anks1b cDNA ORF clone, Danio rerio(zebrafish)

The following anks1b gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the anks1b 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
ODa44593 XM_009300300.3
Latest version!
Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $342.30
$489.00
ODa142012 XM_021475055.1
Latest version!
Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ODa58398 XM_017355052.2
Latest version!
Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ODa58399 XM_017355053.2
Latest version!
Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ODa00056 NM_001100017.2
Latest version!
Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa44592 XM_009300299.3
Latest version!
Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
View Old Accession Versions >>
ODa58398 XM_017355052.1 Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ODa44592 XM_009300299.2 Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa58399 XM_017355053.1 Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ODa44593 XM_009300300.2 Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $342.30
$489.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID ODa44593
    Clone ID Related Accession (Same CDS sequence) XM_009300300.2 , XM_009300300.3
    Accession Version XM_009300300.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1518bp)
    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 ankyrin repeat and sterile alpha motif domain-containing protein 1B isoform X4
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.6) 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_009300300.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    ATGGCGGGTT CGTTTGACAG TCACTTTGCA AGGAACATGA TGTGGCAGTG CCAGCTCTCA 
    CAGCCGGACT GTCGCTGCTA CCGGGTGGAT GGTTACTCAC TTCTTAAACG CCTCCCTTTG
    CATCCTTTGA TAGGCCCCCG TTGCCCCGTC CAGTCTGTGG GACAGTGGCT GGACAACATT
    GGGTTGGTGC AGTATGAAAA CCACCTGCTG TCTAACGGCT TTGACAACGT TCAGTTTATG
    GGCAGTAATG TTGTGGAGGA CCAGGACCTG CTGGAGATTG GGATTTTAAA CTCTGCCCAC
    AGACAGCGAC TTCTTCAGGC TATTCGCCTT TTGCCCAGGG TGCGGCCCAT TGGTTATGAT
    GGAAATAATC CCACCTCAGT GGCTGAATGG CTGGAGTCTC TGGAGTTGGG AGATTACACC
    AAGTCCTTTC TCATCAATGG CTACACGTCT ATGGAGCTGG TCAAGAAGAT CTGGGAGATC
    GAGCTCATCA ACGTTCTTAA GATTAATTTG ATCGGCCACA GGAAAAGAAT ACTAGCGTCA
    CTCGGAGATC GACTGCACGA AGACCCTCCA CAGAAGCCAC CACGGGCCAT TTCCCTACGG
    GAGCCGACTG GGAACCACAC TCCCCCTCAG CTGTCCCCGT CTCTGAGTCA GGCCTACCCC
    AACGCCGGCT CTCTGGACGT CCAGCACCTC ATCATGCAGG CGGATGCCAG ACGCAGACGC
    AACGACAACT ACTTTGAGGA TGTGCCGCGC TCTAAACTAG AGAGACAGAT GGCACAAGTC
    AGTATGCAAG GTGAATGGTG TGAGCCCATC ACGCTACGAC CCCCAAATGA GGCGACGTCG
    TCTACACCGG TGCAGTACTG GCAACACCAT CCAGAGAAGC TCATCTTCCA GTCCTGTGAC
    TATGAAGCAT ATTATCTGGG CTCGATGTTG GTGAAGGAGC TGCGCGGTAC AGAATCCACA
    CATGATGCCT GTGCAAAAAT GAGGAAGTCG ACAGAACAGA TGAAGAAGAT CCCCACCATA
    GTACTGTCTG TCTCCTATAA GGGCGTCAAG TTCATCGATG CTACTAACAA GAACATTATC
    GCGGAGCATG AGATCAGGAA TATCTCTTGT GCGGCTCAGG ATCCTGAAGA TTTGTCCACA
    TTTGCATACA TCACCAAGGA CCTGAAATCC AGCCATCATT ACTGCCATGT GTTTACAGCC
    TTCGATGTGA ATCTGGCCTA TGAGATTATC TTGACGTTAG GCCAGGCGTT TGAGGTGGCA
    TATCAGCTGG CTTTGCAGGC CAGAAAGAGT GGCCACGGGT CTTCAACTCT GCCTGAGAGC
    TTCGACAGCA AACCCTCCAA ACCTGTACCT AAACCACGTG GAAACATACG CAAGTCTATG
    GAACAGCCCT CAATGGATCA AAAGGGCCAC GCTAACGTCC CCTGGATAGT CGAGCCTGGA
    CAGGAAGCCA AAAGAGGAGC CAACACCAAG GCAATGGCGG ACGCCCATGT CTATTACAGT
    GGAATTCAGA GAATGTAG

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

    RefSeq XP_009298575.1
    CDS666..2183
    Translation

    Target ORF information:

