ORF » Species Summary » Danio rerio » kank1a cDNA ORF clone

kank1a cDNA ORF clone, Danio rerio(zebrafish)

The following kank1a gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the kank1a 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
ODa142836 XM_021476616.1
Latest version!		 Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ODa10864 NM_001365257.1
Latest version!		 Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa10864 XM_005165445.4
Latest version!		 Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa10864 XM_002662070.6
Latest version!		 Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa10865 XM_021476617.1
Latest version!		 Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
ODa10865 XM_005165446.4
Latest version!		 Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
View Old Accession Versions >>
ODa10864 XM_002662070.5 Danio rerio KN motif and ankyrin repeat domains 1 (kank1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa10864 XM_005165445.3 Danio rerio KN motif and ankyrin repeat domains 1 (kank1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa10865 XM_005165446.3 Danio rerio KN motif and ankyrin repeat domains 1 (kank1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
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)
    kank1a ( XM_021476616.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_021332291.1 Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ODa142836
    Clone ID Related Accession (Same CDS sequence) XM_021476616.1
    Accession Version XM_021476616.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3903bp)
    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 KN motif and ankyrin repeat domain-containing protein 1 isoform X2
    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 ##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
    ATGACGGAGC AAGAAAAAGA TGAAGATGAG AAGGACCCCT ACTGCTTGGA AACCCCATAT 
    GGGTATCAGC TAGACCTGGA CTTCCTTAAA TATGTAGATG ACATTGAGAG GGGCAACACC 
    ATCAAGAAGC TGAACATCCA GAGGAAGCCA AAAGTGGTCA GGACTGTTCC GCCGCCTCGG 
    AGCAGTTGCA GTGGCCACAC TGAGTGGACA TCAACAGACT CCTTGTCCTC TTCCAACAGT 
    GATGAATGCA AACAGTCACC AGTCTATTTC ACGTCTCAGA ACCAGGTAGC CCCTCCTGGT 
    CATACTGCCC AAGTCCATGA AGTTCCCCAA CCCTTTGTGA ACGTCCCTGA GACCAAGCAG 
    CTGCTTCCTC CACCTTCGCC TCATCTTCTT CGTCATAACC CGCAGGTGGA GAAAACACTG 
    ATGGAAACTC GAAGGAGACT GGAGCAGGAG CGGCTCCTGA TGCAGCCACC AGTCAGTGAG 
    CCACCTCGTA GGCGATTAGC CAGTTTTGGA GGAATGGGGT CTTCCAGTTC CCTGTCCTCT 
    TACAGTGGGT CCTATGGACC AAGCCAGATT TCTCCCAGCT CCCATTCTTT CCAACATAAT 
    GGTCATCTAG GCAATGGGGA ATACAACCCC TACTTCACAT CCTCTATGGG CAGTTCAATC 
    CGCCACAGTC CCCTGAGCTC AGGCATGACC ACACCAGTGA CCAATGTTAG CCCCTTGCAC 
    CTCCAGCACA TTCGAGAACA GATGGTAGTA GCGCTAAAGA GACTAAAAGA GTTGGAGGAG 
    CAGGTAAAGA CAATCCCAAT CCTTCAAGTC AAGATCTCAG TCTTGCAAGA AGAGAAAAGA 
    CAACTAGTAT CCCAGAAGAA TAACTCTAAG GTAGTGGGGC AAGGATCAGG TGGATGTTTC 
    AGGAAGCGCT CCTTTAGCGT TGGCAGTGCT GATCAATATG AGCCCCTGTC CCAGATCAAG 
    ACAGGTTCTG AGCTTCACAT TGAGGAGATT GATAACACTG AGCAGAGCAC TCAAAGGCTA 
    CAGGAGTTCA GGCAATTAAC GGCTGAAGTG GAAGCCCTAG AGCGGAACAT ACAGGATAAT 
    GGTGAGGAAA TTAAGCACAG CTTACACCAA ACAGAGCTAA GATCAAACCA AAATGTCCAG 
    CTGTGGAGCC GTGAAAGCAG GTCCATTGGT GTCGGAGCTG ATGAGAACAT GAACGATGTG 
    GTGGTTTACA GGAGGTCACC TGGCAAAAAC AAAGATGTGG CTGTTGGAAC TGAACAGGAG 
    GTGAGGAGCA CAGGAGTTGG TGTGACTGAA GCCATGCTAG GCCTGAGCAG TGAGGCAGAA 
    ACTGAAATTG AGATGCAGCA CCAGACCATC GAAGCCCTCA AAGAGAAGAT TTACAGATTG 
    GAGGTTCAAC TTAAGGAGAC GACCCACCAA ATGGAAATGG GAAAGCTAAA GCTTCAACTG 
    CAAGTTGCTG GATCTAGGAA AAAGGCAGAC AAAGGCTTGA TGGCAAGGCC AGAAATGTAC 
    AGCACGTCAG TGGAGGCAAG AGTGTCCACA CATACCCAAG GTGTGGGCAA CCATGTTGAG 
    CTTAGTGATG CAAGCACAAA CCATGTCCAT CAAATGAATT CAGTGGGCAT TACTTGCAGA 
    CCGGATGCAA GGCATGTTTT AGTGGGTCCA GAGTTGCCAA TGGATCGATG GATTGTACAA 
    GAACGTACTG AGGTTCAAGA TCAGTGTGTC GGCAGGCATG TTGTGATGTG CAGCCAGAGT 
    GTGGGAGTGG AATTAAGCGT ATGTGAAATG GGAATCAACA CGGAGTTAAC AGCTGAAGGT 
    TTAGGACTTT GCAAAAGAGA GGCTGAACAA GCCAAGGAGT TCAGGTCTAT AGGATGTGGA 
    GATTGTTCAG TGGATGTAAT GGTTAGACCC ATCAAGGAGA TGGCAACTCG GAGTACAGGA 
    ACAGATGAAG TTCACAGAAC TGACTTTGGA GTCATGGTCT TACCCATATG TGCGTCACAG 
    TACACAAACA TAGAAATTGA GACAATAGAC AAGTTAACCA ATACAGACAA GTTAGTTCTT 
    ACTGATACCT CCACCAATAC ACAATCATGC TCAAAAGACA AACAAGTCGG CACCGAACCG 
    TTAGAGACAC GTACAATCGC TGTTGGTGAT GGTCTTGTAA AAGATGCGCC AGCCACATTA 
    AAAACCCGTT CAGTTTCAGT AGGTACTACT TCATCAGACG ATGCTTTTCT TGACAAGTTG 
    CCATCTTGCA AAACCAAAGA GACTGGAATT GGCCACACAA GCATACACGA AAACTTCTTA 
    GTCGGTCAGA AGACAAGGAA CATTGCCTGT GGCCCCTCTC AGTCTCCTAC CCCCACCCAC 
    GTTAAGAGTA ATTTTGAGGA ATCTGTCTTA ACAGAAGGGC CCAACCAGTC ACAGGCTGGT 
    GCAGGAGTTG GACTTGATCA CTACATAGAG AGAGTGCAAA AGCTCTTGCA GGAACAGCAG 
    ATGTTGCTGG CTCAGAACTA CAGTGAGCTG GCAGATGCAT TCGGCCCACC TCAACAATCC 
    CAGTTCAGTT CCATCAACAG TGAACTAGTC ACTACTCTAT CATCCATCAA TTCAGTGTGG 
    AAGTATGGAA GTCTTGAAGA ACTTTGTAAC TTGGATCTTC TAAGGCCGCA GGAGAACTCA 
    AATCACACCG TGAAAGAAAC ACAGATGGTC AGTGCAGTCC ATTCCCACTC GAGCAGTTTG 
    AGGTCAGAGG TCACGCGGAT AGAGAGTGTG TGCACAGACG ACAAACATGA ACAGAGTACG 
    GCTGCGCAGA AAAGTCGCAT GGACCAGCAA ATGTCCACAG CATTGCATGG CAGTCACAGC 
    ACCCTGAAGT CCATCATGAA GAAAGATGGC CATCAGGGAC ACAATGGCAC AAAAAAGAAC 
    TTGCAGTTTG TTGGAGTAAA TGGAGGCTAT GAGACGACGT CGAGCGATGA CTCCAGCTCA 
    GAGGAGAGCA GCTCTTCTGG GTCAGAGGAT GAAGGGGATG ACAAAAACAA GACAGTGAAT 
    GTGAGAGAAA GGAGGAAAGA AGAATTCAGG AATAATGAAG CCGTGGATGA AGACAGAGAC 
    ACTGAAGATT TAGGCCAGGA TAAAAGGCAG AGGTATGAGC TGAGTGAGAA GATGCTTTCA 
    GCATGCAACA TCCTGAAATC CCACCTGAAC GACCCCAAGG CTTTATCTAG TAAAGATGTG 
    AGGCCGTGTG TGAACACCGT GCAGCATGAG TGGTTCCGAG TGTCCAGTCA GAAGACGGCT 
    GTGGCGGAGA TGGTGGAGGA CTATCTGAAT GCGTTCAGAA GCATCTCTCC TGCCCTGCTC 
    CAGCACATTG TAAACATGGC CGATGGCAAC GGCAACACCG CCCTCCATTA CAGCGTGTCC 
    CATTCCAACT TCCACATTGT CAAGAAGCTA CTGGAAGCTG ATGTCTGCAA TGTCAATCAG 
    CAGAATAAAG CAGGCTATAC GCCTATCATG CTTGCAGCGC TCGCCGCCGT AGAGGCTCCG 
    AAGGACATGA GGGTGGTCGA TGAGCTGTTT AGTAAAGGAG ATGTCAATGC GAAGGCCAGC 
    CAGGCTGGTC AGACAGGGCT GATGCTGGCT GTCAGTCATG GCAGAATGGA CATGGTGAAA 
    GCTCTGCTAG CCTGTGGTGC GGATGTCAAC ATCCAGGACG ACGAGGGCTC GACCGCGCTC 
    ATGTGTGCCA GTGAACACGG CCATGTGGAG ATAGTGAAGC TGCTGCTGGC TCAGCCAGGC 
    TGTGATCCCA CTCTCAGTGA TAATGACGAA AGCAACGCAT TGTCTATTGC TCTGGAAGCA 
    GGACATAAGG ACATCGCAGT CTTGCTGTAC GCCCATATGA ACTTCTCCAA AGCTCAGTCA 
    CCAGGAACTC CTCGACTCGG AAGGAAGACT TCACCCAGCC CTACAAGAAA AGGTCCTGTT 
    TGA

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

    RefSeq XP_021332291.1
    CDS203..4105
    Translation

    Target ORF information:

    RefSeq Version XM_021476616.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021476616.1

    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
    ATGACGGAGC AAGAAAAAGA TGAAGATGAG AAGGACCCCT ACTGCTTGGA AACCCCATAT 
    GGGTATCAGC TAGACCTGGA CTTCCTTAAA TATGTAGATG ACATTGAGAG GGGCAACACC 
    ATCAAGAAGC TGAACATCCA GAGGAAGCCA AAAGTGGTCA GGACTGTTCC GCCGCCTCGG 
    AGCAGTTGCA GTGGCCACAC TGAGTGGACA TCAACAGACT CCTTGTCCTC TTCCAACAGT 
    GATGAATGCA AACAGTCACC AGTCTATTTC ACGTCTCAGA ACCAGGTAGC CCCTCCTGGT 
    CATACTGCCC AAGTCCATGA AGTTCCCCAA CCCTTTGTGA ACGTCCCTGA GACCAAGCAG 
    CTGCTTCCTC CACCTTCGCC TCATCTTCTT CGTCATAACC CGCAGGTGGA GAAAACACTG 
    ATGGAAACTC GAAGGAGACT GGAGCAGGAG CGGCTCCTGA TGCAGCCACC AGTCAGTGAG 
    CCACCTCGTA GGCGATTAGC CAGTTTTGGA GGAATGGGGT CTTCCAGTTC CCTGTCCTCT 
    TACAGTGGGT CCTATGGACC AAGCCAGATT TCTCCCAGCT CCCATTCTTT CCAACATAAT 
    GGTCATCTAG GCAATGGGGA ATACAACCCC TACTTCACAT CCTCTATGGG CAGTTCAATC 
    CGCCACAGTC CCCTGAGCTC AGGCATGACC ACACCAGTGA CCAATGTTAG CCCCTTGCAC 
    CTCCAGCACA TTCGAGAACA GATGGTAGTA GCGCTAAAGA GACTAAAAGA GTTGGAGGAG 
    CAGGTAAAGA CAATCCCAAT CCTTCAAGTC AAGATCTCAG TCTTGCAAGA AGAGAAAAGA 
    CAACTAGTAT CCCAGAAGAA TAACTCTAAG GTAGTGGGGC AAGGATCAGG TGGATGTTTC 
    AGGAAGCGCT CCTTTAGCGT TGGCAGTGCT GATCAATATG AGCCCCTGTC CCAGATCAAG 
    ACAGGTTCTG AGCTTCACAT TGAGGAGATT GATAACACTG AGCAGAGCAC TCAAAGGCTA 
    CAGGAGTTCA GGCAATTAAC GGCTGAAGTG GAAGCCCTAG AGCGGAACAT ACAGGATAAT 
    GGTGAGGAAA TTAAGCACAG CTTACACCAA ACAGAGCTAA GATCAAACCA AAATGTCCAG 
    CTGTGGAGCC GTGAAAGCAG GTCCATTGGT GTCGGAGCTG ATGAGAACAT GAACGATGTG 
    GTGGTTTACA GGAGGTCACC TGGCAAAAAC AAAGATGTGG CTGTTGGAAC TGAACAGGAG 
    GTGAGGAGCA CAGGAGTTGG TGTGACTGAA GCCATGCTAG GCCTGAGCAG TGAGGCAGAA 
    ACTGAAATTG AGATGCAGCA CCAGACCATC GAAGCCCTCA AAGAGAAGAT TTACAGATTG 
    GAGGTTCAAC TTAAGGAGAC GACCCACCAA ATGGAAATGG GAAAGCTAAA GCTTCAACTG 
    CAAGTTGCTG GATCTAGGAA AAAGGCAGAC AAAGGCTTGA TGGCAAGGCC AGAAATGTAC 
    AGCACGTCAG TGGAGGCAAG AGTGTCCACA CATACCCAAG GTGTGGGCAA CCATGTTGAG 
    CTTAGTGATG CAAGCACAAA CCATGTCCAT CAAATGAATT CAGTGGGCAT TACTTGCAGA 
    CCGGATGCAA GGCATGTTTT AGTGGGTCCA GAGTTGCCAA TGGATCGATG GATTGTACAA 
    GAACGTACTG AGGTTCAAGA TCAGTGTGTC GGCAGGCATG TTGTGATGTG CAGCCAGAGT 
    GTGGGAGTGG AATTAAGCGT ATGTGAAATG GGAATCAACA CGGAGTTAAC AGCTGAAGGT 
    TTAGGACTTT GCAAAAGAGA GGCTGAACAA GCCAAGGAGT TCAGGTCTAT AGGATGTGGA 
    GATTGTTCAG TGGATGTAAT GGTTAGACCC ATCAAGGAGA TGGCAACTCG GAGTACAGGA 
    ACAGATGAAG TTCACAGAAC TGACTTTGGA GTCATGGTCT TACCCATATG TGCGTCACAG 
    TACACAAACA TAGAAATTGA GACAATAGAC AAGTTAACCA ATACAGACAA GTTAGTTCTT 
    ACTGATACCT CCACCAATAC ACAATCATGC TCAAAAGACA AACAAGTCGG CACCGAACCG 
    TTAGAGACAC GTACAATCGC TGTTGGTGAT GGTCTTGTAA AAGATGCGCC AGCCACATTA 
    AAAACCCGTT CAGTTTCAGT AGGTACTACT TCATCAGACG ATGCTTTTCT TGACAAGTTG 
    CCATCTTGCA AAACCAAAGA GACTGGAATT GGCCACACAA GCATACACGA AAACTTCTTA 
    GTCGGTCAGA AGACAAGGAA CATTGCCTGT GGCCCCTCTC AGTCTCCTAC CCCCACCCAC 
    GTTAAGAGTA ATTTTGAGGA ATCTGTCTTA ACAGAAGGGC CCAACCAGTC ACAGGCTGGT 
    GCAGGAGTTG GACTTGATCA CTACATAGAG AGAGTGCAAA AGCTCTTGCA GGAACAGCAG 
    ATGTTGCTGG CTCAGAACTA CAGTGAGCTG GCAGATGCAT TCGGCCCACC TCAACAATCC 
    CAGTTCAGTT CCATCAACAG TGAACTAGTC ACTACTCTAT CATCCATCAA TTCAGTGTGG 
    AAGTATGGAA GTCTTGAAGA ACTTTGTAAC TTGGATCTTC TAAGGCCGCA GGAGAACTCA 
    AATCACACCG TGAAAGAAAC ACAGATGGTC AGTGCAGTCC ATTCCCACTC GAGCAGTTTG 
    AGGTCAGAGG TCACGCGGAT AGAGAGTGTG TGCACAGACG ACAAACATGA ACAGAGTACG 
    GCTGCGCAGA AAAGTCGCAT GGACCAGCAA ATGTCCACAG CATTGCATGG CAGTCACAGC 
    ACCCTGAAGT CCATCATGAA GAAAGATGGC CATCAGGGAC ACAATGGCAC AAAAAAGAAC 
    TTGCAGTTTG TTGGAGTAAA TGGAGGCTAT GAGACGACGT CGAGCGATGA CTCCAGCTCA 
    GAGGAGAGCA GCTCTTCTGG GTCAGAGGAT GAAGGGGATG ACAAAAACAA GACAGTGAAT 
    GTGAGAGAAA GGAGGAAAGA AGAATTCAGG AATAATGAAG CCGTGGATGA AGACAGAGAC 
    ACTGAAGATT TAGGCCAGGA TAAAAGGCAG AGGTATGAGC TGAGTGAGAA GATGCTTTCA 
    GCATGCAACA TCCTGAAATC CCACCTGAAC GACCCCAAGG CTTTATCTAG TAAAGATGTG 
    AGGCCGTGTG TGAACACCGT GCAGCATGAG TGGTTCCGAG TGTCCAGTCA GAAGACGGCT 
    GTGGCGGAGA TGGTGGAGGA CTATCTGAAT GCGTTCAGAA GCATCTCTCC TGCCCTGCTC 
    CAGCACATTG TAAACATGGC CGATGGCAAC GGCAACACCG CCCTCCATTA CAGCGTGTCC 
    CATTCCAACT TCCACATTGT CAAGAAGCTA CTGGAAGCTG ATGTCTGCAA TGTCAATCAG 
    CAGAATAAAG CAGGCTATAC GCCTATCATG CTTGCAGCGC TCGCCGCCGT AGAGGCTCCG 
    AAGGACATGA GGGTGGTCGA TGAGCTGTTT AGTAAAGGAG ATGTCAATGC GAAGGCCAGC 
    CAGGCTGGTC AGACAGGGCT GATGCTGGCT GTCAGTCATG GCAGAATGGA CATGGTGAAA 
    GCTCTGCTAG CCTGTGGTGC GGATGTCAAC ATCCAGGACG ACGAGGGCTC GACCGCGCTC 
    ATGTGTGCCA GTGAACACGG CCATGTGGAG ATAGTGAAGC TGCTGCTGGC TCAGCCAGGC 
    TGTGATCCCA CTCTCAGTGA TAATGACGAA AGCAACGCAT TGTCTATTGC TCTGGAAGCA 
    GGACATAAGG ACATCGCAGT CTTGCTGTAC GCCCATATGA ACTTCTCCAA AGCTCAGTCA 
    CCAGGAACTC CTCGACTCGG AAGGAAGACT TCACCCAGCC CTACAAGAAA AGGTCCTGTT 
    TGA

