATTCGCAA
    GGAAATCATG CGAATGCCTC GTATTTCCAG TGGCAGCAGA GGCAAGGCGG ATGGGACGGG
    ATGAATCAGT ATTCCAGGGG CATCATTGTG GATACAGAGA GTGAATCTGG CGGTGAGGAA
    AGTAAATGTC TTCCTCCTCA TGGCCTACAG ATACCACATC TCAAGTTCAC CGTACACCCT
    GAAACCTTAC CGGTTCCCAT CACTGATGCC AGCCTGGCCC GCTTTAAGCA GAATCCAGAT
    GGTCCAGCCT TTGAGATCAC TGAAGTGCGG AGTCTGGGAT CTCCCATTCG TGTACTTTCC
    GCTAGTCTGG AGGAGATCCA CTCGATTGGG CGTCTGGAGC AGCAGGAGCA GGATCATATT
    GTCCAGCTGA GGAGCAATAA ATCCATGATG GATCTCCACC ACTCACAGGC TGGCACCAGA
    CAGGTTTTGT ATGAGGATGA GATTGTCGGC AATTGGAGAG ATGCGAACAG CCATGCTGTA
    GTAGAGGATA TTAACGGGTT GGTTGGTCTA GAGTCTGCTC AGAAAATGCT CAACCACTTT
    ATTCACGATG GGGAGAGCAC TCACTTGTGA

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

    CloneID ODa59162
    Clone ID Related Accession (Same CDS sequence) XM_017356203.1
    Accession Version XM_017356203.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4266bp)
    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 LIM domain-containing protein A
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007116.6) 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## ##RefSeq-Attributes-START## ab initio :: 28% of CDS bases ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGATATCA GCAGAGGCAG GAAAGCCTTT GAGGATGATG AAGATGATGT AGATACAACG 
    CCTTTACTGG ATGTTGATTC TGATGACCAT CTCAAGAAGT CTACAAGCAT GGAAAAGAAC
    ATGACCGTCA ATGAGAAAAG TGGAGGGACT CTGAAGAAGC GTTCTCAACT ACAGAATGAA
    AAGGGGAATA AGGGGCAAAA ACAGAGTCAT GCCAAAGGAA ATCCAAACAT TAGAAAGACC
    AAATCTATGG AGGTTCTGTC AAGGCGACTA GACCATTCTG GTGTTGGAGA CTTGGATGAA
    AAAGAGCGAG AGAAAAGGAA ACAAGAAGCC CATAAGACCT TTGTGAAGGA GAAGATGAAA
    TTTTCAGCCT TTTTGAATGA AATCACTAGG CAGGTGCTCA GCCCATCGAG ACTTACATCT
    CTTGGGGTAA CAGATGTTCA GAGGCCTTCG AGCCCTGGGC AGACTTCAAC ATCTCCAAAA
    ATATTGTCTC CAAAGCCTGA ACACAAAAGA GAAAAGAAGT CAAAGATTAC CAGAAGTCGC
    CCGGGAAGCA GTGCAAGTTC CAGAACATCG ACTGCCCACT CTCATGTAAG CAAGCATTCA
    CACATCAGTA GGCATTCTCA CTCCAGTAAG CGTTCTCACT CCAGTAAACA CTCCCATTCC
    AAAAAGCACT CACATTCAAG AAAAAACTCC CACTCCAACA AGCATTGTTA TTCCGAACGG
    GACCTACTTC ACCAGCAGCA GCAGCAGCAG CAGTCTGCTT CCAGGCATCG TCACAGCAGT
    ACAAAAAGTG ATACAAGCAA TGCTAGCTCT TCCTCAAAAG GTCTTTCATC TGGGACTGAA
    CGTGGCCATA AAGGTCAGAA GAAGCAGCAA ACGTCCCCCA AAGAGCAACA TCTCAATCAT
    CGACATTCAC ACCACAAATC CTCTCCATCT CACCATCATC ACAAAGAAGA TTGTCACAGC