    RefSeq Version XM_009300300.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009300300.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    ATGGCGGGTT CGTTTGACAG TCACTTTGCA AGGAACATGA TGTGGCAGTG CCAGCTCTCA 
    CAGCCGGACT GTCGCTGCTA CCGGGTGGAT GGTTACTCAC TTCTTAAACG CCTCCCTTTG
    CATCCTTTGA TAGGCCCCCG TTGCCCCGTC CAGTCTGTGG GACAGTGGCT GGACAACATT
    GGGTTGGTGC AGTATGAAAA CCACCTGCTG TCTAACGGCT TTGACAACGT TCAGTTTATG
    GGCAGTAATG TTGTGGAGGA CCAGGACCTG CTGGAGATTG GGATTTTAAA CTCTGCCCAC
    AGACAGCGAC TTCTTCAGGC TATTCGCCTT TTGCCCAGGG TGCGGCCCAT TGGTTATGAT
    GGAAATAATC CCACCTCAGT GGCTGAATGG CTGGAGTCTC TGGAGTTGGG AGATTACACC
    AAGTCCTTTC TCATCAATGG CTACACGTCT ATGGAGCTGG TCAAGAAGAT CTGGGAGATC
    GAGCTCATCA ACGTTCTTAA GATTAATTTG ATCGGCCACA GGAAAAGAAT ACTAGCGTCA
    CTCGGAGATC GACTGCACGA AGACCCTCCA CAGAAGCCAC CACGGGCCAT TTCCCTACGG
    GAGCCGACTG GGAACCACAC TCCCCCTCAG CTGTCCCCGT CTCTGAGTCA GGCCTACCCC
    AACGCCGGCT CTCTGGACGT CCAGCACCTC ATCATGCAGG CGGATGCCAG ACGCAGACGC
    AACGACAACT ACTTTGAGGA TGTGCCGCGC TCTAAACTAG AGAGACAGAT GGCACAAGTC
    AGTATGCAAG GTGAATGGTG TGAGCCCATC ACGCTACGAC CCCCAAATGA GGCGACGTCG
    TCTACACCGG TGCAGTACTG GCAACACCAT CCAGAGAAGC TCATCTTCCA GTCCTGTGAC
    TATGAAGCAT ATTATCTGGG CTCGATGTTG GTGAAGGAGC TGCGCGGTAC AGAATCCACA
    CATGATGCCT GTGCAAAAAT GAGGAAGTCG ACAGAACAGA TGAAGAAGAT CCCCACCATA
    GTACTGTCTG TCTCCTATAA GGGCGTCAAG TTCATCGATG CTACTAACAA GAACATTATC
    GCGGAGCATG AGATCAGGAA TATCTCTTGT GCGGCTCAGG ATCCTGAAGA TTTGTCCACA
    TTTGCATACA TCACCAAGGA CCTGAAATCC AGCCATCATT ACTGCCATGT GTTTACAGCC
    TTCGATGTGA ATCTGGCCTA TGAGATTATC TTGACGTTAG GCCAGGCGTT TGAGGTGGCA
    TATCAGCTGG CTTTGCAGGC CAGAAAGAGT GGCCACGGGT CTTCAACTCT GCCTGAGAGC
    TTCGACAGCA AACCCTCCAA ACCTGTACCT AAACCACGTG GAAACATACG CAAGTCTATG
    GAACAGCCCT CAATGGATCA AAAGGGCCAC GCTAACGTCC CCTGGATAGT CGAGCCTGGA
    CAGGAAGCCA AAAGAGGAGC CAACACCAAG GCAATGGCGG ACGCCCATGT CTATTACAGT
    GGAATTCAGA GAATGTAG

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

    CloneID ODa44593
    Clone ID Related Accession (Same CDS sequence) XM_009300300.2 , XM_009300300.3
    Accession Version XM_009300300.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1518bp)
    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 ankyrin repeat and sterile alpha motif domain-containing protein 1B isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.7) 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_009300300.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    ATGGCGGGTT CGTTTGACAG TCACTTTGCA AGGAACATGA TGTGGCAGTG CCAGCTCTCA 
    CAGCCGGACT GTCGCTGCTA CCGGGTGGAT GGTTACTCAC TTCTTAAACG CCTCCCTTTG
    CATCCTTTGA TAGGCCCCCG TTGCCCCGTC CAGTCTGTGG GACAGTGGCT GGACAACATT
    GGGTTGGTGC AGTATGAAAA CCACCTGCTG TCTAACGGCT TTGACAACGT TCAGTTTATG
    GGCAGTAATG TTGTGGAGGA CCAGGACCTG CTGGAGATTG GGATTTTAAA CTCTGCCCAC
    AGACAGCGAC TTCTTCAGGC TATTCGCCTT TTGCCCAGGG TGCGGCCCAT TGGTTATGAT
    GGAAATAATC CCACCTCAGT GGCTGAATGG CTGGAGTCTC TGGAGTTGGG AGATTACACC
    AAGTCCTTTC TCATCAATGG CTACACGTCT ATGGAGCTGG TCAAGAAGAT CTGGGAGATC
    GAGCTCATCA ACGTTCTTAA GATTAATTTG ATCGGCCACA GGAAAAGAAT ACTAGCGTCA
    CTCGGAGATC GACTGCACGA AGACCCTCCA CAGAAGCCAC CACGGGCCAT TTCCCTACGG
    GAGCCGACTG GGAACCACAC TCCCCCTCAG CTGTCCCCGT CTCTGAGTCA GGCCTACCCC
    AACGCCGGCT CTCTGGACGT CCAGCACCTC ATCATGCAGG CGGATGCCAG ACGCAGACGC
    AACGACAACT ACTTTGAGGA TGTGCCGCGC TCTAAACTAG AGAGACAGAT GGCACAAGTC
    AGTATGCAAG GTGAATGGTG TGAGCCCATC ACGCTACGAC CCCCAAATGA GGCGACGTCG
    TCTACACCGG TGCAGTACTG GCAACACCAT CCAGAGAAGC TCATCTTCCA GTCCTGTGAC
    TATGAAGCAT ATTATCTGGG CTCGATGTTG GTGAAGGAGC TGCGCGGTAC AGAATCCACA
    CATGATGCCT GTGCAAAAAT GAGGAAGTCG ACAGAACAGA TGAAGAAGAT CCCCACCATA
    GTACTGTCTG TCTCCTATAA GGGCGTCAAG TTCATCGATG CTACTAACAA GAACATTATC
    GCGGAGCATG AGATCAGGAA TATCTCTTGT GCGGCTCAGG ATCCTGAAGA TTTGTCCACA
    TTTGCATACA TCACCAAGGA CCTGAAATCC AGCCATCATT ACTGCCATGT GTTTACAGCC
    TTCGATGTGA ATCTGGCCTA TGAGATTATC TTGACGTTAG GCCAGGCGTT TGAGGTGGCA
    TATCAGCTGG CTTTGCAGGC CAGAAAGAGT GGCCACGGGT CTTCAACTCT GCCTGAGAGC
    TTCGACAGCA AACCCTCCAA ACCTGTACCT AAACCACGTG GAAACATACG CAAGTCTATG
    GAACAGCCCT CAATGGATCA AAAGGGCCAC GCTAACGTCC CCTGGATAGT CGAGCCTGGA
    CAGGAAGCCA AAAGAGGAGC CAACACCAAG GCAATGGCGG ACGCCCATGT CTATTACAGT
    GGAATTCAGA GAATGTAG