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

    kank1a ( NM_001365257.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> NP_001352186.1 Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), mRNA.
    Price & Availability↑
    CloneID ODa10864
    Clone ID Related Accession (Same CDS sequence) XM_005165445.4 , XM_002662070.6 , XM_002662070.5 , XM_005165445.3 , NM_001365257.1
    Accession Version NM_001365257.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3927bp)
    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 2019-03-20
    Organism Danio rerio(zebrafish)
    Product KN motif and ankyrin repeat domain-containing protein 1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from CR388096.8. On Aug 10, 2018 this sequence version replaced XM_002662070.6. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: 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
    ATGGCCCAAA CCATGCACAT TAACGGCAAC GCCTCAGAAA AAGATGAAGA TGAGAAGGAC 
    CCCTACTGCT TGGAAACCCC ATATGGGTAT CAGCTAGACC TGGACTTCCT TAAATATGTA 
    GATGACATTG AGAGGGGCAA CACCATCAAG AAGCTGAACA TCCAGAGGAA GCCAAAAGTG 
    GTCAGGACTG TTCCGCCGCC TCGGAGCAGT TGCAGTGGCC ACACTGAGTG GACATCAACA 
    GACTCCTTGT CCTCTTCCAA CAGTGATGAA TGCAAACAGT CACCAGTCTA TTTCACGTCT 
    CAGAACCAGG TAGCCCCTCC TGGTCATACT GCCCAAGTCC ATGAAGTTCC CCAACCCTTT 
    GTGAACGTCC CTGAGACCAA GCAGCTGCTT CCTCCACCTT CGCCTCATCT TCTTCGTCAT 
    AACCCGCAGG TGGAGAAAAC ACTGATGGAA ACTCGAAGGA GACTGGAGCA GGAGCGGCTC 
    CTGATGCAGC CACCAGTCAG TGAGCCACCT CGTAGGCGAT TAGCCAGTTT TGGAGGAATG 
    GGGTCTTCCA GTTCCCTGTC CTCTTACAGT GGGTCCTATG GACCAAGCCA GATTTCTCCC 
    AGCTCCCATT CTTTCCAACA TAATGGTCAT CTAGGCAATG GGGAATACAA CCCCTACTTC 
    ACATCCTCTA TGGGCAGTTC AATCCGCCAC AGTCCCCTGA GCTCAGGCAT GACCACACCA 
    GTGACCAATG TTAGCCCCTT GCACCTCCAG CACATTCGAG AACAGATGGT AGTAGCGCTA 
    AAGAGACTAA AAGAGTTGGA GGAGCAGGTA AAGACAATCC CAATCCTTCA AGTCAAGATC 
    TCAGTCTTGC AAGAAGAGAA AAGACAACTA GTATCCCAGA AGAATAACTC TAAGGTAGTG 
    GGGCAAGGAT CAGGTGGATG TTTCAGGAAG CGCTCCTTTA GCGTTGGCAG TGCTGATCAA 
    TATGAGCCCC TGTCCCAGAT CAAGACAGGT TCTGAGCTTC ACATTGAGGA GATTGATAAC 
    ACTGAGCAGA GCACTCAAAG GCTACAGGAG TTCAGGCAAT TAACGGCTGA AGTGGAAGCC 
    CTAGAGCGGA ACATACAGGA TAATGGTGAG GAAATTAAGC ACAGCTTACA CCAAACAGAG 
    CTAAGATCAA ACCAAAATGT CCAGCTGTGG AGCCGTGAAA GCAGGTCCAT TGGTGTCGGA 
    GCTGATGAGA ACATGAACGA TGTGGTGGTT TACAGGAGGT CACCTGGCAA AAACAAAGAT 
    GTGGCTGTTG GAACTGAACA GGAGGTGAGG AGCACAGGAG TTGGTGTGAC TGAAGCCATG 
    CTAGGCCTGA GCAGTGAGGC AGAAACTGAA ATTGAGATGC AGCACCAGAC CATCGAAGCC 
    CTCAAAGAGA AGATTTACAG ATTGGAGGTT CAACTTAAGG AGACGACCCA CCAAATGGAA 
    ATGGGAAAGC TAAAGCTTCA ACTGCAAGTT GCTGGATCTA GGAAAAAGGC AGACAAAGGC 
    TTGATGGCAA GGCCAGAAAT GTACAGCACG TCAGTGGAGG CAAGAGTGTC CACACATACC 
    CAAGGTGTGG GCAACCATGT TGAGCTTAGT GATGCAAGCA CAAACCATGT CCATCAAATG 
    AATTCAGTGG GCATTACTTG CAGACCGGAT GCAAGGCATG TTTTAGTGGG TCCAGAGTTG 
    CCAATGGATC GATGGATTGT ACAAGAACGT ACTGAGGTTC AAGATCAGTG TGTCGGCAGG 
    CATGTTGTGA TGTGCAGCCA GAGTGTGGGA GTGGAATTAA GCGTATGTGA AATGGGAATC 
    AACACGGAGT TAACAGCTGA AGGTTTAGGA CTTTGCAAAA GAGAGGCTGA ACAAGCCAAG 
    GAGTTCAGGT CTATAGGATG TGGAGATTGT TCAGTGGATG TAATGGTTAG ACCCATCAAG 
    GAGATGGCAA CTCGGAGTAC AGGAACAGAT GAAGTTCACA GAACTGACTT TGGAGTCATG 
    GTCTTACCCA TATGTGCGTC ACAGTACACA AACATAGAAA TTGAGACAAT AGACAAGTTA 
    ACCAATACAG ACAAGTTAGT TCTTACTGAT ACCTCCACCA ATACACAATC ATGCTCAAAA 
    GACAAACAAG TCGGCACCGA ACCGTTAGAG ACACGTACAA TCGCTGTTGG TGATGGTCTT 
    GTAAAAGATG CGCCAGCCAC ATTAAAAACC CGTTCAGTTT CAGTAGGTAC TACTTCATCA 
    GACGATGCTT TTCTTGACAA GTTGCCATCT TGCAAAACCA AAGAGACTGG AATTGGCCAC 
    ACAAGCATAC ACGAAAACTT CTTAGTCGGT CAGAAGACAA GGAACATTGC CTGTGGCCCC 
    TCTCAGTCTC CTACCCCCAC CCACGTTAAG AGTAATTTTG AGGAATCTGT CTTAACAGAA 
    GGGCCCAACC AGTCACAGGC TGGTGCAGGA GTTGGACTTG ATCACTACAT AGAGAGAGTG 
    CAAAAGCTCT TGCAGGAACA GCAGATGTTG CTGGCTCAGA ACTACAGTGA GCTGGCAGAT 
    GCATTCGGCC CACCTCAACA ATCCCAGTTC AGTTCCATCA ACAGTGAACT AGTCACTACT 
    CTATCATCCA TCAATTCAGT GTGGAAGTAT GGAAGTCTTG AAGAACTTTG TAACTTGGAT 
    CTTCTAAGGC CGCAGGAGAA CTCAAATCAC ACCGTGAAAG AAACACAGAT GGTCAGTGCA 
    GTCCATTCCC ACTCGAGCAG TTTGAGGTCA GAGGTCACGC GGATAGAGAG TGTGTGCACA 
    GACGACAAAC ATGAACAGAG TACGGCTGCG CAGAAAAGTC GCATGGACCA GCAAATGTCC 
    ACAGCATTGC ATGGCAGTCA CAGCACCCTG AAGTCCATCA TGAAGAAAGA TGGCCATCAG 
    GGACACAATG GCACAAAAAA GAACTTGCAG TTTGTTGGAG TAAATGGAGG CTATGAGACG 
    ACGTCGAGCG ATGACTCCAG CTCAGAGGAG AGCAGCTCTT CTGGGTCAGA GGATGAAGGG 
    GATGACAAAA ACAAGACAGT GAATGTGAGA GAAAGGAGGA AAGAAGAATT CAGGAATAAT 
    GAAGCCGTGG ATGAAGACAG AGACACTGAA GATTTAGGCC AGGATAAAAG GCAGAGGTAT 
    GAGCTGAGTG AGAAGATGCT TTCAGCATGC AACATCCTGA AATCCCACCT GAACGACCCC 
    AAGGCTTTAT CTAGTAAAGA TGTGAGGCCG TGTGTGAACA CCGTGCAGCA TGAGTGGTTC 
    CGAGTGTCCA GTCAGAAGAC GGCTGTGGCG GAGATGGTGG AGGACTATCT GAATGCGTTC 
    AGAAGCATCT CTCCTGCCCT GCTCCAGCAC ATTGTAAACA TGGCCGATGG CAACGGCAAC 
    ACCGCCCTCC ATTACAGCGT GTCCCATTCC AACTTCCACA TTGTCAAGAA GCTACTGGAA 
    GCTGATGTCT GCAATGTCAA TCAGCAGAAT AAAGCAGGCT ATACGCCTAT CATGCTTGCA 
    GCGCTCGCCG CCGTAGAGGC TCCGAAGGAC ATGAGGGTGG TCGATGAGCT GTTTAGTAAA 
    GGAGATGTCA ATGCGAAGGC CAGCCAGGCT GGTCAGACAG GGCTGATGCT GGCTGTCAGT 
    CATGGCAGAA TGGACATGGT GAAAGCTCTG CTAGCCTGTG GTGCGGATGT CAACATCCAG 
    GACGACGAGG GCTCGACCGC GCTCATGTGT GCCAGTGAAC ACGGCCATGT GGAGATAGTG 
    AAGCTGCTGC TGGCTCAGCC AGGCTGTGAT CCCACTCTCA GTGATAATGA CGAAAGCAAC 
    GCATTGTCTA TTGCTCTGGA AGCAGGACAT AAGGACATCG CAGTCTTGCT GTACGCCCAT 
    ATGAACTTCT CCAAAGCTCA GTCACCAGGA ACTCCTCGAC TCGGAAGGAA GACTTCACCC 
    AGCCCTACAA GAAAAGGTCC TGTTTGA

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

    RefSeq NP_001352186.1
    CDS222..4148
    Translation

    Target ORF information:

    RefSeq Version NM_001365257.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001365257.1

    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
    ATGGCCCAAA CCATGCACAT TAACGGCAAC GCCTCAGAAA AAGATGAAGA TGAGAAGGAC 
    CCCTACTGCT TGGAAACCCC ATATGGGTAT CAGCTAGACC TGGACTTCCT TAAATATGTA 
    GATGACATTG AGAGGGGCAA CACCATCAAG AAGCTGAACA TCCAGAGGAA GCCAAAAGTG 
    GTCAGGACTG TTCCGCCGCC TCGGAGCAGT TGCAGTGGCC ACACTGAGTG GACATCAACA 
    GACTCCTTGT CCTCTTCCAA CAGTGATGAA TGCAAACAGT CACCAGTCTA TTTCACGTCT 
    CAGAACCAGG TAGCCCCTCC TGGTCATACT GCCCAAGTCC ATGAAGTTCC CCAACCCTTT 
    GTGAACGTCC CTGAGACCAA GCAGCTGCTT CCTCCACCTT CGCCTCATCT TCTTCGTCAT 
    AACCCGCAGG TGGAGAAAAC ACTGATGGAA ACTCGAAGGA GACTGGAGCA GGAGCGGCTC 
    CTGATGCAGC CACCAGTCAG TGAGCCACCT CGTAGGCGAT TAGCCAGTTT TGGAGGAATG 
    GGGTCTTCCA GTTCCCTGTC CTCTTACAGT GGGTCCTATG GACCAAGCCA GATTTCTCCC 
    AGCTCCCATT CTTTCCAACA TAATGGTCAT CTAGGCAATG GGGAATACAA CCCCTACTTC 
    ACATCCTCTA TGGGCAGTTC AATCCGCCAC AGTCCCCTGA GCTCAGGCAT GACCACACCA 
    GTGACCAATG TTAGCCCCTT GCACCTCCAG CACATTCGAG AACAGATGGT AGTAGCGCTA 
    AAGAGACTAA AAGAGTTGGA GGAGCAGGTA AAGACAATCC CAATCCTTCA AGTCAAGATC 
    TCAGTCTTGC AAGAAGAGAA AAGACAACTA GTATCCCAGA AGAATAACTC TAAGGTAGTG 
    GGGCAAGGAT CAGGTGGATG TTTCAGGAAG CGCTCCTTTA GCGTTGGCAG TGCTGATCAA 
    TATGAGCCCC TGTCCCAGAT CAAGACAGGT TCTGAGCTTC ACATTGAGGA GATTGATAAC 
    ACTGAGCAGA GCACTCAAAG GCTACAGGAG TTCAGGCAAT TAACGGCTGA AGTGGAAGCC 
    CTAGAGCGGA ACATACAGGA TAATGGTGAG GAAATTAAGC ACAGCTTACA CCAAACAGAG 
    CTAAGATCAA ACCAAAATGT CCAGCTGTGG AGCCGTGAAA GCAGGTCCAT TGGTGTCGGA 
    GCTGATGAGA ACATGAACGA TGTGGTGGTT TACAGGAGGT CACCTGGCAA AAACAAAGAT 
    GTGGCTGTTG GAACTGAACA GGAGGTGAGG AGCACAGGAG TTGGTGTGAC TGAAGCCATG 
    CTAGGCCTGA GCAGTGAGGC AGAAACTGAA ATTGAGATGC AGCACCAGAC CATCGAAGCC 
    CTCAAAGAGA AGATTTACAG ATTGGAGGTT CAACTTAAGG AGACGACCCA CCAAATGGAA 
    ATGGGAAAGC TAAAGCTTCA ACTGCAAGTT GCTGGATCTA GGAAAAAGGC AGACAAAGGC 
    TTGATGGCAA GGCCAGAAAT GTACAGCACG TCAGTGGAGG CAAGAGTGTC CACACATACC 
    CAAGGTGTGG GCAACCATGT TGAGCTTAGT GATGCAAGCA CAAACCATGT CCATCAAATG 
    AATTCAGTGG GCATTACTTG CAGACCGGAT GCAAGGCATG TTTTAGTGGG TCCAGAGTTG 
    CCAATGGATC GATGGATTGT ACAAGAACGT ACTGAGGTTC AAGATCAGTG TGTCGGCAGG 
    CATGTTGTGA TGTGCAGCCA GAGTGTGGGA GTGGAATTAA GCGTATGTGA AATGGGAATC 
    AACACGGAGT TAACAGCTGA AGGTTTAGGA CTTTGCAAAA GAGAGGCTGA ACAAGCCAAG 
    GAGTTCAGGT CTATAGGATG TGGAGATTGT TCAGTGGATG TAATGGTTAG ACCCATCAAG 
    GAGATGGCAA CTCGGAGTAC AGGAACAGAT GAAGTTCACA GAACTGACTT TGGAGTCATG 
    GTCTTACCCA TATGTGCGTC ACAGTACACA AACATAGAAA TTGAGACAAT AGACAAGTTA 
    ACCAATACAG ACAAGTTAGT TCTTACTGAT ACCTCCACCA ATACACAATC ATGCTCAAAA 
    GACAAACAAG TCGGCACCGA ACCGTTAGAG ACACGTACAA TCGCTGTTGG TGATGGTCTT 
    GTAAAAGATG CGCCAGCCAC ATTAAAAACC CGTTCAGTTT CAGTAGGTAC TACTTCATCA 
    GACGATGCTT TTCTTGACAA GTTGCCATCT TGCAAAACCA AAGAGACTGG AATTGGCCAC 
    ACAAGCATAC ACGAAAACTT CTTAGTCGGT CAGAAGACAA GGAACATTGC CTGTGGCCCC 
    TCTCAGTCTC CTACCCCCAC CCACGTTAAG AGTAATTTTG AGGAATCTGT CTTAACAGAA 
    GGGCCCAACC AGTCACAGGC TGGTGCAGGA GTTGGACTTG ATCACTACAT AGAGAGAGTG 
    CAAAAGCTCT TGCAGGAACA GCAGATGTTG CTGGCTCAGA ACTACAGTGA GCTGGCAGAT 
    GCATTCGGCC CACCTCAACA ATCCCAGTTC AGTTCCATCA ACAGTGAACT AGTCACTACT 
    CTATCATCCA TCAATTCAGT GTGGAAGTAT GGAAGTCTTG AAGAACTTTG TAACTTGGAT 
    CTTCTAAGGC CGCAGGAGAA CTCAAATCAC ACCGTGAAAG AAACACAGAT GGTCAGTGCA 
    GTCCATTCCC ACTCGAGCAG TTTGAGGTCA GAGGTCACGC GGATAGAGAG TGTGTGCACA 
    GACGACAAAC ATGAACAGAG TACGGCTGCG CAGAAAAGTC GCATGGACCA GCAAATGTCC 
    ACAGCATTGC ATGGCAGTCA CAGCACCCTG AAGTCCATCA TGAAGAAAGA TGGCCATCAG 
    GGACACAATG GCACAAAAAA GAACTTGCAG TTTGTTGGAG TAAATGGAGG CTATGAGACG 
    ACGTCGAGCG ATGACTCCAG CTCAGAGGAG AGCAGCTCTT CTGGGTCAGA GGATGAAGGG 
    GATGACAAAA ACAAGACAGT GAATGTGAGA GAAAGGAGGA AAGAAGAATT CAGGAATAAT 
    GAAGCCGTGG ATGAAGACAG AGACACTGAA GATTTAGGCC AGGATAAAAG GCAGAGGTAT 
    GAGCTGAGTG AGAAGATGCT TTCAGCATGC AACATCCTGA AATCCCACCT GAACGACCCC 
    AAGGCTTTAT CTAGTAAAGA TGTGAGGCCG TGTGTGAACA CCGTGCAGCA TGAGTGGTTC 
    CGAGTGTCCA GTCAGAAGAC GGCTGTGGCG GAGATGGTGG AGGACTATCT GAATGCGTTC 
    AGAAGCATCT CTCCTGCCCT GCTCCAGCAC ATTGTAAACA TGGCCGATGG CAACGGCAAC 
    ACCGCCCTCC ATTACAGCGT GTCCCATTCC AACTTCCACA TTGTCAAGAA GCTACTGGAA 
    GCTGATGTCT GCAATGTCAA TCAGCAGAAT AAAGCAGGCT ATACGCCTAT CATGCTTGCA 
    GCGCTCGCCG CCGTAGAGGC TCCGAAGGAC ATGAGGGTGG TCGATGAGCT GTTTAGTAAA 
    GGAGATGTCA ATGCGAAGGC CAGCCAGGCT GGTCAGACAG GGCTGATGCT GGCTGTCAGT 
    CATGGCAGAA TGGACATGGT GAAAGCTCTG CTAGCCTGTG GTGCGGATGT CAACATCCAG 
    GACGACGAGG GCTCGACCGC GCTCATGTGT GCCAGTGAAC ACGGCCATGT GGAGATAGTG 
    AAGCTGCTGC TGGCTCAGCC AGGCTGTGAT CCCACTCTCA GTGATAATGA CGAAAGCAAC 
    GCATTGTCTA TTGCTCTGGA AGCAGGACAT AAGGACATCG CAGTCTTGCT GTACGCCCAT 
    ATGAACTTCT CCAAAGCTCA GTCACCAGGA ACTCCTCGAC TCGGAAGGAA GACTTCACCC 
    AGCCCTACAA GAAAAGGTCC TGTTTGA