    TCACCTTCAT GTCCTCGTTC TCCAGAATCA GAAAATCATC ACCATCGTTC CCATTCAGGC
    TCTCATCACC ATCATGCCCA TCCAGACTCT CATCATCATC ATACCCATCC AGAATCTCAT
    CACAATCATA CCCATCCAGA TTCAGATCAC CATCATTCCC ATCCAGTCTC TCAACTCCAC
    CATTCTCATC CAGACTCCCA TCACGCTCAT ACCCTTCCAG ACTCTCATCA CCATCATACC
    CATCCAGATT CAGACCACCA TCATTCCCGT CCAGACTCTC AACACCATCA TTCCCATCCA
    GACTCCCATC ACCATCATTC TCATTCAGAC TCTCATCACC ATCATACCCA TTCAAACACC
    CATCACCATC ATTCCCATCC AGATTCAGAC CACCATCATT TCTATCCAGA CTCTCATCAT
    CCTCATACCC ATCCAGACTC TCATGACCAT CATTCCTATC CAGACTCTCA TCACTCTCAT
    ACCCATCCAG ACTCTCATGA CCATCATTCC TATCCAGACT CTCATCTCTC TCATACCCAT
    CCAGATTCTC ATGACCATCA TACCCATCCA GATTCAGACC ACCATCAATC TCATTCAGAC
    TCTCAACACC ACCATACCCA CCCAGACTCT CATCACCATC ATTCCCACCC AGACTCCCAT
    CACCATCATT CCCACCCAGA CTCTCATCAC CATCATTCCC ATCCAGACTC CTATCACCAT
    CATTCCCACC CAGACTCCCA TCACCATCAT TCCCATTCAG ACTCTCATCA ACATCCCTCA
    CCATCATCAC ATCACCACCA TGAAACTCAT CATGACCCAT CACCTCACTC TCATTCTCCT
    CATTCAGATT CCCATCATCA TTTACATTCT CCATCACAAT ACCATCAGGG AGCTCAGCAC
    AGCCCAACAC ACACCTCTAA CTCAGAATTA CAAACTTATC ATCATCATCA CTCACCTTCA
    CCTCCACATC ACCACCATGA AAGTCACCAT ACCTCAGCTT CACACCATAG TTCCACCTAT
    TCAGAAACTA CCCACCATCA TTCCCATCCA AAATCTCACC GTTCTTATTC ACCACCCCCT
    CCTCTACACC ACCACAGAGA GCATGGAAGT ATATCTCAAC TCTCTAACAA TTCAGAAACT
    CACCATCAGT CTGATTATGA GTCCACTCAT CTCAAATCTC AAAACCATCA TCATGCTCAT
    CCTAATCACT CCAACCCTCA TCGCACTTCA ATTTCAGAAC CAGAGCTCCA TCATTTTCAC
    AATGATCCCC CCACTGAAAC TCGCCAACAT TCTCATAGCG CTTTACCAGT TAACCATTAC
    CATTCCTCTC AAAGAGACTC TCACCATAAT CTTCACCACC ATCACTTGTC TGATGGTTAT
    CTAAAAAGCC CTGCTCACTC TAATTCGCAC CATCTTTACG AAAGTCATCC CAACACACAT
    TTTGACGTCC AAGATCACAG GCTATCACAA TCTAAAGGAC ATGTTTCCCA TTTAGAATTC
    CACCACAGTG ATAATAATAA TCCTCCAGAG TCTCACCATT TTCACTCAGA AAGTCACGAT
    AAATCTCAAG TAGATACTGA TCATTGCACA AATCACCACA AATCTCAAGA TTCTCACCAT
    CCCTCCTTTT CTCATCACCA CTCTAGTTCA GATTCTAACC ATCCTCAACA TCTCAAGTAT
    TCGGAAACTC ATCATTCCCA ATTAGAATCC CACCATCACA ATTCCCACAA TCACAACACA
    TCACTCTCTA AAGGACACCT TTCCCATTTG GAGTTTCACC AACACCACAG TGATCACAAC
    CCTTCGGAAT CTCACCCTCA GATTTTACAC TGGGCAAGTC ATGATAACCC CTCTGATGAA
    TCAGATCTTT ACCATCACCA CAAATCTCAG GACTCTCATA ATCTTTCCCA TTCCAATTTC
    CATCAAATTT CCAACATAGA GTCTAACCAT CCAGAGCACC ACAAGCATTC AGAATCTCAT