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

    RefSeq XP_009298575.1
    CDS517..2034
    Translation

    Target ORF information:

    RefSeq Version XM_009300300.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009300300.3

    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
    ATGGCGGGTT CGTTTGACAG TCACTTTGCA AGGAACATGA TGTGGCAGTG CCAGCTCTCA 
    CAGCCGGACT GTCGCTGCTA CCGGGTGGAT GGTTACTCAC TTCTTAAACG CCTCCCTTTG
    CATCCTTTGA TAGGCCCCCG TTGCCCCGTC CAGTCTGTGG GACAGTGGCT GGACAACATT
    GGGTTGGTGC AGTATGAAAA CCACCTGCTG TCTAACGGCT TTGACAACGT TCAGTTTATG
    GGCAGTAATG TTGTGGAGGA CCAGGACCTG CTGGAGATTG GGATTTTAAA CTCTGCCCAC
    AGACAGCGAC TTCTTCAGGC TATTCGCCTT TTGCCCAGGG TGCGGCCCAT TGGTTATGAT
    GGAAATAATC CCACCTCAGT GGCTGAATGG CTGGAGTCTC TGGAGTTGGG AGATTACACC
    AAGTCCTTTC TCATCAATGG CTACACGTCT ATGGAGCTGG TCAAGAAGAT CTGGGAGATC
    GAGCTCATCA ACGTTCTTAA GATTAATTTG ATCGGCCACA GGAAAAGAAT ACTAGCGTCA
    CTCGGAGATC GACTGCACGA AGACCCTCCA CAGAAGCCAC CACGGGCCAT TTCCCTACGG
    GAGCCGACTG GGAACCACAC TCCCCCTCAG CTGTCCCCGT CTCTGAGTCA GGCCTACCCC
    AACGCCGGCT CTCTGGACGT CCAGCACCTC ATCATGCAGG CGGATGCCAG ACGCAGACGC
    AACGACAACT ACTTTGAGGA TGTGCCGCGC TCTAAACTAG AGAGACAGAT GGCACAAGTC
    AGTATGCAAG GTGAATGGTG TGAGCCCATC ACGCTACGAC CCCCAAATGA GGCGACGTCG
    TCTACACCGG TGCAGTACTG GCAACACCAT CCAGAGAAGC TCATCTTCCA GTCCTGTGAC
    TATGAAGCAT ATTATCTGGG CTCGATGTTG GTGAAGGAGC TGCGCGGTAC AGAATCCACA
    CATGATGCCT GTGCAAAAAT GAGGAAGTCG ACAGAACAGA TGAAGAAGAT CCCCACCATA
    GTACTGTCTG TCTCCTATAA GGGCGTCAAG TTCATCGATG CTACTAACAA GAACATTATC
    GCGGAGCATG AGATCAGGAA TATCTCTTGT GCGGCTCAGG ATCCTGAAGA TTTGTCCACA
    TTTGCATACA TCACCAAGGA CCTGAAATCC AGCCATCATT ACTGCCATGT GTTTACAGCC
    TTCGATGTGA ATCTGGCCTA TGAGATTATC TTGACGTTAG GCCAGGCGTT TGAGGTGGCA
    TATCAGCTGG CTTTGCAGGC CAGAAAGAGT GGCCACGGGT CTTCAACTCT GCCTGAGAGC
    TTCGACAGCA AACCCTCCAA ACCTGTACCT AAACCACGTG GAAACATACG CAAGTCTATG
    GAACAGCCCT CAATGGATCA AAAGGGCCAC GCTAACGTCC CCTGGATAGT CGAGCCTGGA
    CAGGAAGCCA AAAGAGGAGC CAACACCAAG GCAATGGCGG ACGCCCATGT CTATTACAGT
    GGAATTCAGA GAATGTAG