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

    kank1a ( XM_005165445.4 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005165502.1 Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa10864
    Clone ID Related Accession (Same CDS sequence) XM_005165445.4 , XM_002662070.6 , XM_002662070.5 , XM_005165445.3 , NM_001365257.1
    Accession Version XM_005165445.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3927bp)
    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 KN motif and ankyrin repeat domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_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_005165445.3. ##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
    ATGGCCCAAA CCATGCACAT TAACGGCAAC GCCTCAGAAA AAGATGAAGA TGAGAAGGAC 
    CCCTACTGCT TGGAAACCCC ATATGGGTAT CAGCTAGACC TGGACTTCCT TAAATATGTA 
    GATGACATTG AGAGGGGCAA CACCATCAAG AAGCTGAACA TCCAGAGGAA GCCAAAAGTG 
    GTCAGGACTG TTCCGCCGCC TCGGAGCAGT TGCAGTGGCC ACACTGAGTG GACATCAACA 
    GACTCCTTGT CCTCTTCCAA CAGTGATGAA TGCAAACAGT CACCAGTCTA TTTCACGTCT 
    CAGAACCAGG TAGCCCCTCC TGGTCATACT GCCCAAGTCC ATGAAGTTCC CCAACCCTTT 
    GTGAACGTCC CTGAGACCAA GCAGCTGCTT CCTCCACCTT CGCCTCATCT TCTTCGTCAT 
    AACCCGCAGG TGGAGAAAAC ACTGATGGAA ACTCGAAGGA GACTGGAGCA GGAGCGGCTC 
    CTGATGCAGC CACCAGTCAG TGAGCCACCT CGTAGGCGAT TAGCCAGTTT TGGAGGAATG 
    GGGTCTTCCA GTTCCCTGTC CTCTTACAGT GGGTCCTATG GACCAAGCCA GATTTCTCCC 
    AGCTCCCATT CTTTCCAACA TAATGGTCAT CTAGGCAATG GGGAATACAA CCCCTACTTC 
    ACATCCTCTA TGGGCAGTTC AATCCGCCAC AGTCCCCTGA GCTCAGGCAT GACCACACCA 
    GTGACCAATG TTAGCCCCTT GCACCTCCAG CACATTCGAG AACAGATGGT AGTAGCGCTA 
    AAGAGACTAA AAGAGTTGGA GGAGCAGGTA AAGACAATCC CAATCCTTCA AGTCAAGATC 
    TCAGTCTTGC AAGAAGAGAA AAGACAACTA GTATCCCAGA AGAATAACTC TAAGGTAGTG 
    GGGCAAGGAT CAGGTGGATG TTTCAGGAAG CGCTCCTTTA GCGTTGGCAG TGCTGATCAA 
    TATGAGCCCC TGTCCCAGAT CAAGACAGGT TCTGAGCTTC ACATTGAGGA GATTGATAAC 
    ACTGAGCAGA GCACTCAAAG GCTACAGGAG TTCAGGCAAT TAACGGCTGA AGTGGAAGCC 
    CTAGAGCGGA ACATACAGGA TAATGGTGAG GAAATTAAGC ACAGCTTACA CCAAACAGAG 
    CTAAGATCAA ACCAAAATGT CCAGCTGTGG AGCCGTGAAA GCAGGTCCAT TGGTGTCGGA 
    GCTGATGAGA ACATGAACGA TGTGGTGGTT TACAGGAGGT CACCTGGCAA AAACAAAGAT 
    GTGGCTGTTG GAACTGAACA GGAGGTGAGG AGCACAGGAG TTGGTGTGAC TGAAGCCATG 
    CTAGGCCTGA GCAGTGAGGC AGAAACTGAA ATTGAGATGC AGCACCAGAC CATCGAAGCC 
    CTCAAAGAGA AGATTTACAG ATTGGAGGTT CAACTTAAGG AGACGACCCA CCAAATGGAA 
    ATGGGAAAGC TAAAGCTTCA ACTGCAAGTT GCTGGATCTA GGAAAAAGGC AGACAAAGGC 
    TTGATGGCAA GGCCAGAAAT GTACAGCACG TCAGTGGAGG CAAGAGTGTC CACACATACC 
    CAAGGTGTGG GCAACCATGT TGAGCTTAGT GATGCAAGCA CAAACCATGT CCATCAAATG 
    AATTCAGTGG GCATTACTTG CAGACCGGAT GCAAGGCATG TTTTAGTGGG TCCAGAGTTG 
    CCAATGGATC GATGGATTGT ACAAGAACGT ACTGAGGTTC AAGATCAGTG TGTCGGCAGG 
    CATGTTGTGA TGTGCAGCCA GAGTGTGGGA GTGGAATTAA GCGTATGTGA AATGGGAATC 
    AACACGGAGT TAACAGCTGA AGGTTTAGGA CTTTGCAAAA GAGAGGCTGA ACAAGCCAAG 
    GAGTTCAGGT CTATAGGATG TGGAGATTGT TCAGTGGATG TAATGGTTAG ACCCATCAAG 
    GAGATGGCAA CTCGGAGTAC AGGAACAGAT GAAGTTCACA GAACTGACTT TGGAGTCATG 
    GTCTTACCCA TATGTGCGTC ACAGTACACA AACATAGAAA TTGAGACAAT AGACAAGTTA 
    ACCAATACAG ACAAGTTAGT TCTTACTGAT ACCTCCACCA ATACACAATC ATGCTCAAAA 
    GACAAACAAG TCGGCACCGA ACCGTTAGAG ACACGTACAA TCGCTGTTGG TGATGGTCTT 
    GTAAAAGATG CGCCAGCCAC ATTAAAAACC CGTTCAGTTT CAGTAGGTAC TACTTCATCA 
    GACGATGCTT TTCTTGACAA GTTGCCATCT TGCAAAACCA AAGAGACTGG AATTGGCCAC 
    ACAAGCATAC ACGAAAACTT CTTAGTCGGT CAGAAGACAA GGAACATTGC CTGTGGCCCC 
    TCTCAGTCTC CTACCCCCAC CCACGTTAAG AGTAATTTTG AGGAATCTGT CTTAACAGAA 
    GGGCCCAACC AGTCACAGGC TGGTGCAGGA GTTGGACTTG ATCACTACAT AGAGAGAGTG 
    CAAAAGCTCT TGCAGGAACA GCAGATGTTG CTGGCTCAGA ACTACAGTGA GCTGGCAGAT 
    GCATTCGGCC CACCTCAACA ATCCCAGTTC AGTTCCATCA ACAGTGAACT AGTCACTACT 
    CTATCATCCA TCAATTCAGT GTGGAAGTAT GGAAGTCTTG AAGAACTTTG TAACTTGGAT 
    CTTCTAAGGC CGCAGGAGAA CTCAAATCAC ACCGTGAAAG AAACACAGAT GGTCAGTGCA 
    GTCCATTCCC ACTCGAGCAG TTTGAGGTCA GAGGTCACGC GGATAGAGAG TGTGTGCACA 
    GACGACAAAC ATGAACAGAG TACGGCTGCG CAGAAAAGTC GCATGGACCA GCAAATGTCC 
    ACAGCATTGC ATGGCAGTCA CAGCACCCTG AAGTCCATCA TGAAGAAAGA TGGCCATCAG 
    GGACACAATG GCACAAAAAA GAACTTGCAG TTTGTTGGAG TAAATGGAGG CTATGAGACG 
    ACGTCGAGCG ATGACTCCAG CTCAGAGGAG AGCAGCTCTT CTGGGTCAGA GGATGAAGGG 
    GATGACAAAA ACAAGACAGT GAATGTGAGA GAAAGGAGGA AAGAAGAATT CAGGAATAAT 
    GAAGCCGTGG ATGAAGACAG AGACACTGAA GATTTAGGCC AGGATAAAAG GCAGAGGTAT 
    GAGCTGAGTG AGAAGATGCT TTCAGCATGC AACATCCTGA AATCCCACCT GAACGACCCC 
    AAGGCTTTAT CTAGTAAAGA TGTGAGGCCG TGTGTGAACA CCGTGCAGCA TGAGTGGTTC 
    CGAGTGTCCA GTCAGAAGAC GGCTGTGGCG GAGATGGTGG AGGACTATCT GAATGCGTTC 
    AGAAGCATCT CTCCTGCCCT GCTCCAGCAC ATTGTAAACA TGGCCGATGG CAACGGCAAC 
    ACCGCCCTCC ATTACAGCGT GTCCCATTCC AACTTCCACA TTGTCAAGAA GCTACTGGAA 
    GCTGATGTCT GCAATGTCAA TCAGCAGAAT AAAGCAGGCT ATACGCCTAT CATGCTTGCA 
    GCGCTCGCCG CCGTAGAGGC TCCGAAGGAC ATGAGGGTGG TCGATGAGCT GTTTAGTAAA 
    GGAGATGTCA ATGCGAAGGC CAGCCAGGCT GGTCAGACAG GGCTGATGCT GGCTGTCAGT 
    CATGGCAGAA TGGACATGGT GAAAGCTCTG CTAGCCTGTG GTGCGGATGT CAACATCCAG 
    GACGACGAGG GCTCGACCGC GCTCATGTGT GCCAGTGAAC ACGGCCATGT GGAGATAGTG 
    AAGCTGCTGC TGGCTCAGCC AGGCTGTGAT CCCACTCTCA GTGATAATGA CGAAAGCAAC 
    GCATTGTCTA TTGCTCTGGA AGCAGGACAT AAGGACATCG CAGTCTTGCT GTACGCCCAT 
    ATGAACTTCT CCAAAGCTCA GTCACCAGGA ACTCCTCGAC TCGGAAGGAA GACTTCACCC 
    AGCCCTACAA GAAAAGGTCC TGTTTGA

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

    RefSeq XP_005165502.1
    CDS308..4234
    Translation

    Target ORF information:

    RefSeq Version XM_005165445.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005165445.4

    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
    ATGGCCCAAA CCATGCACAT TAACGGCAAC GCCTCAGAAA AAGATGAAGA TGAGAAGGAC 
    CCCTACTGCT TGGAAACCCC ATATGGGTAT CAGCTAGACC TGGACTTCCT TAAATATGTA 
    GATGACATTG AGAGGGGCAA CACCATCAAG AAGCTGAACA TCCAGAGGAA GCCAAAAGTG 
    GTCAGGACTG TTCCGCCGCC TCGGAGCAGT TGCAGTGGCC ACACTGAGTG GACATCAACA 
    GACTCCTTGT CCTCTTCCAA CAGTGATGAA TGCAAACAGT CACCAGTCTA TTTCACGTCT 
    CAGAACCAGG TAGCCCCTCC TGGTCATACT GCCCAAGTCC ATGAAGTTCC CCAACCCTTT 
    GTGAACGTCC CTGAGACCAA GCAGCTGCTT CCTCCACCTT CGCCTCATCT TCTTCGTCAT 
    AACCCGCAGG TGGAGAAAAC ACTGATGGAA ACTCGAAGGA GACTGGAGCA GGAGCGGCTC 
    CTGATGCAGC CACCAGTCAG TGAGCCACCT CGTAGGCGAT TAGCCAGTTT TGGAGGAATG 
    GGGTCTTCCA GTTCCCTGTC CTCTTACAGT GGGTCCTATG GACCAAGCCA GATTTCTCCC 
    AGCTCCCATT CTTTCCAACA TAATGGTCAT CTAGGCAATG GGGAATACAA CCCCTACTTC 
    ACATCCTCTA TGGGCAGTTC AATCCGCCAC AGTCCCCTGA GCTCAGGCAT GACCACACCA 
    GTGACCAATG TTAGCCCCTT GCACCTCCAG CACATTCGAG AACAGATGGT AGTAGCGCTA 
    AAGAGACTAA AAGAGTTGGA GGAGCAGGTA AAGACAATCC CAATCCTTCA AGTCAAGATC 
    TCAGTCTTGC AAGAAGAGAA AAGACAACTA GTATCCCAGA AGAATAACTC TAAGGTAGTG 
    GGGCAAGGAT CAGGTGGATG TTTCAGGAAG CGCTCCTTTA GCGTTGGCAG TGCTGATCAA 
    TATGAGCCCC TGTCCCAGAT CAAGACAGGT TCTGAGCTTC ACATTGAGGA GATTGATAAC 
    ACTGAGCAGA GCACTCAAAG GCTACAGGAG TTCAGGCAAT TAACGGCTGA AGTGGAAGCC 
    CTAGAGCGGA ACATACAGGA TAATGGTGAG GAAATTAAGC ACAGCTTACA CCAAACAGAG 
    CTAAGATCAA ACCAAAATGT CCAGCTGTGG AGCCGTGAAA GCAGGTCCAT TGGTGTCGGA 
    GCTGATGAGA ACATGAACGA TGTGGTGGTT TACAGGAGGT CACCTGGCAA AAACAAAGAT 
    GTGGCTGTTG GAACTGAACA GGAGGTGAGG AGCACAGGAG TTGGTGTGAC TGAAGCCATG 
    CTAGGCCTGA GCAGTGAGGC AGAAACTGAA ATTGAGATGC AGCACCAGAC CATCGAAGCC 
    CTCAAAGAGA AGATTTACAG ATTGGAGGTT CAACTTAAGG AGACGACCCA CCAAATGGAA 
    ATGGGAAAGC TAAAGCTTCA ACTGCAAGTT GCTGGATCTA GGAAAAAGGC AGACAAAGGC 
    TTGATGGCAA GGCCAGAAAT GTACAGCACG TCAGTGGAGG CAAGAGTGTC CACACATACC 
    CAAGGTGTGG GCAACCATGT TGAGCTTAGT GATGCAAGCA CAAACCATGT CCATCAAATG 
    AATTCAGTGG GCATTACTTG CAGACCGGAT GCAAGGCATG TTTTAGTGGG TCCAGAGTTG 
    CCAATGGATC GATGGATTGT ACAAGAACGT ACTGAGGTTC AAGATCAGTG TGTCGGCAGG 
    CATGTTGTGA TGTGCAGCCA GAGTGTGGGA GTGGAATTAA GCGTATGTGA AATGGGAATC 
    AACACGGAGT TAACAGCTGA AGGTTTAGGA CTTTGCAAAA GAGAGGCTGA ACAAGCCAAG 
    GAGTTCAGGT CTATAGGATG TGGAGATTGT TCAGTGGATG TAATGGTTAG ACCCATCAAG 
    GAGATGGCAA CTCGGAGTAC AGGAACAGAT GAAGTTCACA GAACTGACTT TGGAGTCATG 
    GTCTTACCCA TATGTGCGTC ACAGTACACA AACATAGAAA TTGAGACAAT AGACAAGTTA 
    ACCAATACAG ACAAGTTAGT TCTTACTGAT ACCTCCACCA ATACACAATC ATGCTCAAAA 
    GACAAACAAG TCGGCACCGA ACCGTTAGAG ACACGTACAA TCGCTGTTGG TGATGGTCTT 
    GTAAAAGATG CGCCAGCCAC ATTAAAAACC CGTTCAGTTT CAGTAGGTAC TACTTCATCA 
    GACGATGCTT TTCTTGACAA GTTGCCATCT TGCAAAACCA AAGAGACTGG AATTGGCCAC 
    ACAAGCATAC ACGAAAACTT CTTAGTCGGT CAGAAGACAA GGAACATTGC CTGTGGCCCC 
    TCTCAGTCTC CTACCCCCAC CCACGTTAAG AGTAATTTTG AGGAATCTGT CTTAACAGAA 
    GGGCCCAACC AGTCACAGGC TGGTGCAGGA GTTGGACTTG ATCACTACAT AGAGAGAGTG 
    CAAAAGCTCT TGCAGGAACA GCAGATGTTG CTGGCTCAGA ACTACAGTGA GCTGGCAGAT 
    GCATTCGGCC CACCTCAACA ATCCCAGTTC AGTTCCATCA ACAGTGAACT AGTCACTACT 
    CTATCATCCA TCAATTCAGT GTGGAAGTAT GGAAGTCTTG AAGAACTTTG TAACTTGGAT 
    CTTCTAAGGC CGCAGGAGAA CTCAAATCAC ACCGTGAAAG AAACACAGAT GGTCAGTGCA 
    GTCCATTCCC ACTCGAGCAG TTTGAGGTCA GAGGTCACGC GGATAGAGAG TGTGTGCACA 
    GACGACAAAC ATGAACAGAG TACGGCTGCG CAGAAAAGTC GCATGGACCA GCAAATGTCC 
    ACAGCATTGC ATGGCAGTCA CAGCACCCTG AAGTCCATCA TGAAGAAAGA TGGCCATCAG 
    GGACACAATG GCACAAAAAA GAACTTGCAG TTTGTTGGAG TAAATGGAGG CTATGAGACG 
    ACGTCGAGCG ATGACTCCAG CTCAGAGGAG AGCAGCTCTT CTGGGTCAGA GGATGAAGGG 
    GATGACAAAA ACAAGACAGT GAATGTGAGA GAAAGGAGGA AAGAAGAATT CAGGAATAAT 
    GAAGCCGTGG ATGAAGACAG AGACACTGAA GATTTAGGCC AGGATAAAAG GCAGAGGTAT 
    GAGCTGAGTG AGAAGATGCT TTCAGCATGC AACATCCTGA AATCCCACCT GAACGACCCC 
    AAGGCTTTAT CTAGTAAAGA TGTGAGGCCG TGTGTGAACA CCGTGCAGCA TGAGTGGTTC 
    CGAGTGTCCA GTCAGAAGAC GGCTGTGGCG GAGATGGTGG AGGACTATCT GAATGCGTTC 
    AGAAGCATCT CTCCTGCCCT GCTCCAGCAC ATTGTAAACA TGGCCGATGG CAACGGCAAC 
    ACCGCCCTCC ATTACAGCGT GTCCCATTCC AACTTCCACA TTGTCAAGAA GCTACTGGAA 
    GCTGATGTCT GCAATGTCAA TCAGCAGAAT AAAGCAGGCT ATACGCCTAT CATGCTTGCA 
    GCGCTCGCCG CCGTAGAGGC TCCGAAGGAC ATGAGGGTGG TCGATGAGCT GTTTAGTAAA 
    GGAGATGTCA ATGCGAAGGC CAGCCAGGCT GGTCAGACAG GGCTGATGCT GGCTGTCAGT 
    CATGGCAGAA TGGACATGGT GAAAGCTCTG CTAGCCTGTG GTGCGGATGT CAACATCCAG 
    GACGACGAGG GCTCGACCGC GCTCATGTGT GCCAGTGAAC ACGGCCATGT GGAGATAGTG 
    AAGCTGCTGC TGGCTCAGCC AGGCTGTGAT CCCACTCTCA GTGATAATGA CGAAAGCAAC 
    GCATTGTCTA TTGCTCTGGA AGCAGGACAT AAGGACATCG CAGTCTTGCT GTACGCCCAT 
    ATGAACTTCT CCAAAGCTCA GTCACCAGGA ACTCCTCGAC TCGGAAGGAA GACTTCACCC 
    AGCCCTACAA GAAAAGGTCC TGTTTGA