    CACCATTCCC AACCAGAGAC CCAACACCAT CATCATTACC ACGATGATGA TCACCAAAGC
    CATCTTCGCC ACTCGCCAGT TGGCCAGCGA TCTACTTCTC CACATTCTAC CAAGTCAGAT
    TCTTCCGCCA GCTCCACTAT CCAGGATGAC CAGTCCACAG TGAGCTACCA AGAGCCATCC
    TCATTTCCAA AGGGAACCCA CCCAGAATTG GAGAAGTTAA TGATGTTACA GGAACAGAAT
    GAGGTTCTCC ACCACAGCTT ACTGCAGACC ACTGTGCGCA TGGAATGTAT GGGAGCTGAG
    TTCAAAACTG GCCACCAGCT CCTTGAGTCT GAGCTACAGA GAACTCGCAT TGAGCTTACT
    AGCCTAATGG ATCGGTTCAC AAGACTTCAT GATAACTACT CCTGCACACA GCAAACCAAC
    CACCTGCTGG AGAAAAAACT GCATTGTGTG GCACAGAGTA TGGATGGAGA GCGTGAACGG
    CTGAATCAGC GAATCTCAGA GCTCACAGAT CAACTGTCTA CAGCAAAGAC CACCATCCAG
    GGTCTAGAGA CTATTGATGT GACATCAGCG CTACAGTCTG ACGATGACAA AACTCCACTT
    CCAGTCGCAC CACCTCCAGC TCAGTTCATG GACACTGATC ACTATGACAA AGTCTCCATG
    CGCGCCGATG ACGGCCAATC ACTGGGAACT CTTCCAGAGG AGGAGGAATC CGATTGGTCA
    GAAATGGGAG AAGAGGCGAT CTTGAGAAAT TCGCAAGGAA ATCATGCGAA TGCCTCGTAT
    TTCCAGTGGC AGCAGAGGCA AGGCGGATGG GACGGGATGA ATCAGTATTC CAGGGGCATC
    ATTGTGGATA CAGAGAGTGA ATCTGGCGGT GAGGAAAGTA AATGTCTTCC TCCTCATGGC
    CTACAGATAC CACATCTCAA GTTCACCGTA CACCCTGAAA CCTTACCGGT TCCCATCACT
    GATGCCAGCC TGGCCCGCTT TAAGCAGAAT CCAGATGGTC CAGCCTTTGA GATCACTGAA
    GTGCGGAGTC TGGGATCTCC CATTCGTGTA CTTTCCGCTA GTCTGGAGGA GATCCACTCG
    ATTGGGCGTC TGGAGCAGCA GGAGCAGGAT CATATTGTCC AGCTGAGGAG CAATAAATCC
    ATGATGGATC TCCACCACTC ACAGGCTGGC ACCAGACAGG TTTTGTATGA GGATGAGATT
    GTCGGCAATT GGAGAGATGC GAACAGCCAT GCTGTAGTAG AGGATATTAA CGGGTTGGTT
    GGTCTAGAGT CTGCTCAGAA AATGCTCAAC CACTTTATTC ACGATGGGGA GAGCACTCAC
    TTGTGA

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

    RefSeq XP_017211692.1
    CDS1..4266
    Translation

    Target ORF information:

    RefSeq Version XM_017356203.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio si:dkey-273o13.3 (si:dkey-273o13.3), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017356203.1

    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
    ATGGATATCA GCAGAGGCAG GAAAGCCTTT GAGGATGATG AAGATGATGT AGATACAACG 
    CCTTTACTGG ATGTTGATTC TGATGACCAT CTCAAGAAGT CTACAAGCAT GGAAAAGAAC
    ATGACCGTCA ATGAGAAAAG TGGAGGGACT CTGAAGAAGC GTTCTCAACT ACAGAATGAA
    AAGGGGAATA AGGGGCAAAA ACAGAGTCAT GCCAAAGGAA ATCCAAACAT TAGAAAGACC
    AAATCTATGG AGGTTCTGTC AAGGCGACTA GACCATTCTG GTGTTGGAGA CTTGGATGAA