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

    CloneID ODa142012
    Clone ID Related Accession (Same CDS sequence) XM_021475055.1
    Accession Version XM_021475055.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3837bp)
    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 ankyrin repeat and sterile alpha motif domain-containing protein 1B isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.7) 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
    ATGGGAAAGG AGCAGGAGCT GCTGGAGGCG GCGCGGACCG GGAATGTGGG GCTGGTGGAG 
    AAGCTGTTGA GTGGGAAGAA AGGATTGCTG GGCTCGGGCT CCGGATCCAT ACCTCTGCCC
    GGGTTACTCA GTATGTGGAG AGGCCTCAAT GTCAACTGTG TGGACGGATC AGGATACACA
    CCTCTGCACC ACGCATCTCT GAACGGACAC AGGGACGTGG TATTGAAGTT GTTGCAGTTT
    GAAGCCTCTA CTAATGTGTC CGACAGTAAA GGCTGTTTTC CTCTGCATCT GGCTGCATGG
    AGAGGTGACG TGGACATAGT CCAGATTCTG ATCCACCATG GGCCTTCCCA CAGCAGAGTT
    AATGAGCAGA ACCTTGAGAA GGAGACAGCG TTACACTGTG CAGCTCAGTA CGGTCACTCC
    GAGGTGGTCC GTGTTTTGTT GCAAGAGCTG ACAGACCCCA GCATGAGGAA CAGTCGAGGA
    GAAACGCCGC TGGACCTGGC CGCCCTCTAC GGTCGCCTAC AGGTGGTCCG CATGCTACTG
    ACGGCCCACC CTAATCTAAT GAGCTGTAAT ACACGCAAAC ACACACCTCT ACACCTGGCT
    GCCCGCAATG GCCATTATGC TACAGTTCAA GTGCTTCTGG AGGCCGACAT GGACGTTAAC
    ACACAGACAG AGAAAGGAAG TGCCCTCCAC GAAGCCGCAC TCTTTGGAAA GATGGATGTA
    GTTCAGCTAC TGCTTGACTC AGGGATTGAT GCCAACATCA GAGATTGCCA AGGAAGAACT
    GCACTAGATA TACTTAGAGA ACATCCGTCT CAGAAATCAC AACAAATTGC TTCTCTCATA
    CACGATTATA TGATGTCAGA TTGTGACAGA GGGAATTTTC ACGAAGACTT AGCACGACAT
    CGGCCAATAC CTACACCACG CACTTCAATA CCGTCTCCTG TGCCCTCACC GTCTCTACGG
    CATAAAAACG ATGCAGTAAC AGGGGAGTTG TCCAAGCTGC TGAATGAAAT AAAGATTTGC
    CGTGATAAGG ATTGCTCCTT CGAGGAGCTT TGTCAGACCA TCTCTTCTCA CTCTCAGTCT
    ATGGAGAGCT TCGGCAGCGG GCGACTGTCA GACGAGGAAC GCAACGGCAC TCTAACCCGA
    ATAAACAAGC GTCCCACTCC CCCGTTACCC CCGGCGTTGG AGGAGGAGGA AAAGAGCTGT
    GGACCCTCAG GCCTGTGGGA GGCGCTCACT CCCTGCAACG GCTGCAGAAA CCTGGGCTTT
    TCTCAGGACA AGCGATGTGT TGAAATTGCC CATTCTCCAT CACTGGATGT GTTTTTACCA
    GAGGATGAGG ACAACCCTTA CGAGTCAGTG GCTACAGCTG TCACACGCAA GCCCTGCTCT
    CTAGACATCA ACCTTCACAA CGCCTGTCCT CGCAACGGCC ACTTCTCACA TGTGTCGGTC
    AGCGATGCAG AGCGAGGTAA CCATGGAGAT GACTCTACAG GCTTGACTCC TGACTGCTCG
    CCTCCTTCAC CTGATACAGC CCTCAGGAAC ATCGAAAGAG TCATTCGCCC GCAGCCAAAG
    CAACGCACAT CACTGTCCTC CTCCCAGGAC GTCCAGAAGC CCCTGCAGAA CCACAGCGGG
    GATCCCTCGG AGGTCAGCTC ATCACTGGGA TATGCCAGCT TCAGCACCAG CCCGCCTGCC
    AGCCCTCCAA TCAGCCCTGC AAACTGCTCA ACTGGGTCAG CTGAAGACTA CGCCCTCACT
    GATGAAGCAA CGTACCAGAA GGAGTGCATA GAGCGAGACG ACCGGAGAAA CAGCCACGTT
    CCTGAGCAGT TCGCTGGCCT TCTTCATGGT TCATCTCCTG CCTGCGAATC TCCTGACAAC
    CCTTACCAAC TTTACGGAAA AGTGCGAAAG TTCAGTGTTC CTGAGCCTCC GCTCAGGCAC
    GGGAATTTCC TCCGAGCACC AGAGTACTCT CCTCCCTTCC CTCGCACTGG CAGCGAGGCG
    TCTGCTCTTA AAACTCAAAG AGAAGTCAAA CCGCAGGTAG TCTACAGGAC GATTTTTCAC
    ACCAGGGTCA ACCAGGGTCC AGTAACGTTT GGCGAACAAG TGGACAAGAC CACAGGGGTG
    CATGCAAGGA ACGGGGAGGC CCGGAGCAAC TGCACAGGTG GCTCTAGTCC AGCAAACAGC
    AATACAGGCT ACGAAGAAAG AGCCTGCACT CTTGGGAGGA TGAGGTCTAT GCCAAAAAAC
    GTTTTGGACC TTCAGCTGTC CCGAAACTTC TCTAAATCAG ACTCTAACCT GGTGGCTGTG
    TCTCCCATTG AAGAGGAGCA GTGGGGTTCC AGAGGGCAGA GCAGCCCTGG TAAAAGCAGC
    CCCAGCAGAC TAGAGCGAAC CCCCTCCTTT ACCGCAGAGT GGGAAGAGAT TGACAAGATT
    ATGAGCTCCA TAGGTGCAGG AATTGGCACA GAGATGGAGG GGATTACAGA GGATCACCCA
    GGCCCCCGTT GCCCCGTCCA GTCTGTGGGA CAGTGGCTGG ACAACATTGG GTTGGTGCAG
    TATGAAAACC ACCTGCTGTC TAACGGCTTT GACAACGTTC AGTTTATGGG CAGTAATGTT
    GTGGAGGACC AGGACCTGCT GGAGATTGGG ATTTTAAACT CTGCCCACAG ACAGCGACTT
    CTTCAGGCTA TTCGCCTTTT GCCCAGGGTG CGGCCCATTG GTTATGATGG AAATAATCCC
    ACCTCAGTGG CTGAATGGCT GGAGTCTCTG GAGTTGGGAG ATTACACCAA GTCCTTTCTC
    ATCAATGGCT ACACGTCTAT GGAGCTGGTC AAGAAGATCT GGGAGATCGA GCTCATCAAC
    GTTCTTAAGA TTAATTTGAT CGGCCACAGG AAAAGAATAC TAGCGTCACT CGGAGATCGA
    CTGCACGAAG ACCCTCCACA GAAGCCACCA CGGGCCATTT CCCTACGGGA GCCGACTGGG
    AACCACACTC CCCCTCAGCT GTCCCCGTCT CTGAGTCAGG CCTACCCCAA CGCCGGCTCT
    CTGGACGTCC AGCACCTCAT CATGCAGGCG GATGCCAGAC GCAGACGCAA CGACAACTAC
    TTTGAGGATG TGCCGCGCTC TAAACTAGAG AGACAGATGG CACAACAAGG TGAATGGTGT
    GAGCCCATCA CGCTACGACC CCCAAATGAG GCGACGTCGT CTACACCGGT GCAGTACTGG
    CAACACCATC CAGAGAAGCT CATCTTCCAG TCCTGTGACT ATGAAGCATA TTATCTGGGC
    TCGATGTTGG TGAAGGAGCT GCGCGGTACA GAATCCACAC ATGATGCCTG TGCAAAAATG
    AGGAAGTCGA CAGAACAGAT GAAGAAGATC CCCACCATAG TACTGTCTGT CTCCTATAAG
    GGCGTCAAGT TCATCGATGC TACTAACAAG AACATTATCG CGGAGCATGA GATCAGGAAT
    ATCTCTTGTG CGGCTCAGGA TCCTGAAGAT TTGTCCACAT TTGCATACAT CACCAAGGAC
    CTGAAATCCA GCCATCATTA CTGCCATGTG TTTACAGCCT TCGATGTGAA TCTGGCCTAT
    GAGATTATCT TGACGTTAGG CCAGGCGTTT GAGGTGGCAT ATCAGCTGGC TTTGCAGGCC
    AGAAAGAGTG GCCACGGGTC TTCAACTCTG CCTGAGAGCT TCGACAGCAA ACCCTCCAAA
    CCTGTACCTA AACCACGTGG AAACATACGC AAGTCTATGG AACAGCCCTC AATGGATCAA
    AAGGGCCACG CTAACGTCCC CTGGATAGTC GAGCCTGGAC AGGAAGCCAA AAGAGGAGCC
    AACACCAAGG CAATGGCGGA CGCCCATGTC TATTACAGTG GAATTCAGAG AATGTAG