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

    kank1a ( XM_002662070.6 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_002662116.2 Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa10864
    Clone ID Related Accession (Same CDS sequence) XM_005165445.4 , XM_002662070.6 , XM_002662070.5 , XM_005165445.3 , NM_001365257.1
    Accession Version XM_002662070.6 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3927bp)
    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 KN motif and ankyrin repeat domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_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_002662070.5. ##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
    ATGGCCCAAA CCATGCACAT TAACGGCAAC GCCTCAGAAA AAGATGAAGA TGAGAAGGAC 
    CCCTACTGCT TGGAAACCCC ATATGGGTAT CAGCTAGACC TGGACTTCCT TAAATATGTA 
    GATGACATTG AGAGGGGCAA CACCATCAAG AAGCTGAACA TCCAGAGGAA GCCAAAAGTG 
    GTCAGGACTG TTCCGCCGCC TCGGAGCAGT TGCAGTGGCC ACACTGAGTG GACATCAACA 
    GACTCCTTGT CCTCTTCCAA CAGTGATGAA TGCAAACAGT CACCAGTCTA TTTCACGTCT 
    CAGAACCAGG TAGCCCCTCC TGGTCATACT GCCCAAGTCC ATGAAGTTCC CCAACCCTTT 
    GTGAACGTCC CTGAGACCAA GCAGCTGCTT CCTCCACCTT CGCCTCATCT TCTTCGTCAT 
    AACCCGCAGG TGGAGAAAAC ACTGATGGAA ACTCGAAGGA GACTGGAGCA GGAGCGGCTC 
    CTGATGCAGC CACCAGTCAG TGAGCCACCT CGTAGGCGAT TAGCCAGTTT TGGAGGAATG 
    GGGTCTTCCA GTTCCCTGTC CTCTTACAGT GGGTCCTATG GACCAAGCCA GATTTCTCCC 
    AGCTCCCATT CTTTCCAACA TAATGGTCAT CTAGGCAATG GGGAATACAA CCCCTACTTC 
    ACATCCTCTA TGGGCAGTTC AATCCGCCAC AGTCCCCTGA GCTCAGGCAT GACCACACCA 
    GTGACCAATG TTAGCCCCTT GCACCTCCAG CACATTCGAG AACAGATGGT AGTAGCGCTA 
    AAGAGACTAA AAGAGTTGGA GGAGCAGGTA AAGACAATCC CAATCCTTCA AGTCAAGATC 
    TCAGTCTTGC AAGAAGAGAA AAGACAACTA GTATCCCAGA AGAATAACTC TAAGGTAGTG 
    GGGCAAGGAT CAGGTGGATG TTTCAGGAAG CGCTCCTTTA GCGTTGGCAG TGCTGATCAA 
    TATGAGCCCC TGTCCCAGAT CAAGACAGGT TCTGAGCTTC ACATTGAGGA GATTGATAAC 
    ACTGAGCAGA GCACTCAAAG GCTACAGGAG TTCAGGCAAT TAACGGCTGA AGTGGAAGCC 
    CTAGAGCGGA ACATACAGGA TAATGGTGAG GAAATTAAGC ACAGCTTACA CCAAACAGAG 
    CTAAGATCAA ACCAAAATGT CCAGCTGTGG AGCCGTGAAA GCAGGTCCAT TGGTGTCGGA 
    GCTGATGAGA ACATGAACGA TGTGGTGGTT TACAGGAGGT CACCTGGCAA AAACAAAGAT 
    GTGGCTGTTG GAACTGAACA GGAGGTGAGG AGCACAGGAG TTGGTGTGAC TGAAGCCATG 
    CTAGGCCTGA GCAGTGAGGC AGAAACTGAA ATTGAGATGC AGCACCAGAC CATCGAAGCC 
    CTCAAAGAGA AGATTTACAG ATTGGAGGTT CAACTTAAGG AGACGACCCA CCAAATGGAA 
    ATGGGAAAGC TAAAGCTTCA ACTGCAAGTT GCTGGATCTA GGAAAAAGGC AGACAAAGGC 
    TTGATGGCAA GGCCAGAAAT GTACAGCACG TCAGTGGAGG CAAGAGTGTC CACACATACC 
    CAAGGTGTGG GCAACCATGT TGAGCTTAGT GATGCAAGCA CAAACCATGT CCATCAAATG 
    AATTCAGTGG GCATTACTTG CAGACCGGAT GCAAGGCATG TTTTAGTGGG TCCAGAGTTG 
    CCAATGGATC GATGGATTGT ACAAGAACGT ACTGAGGTTC AAGATCAGTG TGTCGGCAGG 
    CATGTTGTGA TGTGCAGCCA GAGTGTGGGA GTGGAATTAA GCGTATGTGA AATGGGAATC 
    AACACGGAGT TAACAGCTGA AGGTTTAGGA CTTTGCAAAA GAGAGGCTGA ACAAGCCAAG 
    GAGTTCAGGT CTATAGGATG TGGAGATTGT TCAGTGGATG TAATGGTTAG ACCCATCAAG 
    GAGATGGCAA CTCGGAGTAC AGGAACAGAT GAAGTTCACA GAACTGACTT TGGAGTCATG 
    GTCTTACCCA TATGTGCGTC ACAGTACACA AACATAGAAA TTGAGACAAT AGACAAGTTA 
    ACCAATACAG ACAAGTTAGT TCTTACTGAT ACCTCCACCA ATACACAATC ATGCTCAAAA 
    GACAAACAAG TCGGCACCGA ACCGTTAGAG ACACGTACAA TCGCTGTTGG TGATGGTCTT 
    GTAAAAGATG CGCCAGCCAC ATTAAAAACC CGTTCAGTTT CAGTAGGTAC TACTTCATCA 
    GACGATGCTT TTCTTGACAA GTTGCCATCT TGCAAAACCA AAGAGACTGG AATTGGCCAC 
    ACAAGCATAC ACGAAAACTT CTTAGTCGGT CAGAAGACAA GGAACATTGC CTGTGGCCCC 
    TCTCAGTCTC CTACCCCCAC CCACGTTAAG AGTAATTTTG AGGAATCTGT CTTAACAGAA 
    GGGCCCAACC AGTCACAGGC TGGTGCAGGA GTTGGACTTG ATCACTACAT AGAGAGAGTG 
    CAAAAGCTCT TGCAGGAACA GCAGATGTTG CTGGCTCAGA ACTACAGTGA GCTGGCAGAT 
    GCATTCGGCC CACCTCAACA ATCCCAGTTC AGTTCCATCA ACAGTGAACT AGTCACTACT 
    CTATCATCCA TCAATTCAGT GTGGAAGTAT GGAAGTCTTG AAGAACTTTG TAACTTGGAT 
    CTTCTAAGGC CGCAGGAGAA CTCAAATCAC ACCGTGAAAG AAACACAGAT GGTCAGTGCA 
    GTCCATTCCC ACTCGAGCAG TTTGAGGTCA GAGGTCACGC GGATAGAGAG TGTGTGCACA 
    GACGACAAAC ATGAACAGAG TACGGCTGCG CAGAAAAGTC GCATGGACCA GCAAATGTCC 
    ACAGCATTGC ATGGCAGTCA CAGCACCCTG AAGTCCATCA TGAAGAAAGA TGGCCATCAG 
    GGACACAATG GCACAAAAAA GAACTTGCAG TTTGTTGGAG TAAATGGAGG CTATGAGACG 
    ACGTCGAGCG ATGACTCCAG CTCAGAGGAG AGCAGCTCTT CTGGGTCAGA GGATGAAGGG 
    GATGACAAAA ACAAGACAGT GAATGTGAGA GAAAGGAGGA AAGAAGAATT CAGGAATAAT 
    GAAGCCGTGG ATGAAGACAG AGACACTGAA GATTTAGGCC AGGATAAAAG GCAGAGGTAT 
    GAGCTGAGTG AGAAGATGCT TTCAGCATGC AACATCCTGA AATCCCACCT GAACGACCCC 
    AAGGCTTTAT CTAGTAAAGA TGTGAGGCCG TGTGTGAACA CCGTGCAGCA TGAGTGGTTC 
    CGAGTGTCCA GTCAGAAGAC GGCTGTGGCG GAGATGGTGG AGGACTATCT GAATGCGTTC 
    AGAAGCATCT CTCCTGCCCT GCTCCAGCAC ATTGTAAACA TGGCCGATGG CAACGGCAAC 
    ACCGCCCTCC ATTACAGCGT GTCCCATTCC AACTTCCACA TTGTCAAGAA GCTACTGGAA 
    GCTGATGTCT GCAATGTCAA TCAGCAGAAT AAAGCAGGCT ATACGCCTAT CATGCTTGCA 
    GCGCTCGCCG CCGTAGAGGC TCCGAAGGAC ATGAGGGTGG TCGATGAGCT GTTTAGTAAA 
    GGAGATGTCA ATGCGAAGGC CAGCCAGGCT GGTCAGACAG GGCTGATGCT GGCTGTCAGT 
    CATGGCAGAA TGGACATGGT GAAAGCTCTG CTAGCCTGTG GTGCGGATGT CAACATCCAG 
    GACGACGAGG GCTCGACCGC GCTCATGTGT GCCAGTGAAC ACGGCCATGT GGAGATAGTG 
    AAGCTGCTGC TGGCTCAGCC AGGCTGTGAT CCCACTCTCA GTGATAATGA CGAAAGCAAC 
    GCATTGTCTA TTGCTCTGGA AGCAGGACAT AAGGACATCG CAGTCTTGCT GTACGCCCAT 
    ATGAACTTCT CCAAAGCTCA GTCACCAGGA ACTCCTCGAC TCGGAAGGAA GACTTCACCC 
    AGCCCTACAA GAAAAGGTCC TGTTTGA

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

    RefSeq XP_002662116.2
    CDS238..4164
    Translation

    Target ORF information:

    RefSeq Version XM_002662070.6
    Organism Danio rerio(zebrafish)
    Definition Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002662070.6

    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
    ATGGCCCAAA CCATGCACAT TAACGGCAAC GCCTCAGAAA AAGATGAAGA TGAGAAGGAC 
    CCCTACTGCT TGGAAACCCC ATATGGGTAT CAGCTAGACC TGGACTTCCT TAAATATGTA 
    GATGACATTG AGAGGGGCAA CACCATCAAG AAGCTGAACA TCCAGAGGAA GCCAAAAGTG 
    GTCAGGACTG TTCCGCCGCC TCGGAGCAGT TGCAGTGGCC ACACTGAGTG GACATCAACA 
    GACTCCTTGT CCTCTTCCAA CAGTGATGAA TGCAAACAGT CACCAGTCTA TTTCACGTCT 
    CAGAACCAGG TAGCCCCTCC TGGTCATACT GCCCAAGTCC ATGAAGTTCC CCAACCCTTT 
    GTGAACGTCC CTGAGACCAA GCAGCTGCTT CCTCCACCTT CGCCTCATCT TCTTCGTCAT 
    AACCCGCAGG TGGAGAAAAC ACTGATGGAA ACTCGAAGGA GACTGGAGCA GGAGCGGCTC 
    CTGATGCAGC CACCAGTCAG TGAGCCACCT CGTAGGCGAT TAGCCAGTTT TGGAGGAATG 
    GGGTCTTCCA GTTCCCTGTC CTCTTACAGT GGGTCCTATG GACCAAGCCA GATTTCTCCC 
    AGCTCCCATT CTTTCCAACA TAATGGTCAT CTAGGCAATG GGGAATACAA CCCCTACTTC 
    ACATCCTCTA TGGGCAGTTC AATCCGCCAC AGTCCCCTGA GCTCAGGCAT GACCACACCA 
    GTGACCAATG TTAGCCCCTT GCACCTCCAG CACATTCGAG AACAGATGGT AGTAGCGCTA 
    AAGAGACTAA AAGAGTTGGA GGAGCAGGTA AAGACAATCC CAATCCTTCA AGTCAAGATC 
    TCAGTCTTGC AAGAAGAGAA AAGACAACTA GTATCCCAGA AGAATAACTC TAAGGTAGTG 
    GGGCAAGGAT CAGGTGGATG TTTCAGGAAG CGCTCCTTTA GCGTTGGCAG TGCTGATCAA 
    TATGAGCCCC TGTCCCAGAT CAAGACAGGT TCTGAGCTTC ACATTGAGGA GATTGATAAC 
    ACTGAGCAGA GCACTCAAAG GCTACAGGAG TTCAGGCAAT TAACGGCTGA AGTGGAAGCC 
    CTAGAGCGGA ACATACAGGA TAATGGTGAG GAAATTAAGC ACAGCTTACA CCAAACAGAG 
    CTAAGATCAA ACCAAAATGT CCAGCTGTGG AGCCGTGAAA GCAGGTCCAT TGGTGTCGGA 
    GCTGATGAGA ACATGAACGA TGTGGTGGTT TACAGGAGGT CACCTGGCAA AAACAAAGAT 
    GTGGCTGTTG GAACTGAACA GGAGGTGAGG AGCACAGGAG TTGGTGTGAC TGAAGCCATG 
    CTAGGCCTGA GCAGTGAGGC AGAAACTGAA ATTGAGATGC AGCACCAGAC CATCGAAGCC 
    CTCAAAGAGA AGATTTACAG ATTGGAGGTT CAACTTAAGG AGACGACCCA CCAAATGGAA 
    ATGGGAAAGC TAAAGCTTCA ACTGCAAGTT GCTGGATCTA GGAAAAAGGC AGACAAAGGC 
    TTGATGGCAA GGCCAGAAAT GTACAGCACG TCAGTGGAGG CAAGAGTGTC CACACATACC 
    CAAGGTGTGG GCAACCATGT TGAGCTTAGT GATGCAAGCA CAAACCATGT CCATCAAATG 
    AATTCAGTGG GCATTACTTG CAGACCGGAT GCAAGGCATG TTTTAGTGGG TCCAGAGTTG 
    CCAATGGATC GATGGATTGT ACAAGAACGT ACTGAGGTTC AAGATCAGTG TGTCGGCAGG 
    CATGTTGTGA TGTGCAGCCA GAGTGTGGGA GTGGAATTAA GCGTATGTGA AATGGGAATC 
    AACACGGAGT TAACAGCTGA AGGTTTAGGA CTTTGCAAAA GAGAGGCTGA ACAAGCCAAG 
    GAGTTCAGGT CTATAGGATG TGGAGATTGT TCAGTGGATG TAATGGTTAG ACCCATCAAG 
    GAGATGGCAA CTCGGAGTAC AGGAACAGAT GAAGTTCACA GAACTGACTT TGGAGTCATG 
    GTCTTACCCA TATGTGCGTC ACAGTACACA AACATAGAAA TTGAGACAAT AGACAAGTTA 
    ACCAATACAG ACAAGTTAGT TCTTACTGAT ACCTCCACCA ATACACAATC ATGCTCAAAA 
    GACAAACAAG TCGGCACCGA ACCGTTAGAG ACACGTACAA TCGCTGTTGG TGATGGTCTT 
    GTAAAAGATG CGCCAGCCAC ATTAAAAACC CGTTCAGTTT CAGTAGGTAC TACTTCATCA 
    GACGATGCTT TTCTTGACAA GTTGCCATCT TGCAAAACCA AAGAGACTGG AATTGGCCAC 
    ACAAGCATAC ACGAAAACTT CTTAGTCGGT CAGAAGACAA GGAACATTGC CTGTGGCCCC 
    TCTCAGTCTC CTACCCCCAC CCACGTTAAG AGTAATTTTG AGGAATCTGT CTTAACAGAA 
    GGGCCCAACC AGTCACAGGC TGGTGCAGGA GTTGGACTTG ATCACTACAT AGAGAGAGTG 
    CAAAAGCTCT TGCAGGAACA GCAGATGTTG CTGGCTCAGA ACTACAGTGA GCTGGCAGAT 
    GCATTCGGCC CACCTCAACA ATCCCAGTTC AGTTCCATCA ACAGTGAACT AGTCACTACT 
    CTATCATCCA TCAATTCAGT GTGGAAGTAT GGAAGTCTTG AAGAACTTTG TAACTTGGAT 
    CTTCTAAGGC CGCAGGAGAA CTCAAATCAC ACCGTGAAAG AAACACAGAT GGTCAGTGCA 
    GTCCATTCCC ACTCGAGCAG TTTGAGGTCA GAGGTCACGC GGATAGAGAG TGTGTGCACA 
    GACGACAAAC ATGAACAGAG TACGGCTGCG CAGAAAAGTC GCATGGACCA GCAAATGTCC 
    ACAGCATTGC ATGGCAGTCA CAGCACCCTG AAGTCCATCA TGAAGAAAGA TGGCCATCAG 
    GGACACAATG GCACAAAAAA GAACTTGCAG TTTGTTGGAG TAAATGGAGG CTATGAGACG 
    ACGTCGAGCG ATGACTCCAG CTCAGAGGAG AGCAGCTCTT CTGGGTCAGA GGATGAAGGG 
    GATGACAAAA ACAAGACAGT GAATGTGAGA GAAAGGAGGA AAGAAGAATT CAGGAATAAT 
    GAAGCCGTGG ATGAAGACAG AGACACTGAA GATTTAGGCC AGGATAAAAG GCAGAGGTAT 
    GAGCTGAGTG AGAAGATGCT TTCAGCATGC AACATCCTGA AATCCCACCT GAACGACCCC 
    AAGGCTTTAT CTAGTAAAGA TGTGAGGCCG TGTGTGAACA CCGTGCAGCA TGAGTGGTTC 
    CGAGTGTCCA GTCAGAAGAC GGCTGTGGCG GAGATGGTGG AGGACTATCT GAATGCGTTC 
    AGAAGCATCT CTCCTGCCCT GCTCCAGCAC ATTGTAAACA TGGCCGATGG CAACGGCAAC 
    ACCGCCCTCC ATTACAGCGT GTCCCATTCC AACTTCCACA TTGTCAAGAA GCTACTGGAA 
    GCTGATGTCT GCAATGTCAA TCAGCAGAAT AAAGCAGGCT ATACGCCTAT CATGCTTGCA 
    GCGCTCGCCG CCGTAGAGGC TCCGAAGGAC ATGAGGGTGG TCGATGAGCT GTTTAGTAAA 
    GGAGATGTCA ATGCGAAGGC CAGCCAGGCT GGTCAGACAG GGCTGATGCT GGCTGTCAGT 
    CATGGCAGAA TGGACATGGT GAAAGCTCTG CTAGCCTGTG GTGCGGATGT CAACATCCAG 
    GACGACGAGG GCTCGACCGC GCTCATGTGT GCCAGTGAAC ACGGCCATGT GGAGATAGTG 
    AAGCTGCTGC TGGCTCAGCC AGGCTGTGAT CCCACTCTCA GTGATAATGA CGAAAGCAAC 
    GCATTGTCTA TTGCTCTGGA AGCAGGACAT AAGGACATCG CAGTCTTGCT GTACGCCCAT 
    ATGAACTTCT CCAAAGCTCA GTCACCAGGA ACTCCTCGAC TCGGAAGGAA GACTTCACCC 
    AGCCCTACAA GAAAAGGTCC TGTTTGA

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

    kank1a ( XM_002662070.5 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_002662116.2 Danio rerio KN motif and ankyrin repeat domains 1 (kank1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa10864
    Clone ID Related Accession (Same CDS sequence) XM_005165445.4 , XM_002662070.6 , XM_002662070.5 , XM_005165445.3 , NM_001365257.1
    Accession Version XM_002662070.5 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3927bp)
    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 KN motif and ankyrin repeat domain-containing protein 1 isoform X1
    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 On Jun 24, 2016 this sequence version replaced XM_002662070.4. ##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
    ATGGCCCAAA CCATGCACAT TAACGGCAAC GCCTCAGAAA AAGATGAAGA TGAGAAGGAC 
    CCCTACTGCT TGGAAACCCC ATATGGGTAT CAGCTAGACC TGGACTTCCT TAAATATGTA 
    GATGACATTG AGAGGGGCAA CACCATCAAG AAGCTGAACA TCCAGAGGAA GCCAAAAGTG 
    GTCAGGACTG TTCCGCCGCC TCGGAGCAGT TGCAGTGGCC ACACTGAGTG GACATCAACA 
    GACTCCTTGT CCTCTTCCAA CAGTGATGAA TGCAAACAGT CACCAGTCTA TTTCACGTCT 
    CAGAACCAGG TAGCCCCTCC TGGTCATACT GCCCAAGTCC ATGAAGTTCC CCAACCCTTT 
    GTGAACGTCC CTGAGACCAA GCAGCTGCTT CCTCCACCTT CGCCTCATCT TCTTCGTCAT 
    AACCCGCAGG TGGAGAAAAC ACTGATGGAA ACTCGAAGGA GACTGGAGCA GGAGCGGCTC 
    CTGATGCAGC CACCAGTCAG TGAGCCACCT CGTAGGCGAT TAGCCAGTTT TGGAGGAATG 
    GGGTCTTCCA GTTCCCTGTC CTCTTACAGT GGGTCCTATG GACCAAGCCA GATTTCTCCC 
    AGCTCCCATT CTTTCCAACA TAATGGTCAT CTAGGCAATG GGGAATACAA CCCCTACTTC 
    ACATCCTCTA TGGGCAGTTC AATCCGCCAC AGTCCCCTGA GCTCAGGCAT GACCACACCA 
    GTGACCAATG TTAGCCCCTT GCACCTCCAG CACATTCGAG AACAGATGGT AGTAGCGCTA 
    AAGAGACTAA AAGAGTTGGA GGAGCAGGTA AAGACAATCC CAATCCTTCA AGTCAAGATC 
    TCAGTCTTGC AAGAAGAGAA AAGACAACTA GTATCCCAGA AGAATAACTC TAAGGTAGTG 
    GGGCAAGGAT CAGGTGGATG TTTCAGGAAG CGCTCCTTTA GCGTTGGCAG TGCTGATCAA 
    TATGAGCCCC TGTCCCAGAT CAAGACAGGT TCTGAGCTTC ACATTGAGGA GATTGATAAC 
    ACTGAGCAGA GCACTCAAAG GCTACAGGAG TTCAGGCAAT TAACGGCTGA AGTGGAAGCC 
    CTAGAGCGGA ACATACAGGA TAATGGTGAG GAAATTAAGC ACAGCTTACA CCAAACAGAG 
    CTAAGATCAA ACCAAAATGT CCAGCTGTGG AGCCGTGAAA GCAGGTCCAT TGGTGTCGGA 
    GCTGATGAGA ACATGAACGA TGTGGTGGTT TACAGGAGGT CACCTGGCAA AAACAAAGAT 
    GTGGCTGTTG GAACTGAACA GGAGGTGAGG AGCACAGGAG TTGGTGTGAC TGAAGCCATG 
    CTAGGCCTGA GCAGTGAGGC AGAAACTGAA ATTGAGATGC AGCACCAGAC CATCGAAGCC 
    CTCAAAGAGA AGATTTACAG ATTGGAGGTT CAACTTAAGG AGACGACCCA CCAAATGGAA 
    ATGGGAAAGC TAAAGCTTCA ACTGCAAGTT GCTGGATCTA GGAAAAAGGC AGACAAAGGC 
    TTGATGGCAA GGCCAGAAAT GTACAGCACG TCAGTGGAGG CAAGAGTGTC CACACATACC 
    CAAGGTGTGG GCAACCATGT TGAGCTTAGT GATGCAAGCA CAAACCATGT CCATCAAATG 
    AATTCAGTGG GCATTACTTG CAGACCGGAT GCAAGGCATG TTTTAGTGGG TCCAGAGTTG 
    CCAATGGATC GATGGATTGT ACAAGAACGT ACTGAGGTTC AAGATCAGTG TGTCGGCAGG 
    CATGTTGTGA TGTGCAGCCA GAGTGTGGGA GTGGAATTAA GCGTATGTGA AATGGGAATC 
    AACACGGAGT TAACAGCTGA AGGTTTAGGA CTTTGCAAAA GAGAGGCTGA ACAAGCCAAG 
    GAGTTCAGGT CTATAGGATG TGGAGATTGT TCAGTGGATG TAATGGTTAG ACCCATCAAG 
    GAGATGGCAA CTCGGAGTAC AGGAACAGAT GAAGTTCACA GAACTGACTT TGGAGTCATG 
    GTCTTACCCA TATGTGCGTC ACAGTACACA AACATAGAAA TTGAGACAAT AGACAAGTTA 
    ACCAATACAG ACAAGTTAGT TCTTACTGAT ACCTCCACCA ATACACAATC ATGCTCAAAA 
    GACAAACAAG TCGGCACCGA ACCGTTAGAG ACACGTACAA TCGCTGTTGG TGATGGTCTT 
    GTAAAAGATG CGCCAGCCAC ATTAAAAACC CGTTCAGTTT CAGTAGGTAC TACTTCATCA 
    GACGATGCTT TTCTTGACAA GTTGCCATCT TGCAAAACCA AAGAGACTGG AATTGGCCAC 
    ACAAGCATAC ACGAAAACTT CTTAGTCGGT CAGAAGACAA GGAACATTGC CTGTGGCCCC 
    TCTCAGTCTC CTACCCCCAC CCACGTTAAG AGTAATTTTG AGGAATCTGT CTTAACAGAA 
    GGGCCCAACC AGTCACAGGC TGGTGCAGGA GTTGGACTTG ATCACTACAT AGAGAGAGTG 
    CAAAAGCTCT TGCAGGAACA GCAGATGTTG CTGGCTCAGA ACTACAGTGA GCTGGCAGAT 
    GCATTCGGCC CACCTCAACA ATCCCAGTTC AGTTCCATCA ACAGTGAACT AGTCACTACT 
    CTATCATCCA TCAATTCAGT GTGGAAGTAT GGAAGTCTTG AAGAACTTTG TAACTTGGAT 
    CTTCTAAGGC CGCAGGAGAA CTCAAATCAC ACCGTGAAAG AAACACAGAT GGTCAGTGCA 
    GTCCATTCCC ACTCGAGCAG TTTGAGGTCA GAGGTCACGC GGATAGAGAG TGTGTGCACA 
    GACGACAAAC ATGAACAGAG TACGGCTGCG CAGAAAAGTC GCATGGACCA GCAAATGTCC 
    ACAGCATTGC ATGGCAGTCA CAGCACCCTG AAGTCCATCA TGAAGAAAGA TGGCCATCAG 
    GGACACAATG GCACAAAAAA GAACTTGCAG TTTGTTGGAG TAAATGGAGG CTATGAGACG 
    ACGTCGAGCG ATGACTCCAG CTCAGAGGAG AGCAGCTCTT CTGGGTCAGA GGATGAAGGG 
    GATGACAAAA ACAAGACAGT GAATGTGAGA GAAAGGAGGA AAGAAGAATT CAGGAATAAT 
    GAAGCCGTGG ATGAAGACAG AGACACTGAA GATTTAGGCC AGGATAAAAG GCAGAGGTAT 
    GAGCTGAGTG AGAAGATGCT TTCAGCATGC AACATCCTGA AATCCCACCT GAACGACCCC 
    AAGGCTTTAT CTAGTAAAGA TGTGAGGCCG TGTGTGAACA CCGTGCAGCA TGAGTGGTTC 
    CGAGTGTCCA GTCAGAAGAC GGCTGTGGCG GAGATGGTGG AGGACTATCT GAATGCGTTC 
    AGAAGCATCT CTCCTGCCCT GCTCCAGCAC ATTGTAAACA TGGCCGATGG CAACGGCAAC 
    ACCGCCCTCC ATTACAGCGT GTCCCATTCC AACTTCCACA TTGTCAAGAA GCTACTGGAA 
    GCTGATGTCT GCAATGTCAA TCAGCAGAAT AAAGCAGGCT ATACGCCTAT CATGCTTGCA 
    GCGCTCGCCG CCGTAGAGGC TCCGAAGGAC ATGAGGGTGG TCGATGAGCT GTTTAGTAAA 
    GGAGATGTCA ATGCGAAGGC CAGCCAGGCT GGTCAGACAG GGCTGATGCT GGCTGTCAGT 
    CATGGCAGAA TGGACATGGT GAAAGCTCTG CTAGCCTGTG GTGCGGATGT CAACATCCAG 
    GACGACGAGG GCTCGACCGC GCTCATGTGT GCCAGTGAAC ACGGCCATGT GGAGATAGTG 
    AAGCTGCTGC TGGCTCAGCC AGGCTGTGAT CCCACTCTCA GTGATAATGA CGAAAGCAAC 
    GCATTGTCTA TTGCTCTGGA AGCAGGACAT AAGGACATCG CAGTCTTGCT GTACGCCCAT 
    ATGAACTTCT CCAAAGCTCA GTCACCAGGA ACTCCTCGAC TCGGAAGGAA GACTTCACCC 
    AGCCCTACAA GAAAAGGTCC TGTTTGA