    AAAGAGCGAG AGAAAAGGAA ACAAGAAGCC CATAAGACCT TTGTGAAGGA GAAGATGAAA
    TTTTCAGCCT TTTTGAATGA AATCACTAGG CAGGTGCTCA GCCCATCGAG ACTTACATCT
    CTTGGGGTAA CAGATGTTCA GAGGCCTTCG AGCCCTGGGC AGACTTCAAC ATCTCCAAAA
    ATATTGTCTC CAAAGCCTGA ACACAAAAGA GAAAAGAAGT CAAAGATTAC CAGAAGTCGC
    CCGGGAAGCA GTGCAAGTTC CAGAACATCG ACTGCCCACT CTCATGTAAG CAAGCATTCA
    CACATCAGTA GGCATTCTCA CTCCAGTAAG CGTTCTCACT CCAGTAAACA CTCCCATTCC
    AAAAAGCACT CACATTCAAG AAAAAACTCC CACTCCAACA AGCATTGTTA TTCCGAACGG
    GACCTACTTC ACCAGCAGCA GCAGCAGCAG CAGTCTGCTT CCAGGCATCG TCACAGCAGT
    ACAAAAAGTG ATACAAGCAA TGCTAGCTCT TCCTCAAAAG GTCTTTCATC TGGGACTGAA
    CGTGGCCATA AAGGTCAGAA GAAGCAGCAA ACGTCCCCCA AAGAGCAACA TCTCAATCAT
    CGACATTCAC ACCACAAATC CTCTCCATCT CACCATCATC ACAAAGAAGA TTGTCACAGC
    TCACCTTCAT GTCCTCGTTC TCCAGAATCA GAAAATCATC ACCATCGTTC CCATTCAGGC
    TCTCATCACC ATCATGCCCA TCCAGACTCT CATCATCATC ATACCCATCC AGAATCTCAT
    CACAATCATA CCCATCCAGA TTCAGATCAC CATCATTCCC ATCCAGTCTC TCAACTCCAC
    CATTCTCATC CAGACTCCCA TCACGCTCAT ACCCTTCCAG ACTCTCATCA CCATCATACC
    CATCCAGATT CAGACCACCA TCATTCCCGT CCAGACTCTC AACACCATCA TTCCCATCCA
    GACTCCCATC ACCATCATTC TCATTCAGAC TCTCATCACC ATCATACCCA TTCAAACACC
    CATCACCATC ATTCCCATCC AGATTCAGAC CACCATCATT TCTATCCAGA CTCTCATCAT
    CCTCATACCC ATCCAGACTC TCATGACCAT CATTCCTATC CAGACTCTCA TCACTCTCAT
    ACCCATCCAG ACTCTCATGA CCATCATTCC TATCCAGACT CTCATCTCTC TCATACCCAT
    CCAGATTCTC ATGACCATCA TACCCATCCA GATTCAGACC ACCATCAATC TCATTCAGAC
    TCTCAACACC ACCATACCCA CCCAGACTCT CATCACCATC ATTCCCACCC AGACTCCCAT
    CACCATCATT CCCACCCAGA CTCTCATCAC CATCATTCCC ATCCAGACTC CTATCACCAT
    CATTCCCACC CAGACTCCCA TCACCATCAT TCCCATTCAG ACTCTCATCA ACATCCCTCA
    CCATCATCAC ATCACCACCA TGAAACTCAT CATGACCCAT CACCTCACTC TCATTCTCCT
    CATTCAGATT CCCATCATCA TTTACATTCT CCATCACAAT ACCATCAGGG AGCTCAGCAC
    AGCCCAACAC ACACCTCTAA CTCAGAATTA CAAACTTATC ATCATCATCA CTCACCTTCA
    CCTCCACATC ACCACCATGA AAGTCACCAT ACCTCAGCTT CACACCATAG TTCCACCTAT
    TCAGAAACTA CCCACCATCA TTCCCATCCA AAATCTCACC GTTCTTATTC ACCACCCCCT
    CCTCTACACC ACCACAGAGA GCATGGAAGT ATATCTCAAC TCTCTAACAA TTCAGAAACT
    CACCATCAGT CTGATTATGA GTCCACTCAT CTCAAATCTC AAAACCATCA TCATGCTCAT
    CCTAATCACT CCAACCCTCA TCGCACTTCA ATTTCAGAAC CAGAGCTCCA TCATTTTCAC
    AATGATCCCC CCACTGAAAC TCGCCAACAT TCTCATAGCG CTTTACCAGT TAACCATTAC
    CATTCCTCTC AAAGAGACTC TCACCATAAT CTTCACCACC ATCACTTGTC TGATGGTTAT