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

    RefSeq XP_021330730.1
    CDS339..4175
    Translation

    Target ORF information:

    RefSeq Version XM_021475055.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021475055.1

    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
    ATGGGAAAGG AGCAGGAGCT GCTGGAGGCG GCGCGGACCG GGAATGTGGG GCTGGTGGAG 
    AAGCTGTTGA GTGGGAAGAA AGGATTGCTG GGCTCGGGCT CCGGATCCAT ACCTCTGCCC
    GGGTTACTCA GTATGTGGAG AGGCCTCAAT GTCAACTGTG TGGACGGATC AGGATACACA
    CCTCTGCACC ACGCATCTCT GAACGGACAC AGGGACGTGG TATTGAAGTT GTTGCAGTTT
    GAAGCCTCTA CTAATGTGTC CGACAGTAAA GGCTGTTTTC CTCTGCATCT GGCTGCATGG
    AGAGGTGACG TGGACATAGT CCAGATTCTG ATCCACCATG GGCCTTCCCA CAGCAGAGTT
    AATGAGCAGA ACCTTGAGAA GGAGACAGCG TTACACTGTG CAGCTCAGTA CGGTCACTCC
    GAGGTGGTCC GTGTTTTGTT GCAAGAGCTG ACAGACCCCA GCATGAGGAA CAGTCGAGGA
    GAAACGCCGC TGGACCTGGC CGCCCTCTAC GGTCGCCTAC AGGTGGTCCG CATGCTACTG
    ACGGCCCACC CTAATCTAAT GAGCTGTAAT ACACGCAAAC ACACACCTCT ACACCTGGCT
    GCCCGCAATG GCCATTATGC TACAGTTCAA GTGCTTCTGG AGGCCGACAT GGACGTTAAC
    ACACAGACAG AGAAAGGAAG TGCCCTCCAC GAAGCCGCAC TCTTTGGAAA GATGGATGTA
    GTTCAGCTAC TGCTTGACTC AGGGATTGAT GCCAACATCA GAGATTGCCA AGGAAGAACT
    GCACTAGATA TACTTAGAGA ACATCCGTCT CAGAAATCAC AACAAATTGC TTCTCTCATA
    CACGATTATA TGATGTCAGA TTGTGACAGA GGGAATTTTC ACGAAGACTT AGCACGACAT
    CGGCCAATAC CTACACCACG CACTTCAATA CCGTCTCCTG TGCCCTCACC GTCTCTACGG
    CATAAAAACG ATGCAGTAAC AGGGGAGTTG TCCAAGCTGC TGAATGAAAT AAAGATTTGC
    CGTGATAAGG ATTGCTCCTT CGAGGAGCTT TGTCAGACCA TCTCTTCTCA CTCTCAGTCT
    ATGGAGAGCT TCGGCAGCGG GCGACTGTCA GACGAGGAAC GCAACGGCAC TCTAACCCGA
    ATAAACAAGC GTCCCACTCC CCCGTTACCC CCGGCGTTGG AGGAGGAGGA AAAGAGCTGT
    GGACCCTCAG GCCTGTGGGA GGCGCTCACT CCCTGCAACG GCTGCAGAAA CCTGGGCTTT
    TCTCAGGACA AGCGATGTGT TGAAATTGCC CATTCTCCAT CACTGGATGT GTTTTTACCA
    GAGGATGAGG ACAACCCTTA CGAGTCAGTG GCTACAGCTG TCACACGCAA GCCCTGCTCT
    CTAGACATCA ACCTTCACAA CGCCTGTCCT CGCAACGGCC ACTTCTCACA TGTGTCGGTC
    AGCGATGCAG AGCGAGGTAA CCATGGAGAT GACTCTACAG GCTTGACTCC TGACTGCTCG
    CCTCCTTCAC CTGATACAGC CCTCAGGAAC ATCGAAAGAG TCATTCGCCC GCAGCCAAAG
    CAACGCACAT CACTGTCCTC CTCCCAGGAC GTCCAGAAGC CCCTGCAGAA CCACAGCGGG
    GATCCCTCGG AGGTCAGCTC ATCACTGGGA TATGCCAGCT TCAGCACCAG CCCGCCTGCC
    AGCCCTCCAA TCAGCCCTGC AAACTGCTCA ACTGGGTCAG CTGAAGACTA CGCCCTCACT
    GATGAAGCAA CGTACCAGAA GGAGTGCATA GAGCGAGACG ACCGGAGAAA CAGCCACGTT
    CCTGAGCAGT TCGCTGGCCT TCTTCATGGT TCATCTCCTG CCTGCGAATC TCCTGACAAC
    CCTTACCAAC TTTACGGAAA AGTGCGAAAG TTCAGTGTTC CTGAGCCTCC GCTCAGGCAC
    GGGAATTTCC TCCGAGCACC AGAGTACTCT CCTCCCTTCC CTCGCACTGG CAGCGAGGCG
    TCTGCTCTTA AAACTCAAAG AGAAGTCAAA CCGCAGGTAG TCTACAGGAC GATTTTTCAC
    ACCAGGGTCA ACCAGGGTCC AGTAACGTTT GGCGAACAAG TGGACAAGAC CACAGGGGTG
    CATGCAAGGA ACGGGGAGGC CCGGAGCAAC TGCACAGGTG GCTCTAGTCC AGCAAACAGC
    AATACAGGCT ACGAAGAAAG AGCCTGCACT CTTGGGAGGA TGAGGTCTAT GCCAAAAAAC
    GTTTTGGACC TTCAGCTGTC CCGAAACTTC TCTAAATCAG ACTCTAACCT GGTGGCTGTG
    TCTCCCATTG AAGAGGAGCA GTGGGGTTCC AGAGGGCAGA GCAGCCCTGG TAAAAGCAGC
    CCCAGCAGAC TAGAGCGAAC CCCCTCCTTT ACCGCAGAGT GGGAAGAGAT TGACAAGATT
    ATGAGCTCCA TAGGTGCAGG AATTGGCACA GAGATGGAGG GGATTACAGA GGATCACCCA
    GGCCCCCGTT GCCCCGTCCA GTCTGTGGGA CAGTGGCTGG ACAACATTGG GTTGGTGCAG
    TATGAAAACC ACCTGCTGTC TAACGGCTTT GACAACGTTC AGTTTATGGG CAGTAATGTT
    GTGGAGGACC AGGACCTGCT GGAGATTGGG ATTTTAAACT CTGCCCACAG ACAGCGACTT
    CTTCAGGCTA TTCGCCTTTT GCCCAGGGTG CGGCCCATTG GTTATGATGG AAATAATCCC
    ACCTCAGTGG CTGAATGGCT GGAGTCTCTG GAGTTGGGAG ATTACACCAA GTCCTTTCTC
    ATCAATGGCT ACACGTCTAT GGAGCTGGTC AAGAAGATCT GGGAGATCGA GCTCATCAAC
    GTTCTTAAGA TTAATTTGAT CGGCCACAGG AAAAGAATAC TAGCGTCACT CGGAGATCGA
    CTGCACGAAG ACCCTCCACA GAAGCCACCA CGGGCCATTT CCCTACGGGA GCCGACTGGG
    AACCACACTC CCCCTCAGCT GTCCCCGTCT CTGAGTCAGG CCTACCCCAA CGCCGGCTCT
    CTGGACGTCC AGCACCTCAT CATGCAGGCG GATGCCAGAC GCAGACGCAA CGACAACTAC
    TTTGAGGATG TGCCGCGCTC TAAACTAGAG AGACAGATGG CACAACAAGG TGAATGGTGT
    GAGCCCATCA CGCTACGACC CCCAAATGAG GCGACGTCGT CTACACCGGT GCAGTACTGG
    CAACACCATC CAGAGAAGCT CATCTTCCAG TCCTGTGACT ATGAAGCATA TTATCTGGGC
    TCGATGTTGG TGAAGGAGCT GCGCGGTACA GAATCCACAC ATGATGCCTG TGCAAAAATG
    AGGAAGTCGA CAGAACAGAT GAAGAAGATC CCCACCATAG TACTGTCTGT CTCCTATAAG
    GGCGTCAAGT TCATCGATGC TACTAACAAG AACATTATCG CGGAGCATGA GATCAGGAAT
    ATCTCTTGTG CGGCTCAGGA TCCTGAAGAT TTGTCCACAT TTGCATACAT CACCAAGGAC
    CTGAAATCCA GCCATCATTA CTGCCATGTG TTTACAGCCT TCGATGTGAA TCTGGCCTAT
    GAGATTATCT TGACGTTAGG CCAGGCGTTT GAGGTGGCAT ATCAGCTGGC TTTGCAGGCC
    AGAAAGAGTG GCCACGGGTC TTCAACTCTG CCTGAGAGCT TCGACAGCAA ACCCTCCAAA
    CCTGTACCTA AACCACGTGG AAACATACGC AAGTCTATGG AACAGCCCTC AATGGATCAA
    AAGGGCCACG CTAACGTCCC CTGGATAGTC GAGCCTGGAC AGGAAGCCAA AAGAGGAGCC
    AACACCAAGG CAATGGCGGA CGCCCATGTC TATTACAGTG GAATTCAGAG AATGTAG