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

    RefSeq XP_002662116.2
    CDS220..4146
    Translation

    Target ORF information:

    RefSeq Version XM_002662070.5
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio KN motif and ankyrin repeat domains 1 (kank1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002662070.5

    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
    ATGGCCCAAA CCATGCACAT TAACGGCAAC GCCTCAGAAA AAGATGAAGA TGAGAAGGAC 
    CCCTACTGCT TGGAAACCCC ATATGGGTAT CAGCTAGACC TGGACTTCCT TAAATATGTA 
    GATGACATTG AGAGGGGCAA CACCATCAAG AAGCTGAACA TCCAGAGGAA GCCAAAAGTG 
    GTCAGGACTG TTCCGCCGCC TCGGAGCAGT TGCAGTGGCC ACACTGAGTG GACATCAACA 
    GACTCCTTGT CCTCTTCCAA CAGTGATGAA TGCAAACAGT CACCAGTCTA TTTCACGTCT 
    CAGAACCAGG TAGCCCCTCC TGGTCATACT GCCCAAGTCC ATGAAGTTCC CCAACCCTTT 
    GTGAACGTCC CTGAGACCAA GCAGCTGCTT CCTCCACCTT CGCCTCATCT TCTTCGTCAT 
    AACCCGCAGG TGGAGAAAAC ACTGATGGAA ACTCGAAGGA GACTGGAGCA GGAGCGGCTC 
    CTGATGCAGC CACCAGTCAG TGAGCCACCT CGTAGGCGAT TAGCCAGTTT TGGAGGAATG 
    GGGTCTTCCA GTTCCCTGTC CTCTTACAGT GGGTCCTATG GACCAAGCCA GATTTCTCCC 
    AGCTCCCATT CTTTCCAACA TAATGGTCAT CTAGGCAATG GGGAATACAA CCCCTACTTC 
    ACATCCTCTA TGGGCAGTTC AATCCGCCAC AGTCCCCTGA GCTCAGGCAT GACCACACCA 
    GTGACCAATG TTAGCCCCTT GCACCTCCAG CACATTCGAG AACAGATGGT AGTAGCGCTA 
    AAGAGACTAA AAGAGTTGGA GGAGCAGGTA AAGACAATCC CAATCCTTCA AGTCAAGATC 
    TCAGTCTTGC AAGAAGAGAA AAGACAACTA GTATCCCAGA AGAATAACTC TAAGGTAGTG 
    GGGCAAGGAT CAGGTGGATG TTTCAGGAAG CGCTCCTTTA GCGTTGGCAG TGCTGATCAA 
    TATGAGCCCC TGTCCCAGAT CAAGACAGGT TCTGAGCTTC ACATTGAGGA GATTGATAAC 
    ACTGAGCAGA GCACTCAAAG GCTACAGGAG TTCAGGCAAT TAACGGCTGA AGTGGAAGCC 
    CTAGAGCGGA ACATACAGGA TAATGGTGAG GAAATTAAGC ACAGCTTACA CCAAACAGAG 
    CTAAGATCAA ACCAAAATGT CCAGCTGTGG AGCCGTGAAA GCAGGTCCAT TGGTGTCGGA 
    GCTGATGAGA ACATGAACGA TGTGGTGGTT TACAGGAGGT CACCTGGCAA AAACAAAGAT 
    GTGGCTGTTG GAACTGAACA GGAGGTGAGG AGCACAGGAG TTGGTGTGAC TGAAGCCATG 
    CTAGGCCTGA GCAGTGAGGC AGAAACTGAA ATTGAGATGC AGCACCAGAC CATCGAAGCC 
    CTCAAAGAGA AGATTTACAG ATTGGAGGTT CAACTTAAGG AGACGACCCA CCAAATGGAA 
    ATGGGAAAGC TAAAGCTTCA ACTGCAAGTT GCTGGATCTA GGAAAAAGGC AGACAAAGGC 
    TTGATGGCAA GGCCAGAAAT GTACAGCACG TCAGTGGAGG CAAGAGTGTC CACACATACC 
    CAAGGTGTGG GCAACCATGT TGAGCTTAGT GATGCAAGCA CAAACCATGT CCATCAAATG 
    AATTCAGTGG GCATTACTTG CAGACCGGAT GCAAGGCATG TTTTAGTGGG TCCAGAGTTG 
    CCAATGGATC GATGGATTGT ACAAGAACGT ACTGAGGTTC AAGATCAGTG TGTCGGCAGG 
    CATGTTGTGA TGTGCAGCCA GAGTGTGGGA GTGGAATTAA GCGTATGTGA AATGGGAATC 
    AACACGGAGT TAACAGCTGA AGGTTTAGGA CTTTGCAAAA GAGAGGCTGA ACAAGCCAAG 
    GAGTTCAGGT CTATAGGATG TGGAGATTGT TCAGTGGATG TAATGGTTAG ACCCATCAAG 
    GAGATGGCAA CTCGGAGTAC AGGAACAGAT GAAGTTCACA GAACTGACTT TGGAGTCATG 
    GTCTTACCCA TATGTGCGTC ACAGTACACA AACATAGAAA TTGAGACAAT AGACAAGTTA 
    ACCAATACAG ACAAGTTAGT TCTTACTGAT ACCTCCACCA ATACACAATC ATGCTCAAAA 
    GACAAACAAG TCGGCACCGA ACCGTTAGAG ACACGTACAA TCGCTGTTGG TGATGGTCTT 
    GTAAAAGATG CGCCAGCCAC ATTAAAAACC CGTTCAGTTT CAGTAGGTAC TACTTCATCA 
    GACGATGCTT TTCTTGACAA GTTGCCATCT TGCAAAACCA AAGAGACTGG AATTGGCCAC 
    ACAAGCATAC ACGAAAACTT CTTAGTCGGT CAGAAGACAA GGAACATTGC CTGTGGCCCC 
    TCTCAGTCTC CTACCCCCAC CCACGTTAAG AGTAATTTTG AGGAATCTGT CTTAACAGAA 
    GGGCCCAACC AGTCACAGGC TGGTGCAGGA GTTGGACTTG ATCACTACAT AGAGAGAGTG 
    CAAAAGCTCT TGCAGGAACA GCAGATGTTG CTGGCTCAGA ACTACAGTGA GCTGGCAGAT 
    GCATTCGGCC CACCTCAACA ATCCCAGTTC AGTTCCATCA ACAGTGAACT AGTCACTACT 
    CTATCATCCA TCAATTCAGT GTGGAAGTAT GGAAGTCTTG AAGAACTTTG TAACTTGGAT 
    CTTCTAAGGC CGCAGGAGAA CTCAAATCAC ACCGTGAAAG AAACACAGAT GGTCAGTGCA 
    GTCCATTCCC ACTCGAGCAG TTTGAGGTCA GAGGTCACGC GGATAGAGAG TGTGTGCACA 
    GACGACAAAC ATGAACAGAG TACGGCTGCG CAGAAAAGTC GCATGGACCA GCAAATGTCC 
    ACAGCATTGC ATGGCAGTCA CAGCACCCTG AAGTCCATCA TGAAGAAAGA TGGCCATCAG 
    GGACACAATG GCACAAAAAA GAACTTGCAG TTTGTTGGAG TAAATGGAGG CTATGAGACG 
    ACGTCGAGCG ATGACTCCAG CTCAGAGGAG AGCAGCTCTT CTGGGTCAGA GGATGAAGGG 
    GATGACAAAA ACAAGACAGT GAATGTGAGA GAAAGGAGGA AAGAAGAATT CAGGAATAAT 
    GAAGCCGTGG ATGAAGACAG AGACACTGAA GATTTAGGCC AGGATAAAAG GCAGAGGTAT 
    GAGCTGAGTG AGAAGATGCT TTCAGCATGC AACATCCTGA AATCCCACCT GAACGACCCC 
    AAGGCTTTAT CTAGTAAAGA TGTGAGGCCG TGTGTGAACA CCGTGCAGCA TGAGTGGTTC 
    CGAGTGTCCA GTCAGAAGAC GGCTGTGGCG GAGATGGTGG AGGACTATCT GAATGCGTTC 
    AGAAGCATCT CTCCTGCCCT GCTCCAGCAC ATTGTAAACA TGGCCGATGG CAACGGCAAC 
    ACCGCCCTCC ATTACAGCGT GTCCCATTCC AACTTCCACA TTGTCAAGAA GCTACTGGAA 
    GCTGATGTCT GCAATGTCAA TCAGCAGAAT AAAGCAGGCT ATACGCCTAT CATGCTTGCA 
    GCGCTCGCCG CCGTAGAGGC TCCGAAGGAC ATGAGGGTGG TCGATGAGCT GTTTAGTAAA 
    GGAGATGTCA ATGCGAAGGC CAGCCAGGCT GGTCAGACAG GGCTGATGCT GGCTGTCAGT 
    CATGGCAGAA TGGACATGGT GAAAGCTCTG CTAGCCTGTG GTGCGGATGT CAACATCCAG 
    GACGACGAGG GCTCGACCGC GCTCATGTGT GCCAGTGAAC ACGGCCATGT GGAGATAGTG 
    AAGCTGCTGC TGGCTCAGCC AGGCTGTGAT CCCACTCTCA GTGATAATGA CGAAAGCAAC 
    GCATTGTCTA TTGCTCTGGA AGCAGGACAT AAGGACATCG CAGTCTTGCT GTACGCCCAT 
    ATGAACTTCT CCAAAGCTCA GTCACCAGGA ACTCCTCGAC TCGGAAGGAA GACTTCACCC 
    AGCCCTACAA GAAAAGGTCC TGTTTGA

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

    kank1a ( XM_005165445.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005165502.1 Danio rerio KN motif and ankyrin repeat domains 1 (kank1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa10864
    Clone ID Related Accession (Same CDS sequence) XM_005165445.4 , XM_002662070.6 , XM_002662070.5 , XM_005165445.3 , NM_001365257.1
    Accession Version XM_005165445.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3927bp)
    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 KN motif and ankyrin repeat domain-containing protein 1 isoform X1
    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 On Jun 24, 2016 this sequence version replaced XM_005165445.2. ##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
    ATGGCCCAAA CCATGCACAT TAACGGCAAC GCCTCAGAAA AAGATGAAGA TGAGAAGGAC 
    CCCTACTGCT TGGAAACCCC ATATGGGTAT CAGCTAGACC TGGACTTCCT TAAATATGTA 
    GATGACATTG AGAGGGGCAA CACCATCAAG AAGCTGAACA TCCAGAGGAA GCCAAAAGTG 
    GTCAGGACTG TTCCGCCGCC TCGGAGCAGT TGCAGTGGCC ACACTGAGTG GACATCAACA 
    GACTCCTTGT CCTCTTCCAA CAGTGATGAA TGCAAACAGT CACCAGTCTA TTTCACGTCT 
    CAGAACCAGG TAGCCCCTCC TGGTCATACT GCCCAAGTCC ATGAAGTTCC CCAACCCTTT 
    GTGAACGTCC CTGAGACCAA GCAGCTGCTT CCTCCACCTT CGCCTCATCT TCTTCGTCAT 
    AACCCGCAGG TGGAGAAAAC ACTGATGGAA ACTCGAAGGA GACTGGAGCA GGAGCGGCTC 
    CTGATGCAGC CACCAGTCAG TGAGCCACCT CGTAGGCGAT TAGCCAGTTT TGGAGGAATG 
    GGGTCTTCCA GTTCCCTGTC CTCTTACAGT GGGTCCTATG GACCAAGCCA GATTTCTCCC 
    AGCTCCCATT CTTTCCAACA TAATGGTCAT CTAGGCAATG GGGAATACAA CCCCTACTTC 
    ACATCCTCTA TGGGCAGTTC AATCCGCCAC AGTCCCCTGA GCTCAGGCAT GACCACACCA 
    GTGACCAATG TTAGCCCCTT GCACCTCCAG CACATTCGAG AACAGATGGT AGTAGCGCTA 
    AAGAGACTAA AAGAGTTGGA GGAGCAGGTA AAGACAATCC CAATCCTTCA AGTCAAGATC 
    TCAGTCTTGC AAGAAGAGAA AAGACAACTA GTATCCCAGA AGAATAACTC TAAGGTAGTG 
    GGGCAAGGAT CAGGTGGATG TTTCAGGAAG CGCTCCTTTA GCGTTGGCAG TGCTGATCAA 
    TATGAGCCCC TGTCCCAGAT CAAGACAGGT TCTGAGCTTC ACATTGAGGA GATTGATAAC 
    ACTGAGCAGA GCACTCAAAG GCTACAGGAG TTCAGGCAAT TAACGGCTGA AGTGGAAGCC 
    CTAGAGCGGA ACATACAGGA TAATGGTGAG GAAATTAAGC ACAGCTTACA CCAAACAGAG 
    CTAAGATCAA ACCAAAATGT CCAGCTGTGG AGCCGTGAAA GCAGGTCCAT TGGTGTCGGA 
    GCTGATGAGA ACATGAACGA TGTGGTGGTT TACAGGAGGT CACCTGGCAA AAACAAAGAT 
    GTGGCTGTTG GAACTGAACA GGAGGTGAGG AGCACAGGAG TTGGTGTGAC TGAAGCCATG 
    CTAGGCCTGA GCAGTGAGGC AGAAACTGAA ATTGAGATGC AGCACCAGAC CATCGAAGCC 
    CTCAAAGAGA AGATTTACAG ATTGGAGGTT CAACTTAAGG AGACGACCCA CCAAATGGAA 
    ATGGGAAAGC TAAAGCTTCA ACTGCAAGTT GCTGGATCTA GGAAAAAGGC AGACAAAGGC 
    TTGATGGCAA GGCCAGAAAT GTACAGCACG TCAGTGGAGG CAAGAGTGTC CACACATACC 
    CAAGGTGTGG GCAACCATGT TGAGCTTAGT GATGCAAGCA CAAACCATGT CCATCAAATG 
    AATTCAGTGG GCATTACTTG CAGACCGGAT GCAAGGCATG TTTTAGTGGG TCCAGAGTTG 
    CCAATGGATC GATGGATTGT ACAAGAACGT ACTGAGGTTC AAGATCAGTG TGTCGGCAGG 
    CATGTTGTGA TGTGCAGCCA GAGTGTGGGA GTGGAATTAA GCGTATGTGA AATGGGAATC 
    AACACGGAGT TAACAGCTGA AGGTTTAGGA CTTTGCAAAA GAGAGGCTGA ACAAGCCAAG 
    GAGTTCAGGT CTATAGGATG TGGAGATTGT TCAGTGGATG TAATGGTTAG ACCCATCAAG 
    GAGATGGCAA CTCGGAGTAC AGGAACAGAT GAAGTTCACA GAACTGACTT TGGAGTCATG 
    GTCTTACCCA TATGTGCGTC ACAGTACACA AACATAGAAA TTGAGACAAT AGACAAGTTA 
    ACCAATACAG ACAAGTTAGT TCTTACTGAT ACCTCCACCA ATACACAATC ATGCTCAAAA 
    GACAAACAAG TCGGCACCGA ACCGTTAGAG ACACGTACAA TCGCTGTTGG TGATGGTCTT 
    GTAAAAGATG CGCCAGCCAC ATTAAAAACC CGTTCAGTTT CAGTAGGTAC TACTTCATCA 
    GACGATGCTT TTCTTGACAA GTTGCCATCT TGCAAAACCA AAGAGACTGG AATTGGCCAC 
    ACAAGCATAC ACGAAAACTT CTTAGTCGGT CAGAAGACAA GGAACATTGC CTGTGGCCCC 
    TCTCAGTCTC CTACCCCCAC CCACGTTAAG AGTAATTTTG AGGAATCTGT CTTAACAGAA 
    GGGCCCAACC AGTCACAGGC TGGTGCAGGA GTTGGACTTG ATCACTACAT AGAGAGAGTG 
    CAAAAGCTCT TGCAGGAACA GCAGATGTTG CTGGCTCAGA ACTACAGTGA GCTGGCAGAT 
    GCATTCGGCC CACCTCAACA ATCCCAGTTC AGTTCCATCA ACAGTGAACT AGTCACTACT 
    CTATCATCCA TCAATTCAGT GTGGAAGTAT GGAAGTCTTG AAGAACTTTG TAACTTGGAT 
    CTTCTAAGGC CGCAGGAGAA CTCAAATCAC ACCGTGAAAG AAACACAGAT GGTCAGTGCA 
    GTCCATTCCC ACTCGAGCAG TTTGAGGTCA GAGGTCACGC GGATAGAGAG TGTGTGCACA 
    GACGACAAAC ATGAACAGAG TACGGCTGCG CAGAAAAGTC GCATGGACCA GCAAATGTCC 
    ACAGCATTGC ATGGCAGTCA CAGCACCCTG AAGTCCATCA TGAAGAAAGA TGGCCATCAG 
    GGACACAATG GCACAAAAAA GAACTTGCAG TTTGTTGGAG TAAATGGAGG CTATGAGACG 
    ACGTCGAGCG ATGACTCCAG CTCAGAGGAG AGCAGCTCTT CTGGGTCAGA GGATGAAGGG 
    GATGACAAAA ACAAGACAGT GAATGTGAGA GAAAGGAGGA AAGAAGAATT CAGGAATAAT 
    GAAGCCGTGG ATGAAGACAG AGACACTGAA GATTTAGGCC AGGATAAAAG GCAGAGGTAT 
    GAGCTGAGTG AGAAGATGCT TTCAGCATGC AACATCCTGA AATCCCACCT GAACGACCCC 
    AAGGCTTTAT CTAGTAAAGA TGTGAGGCCG TGTGTGAACA CCGTGCAGCA TGAGTGGTTC 
    CGAGTGTCCA GTCAGAAGAC GGCTGTGGCG GAGATGGTGG AGGACTATCT GAATGCGTTC 
    AGAAGCATCT CTCCTGCCCT GCTCCAGCAC ATTGTAAACA TGGCCGATGG CAACGGCAAC 
    ACCGCCCTCC ATTACAGCGT GTCCCATTCC AACTTCCACA TTGTCAAGAA GCTACTGGAA 
    GCTGATGTCT GCAATGTCAA TCAGCAGAAT AAAGCAGGCT ATACGCCTAT CATGCTTGCA 
    GCGCTCGCCG CCGTAGAGGC TCCGAAGGAC ATGAGGGTGG TCGATGAGCT GTTTAGTAAA 
    GGAGATGTCA ATGCGAAGGC CAGCCAGGCT GGTCAGACAG GGCTGATGCT GGCTGTCAGT 
    CATGGCAGAA TGGACATGGT GAAAGCTCTG CTAGCCTGTG GTGCGGATGT CAACATCCAG 
    GACGACGAGG GCTCGACCGC GCTCATGTGT GCCAGTGAAC ACGGCCATGT GGAGATAGTG 
    AAGCTGCTGC TGGCTCAGCC AGGCTGTGAT CCCACTCTCA GTGATAATGA CGAAAGCAAC 
    GCATTGTCTA TTGCTCTGGA AGCAGGACAT AAGGACATCG CAGTCTTGCT GTACGCCCAT 
    ATGAACTTCT CCAAAGCTCA GTCACCAGGA ACTCCTCGAC TCGGAAGGAA GACTTCACCC 
    AGCCCTACAA GAAAAGGTCC TGTTTGA