    CTAAAAAGCC CTGCTCACTC TAATTCGCAC CATCTTTACG AAAGTCATCC CAACACACAT
    TTTGACGTCC AAGATCACAG GCTATCACAA TCTAAAGGAC ATGTTTCCCA TTTAGAATTC
    CACCACAGTG ATAATAATAA TCCTCCAGAG TCTCACCATT TTCACTCAGA AAGTCACGAT
    AAATCTCAAG TAGATACTGA TCATTGCACA AATCACCACA AATCTCAAGA TTCTCACCAT
    CCCTCCTTTT CTCATCACCA CTCTAGTTCA GATTCTAACC ATCCTCAACA TCTCAAGTAT
    TCGGAAACTC ATCATTCCCA ATTAGAATCC CACCATCACA ATTCCCACAA TCACAACACA
    TCACTCTCTA AAGGACACCT TTCCCATTTG GAGTTTCACC AACACCACAG TGATCACAAC
    CCTTCGGAAT CTCACCCTCA GATTTTACAC TGGGCAAGTC ATGATAACCC CTCTGATGAA
    TCAGATCTTT ACCATCACCA CAAATCTCAG GACTCTCATA ATCTTTCCCA TTCCAATTTC
    CATCAAATTT CCAACATAGA GTCTAACCAT CCAGAGCACC ACAAGCATTC AGAATCTCAT
    CACCATTCCC AACCAGAGAC CCAACACCAT CATCATTACC ACGATGATGA TCACCAAAGC
    CATCTTCGCC ACTCGCCAGT TGGCCAGCGA TCTACTTCTC CACATTCTAC CAAGTCAGAT
    TCTTCCGCCA GCTCCACTAT CCAGGATGAC CAGTCCACAG TGAGCTACCA AGAGCCATCC
    TCATTTCCAA AGGGAACCCA CCCAGAATTG GAGAAGTTAA TGATGTTACA GGAACAGAAT
    GAGGTTCTCC ACCACAGCTT ACTGCAGACC ACTGTGCGCA TGGAATGTAT GGGAGCTGAG
    TTCAAAACTG GCCACCAGCT CCTTGAGTCT GAGCTACAGA GAACTCGCAT TGAGCTTACT
    AGCCTAATGG ATCGGTTCAC AAGACTTCAT GATAACTACT CCTGCACACA GCAAACCAAC
    CACCTGCTGG AGAAAAAACT GCATTGTGTG GCACAGAGTA TGGATGGAGA GCGTGAACGG
    CTGAATCAGC GAATCTCAGA GCTCACAGAT CAACTGTCTA CAGCAAAGAC CACCATCCAG
    GGTCTAGAGA CTATTGATGT GACATCAGCG CTACAGTCTG ACGATGACAA AACTCCACTT
    CCAGTCGCAC CACCTCCAGC TCAGTTCATG GACACTGATC ACTATGACAA AGTCTCCATG
    CGCGCCGATG ACGGCCAATC ACTGGGAACT CTTCCAGAGG AGGAGGAATC CGATTGGTCA
    GAAATGGGAG AAGAGGCGAT CTTGAGAAAT TCGCAAGGAA ATCATGCGAA TGCCTCGTAT
    TTCCAGTGGC AGCAGAGGCA AGGCGGATGG GACGGGATGA ATCAGTATTC CAGGGGCATC
    ATTGTGGATA CAGAGAGTGA ATCTGGCGGT GAGGAAAGTA AATGTCTTCC TCCTCATGGC
    CTACAGATAC CACATCTCAA GTTCACCGTA CACCCTGAAA CCTTACCGGT TCCCATCACT
    GATGCCAGCC TGGCCCGCTT TAAGCAGAAT CCAGATGGTC CAGCCTTTGA GATCACTGAA
    GTGCGGAGTC TGGGATCTCC CATTCGTGTA CTTTCCGCTA GTCTGGAGGA GATCCACTCG
    ATTGGGCGTC TGGAGCAGCA GGAGCAGGAT CATATTGTCC AGCTGAGGAG CAATAAATCC
    ATGATGGATC TCCACCACTC ACAGGCTGGC ACCAGACAGG TTTTGTATGA GGATGAGATT
    GTCGGCAATT GGAGAGATGC GAACAGCCAT GCTGTAGTAG AGGATATTAA CGGGTTGGTT
    GGTCTAGAGT CTGCTCAGAA AATGCTCAAC CACTTTATTC ACGATGGGGA GAGCACTCAC
    TTGTGA

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