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

    CloneID ODa58398
    Clone ID Related Accession (Same CDS sequence) XM_017355052.2 , XM_017355052.1
    Accession Version XM_017355052.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3846bp)
    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 ankyrin repeat and sterile alpha motif domain-containing protein 1B isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.7) 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_017355052.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGGAAAGG AGCAGGAGCT GCTGGAGGCG GCGCGGACCG GGAATGTGGG GCTGGTGGAG 
    AAGCTGTTGA GTGGGAAGAA AGGATTGCTG GGCTCGGGCT CCGGATCCAT ACCTCTGCCC
    GGGTTACTCA GTATGTGGAG AGGCCTCAAT GTCAACTGTG TGGACGGATC AGGATACACA
    CCTCTGCACC ACGCATCTCT GAACGGACAC AGGGACGTGG TATTGAAGTT GTTGCAGTTT
    GAAGCCTCTA CTAATGTGTC CGACAGTAAA GGCTGTTTTC CTCTGCATCT GGCTGCATGG
    AGAGGTGACG TGGACATAGT CCAGATTCTG ATCCACCATG GGCCTTCCCA CAGCAGAGTT
    AATGAGCAGA ACCTTGAGAA GGAGACAGCG TTACACTGTG CAGCTCAGTA CGGTCACTCC
    GAGGTGGTCC GTGTTTTGTT GCAAGAGCTG ACAGACCCCA GCATGAGGAA CAGTCGAGGA
    GAAACGCCGC TGGACCTGGC CGCCCTCTAC GGTCGCCTAC AGGTGGTCCG CATGCTACTG
    ACGGCCCACC CTAATCTAAT GAGCTGTAAT ACACGCAAAC ACACACCTCT ACACCTGGCT
    GCCCGCAATG GCCATTATGC TACAGTTCAA GTGCTTCTGG AGGCCGACAT GGACGTTAAC
    ACACAGACAG AGAAAGGAAG TGCCCTCCAC GAAGCCGCAC TCTTTGGAAA GATGGATGTA
    GTTCAGCTAC TGCTTGACTC AGGGATTGAT GCCAACATCA GAGATTGCCA AGGAAGAACT
    GCACTAGATA TACTTAGAGA ACATCCGTCT CAGAAATCAC AACAAATTGC TTCTCTCATA
    CACGATTATA TGATGTCAGA TTGTGACAGA GGGAATTTTC ACGAAGACTT AGCACGACAT
    CGGCCAATAC CTACACCACG CACTTCAATA CCGTCTCCTG TGCCCTCACC GTCTCTACGG
    CATAAAAACG ATGCAGTAAC AGGGGAGTTG TCCAAGCTGC TGAATGAAAT AAAGATTTGC
    CGTGATAAGG ATTGCTCCTT CGAGGAGCTT TGTCAGACCA TCTCTTCTCA CTCTCAGTCT
    ATGGAGAGCT TCGGCAGCGG GCGACTGTCA GACGAGGAAC GCAACGGCAC TCTAACCCGA
    ATAAACAAGC GTCCCACTCC CCCGTTACCC CCGGCGTTGG AGGAGGAGGA AAAGAGCTGT
    GGACCCTCAG GCCTGTGGGA GGCGCTCACT CCCTGCAACG GCTGCAGAAA CCTGGGCTTT
    TCTCAGGACA AGCGATGTGT TGAAATTGCC CATTCTCCAT CACTGGATGT GTTTTTACCA
    GAGGATGAGG ACAACCCTTA CGAGTCAGTG GCTACAGCTG TCACACGCAA GCCCTGCTCT
    CTAGACATCA ACCTTCACAA CGCCTGTCCT CGCAACGGCC ACTTCTCACA TGTGTCGGTC
    AGCGATGCAG AGCGAGGTAA CCATGGAGAT GACTCTACAG GCTTGACTCC TGACTGCTCG
    CCTCCTTCAC CTGATACAGC CCTCAGGAAC ATCGAAAGAG TCATTCGCCC GCAGCCAAAG
    CAACGCACAT CACTGTCCTC CTCCCAGGAC GTCCAGAAGC CCCTGCAGAA CCACAGCGGG
    GATCCCTCGG AGGTCAGCTC ATCACTGGGA TATGCCAGCT TCAGCACCAG CCCGCCTGCC