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

    RefSeq XP_005165502.1
    CDS374..4300
    Translation

    Target ORF information:

    RefSeq Version XM_005165445.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio KN motif and ankyrin repeat domains 1 (kank1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005165445.3

    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
    ATGGCCCAAA CCATGCACAT TAACGGCAAC GCCTCAGAAA AAGATGAAGA TGAGAAGGAC 
    CCCTACTGCT TGGAAACCCC ATATGGGTAT CAGCTAGACC TGGACTTCCT TAAATATGTA 
    GATGACATTG AGAGGGGCAA CACCATCAAG AAGCTGAACA TCCAGAGGAA GCCAAAAGTG 
    GTCAGGACTG TTCCGCCGCC TCGGAGCAGT TGCAGTGGCC ACACTGAGTG GACATCAACA 
    GACTCCTTGT CCTCTTCCAA CAGTGATGAA TGCAAACAGT CACCAGTCTA TTTCACGTCT 
    CAGAACCAGG TAGCCCCTCC TGGTCATACT GCCCAAGTCC ATGAAGTTCC CCAACCCTTT 
    GTGAACGTCC CTGAGACCAA GCAGCTGCTT CCTCCACCTT CGCCTCATCT TCTTCGTCAT 
    AACCCGCAGG TGGAGAAAAC ACTGATGGAA ACTCGAAGGA GACTGGAGCA GGAGCGGCTC 
    CTGATGCAGC CACCAGTCAG TGAGCCACCT CGTAGGCGAT TAGCCAGTTT TGGAGGAATG 
    GGGTCTTCCA GTTCCCTGTC CTCTTACAGT GGGTCCTATG GACCAAGCCA GATTTCTCCC 
    AGCTCCCATT CTTTCCAACA TAATGGTCAT CTAGGCAATG GGGAATACAA CCCCTACTTC 
    ACATCCTCTA TGGGCAGTTC AATCCGCCAC AGTCCCCTGA GCTCAGGCAT GACCACACCA 
    GTGACCAATG TTAGCCCCTT GCACCTCCAG CACATTCGAG AACAGATGGT AGTAGCGCTA 
    AAGAGACTAA AAGAGTTGGA GGAGCAGGTA AAGACAATCC CAATCCTTCA AGTCAAGATC 
    TCAGTCTTGC AAGAAGAGAA AAGACAACTA GTATCCCAGA AGAATAACTC TAAGGTAGTG 
    GGGCAAGGAT CAGGTGGATG TTTCAGGAAG CGCTCCTTTA GCGTTGGCAG TGCTGATCAA 
    TATGAGCCCC TGTCCCAGAT CAAGACAGGT TCTGAGCTTC ACATTGAGGA GATTGATAAC 
    ACTGAGCAGA GCACTCAAAG GCTACAGGAG TTCAGGCAAT TAACGGCTGA AGTGGAAGCC 
    CTAGAGCGGA ACATACAGGA TAATGGTGAG GAAATTAAGC ACAGCTTACA CCAAACAGAG 
    CTAAGATCAA ACCAAAATGT CCAGCTGTGG AGCCGTGAAA GCAGGTCCAT TGGTGTCGGA 
    GCTGATGAGA ACATGAACGA TGTGGTGGTT TACAGGAGGT CACCTGGCAA AAACAAAGAT 
    GTGGCTGTTG GAACTGAACA GGAGGTGAGG AGCACAGGAG TTGGTGTGAC TGAAGCCATG 
    CTAGGCCTGA GCAGTGAGGC AGAAACTGAA ATTGAGATGC AGCACCAGAC CATCGAAGCC 
    CTCAAAGAGA AGATTTACAG ATTGGAGGTT CAACTTAAGG AGACGACCCA CCAAATGGAA 
    ATGGGAAAGC TAAAGCTTCA ACTGCAAGTT GCTGGATCTA GGAAAAAGGC AGACAAAGGC 
    TTGATGGCAA GGCCAGAAAT GTACAGCACG TCAGTGGAGG CAAGAGTGTC CACACATACC 
    CAAGGTGTGG GCAACCATGT TGAGCTTAGT GATGCAAGCA CAAACCATGT CCATCAAATG 
    AATTCAGTGG GCATTACTTG CAGACCGGAT GCAAGGCATG TTTTAGTGGG TCCAGAGTTG 
    CCAATGGATC GATGGATTGT ACAAGAACGT ACTGAGGTTC AAGATCAGTG TGTCGGCAGG 
    CATGTTGTGA TGTGCAGCCA GAGTGTGGGA GTGGAATTAA GCGTATGTGA AATGGGAATC 
    AACACGGAGT TAACAGCTGA AGGTTTAGGA CTTTGCAAAA GAGAGGCTGA ACAAGCCAAG 
    GAGTTCAGGT CTATAGGATG TGGAGATTGT TCAGTGGATG TAATGGTTAG ACCCATCAAG 
    GAGATGGCAA CTCGGAGTAC AGGAACAGAT GAAGTTCACA GAACTGACTT TGGAGTCATG 
    GTCTTACCCA TATGTGCGTC ACAGTACACA AACATAGAAA TTGAGACAAT AGACAAGTTA 
    ACCAATACAG ACAAGTTAGT TCTTACTGAT ACCTCCACCA ATACACAATC ATGCTCAAAA 
    GACAAACAAG TCGGCACCGA ACCGTTAGAG ACACGTACAA TCGCTGTTGG TGATGGTCTT 
    GTAAAAGATG CGCCAGCCAC ATTAAAAACC CGTTCAGTTT CAGTAGGTAC TACTTCATCA 
    GACGATGCTT TTCTTGACAA GTTGCCATCT TGCAAAACCA AAGAGACTGG AATTGGCCAC 
    ACAAGCATAC ACGAAAACTT CTTAGTCGGT CAGAAGACAA GGAACATTGC CTGTGGCCCC 
    TCTCAGTCTC CTACCCCCAC CCACGTTAAG AGTAATTTTG AGGAATCTGT CTTAACAGAA 
    GGGCCCAACC AGTCACAGGC TGGTGCAGGA GTTGGACTTG ATCACTACAT AGAGAGAGTG 
    CAAAAGCTCT TGCAGGAACA GCAGATGTTG CTGGCTCAGA ACTACAGTGA GCTGGCAGAT 
    GCATTCGGCC CACCTCAACA ATCCCAGTTC AGTTCCATCA ACAGTGAACT AGTCACTACT 
    CTATCATCCA TCAATTCAGT GTGGAAGTAT GGAAGTCTTG AAGAACTTTG TAACTTGGAT 
    CTTCTAAGGC CGCAGGAGAA CTCAAATCAC ACCGTGAAAG AAACACAGAT GGTCAGTGCA 
    GTCCATTCCC ACTCGAGCAG TTTGAGGTCA GAGGTCACGC GGATAGAGAG TGTGTGCACA 
    GACGACAAAC ATGAACAGAG TACGGCTGCG CAGAAAAGTC GCATGGACCA GCAAATGTCC 
    ACAGCATTGC ATGGCAGTCA CAGCACCCTG AAGTCCATCA TGAAGAAAGA TGGCCATCAG 
    GGACACAATG GCACAAAAAA GAACTTGCAG TTTGTTGGAG TAAATGGAGG CTATGAGACG 
    ACGTCGAGCG ATGACTCCAG CTCAGAGGAG AGCAGCTCTT CTGGGTCAGA GGATGAAGGG 
    GATGACAAAA ACAAGACAGT GAATGTGAGA GAAAGGAGGA AAGAAGAATT CAGGAATAAT 
    GAAGCCGTGG ATGAAGACAG AGACACTGAA GATTTAGGCC AGGATAAAAG GCAGAGGTAT 
    GAGCTGAGTG AGAAGATGCT TTCAGCATGC AACATCCTGA AATCCCACCT GAACGACCCC 
    AAGGCTTTAT CTAGTAAAGA TGTGAGGCCG TGTGTGAACA CCGTGCAGCA TGAGTGGTTC 
    CGAGTGTCCA GTCAGAAGAC GGCTGTGGCG GAGATGGTGG AGGACTATCT GAATGCGTTC 
    AGAAGCATCT CTCCTGCCCT GCTCCAGCAC ATTGTAAACA TGGCCGATGG CAACGGCAAC 
    ACCGCCCTCC ATTACAGCGT GTCCCATTCC AACTTCCACA TTGTCAAGAA GCTACTGGAA 
    GCTGATGTCT GCAATGTCAA TCAGCAGAAT AAAGCAGGCT ATACGCCTAT CATGCTTGCA 
    GCGCTCGCCG CCGTAGAGGC TCCGAAGGAC ATGAGGGTGG TCGATGAGCT GTTTAGTAAA 
    GGAGATGTCA ATGCGAAGGC CAGCCAGGCT GGTCAGACAG GGCTGATGCT GGCTGTCAGT 
    CATGGCAGAA TGGACATGGT GAAAGCTCTG CTAGCCTGTG GTGCGGATGT CAACATCCAG 
    GACGACGAGG GCTCGACCGC GCTCATGTGT GCCAGTGAAC ACGGCCATGT GGAGATAGTG 
    AAGCTGCTGC TGGCTCAGCC AGGCTGTGAT CCCACTCTCA GTGATAATGA CGAAAGCAAC 
    GCATTGTCTA TTGCTCTGGA AGCAGGACAT AAGGACATCG CAGTCTTGCT GTACGCCCAT 
    ATGAACTTCT CCAAAGCTCA GTCACCAGGA ACTCCTCGAC TCGGAAGGAA GACTTCACCC 
    AGCCCTACAA GAAAAGGTCC TGTTTGA

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

    kank1a ( XM_005165446.3 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005165503.1 Danio rerio KN motif and ankyrin repeat domains 1 (kank1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ODa10865
    Clone ID Related Accession (Same CDS sequence) XM_005165446.3 , XM_005165446.4 , XM_021476617.1
    Accession Version XM_005165446.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3483bp)
    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 KN motif and ankyrin repeat domain-containing protein 1 isoform X2
    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 On Jun 24, 2016 this sequence version replaced XM_005165446.2. ##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
    ATGGAAACTC GAAGGAGACT GGAGCAGGAG CGGCTCCTGA TGCAGCCACC AGTCAGTGAG 
    CCACCTCGTA GGCGATTAGC CAGTTTTGGA GGAATGGGGT CTTCCAGTTC CCTGTCCTCT 
    TACAGTGGGT CCTATGGACC AAGCCAGATT TCTCCCAGCT CCCATTCTTT CCAACATAAT 
    GGTCATCTAG GCAATGGGGA ATACAACCCC TACTTCACAT CCTCTATGGG CAGTTCAATC 
    CGCCACAGTC CCCTGAGCTC AGGCATGACC ACACCAGTGA CCAATGTTAG CCCCTTGCAC 
    CTCCAGCACA TTCGAGAACA GATGGTAGTA GCGCTAAAGA GACTAAAAGA GTTGGAGGAG 
    CAGGTAAAGA CAATCCCAAT CCTTCAAGTC AAGATCTCAG TCTTGCAAGA AGAGAAAAGA 
    CAACTAGTAT CCCAGAAGAA TAACTCTAAG GTAGTGGGGC AAGGATCAGG TGGATGTTTC 
    AGGAAGCGCT CCTTTAGCGT TGGCAGTGCT GATCAATATG AGCCCCTGTC CCAGATCAAG 
    ACAGGTTCTG AGCTTCACAT TGAGGAGATT GATAACACTG AGCAGAGCAC TCAAAGGCTA 
    CAGGAGTTCA GGCAATTAAC GGCTGAAGTG GAAGCCCTAG AGCGGAACAT ACAGGATAAT 
    GGTGAGGAAA TTAAGCACAG CTTACACCAA ACAGAGCTAA GATCAAACCA AAATGTCCAG 
    CTGTGGAGCC GTGAAAGCAG GTCCATTGGT GTCGGAGCTG ATGAGAACAT GAACGATGTG 
    GTGGTTTACA GGAGGTCACC TGGCAAAAAC AAAGATGTGG CTGTTGGAAC TGAACAGGAG 
    GTGAGGAGCA CAGGAGTTGG TGTGACTGAA GCCATGCTAG GCCTGAGCAG TGAGGCAGAA 
    ACTGAAATTG AGATGCAGCA CCAGACCATC GAAGCCCTCA AAGAGAAGAT TTACAGATTG 
    GAGGTTCAAC TTAAGGAGAC GACCCACCAA ATGGAAATGG GAAAGCTAAA GCTTCAACTG 
    CAAGTTGCTG GATCTAGGAA AAAGGCAGAC AAAGGCTTGA TGGCAAGGCC AGAAATGTAC 
    AGCACGTCAG TGGAGGCAAG AGTGTCCACA CATACCCAAG GTGTGGGCAA CCATGTTGAG 
    CTTAGTGATG CAAGCACAAA CCATGTCCAT CAAATGAATT CAGTGGGCAT TACTTGCAGA 
    CCGGATGCAA GGCATGTTTT AGTGGGTCCA GAGTTGCCAA TGGATCGATG GATTGTACAA 
    GAACGTACTG AGGTTCAAGA TCAGTGTGTC GGCAGGCATG TTGTGATGTG CAGCCAGAGT 
    GTGGGAGTGG AATTAAGCGT ATGTGAAATG GGAATCAACA CGGAGTTAAC AGCTGAAGGT 
    TTAGGACTTT GCAAAAGAGA GGCTGAACAA GCCAAGGAGT TCAGGTCTAT AGGATGTGGA 
    GATTGTTCAG TGGATGTAAT GGTTAGACCC ATCAAGGAGA TGGCAACTCG GAGTACAGGA 
    ACAGATGAAG TTCACAGAAC TGACTTTGGA GTCATGGTCT TACCCATATG TGCGTCACAG 
    TACACAAACA TAGAAATTGA GACAATAGAC AAGTTAACCA ATACAGACAA GTTAGTTCTT 
    ACTGATACCT CCACCAATAC ACAATCATGC TCAAAAGACA AACAAGTCGG CACCGAACCG 
    TTAGAGACAC GTACAATCGC TGTTGGTGAT GGTCTTGTAA AAGATGCGCC AGCCACATTA 
    AAAACCCGTT CAGTTTCAGT AGGTACTACT TCATCAGACG ATGCTTTTCT TGACAAGTTG 
    CCATCTTGCA AAACCAAAGA GACTGGAATT GGCCACACAA GCATACACGA AAACTTCTTA 
    GTCGGTCAGA AGACAAGGAA CATTGCCTGT GGCCCCTCTC AGTCTCCTAC CCCCACCCAC 
    GTTAAGAGTA ATTTTGAGGA ATCTGTCTTA ACAGAAGGGC CCAACCAGTC ACAGGCTGGT 
    GCAGGAGTTG GACTTGATCA CTACATAGAG AGAGTGCAAA AGCTCTTGCA GGAACAGCAG 
    ATGTTGCTGG CTCAGAACTA CAGTGAGCTG GCAGATGCAT TCGGCCCACC TCAACAATCC 
    CAGTTCAGTT CCATCAACAG TGAACTAGTC ACTACTCTAT CATCCATCAA TTCAGTGTGG 
    AAGTATGGAA GTCTTGAAGA ACTTTGTAAC TTGGATCTTC TAAGGCCGCA GGAGAACTCA 
    AATCACACCG TGAAAGAAAC ACAGATGGTC AGTGCAGTCC ATTCCCACTC GAGCAGTTTG 
    AGGTCAGAGG TCACGCGGAT AGAGAGTGTG TGCACAGACG ACAAACATGA ACAGAGTACG 
    GCTGCGCAGA AAAGTCGCAT GGACCAGCAA ATGTCCACAG CATTGCATGG CAGTCACAGC 
    ACCCTGAAGT CCATCATGAA GAAAGATGGC CATCAGGGAC ACAATGGCAC AAAAAAGAAC 
    TTGCAGTTTG TTGGAGTAAA TGGAGGCTAT GAGACGACGT CGAGCGATGA CTCCAGCTCA 
    GAGGAGAGCA GCTCTTCTGG GTCAGAGGAT GAAGGGGATG ACAAAAACAA GACAGTGAAT 
    GTGAGAGAAA GGAGGAAAGA AGAATTCAGG AATAATGAAG CCGTGGATGA AGACAGAGAC 
    ACTGAAGATT TAGGCCAGGA TAAAAGGCAG AGGTATGAGC TGAGTGAGAA GATGCTTTCA 
    GCATGCAACA TCCTGAAATC CCACCTGAAC GACCCCAAGG CTTTATCTAG TAAAGATGTG 
    AGGCCGTGTG TGAACACCGT GCAGCATGAG TGGTTCCGAG TGTCCAGTCA GAAGACGGCT 
    GTGGCGGAGA TGGTGGAGGA CTATCTGAAT GCGTTCAGAA GCATCTCTCC TGCCCTGCTC 
    CAGCACATTG TAAACATGGC CGATGGCAAC GGCAACACCG CCCTCCATTA CAGCGTGTCC 
    CATTCCAACT TCCACATTGT CAAGAAGCTA CTGGAAGCTG ATGTCTGCAA TGTCAATCAG 
    CAGAATAAAG CAGGCTATAC GCCTATCATG CTTGCAGCGC TCGCCGCCGT AGAGGCTCCG 
    AAGGACATGA GGGTGGTCGA TGAGCTGTTT AGTAAAGGAG ATGTCAATGC GAAGGCCAGC 
    CAGGCTGGTC AGACAGGGCT GATGCTGGCT GTCAGTCATG GCAGAATGGA CATGGTGAAA 
    GCTCTGCTAG CCTGTGGTGC GGATGTCAAC ATCCAGGACG ACGAGGGCTC GACCGCGCTC 
    ATGTGTGCCA GTGAACACGG CCATGTGGAG ATAGTGAAGC TGCTGCTGGC TCAGCCAGGC 
    TGTGATCCCA CTCTCAGTGA TAATGACGAA AGCAACGCAT TGTCTATTGC TCTGGAAGCA 
    GGACATAAGG ACATCGCAGT CTTGCTGTAC GCCCATATGA ACTTCTCCAA AGCTCAGTCA 
    CCAGGAACTC CTCGACTCGG AAGGAAGACT TCACCCAGCC CTACAAGAAA AGGTCCTGTT 
    TGA

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

    RefSeq XP_005165503.1
    CDS534..4016
    Translation

    Target ORF information:

    RefSeq Version XM_005165446.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio KN motif and ankyrin repeat domains 1 (kank1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005165446.3