    AGCCCTCCAA TCAGCCCTGC AAACTGCTCA ACTGGGTCAG CTGAAGACTA CGCCCTCACT
    GATGAAGCAA CGTACCAGAA GGAGTGCATA GAGCGAGACG ACCGGAGAAA CAGCCACGTT
    CCTGAGCAGT TCGCTGGCCT TCTTCATGGT TCATCTCCTG CCTGCGAATC TCCTGACAAC
    CCTTACCAAC TTTACGGAAA AGTGCGAAAG TTCAGTGTTC CTGAGCCTCC GCTCAGGCAC
    GGGAATTTCC TCCGAGCACC AGAGTACTCT CCTCCCTTCC CTCGCACTGG CAGCGAGGCG
    TCTGCTCTTA AAACTCAAAG AGAAGTCAAA CCGCAGGTAG TCTACAGGAC GATTTTTCAC
    ACCAGGGTCA ACCAGGGTCC AGTAACGTTT GGCGAACAAG TGGACAAGAC CACAGGGGTG
    CATGCAAGGA ACGGGGAGGC CCGGAGCAAC TGCACAGGTG GCTCTAGTCC AGCAAACAGC
    AATACAGGCT ACGAAGAAAG AGCCTGCACT CTTGGGAGGA TGAGGTCTAT GCCAAAAAAC
    GTTTTGGACC TTCAGCTGTC CCGAAACTTC TCTAAATCAG ACTCTAACCT GGTGGCTGTG
    TCTCCCATTG AAGAGGAGCA GTGGGGTTCC AGAGGGCAGA GCAGCCCTGG TAAAAGCAGC
    CCCAGCAGAC TAGAGCGAAC CCCCTCCTTT ACCGCAGAGT GGGAAGAGAT TGACAAGATT
    ATGAGCTCCA TAGGTGCAGG AATTGGCACA GAGATGGAGG GGATTACAGA GGATCACCCA
    GGCCCCCGTT GCCCCGTCCA GTCTGTGGGA CAGTGGCTGG ACAACATTGG GTTGGTGCAG
    TATGAAAACC ACCTGCTGTC TAACGGCTTT GACAACGTTC AGTTTATGGG CAGTAATGTT
    GTGGAGGACC AGGACCTGCT GGAGATTGGG ATTTTAAACT CTGCCCACAG ACAGCGACTT
    CTTCAGGCTA TTCGCCTTTT GCCCAGGGTG CGGCCCATTG GTTATGATGG AAATAATCCC
    ACCTCAGTGG CTGAATGGCT GGAGTCTCTG GAGTTGGGAG ATTACACCAA GTCCTTTCTC
    ATCAATGGCT ACACGTCTAT GGAGCTGGTC AAGAAGATCT GGGAGATCGA GCTCATCAAC
    GTTCTTAAGA TTAATTTGAT CGGCCACAGG AAAAGAATAC TAGCGTCACT CGGAGATCGA
    CTGCACGAAG ACCCTCCACA GAAGCCACCA CGGGCCATTT CCCTACGGGA GCCGACTGGG
    AACCACACTC CCCCTCAGCT GTCCCCGTCT CTGAGTCAGG CCTACCCCAA CGCCGGCTCT
    CTGGACGTCC AGCACCTCAT CATGCAGGCG GATGCCAGAC GCAGACGCAA CGACAACTAC
    TTTGAGGATG TGCCGCGCTC TAAACTAGAG AGACAGATGG CACAAGTCAG TATGCAAGGT
    GAATGGTGTG AGCCCATCAC GCTACGACCC CCAAATGAGG CGACGTCGTC TACACCGGTG
    CAGTACTGGC AACACCATCC AGAGAAGCTC ATCTTCCAGT CCTGTGACTA TGAAGCATAT
    TATCTGGGCT CGATGTTGGT GAAGGAGCTG CGCGGTACAG AATCCACACA TGATGCCTGT
    GCAAAAATGA GGAAGTCGAC AGAACAGATG AAGAAGATCC CCACCATAGT ACTGTCTGTC
    TCCTATAAGG GCGTCAAGTT CATCGATGCT ACTAACAAGA ACATTATCGC GGAGCATGAG
    ATCAGGAATA TCTCTTGTGC GGCTCAGGAT CCTGAAGATT TGTCCACATT TGCATACATC
    ACCAAGGACC TGAAATCCAG CCATCATTAC TGCCATGTGT TTACAGCCTT CGATGTGAAT
    CTGGCCTATG AGATTATCTT GACGTTAGGC CAGGCGTTTG AGGTGGCATA TCAGCTGGCT
    TTGCAGGCCA GAAAGAGTGG CCACGGGTCT TCAACTCTGC CTGAGAGCTT CGACAGCAAA
    CCCTCCAAAC CTGTACCTAA ACCACGTGGA AACATACGCA AGTCTATGGA ACAGCCCTCA
    ATGGATCAAA AGGGCCACGC TAACGTCCCC TGGATAGTCG AGCCTGGACA GGAAGCCAAA
    AGAGGAGCCA ACACCAAGGC AATGGCGGAC GCCCATGTCT ATTACAGTGG AATTCAGAGA
    ATGTAG