    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
    ATGGAAACTC GAAGGAGACT GGAGCAGGAG CGGCTCCTGA TGCAGCCACC AGTCAGTGAG 
    CCACCTCGTA GGCGATTAGC CAGTTTTGGA GGAATGGGGT CTTCCAGTTC CCTGTCCTCT 
    TACAGTGGGT CCTATGGACC AAGCCAGATT TCTCCCAGCT CCCATTCTTT CCAACATAAT 
    GGTCATCTAG GCAATGGGGA ATACAACCCC TACTTCACAT CCTCTATGGG CAGTTCAATC 
    CGCCACAGTC CCCTGAGCTC AGGCATGACC ACACCAGTGA CCAATGTTAG CCCCTTGCAC 
    CTCCAGCACA TTCGAGAACA GATGGTAGTA GCGCTAAAGA GACTAAAAGA GTTGGAGGAG 
    CAGGTAAAGA CAATCCCAAT CCTTCAAGTC AAGATCTCAG TCTTGCAAGA AGAGAAAAGA 
    CAACTAGTAT CCCAGAAGAA TAACTCTAAG GTAGTGGGGC AAGGATCAGG TGGATGTTTC 
    AGGAAGCGCT CCTTTAGCGT TGGCAGTGCT GATCAATATG AGCCCCTGTC CCAGATCAAG 
    ACAGGTTCTG AGCTTCACAT TGAGGAGATT GATAACACTG AGCAGAGCAC TCAAAGGCTA 
    CAGGAGTTCA GGCAATTAAC GGCTGAAGTG GAAGCCCTAG AGCGGAACAT ACAGGATAAT 
    GGTGAGGAAA TTAAGCACAG CTTACACCAA ACAGAGCTAA GATCAAACCA AAATGTCCAG 
    CTGTGGAGCC GTGAAAGCAG GTCCATTGGT GTCGGAGCTG ATGAGAACAT GAACGATGTG 
    GTGGTTTACA GGAGGTCACC TGGCAAAAAC AAAGATGTGG CTGTTGGAAC TGAACAGGAG 
    GTGAGGAGCA CAGGAGTTGG TGTGACTGAA GCCATGCTAG GCCTGAGCAG TGAGGCAGAA 
    ACTGAAATTG AGATGCAGCA CCAGACCATC GAAGCCCTCA AAGAGAAGAT TTACAGATTG 
    GAGGTTCAAC TTAAGGAGAC GACCCACCAA ATGGAAATGG GAAAGCTAAA GCTTCAACTG 
    CAAGTTGCTG GATCTAGGAA AAAGGCAGAC AAAGGCTTGA TGGCAAGGCC AGAAATGTAC 
    AGCACGTCAG TGGAGGCAAG AGTGTCCACA CATACCCAAG GTGTGGGCAA CCATGTTGAG 
    CTTAGTGATG CAAGCACAAA CCATGTCCAT CAAATGAATT CAGTGGGCAT TACTTGCAGA 
    CCGGATGCAA GGCATGTTTT AGTGGGTCCA GAGTTGCCAA TGGATCGATG GATTGTACAA 
    GAACGTACTG AGGTTCAAGA TCAGTGTGTC GGCAGGCATG TTGTGATGTG CAGCCAGAGT 
    GTGGGAGTGG AATTAAGCGT ATGTGAAATG GGAATCAACA CGGAGTTAAC AGCTGAAGGT 
    TTAGGACTTT GCAAAAGAGA GGCTGAACAA GCCAAGGAGT TCAGGTCTAT AGGATGTGGA 
    GATTGTTCAG TGGATGTAAT GGTTAGACCC ATCAAGGAGA TGGCAACTCG GAGTACAGGA 
    ACAGATGAAG TTCACAGAAC TGACTTTGGA GTCATGGTCT TACCCATATG TGCGTCACAG 
    TACACAAACA TAGAAATTGA GACAATAGAC AAGTTAACCA ATACAGACAA GTTAGTTCTT 
    ACTGATACCT CCACCAATAC ACAATCATGC TCAAAAGACA AACAAGTCGG CACCGAACCG 
    TTAGAGACAC GTACAATCGC TGTTGGTGAT GGTCTTGTAA AAGATGCGCC AGCCACATTA 
    AAAACCCGTT CAGTTTCAGT AGGTACTACT TCATCAGACG ATGCTTTTCT TGACAAGTTG 
    CCATCTTGCA AAACCAAAGA GACTGGAATT GGCCACACAA GCATACACGA AAACTTCTTA 
    GTCGGTCAGA AGACAAGGAA CATTGCCTGT GGCCCCTCTC AGTCTCCTAC CCCCACCCAC 
    GTTAAGAGTA ATTTTGAGGA ATCTGTCTTA ACAGAAGGGC CCAACCAGTC ACAGGCTGGT 
    GCAGGAGTTG GACTTGATCA CTACATAGAG AGAGTGCAAA AGCTCTTGCA GGAACAGCAG 
    ATGTTGCTGG CTCAGAACTA CAGTGAGCTG GCAGATGCAT TCGGCCCACC TCAACAATCC 
    CAGTTCAGTT CCATCAACAG TGAACTAGTC ACTACTCTAT CATCCATCAA TTCAGTGTGG 
    AAGTATGGAA GTCTTGAAGA ACTTTGTAAC TTGGATCTTC TAAGGCCGCA GGAGAACTCA 
    AATCACACCG TGAAAGAAAC ACAGATGGTC AGTGCAGTCC ATTCCCACTC GAGCAGTTTG 
    AGGTCAGAGG TCACGCGGAT AGAGAGTGTG TGCACAGACG ACAAACATGA ACAGAGTACG 
    GCTGCGCAGA AAAGTCGCAT GGACCAGCAA ATGTCCACAG CATTGCATGG CAGTCACAGC 
    ACCCTGAAGT CCATCATGAA GAAAGATGGC CATCAGGGAC ACAATGGCAC AAAAAAGAAC 
    TTGCAGTTTG TTGGAGTAAA TGGAGGCTAT GAGACGACGT CGAGCGATGA CTCCAGCTCA 
    GAGGAGAGCA GCTCTTCTGG GTCAGAGGAT GAAGGGGATG ACAAAAACAA GACAGTGAAT 
    GTGAGAGAAA GGAGGAAAGA AGAATTCAGG AATAATGAAG CCGTGGATGA AGACAGAGAC 
    ACTGAAGATT TAGGCCAGGA TAAAAGGCAG AGGTATGAGC TGAGTGAGAA GATGCTTTCA 
    GCATGCAACA TCCTGAAATC CCACCTGAAC GACCCCAAGG CTTTATCTAG TAAAGATGTG 
    AGGCCGTGTG TGAACACCGT GCAGCATGAG TGGTTCCGAG TGTCCAGTCA GAAGACGGCT 
    GTGGCGGAGA TGGTGGAGGA CTATCTGAAT GCGTTCAGAA GCATCTCTCC TGCCCTGCTC 
    CAGCACATTG TAAACATGGC CGATGGCAAC GGCAACACCG CCCTCCATTA CAGCGTGTCC 
    CATTCCAACT TCCACATTGT CAAGAAGCTA CTGGAAGCTG ATGTCTGCAA TGTCAATCAG 
    CAGAATAAAG CAGGCTATAC GCCTATCATG CTTGCAGCGC TCGCCGCCGT AGAGGCTCCG 
    AAGGACATGA GGGTGGTCGA TGAGCTGTTT AGTAAAGGAG ATGTCAATGC GAAGGCCAGC 
    CAGGCTGGTC AGACAGGGCT GATGCTGGCT GTCAGTCATG GCAGAATGGA CATGGTGAAA 
    GCTCTGCTAG CCTGTGGTGC GGATGTCAAC ATCCAGGACG ACGAGGGCTC GACCGCGCTC 
    ATGTGTGCCA GTGAACACGG CCATGTGGAG ATAGTGAAGC TGCTGCTGGC TCAGCCAGGC 
    TGTGATCCCA CTCTCAGTGA TAATGACGAA AGCAACGCAT TGTCTATTGC TCTGGAAGCA 
    GGACATAAGG ACATCGCAGT CTTGCTGTAC GCCCATATGA ACTTCTCCAA AGCTCAGTCA 
    CCAGGAACTC CTCGACTCGG AAGGAAGACT TCACCCAGCC CTACAAGAAA AGGTCCTGTT 
    TGA

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

    kank1a ( XM_005165446.4 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_005165503.1 Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ODa10865
    Clone ID Related Accession (Same CDS sequence) XM_005165446.3 , XM_005165446.4 , XM_021476617.1
    Accession Version XM_005165446.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3483bp)
    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 KN motif and ankyrin repeat domain-containing protein 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_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_005165446.3. ##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
    ATGGAAACTC GAAGGAGACT GGAGCAGGAG CGGCTCCTGA TGCAGCCACC AGTCAGTGAG 
    CCACCTCGTA GGCGATTAGC CAGTTTTGGA GGAATGGGGT CTTCCAGTTC CCTGTCCTCT 
    TACAGTGGGT CCTATGGACC AAGCCAGATT TCTCCCAGCT CCCATTCTTT CCAACATAAT 
    GGTCATCTAG GCAATGGGGA ATACAACCCC TACTTCACAT CCTCTATGGG CAGTTCAATC 
    CGCCACAGTC CCCTGAGCTC AGGCATGACC ACACCAGTGA CCAATGTTAG CCCCTTGCAC 
    CTCCAGCACA TTCGAGAACA GATGGTAGTA GCGCTAAAGA GACTAAAAGA GTTGGAGGAG 
    CAGGTAAAGA CAATCCCAAT CCTTCAAGTC AAGATCTCAG TCTTGCAAGA AGAGAAAAGA 
    CAACTAGTAT CCCAGAAGAA TAACTCTAAG GTAGTGGGGC AAGGATCAGG TGGATGTTTC 
    AGGAAGCGCT CCTTTAGCGT TGGCAGTGCT GATCAATATG AGCCCCTGTC CCAGATCAAG 
    ACAGGTTCTG AGCTTCACAT TGAGGAGATT GATAACACTG AGCAGAGCAC TCAAAGGCTA 
    CAGGAGTTCA GGCAATTAAC GGCTGAAGTG GAAGCCCTAG AGCGGAACAT ACAGGATAAT 
    GGTGAGGAAA TTAAGCACAG CTTACACCAA ACAGAGCTAA GATCAAACCA AAATGTCCAG 
    CTGTGGAGCC GTGAAAGCAG GTCCATTGGT GTCGGAGCTG ATGAGAACAT GAACGATGTG 
    GTGGTTTACA GGAGGTCACC TGGCAAAAAC AAAGATGTGG CTGTTGGAAC TGAACAGGAG 
    GTGAGGAGCA CAGGAGTTGG TGTGACTGAA GCCATGCTAG GCCTGAGCAG TGAGGCAGAA 
    ACTGAAATTG AGATGCAGCA CCAGACCATC GAAGCCCTCA AAGAGAAGAT TTACAGATTG 
    GAGGTTCAAC TTAAGGAGAC GACCCACCAA ATGGAAATGG GAAAGCTAAA GCTTCAACTG 
    CAAGTTGCTG GATCTAGGAA AAAGGCAGAC AAAGGCTTGA TGGCAAGGCC AGAAATGTAC 
    AGCACGTCAG TGGAGGCAAG AGTGTCCACA CATACCCAAG GTGTGGGCAA CCATGTTGAG 
    CTTAGTGATG CAAGCACAAA CCATGTCCAT CAAATGAATT CAGTGGGCAT TACTTGCAGA 
    CCGGATGCAA GGCATGTTTT AGTGGGTCCA GAGTTGCCAA TGGATCGATG GATTGTACAA 
    GAACGTACTG AGGTTCAAGA TCAGTGTGTC GGCAGGCATG TTGTGATGTG CAGCCAGAGT 
    GTGGGAGTGG AATTAAGCGT ATGTGAAATG GGAATCAACA CGGAGTTAAC AGCTGAAGGT 
    TTAGGACTTT GCAAAAGAGA GGCTGAACAA GCCAAGGAGT TCAGGTCTAT AGGATGTGGA 
    GATTGTTCAG TGGATGTAAT GGTTAGACCC ATCAAGGAGA TGGCAACTCG GAGTACAGGA 
    ACAGATGAAG TTCACAGAAC TGACTTTGGA GTCATGGTCT TACCCATATG TGCGTCACAG 
    TACACAAACA TAGAAATTGA GACAATAGAC AAGTTAACCA ATACAGACAA GTTAGTTCTT 
    ACTGATACCT CCACCAATAC ACAATCATGC TCAAAAGACA AACAAGTCGG CACCGAACCG 
    TTAGAGACAC GTACAATCGC TGTTGGTGAT GGTCTTGTAA AAGATGCGCC AGCCACATTA 
    AAAACCCGTT CAGTTTCAGT AGGTACTACT TCATCAGACG ATGCTTTTCT TGACAAGTTG 
    CCATCTTGCA AAACCAAAGA GACTGGAATT GGCCACACAA GCATACACGA AAACTTCTTA 
    GTCGGTCAGA AGACAAGGAA CATTGCCTGT GGCCCCTCTC AGTCTCCTAC CCCCACCCAC 
    GTTAAGAGTA ATTTTGAGGA ATCTGTCTTA ACAGAAGGGC CCAACCAGTC ACAGGCTGGT 
    GCAGGAGTTG GACTTGATCA CTACATAGAG AGAGTGCAAA AGCTCTTGCA GGAACAGCAG 
    ATGTTGCTGG CTCAGAACTA CAGTGAGCTG GCAGATGCAT TCGGCCCACC TCAACAATCC 
    CAGTTCAGTT CCATCAACAG TGAACTAGTC ACTACTCTAT CATCCATCAA TTCAGTGTGG 
    AAGTATGGAA GTCTTGAAGA ACTTTGTAAC TTGGATCTTC TAAGGCCGCA GGAGAACTCA 
    AATCACACCG TGAAAGAAAC ACAGATGGTC AGTGCAGTCC ATTCCCACTC GAGCAGTTTG 
    AGGTCAGAGG TCACGCGGAT AGAGAGTGTG TGCACAGACG ACAAACATGA ACAGAGTACG 
    GCTGCGCAGA AAAGTCGCAT GGACCAGCAA ATGTCCACAG CATTGCATGG CAGTCACAGC 
    ACCCTGAAGT CCATCATGAA GAAAGATGGC CATCAGGGAC ACAATGGCAC AAAAAAGAAC 
    TTGCAGTTTG TTGGAGTAAA TGGAGGCTAT GAGACGACGT CGAGCGATGA CTCCAGCTCA 
    GAGGAGAGCA GCTCTTCTGG GTCAGAGGAT GAAGGGGATG ACAAAAACAA GACAGTGAAT 
    GTGAGAGAAA GGAGGAAAGA AGAATTCAGG AATAATGAAG CCGTGGATGA AGACAGAGAC 
    ACTGAAGATT TAGGCCAGGA TAAAAGGCAG AGGTATGAGC TGAGTGAGAA GATGCTTTCA 
    GCATGCAACA TCCTGAAATC CCACCTGAAC GACCCCAAGG CTTTATCTAG TAAAGATGTG 
    AGGCCGTGTG TGAACACCGT GCAGCATGAG TGGTTCCGAG TGTCCAGTCA GAAGACGGCT 
    GTGGCGGAGA TGGTGGAGGA CTATCTGAAT GCGTTCAGAA GCATCTCTCC TGCCCTGCTC 
    CAGCACATTG TAAACATGGC CGATGGCAAC GGCAACACCG CCCTCCATTA CAGCGTGTCC 
    CATTCCAACT TCCACATTGT CAAGAAGCTA CTGGAAGCTG ATGTCTGCAA TGTCAATCAG 
    CAGAATAAAG CAGGCTATAC GCCTATCATG CTTGCAGCGC TCGCCGCCGT AGAGGCTCCG 
    AAGGACATGA GGGTGGTCGA TGAGCTGTTT AGTAAAGGAG ATGTCAATGC GAAGGCCAGC 
    CAGGCTGGTC AGACAGGGCT GATGCTGGCT GTCAGTCATG GCAGAATGGA CATGGTGAAA 
    GCTCTGCTAG CCTGTGGTGC GGATGTCAAC ATCCAGGACG ACGAGGGCTC GACCGCGCTC 
    ATGTGTGCCA GTGAACACGG CCATGTGGAG ATAGTGAAGC TGCTGCTGGC TCAGCCAGGC 
    TGTGATCCCA CTCTCAGTGA TAATGACGAA AGCAACGCAT TGTCTATTGC TCTGGAAGCA 
    GGACATAAGG ACATCGCAGT CTTGCTGTAC GCCCATATGA ACTTCTCCAA AGCTCAGTCA 
    CCAGGAACTC CTCGACTCGG AAGGAAGACT TCACCCAGCC CTACAAGAAA AGGTCCTGTT 
    TGA

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

    RefSeq XP_005165503.1
    CDS562..4044
    Translation

    Target ORF information:

    RefSeq Version XM_005165446.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005165446.4

    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
    ATGGAAACTC GAAGGAGACT GGAGCAGGAG CGGCTCCTGA TGCAGCCACC AGTCAGTGAG 
    CCACCTCGTA GGCGATTAGC CAGTTTTGGA GGAATGGGGT CTTCCAGTTC CCTGTCCTCT 
    TACAGTGGGT CCTATGGACC AAGCCAGATT TCTCCCAGCT CCCATTCTTT CCAACATAAT 
    GGTCATCTAG GCAATGGGGA ATACAACCCC TACTTCACAT CCTCTATGGG CAGTTCAATC 
    CGCCACAGTC CCCTGAGCTC AGGCATGACC ACACCAGTGA CCAATGTTAG CCCCTTGCAC 
    CTCCAGCACA TTCGAGAACA GATGGTAGTA GCGCTAAAGA GACTAAAAGA GTTGGAGGAG 
    CAGGTAAAGA CAATCCCAAT CCTTCAAGTC AAGATCTCAG TCTTGCAAGA AGAGAAAAGA 
    CAACTAGTAT CCCAGAAGAA TAACTCTAAG GTAGTGGGGC AAGGATCAGG TGGATGTTTC 
    AGGAAGCGCT CCTTTAGCGT TGGCAGTGCT GATCAATATG AGCCCCTGTC CCAGATCAAG 
    ACAGGTTCTG AGCTTCACAT TGAGGAGATT GATAACACTG AGCAGAGCAC TCAAAGGCTA 
    CAGGAGTTCA GGCAATTAAC GGCTGAAGTG GAAGCCCTAG AGCGGAACAT ACAGGATAAT 
    GGTGAGGAAA TTAAGCACAG CTTACACCAA ACAGAGCTAA GATCAAACCA AAATGTCCAG 
    CTGTGGAGCC GTGAAAGCAG GTCCATTGGT GTCGGAGCTG ATGAGAACAT GAACGATGTG 
    GTGGTTTACA GGAGGTCACC TGGCAAAAAC AAAGATGTGG CTGTTGGAAC TGAACAGGAG 
    GTGAGGAGCA CAGGAGTTGG TGTGACTGAA GCCATGCTAG GCCTGAGCAG TGAGGCAGAA 
    ACTGAAATTG AGATGCAGCA CCAGACCATC GAAGCCCTCA AAGAGAAGAT TTACAGATTG 
    GAGGTTCAAC TTAAGGAGAC GACCCACCAA ATGGAAATGG GAAAGCTAAA GCTTCAACTG 
    CAAGTTGCTG GATCTAGGAA AAAGGCAGAC AAAGGCTTGA TGGCAAGGCC AGAAATGTAC 
    AGCACGTCAG TGGAGGCAAG AGTGTCCACA CATACCCAAG GTGTGGGCAA CCATGTTGAG 
    CTTAGTGATG CAAGCACAAA CCATGTCCAT CAAATGAATT CAGTGGGCAT TACTTGCAGA 
    CCGGATGCAA GGCATGTTTT AGTGGGTCCA GAGTTGCCAA TGGATCGATG GATTGTACAA 
    GAACGTACTG AGGTTCAAGA TCAGTGTGTC GGCAGGCATG TTGTGATGTG CAGCCAGAGT 
    GTGGGAGTGG AATTAAGCGT ATGTGAAATG GGAATCAACA CGGAGTTAAC AGCTGAAGGT 
    TTAGGACTTT GCAAAAGAGA GGCTGAACAA GCCAAGGAGT TCAGGTCTAT AGGATGTGGA 
    GATTGTTCAG TGGATGTAAT GGTTAGACCC ATCAAGGAGA TGGCAACTCG GAGTACAGGA 
    ACAGATGAAG TTCACAGAAC TGACTTTGGA GTCATGGTCT TACCCATATG TGCGTCACAG 
    TACACAAACA TAGAAATTGA GACAATAGAC AAGTTAACCA ATACAGACAA GTTAGTTCTT 
    ACTGATACCT CCACCAATAC ACAATCATGC TCAAAAGACA AACAAGTCGG CACCGAACCG 
    TTAGAGACAC GTACAATCGC TGTTGGTGAT GGTCTTGTAA AAGATGCGCC AGCCACATTA 
    AAAACCCGTT CAGTTTCAGT AGGTACTACT TCATCAGACG ATGCTTTTCT TGACAAGTTG 
    CCATCTTGCA AAACCAAAGA GACTGGAATT GGCCACACAA GCATACACGA AAACTTCTTA 
    GTCGGTCAGA AGACAAGGAA CATTGCCTGT GGCCCCTCTC AGTCTCCTAC CCCCACCCAC 
    GTTAAGAGTA ATTTTGAGGA ATCTGTCTTA ACAGAAGGGC CCAACCAGTC ACAGGCTGGT 
    GCAGGAGTTG GACTTGATCA CTACATAGAG AGAGTGCAAA AGCTCTTGCA GGAACAGCAG 
    ATGTTGCTGG CTCAGAACTA CAGTGAGCTG GCAGATGCAT TCGGCCCACC TCAACAATCC 
    CAGTTCAGTT CCATCAACAG TGAACTAGTC ACTACTCTAT CATCCATCAA TTCAGTGTGG 
    AAGTATGGAA GTCTTGAAGA ACTTTGTAAC TTGGATCTTC TAAGGCCGCA GGAGAACTCA 
    AATCACACCG TGAAAGAAAC ACAGATGGTC AGTGCAGTCC ATTCCCACTC GAGCAGTTTG 
    AGGTCAGAGG TCACGCGGAT AGAGAGTGTG TGCACAGACG ACAAACATGA ACAGAGTACG 
    GCTGCGCAGA AAAGTCGCAT GGACCAGCAA ATGTCCACAG CATTGCATGG CAGTCACAGC 
    ACCCTGAAGT CCATCATGAA GAAAGATGGC CATCAGGGAC ACAATGGCAC AAAAAAGAAC 
    TTGCAGTTTG TTGGAGTAAA TGGAGGCTAT GAGACGACGT CGAGCGATGA CTCCAGCTCA 
    GAGGAGAGCA GCTCTTCTGG GTCAGAGGAT GAAGGGGATG ACAAAAACAA GACAGTGAAT 
    GTGAGAGAAA GGAGGAAAGA AGAATTCAGG AATAATGAAG CCGTGGATGA AGACAGAGAC 
    ACTGAAGATT TAGGCCAGGA TAAAAGGCAG AGGTATGAGC TGAGTGAGAA GATGCTTTCA 
    GCATGCAACA TCCTGAAATC CCACCTGAAC GACCCCAAGG CTTTATCTAG TAAAGATGTG 
    AGGCCGTGTG TGAACACCGT GCAGCATGAG TGGTTCCGAG TGTCCAGTCA GAAGACGGCT 
    GTGGCGGAGA TGGTGGAGGA CTATCTGAAT GCGTTCAGAA GCATCTCTCC TGCCCTGCTC 
    CAGCACATTG TAAACATGGC CGATGGCAAC GGCAACACCG CCCTCCATTA CAGCGTGTCC 
    CATTCCAACT TCCACATTGT CAAGAAGCTA CTGGAAGCTG ATGTCTGCAA TGTCAATCAG 
    CAGAATAAAG CAGGCTATAC GCCTATCATG CTTGCAGCGC TCGCCGCCGT AGAGGCTCCG 
    AAGGACATGA GGGTGGTCGA TGAGCTGTTT AGTAAAGGAG ATGTCAATGC GAAGGCCAGC 
    CAGGCTGGTC AGACAGGGCT GATGCTGGCT GTCAGTCATG GCAGAATGGA CATGGTGAAA 
    GCTCTGCTAG CCTGTGGTGC GGATGTCAAC ATCCAGGACG ACGAGGGCTC GACCGCGCTC 
    ATGTGTGCCA GTGAACACGG CCATGTGGAG ATAGTGAAGC TGCTGCTGGC TCAGCCAGGC 
    TGTGATCCCA CTCTCAGTGA TAATGACGAA AGCAACGCAT TGTCTATTGC TCTGGAAGCA 
    GGACATAAGG ACATCGCAGT CTTGCTGTAC GCCCATATGA ACTTCTCCAA AGCTCAGTCA 
    CCAGGAACTC CTCGACTCGG AAGGAAGACT TCACCCAGCC CTACAAGAAA AGGTCCTGTT 
    TGA

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

    kank1a ( XM_021476617.1 ) cDNA ORF clone, Danio rerio(zebrafish) -> XP_021332292.1 Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID ODa10865
    Clone ID Related Accession (Same CDS sequence) XM_005165446.3 , XM_005165446.4 , XM_021476617.1
    Accession Version XM_021476617.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3483bp)
    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 KN motif and ankyrin repeat domain-containing protein 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007116.7) 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
    ATGGAAACTC GAAGGAGACT GGAGCAGGAG CGGCTCCTGA TGCAGCCACC AGTCAGTGAG 
    CCACCTCGTA GGCGATTAGC CAGTTTTGGA GGAATGGGGT CTTCCAGTTC CCTGTCCTCT 
    TACAGTGGGT CCTATGGACC AAGCCAGATT TCTCCCAGCT CCCATTCTTT CCAACATAAT 
    GGTCATCTAG GCAATGGGGA ATACAACCCC TACTTCACAT CCTCTATGGG CAGTTCAATC 
    CGCCACAGTC CCCTGAGCTC AGGCATGACC ACACCAGTGA CCAATGTTAG CCCCTTGCAC 
    CTCCAGCACA TTCGAGAACA GATGGTAGTA GCGCTAAAGA GACTAAAAGA GTTGGAGGAG 
    CAGGTAAAGA CAATCCCAAT CCTTCAAGTC AAGATCTCAG TCTTGCAAGA AGAGAAAAGA 
    CAACTAGTAT CCCAGAAGAA TAACTCTAAG GTAGTGGGGC AAGGATCAGG TGGATGTTTC 
    AGGAAGCGCT CCTTTAGCGT TGGCAGTGCT GATCAATATG AGCCCCTGTC CCAGATCAAG 
    ACAGGTTCTG AGCTTCACAT TGAGGAGATT GATAACACTG AGCAGAGCAC TCAAAGGCTA 
    CAGGAGTTCA GGCAATTAAC GGCTGAAGTG GAAGCCCTAG AGCGGAACAT ACAGGATAAT 
    GGTGAGGAAA TTAAGCACAG CTTACACCAA ACAGAGCTAA GATCAAACCA AAATGTCCAG 
    CTGTGGAGCC GTGAAAGCAG GTCCATTGGT GTCGGAGCTG ATGAGAACAT GAACGATGTG 
    GTGGTTTACA GGAGGTCACC TGGCAAAAAC AAAGATGTGG CTGTTGGAAC TGAACAGGAG 
    GTGAGGAGCA CAGGAGTTGG TGTGACTGAA GCCATGCTAG GCCTGAGCAG TGAGGCAGAA 
    ACTGAAATTG AGATGCAGCA CCAGACCATC GAAGCCCTCA AAGAGAAGAT TTACAGATTG 
    GAGGTTCAAC TTAAGGAGAC GACCCACCAA ATGGAAATGG GAAAGCTAAA GCTTCAACTG 
    CAAGTTGCTG GATCTAGGAA AAAGGCAGAC AAAGGCTTGA TGGCAAGGCC AGAAATGTAC 
    AGCACGTCAG TGGAGGCAAG AGTGTCCACA CATACCCAAG GTGTGGGCAA CCATGTTGAG 
    CTTAGTGATG CAAGCACAAA CCATGTCCAT CAAATGAATT CAGTGGGCAT TACTTGCAGA 
    CCGGATGCAA GGCATGTTTT AGTGGGTCCA GAGTTGCCAA TGGATCGATG GATTGTACAA 
    GAACGTACTG AGGTTCAAGA TCAGTGTGTC GGCAGGCATG TTGTGATGTG CAGCCAGAGT 
    GTGGGAGTGG AATTAAGCGT ATGTGAAATG GGAATCAACA CGGAGTTAAC AGCTGAAGGT 
    TTAGGACTTT GCAAAAGAGA GGCTGAACAA GCCAAGGAGT TCAGGTCTAT AGGATGTGGA 
    GATTGTTCAG TGGATGTAAT GGTTAGACCC ATCAAGGAGA TGGCAACTCG GAGTACAGGA 
    ACAGATGAAG TTCACAGAAC TGACTTTGGA GTCATGGTCT TACCCATATG TGCGTCACAG 
    TACACAAACA TAGAAATTGA GACAATAGAC AAGTTAACCA ATACAGACAA GTTAGTTCTT 
    ACTGATACCT CCACCAATAC ACAATCATGC TCAAAAGACA AACAAGTCGG CACCGAACCG 
    TTAGAGACAC GTACAATCGC TGTTGGTGAT GGTCTTGTAA AAGATGCGCC AGCCACATTA 
    AAAACCCGTT CAGTTTCAGT AGGTACTACT TCATCAGACG ATGCTTTTCT TGACAAGTTG 
    CCATCTTGCA AAACCAAAGA GACTGGAATT GGCCACACAA GCATACACGA AAACTTCTTA 
    GTCGGTCAGA AGACAAGGAA CATTGCCTGT GGCCCCTCTC AGTCTCCTAC CCCCACCCAC 
    GTTAAGAGTA ATTTTGAGGA ATCTGTCTTA ACAGAAGGGC CCAACCAGTC ACAGGCTGGT 
    GCAGGAGTTG GACTTGATCA CTACATAGAG AGAGTGCAAA AGCTCTTGCA GGAACAGCAG 
    ATGTTGCTGG CTCAGAACTA CAGTGAGCTG GCAGATGCAT TCGGCCCACC TCAACAATCC 
    CAGTTCAGTT CCATCAACAG TGAACTAGTC ACTACTCTAT CATCCATCAA TTCAGTGTGG 
    AAGTATGGAA GTCTTGAAGA ACTTTGTAAC TTGGATCTTC TAAGGCCGCA GGAGAACTCA 
    AATCACACCG TGAAAGAAAC ACAGATGGTC AGTGCAGTCC ATTCCCACTC GAGCAGTTTG 
    AGGTCAGAGG TCACGCGGAT AGAGAGTGTG TGCACAGACG ACAAACATGA ACAGAGTACG 
    GCTGCGCAGA AAAGTCGCAT GGACCAGCAA ATGTCCACAG CATTGCATGG CAGTCACAGC 
    ACCCTGAAGT CCATCATGAA GAAAGATGGC CATCAGGGAC ACAATGGCAC AAAAAAGAAC 
    TTGCAGTTTG TTGGAGTAAA TGGAGGCTAT GAGACGACGT CGAGCGATGA CTCCAGCTCA 
    GAGGAGAGCA GCTCTTCTGG GTCAGAGGAT GAAGGGGATG ACAAAAACAA GACAGTGAAT 
    GTGAGAGAAA GGAGGAAAGA AGAATTCAGG AATAATGAAG CCGTGGATGA AGACAGAGAC 
    ACTGAAGATT TAGGCCAGGA TAAAAGGCAG AGGTATGAGC TGAGTGAGAA GATGCTTTCA 
    GCATGCAACA TCCTGAAATC CCACCTGAAC GACCCCAAGG CTTTATCTAG TAAAGATGTG 
    AGGCCGTGTG TGAACACCGT GCAGCATGAG TGGTTCCGAG TGTCCAGTCA GAAGACGGCT 
    GTGGCGGAGA TGGTGGAGGA CTATCTGAAT GCGTTCAGAA GCATCTCTCC TGCCCTGCTC 
    CAGCACATTG TAAACATGGC CGATGGCAAC GGCAACACCG CCCTCCATTA CAGCGTGTCC 
    CATTCCAACT TCCACATTGT CAAGAAGCTA CTGGAAGCTG ATGTCTGCAA TGTCAATCAG 
    CAGAATAAAG CAGGCTATAC GCCTATCATG CTTGCAGCGC TCGCCGCCGT AGAGGCTCCG 
    AAGGACATGA GGGTGGTCGA TGAGCTGTTT AGTAAAGGAG ATGTCAATGC GAAGGCCAGC 
    CAGGCTGGTC AGACAGGGCT GATGCTGGCT GTCAGTCATG GCAGAATGGA CATGGTGAAA 
    GCTCTGCTAG CCTGTGGTGC GGATGTCAAC ATCCAGGACG ACGAGGGCTC GACCGCGCTC 
    ATGTGTGCCA GTGAACACGG CCATGTGGAG ATAGTGAAGC TGCTGCTGGC TCAGCCAGGC 
    TGTGATCCCA CTCTCAGTGA TAATGACGAA AGCAACGCAT TGTCTATTGC TCTGGAAGCA 
    GGACATAAGG ACATCGCAGT CTTGCTGTAC GCCCATATGA ACTTCTCCAA AGCTCAGTCA 
    CCAGGAACTC CTCGACTCGG AAGGAAGACT TCACCCAGCC CTACAAGAAA AGGTCCTGTT 
    TGA

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

    RefSeq XP_021332292.1
    CDS534..4016
    Translation

    Target ORF information:

    RefSeq Version XM_021476617.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio KN motif and ankyrin repeat domains 1a (kank1a), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021476617.1

    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
    ATGGAAACTC GAAGGAGACT GGAGCAGGAG CGGCTCCTGA TGCAGCCACC AGTCAGTGAG 
    CCACCTCGTA GGCGATTAGC CAGTTTTGGA GGAATGGGGT CTTCCAGTTC CCTGTCCTCT 
    TACAGTGGGT CCTATGGACC AAGCCAGATT TCTCCCAGCT CCCATTCTTT CCAACATAAT 
    GGTCATCTAG GCAATGGGGA ATACAACCCC TACTTCACAT CCTCTATGGG CAGTTCAATC 
    CGCCACAGTC CCCTGAGCTC AGGCATGACC ACACCAGTGA CCAATGTTAG CCCCTTGCAC 
    CTCCAGCACA TTCGAGAACA GATGGTAGTA GCGCTAAAGA GACTAAAAGA GTTGGAGGAG 
    CAGGTAAAGA CAATCCCAAT CCTTCAAGTC AAGATCTCAG TCTTGCAAGA AGAGAAAAGA 
    CAACTAGTAT CCCAGAAGAA TAACTCTAAG GTAGTGGGGC AAGGATCAGG TGGATGTTTC 
    AGGAAGCGCT CCTTTAGCGT TGGCAGTGCT GATCAATATG AGCCCCTGTC CCAGATCAAG 
    ACAGGTTCTG AGCTTCACAT TGAGGAGATT GATAACACTG AGCAGAGCAC TCAAAGGCTA 
    CAGGAGTTCA GGCAATTAAC GGCTGAAGTG GAAGCCCTAG AGCGGAACAT ACAGGATAAT 
    GGTGAGGAAA TTAAGCACAG CTTACACCAA ACAGAGCTAA GATCAAACCA AAATGTCCAG 
    CTGTGGAGCC GTGAAAGCAG GTCCATTGGT GTCGGAGCTG ATGAGAACAT GAACGATGTG 
    GTGGTTTACA GGAGGTCACC TGGCAAAAAC AAAGATGTGG CTGTTGGAAC TGAACAGGAG 
    GTGAGGAGCA CAGGAGTTGG TGTGACTGAA GCCATGCTAG GCCTGAGCAG TGAGGCAGAA 
    ACTGAAATTG AGATGCAGCA CCAGACCATC GAAGCCCTCA AAGAGAAGAT TTACAGATTG 
    GAGGTTCAAC TTAAGGAGAC GACCCACCAA ATGGAAATGG GAAAGCTAAA GCTTCAACTG 
    CAAGTTGCTG GATCTAGGAA AAAGGCAGAC AAAGGCTTGA TGGCAAGGCC AGAAATGTAC 
    AGCACGTCAG TGGAGGCAAG AGTGTCCACA CATACCCAAG GTGTGGGCAA CCATGTTGAG 
    CTTAGTGATG CAAGCACAAA CCATGTCCAT CAAATGAATT CAGTGGGCAT TACTTGCAGA 
    CCGGATGCAA GGCATGTTTT AGTGGGTCCA GAGTTGCCAA TGGATCGATG GATTGTACAA 
    GAACGTACTG AGGTTCAAGA TCAGTGTGTC GGCAGGCATG TTGTGATGTG CAGCCAGAGT 
    GTGGGAGTGG AATTAAGCGT ATGTGAAATG GGAATCAACA CGGAGTTAAC AGCTGAAGGT 
    TTAGGACTTT GCAAAAGAGA GGCTGAACAA GCCAAGGAGT TCAGGTCTAT AGGATGTGGA 
    GATTGTTCAG TGGATGTAAT GGTTAGACCC ATCAAGGAGA TGGCAACTCG GAGTACAGGA 
    ACAGATGAAG TTCACAGAAC TGACTTTGGA GTCATGGTCT TACCCATATG TGCGTCACAG 
    TACACAAACA TAGAAATTGA GACAATAGAC AAGTTAACCA ATACAGACAA GTTAGTTCTT 
    ACTGATACCT CCACCAATAC ACAATCATGC TCAAAAGACA AACAAGTCGG CACCGAACCG 
    TTAGAGACAC GTACAATCGC TGTTGGTGAT GGTCTTGTAA AAGATGCGCC AGCCACATTA 
    AAAACCCGTT CAGTTTCAGT AGGTACTACT TCATCAGACG ATGCTTTTCT TGACAAGTTG 
    CCATCTTGCA AAACCAAAGA GACTGGAATT GGCCACACAA GCATACACGA AAACTTCTTA 
    GTCGGTCAGA AGACAAGGAA CATTGCCTGT GGCCCCTCTC AGTCTCCTAC CCCCACCCAC 
    GTTAAGAGTA ATTTTGAGGA ATCTGTCTTA ACAGAAGGGC CCAACCAGTC ACAGGCTGGT 
    GCAGGAGTTG GACTTGATCA CTACATAGAG AGAGTGCAAA AGCTCTTGCA GGAACAGCAG 
    ATGTTGCTGG CTCAGAACTA CAGTGAGCTG GCAGATGCAT TCGGCCCACC TCAACAATCC 
    CAGTTCAGTT CCATCAACAG TGAACTAGTC ACTACTCTAT CATCCATCAA TTCAGTGTGG 
    AAGTATGGAA GTCTTGAAGA ACTTTGTAAC TTGGATCTTC TAAGGCCGCA GGAGAACTCA 
    AATCACACCG TGAAAGAAAC ACAGATGGTC AGTGCAGTCC ATTCCCACTC GAGCAGTTTG 
    AGGTCAGAGG TCACGCGGAT AGAGAGTGTG TGCACAGACG ACAAACATGA ACAGAGTACG 
    GCTGCGCAGA AAAGTCGCAT GGACCAGCAA ATGTCCACAG CATTGCATGG CAGTCACAGC 
    ACCCTGAAGT CCATCATGAA GAAAGATGGC CATCAGGGAC ACAATGGCAC AAAAAAGAAC 
    TTGCAGTTTG TTGGAGTAAA TGGAGGCTAT GAGACGACGT CGAGCGATGA CTCCAGCTCA 
    GAGGAGAGCA GCTCTTCTGG GTCAGAGGAT GAAGGGGATG ACAAAAACAA GACAGTGAAT 
    GTGAGAGAAA GGAGGAAAGA AGAATTCAGG AATAATGAAG CCGTGGATGA AGACAGAGAC 
    ACTGAAGATT TAGGCCAGGA TAAAAGGCAG AGGTATGAGC TGAGTGAGAA GATGCTTTCA 
    GCATGCAACA TCCTGAAATC CCACCTGAAC GACCCCAAGG CTTTATCTAG TAAAGATGTG 
    AGGCCGTGTG TGAACACCGT GCAGCATGAG TGGTTCCGAG TGTCCAGTCA GAAGACGGCT 
    GTGGCGGAGA TGGTGGAGGA CTATCTGAAT GCGTTCAGAA GCATCTCTCC TGCCCTGCTC 
    CAGCACATTG TAAACATGGC CGATGGCAAC GGCAACACCG CCCTCCATTA CAGCGTGTCC 
    CATTCCAACT TCCACATTGT CAAGAAGCTA CTGGAAGCTG ATGTCTGCAA TGTCAATCAG 
    CAGAATAAAG CAGGCTATAC GCCTATCATG CTTGCAGCGC TCGCCGCCGT AGAGGCTCCG 
    AAGGACATGA GGGTGGTCGA TGAGCTGTTT AGTAAAGGAG ATGTCAATGC GAAGGCCAGC 
    CAGGCTGGTC AGACAGGGCT GATGCTGGCT GTCAGTCATG GCAGAATGGA CATGGTGAAA 
    GCTCTGCTAG CCTGTGGTGC GGATGTCAAC ATCCAGGACG ACGAGGGCTC GACCGCGCTC 
    ATGTGTGCCA GTGAACACGG CCATGTGGAG ATAGTGAAGC TGCTGCTGGC TCAGCCAGGC 
    TGTGATCCCA CTCTCAGTGA TAATGACGAA AGCAACGCAT TGTCTATTGC TCTGGAAGCA 
    GGACATAAGG ACATCGCAGT CTTGCTGTAC GCCCATATGA ACTTCTCCAA AGCTCAGTCA 
    CCAGGAACTC CTCGACTCGG AAGGAAGACT TCACCCAGCC CTACAAGAAA AGGTCCTGTT 
    TGA

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

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