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

    RefSeq XP_017210541.1
    CDS337..4182
    Translation

    Target ORF information:

    RefSeq Version XM_017355052.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355052.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGGAAAGG AGCAGGAGCT GCTGGAGGCG GCGCGGACCG GGAATGTGGG GCTGGTGGAG 
    AAGCTGTTGA GTGGGAAGAA AGGATTGCTG GGCTCGGGCT CCGGATCCAT ACCTCTGCCC
    GGGTTACTCA GTATGTGGAG AGGCCTCAAT GTCAACTGTG TGGACGGATC AGGATACACA
    CCTCTGCACC ACGCATCTCT GAACGGACAC AGGGACGTGG TATTGAAGTT GTTGCAGTTT
    GAAGCCTCTA CTAATGTGTC CGACAGTAAA GGCTGTTTTC CTCTGCATCT GGCTGCATGG
    AGAGGTGACG TGGACATAGT CCAGATTCTG ATCCACCATG GGCCTTCCCA CAGCAGAGTT
    AATGAGCAGA ACCTTGAGAA GGAGACAGCG TTACACTGTG CAGCTCAGTA CGGTCACTCC
    GAGGTGGTCC GTGTTTTGTT GCAAGAGCTG ACAGACCCCA GCATGAGGAA CAGTCGAGGA
    GAAACGCCGC TGGACCTGGC CGCCCTCTAC GGTCGCCTAC AGGTGGTCCG CATGCTACTG
    ACGGCCCACC CTAATCTAAT GAGCTGTAAT ACACGCAAAC ACACACCTCT ACACCTGGCT
    GCCCGCAATG GCCATTATGC TACAGTTCAA GTGCTTCTGG AGGCCGACAT GGACGTTAAC
    ACACAGACAG AGAAAGGAAG TGCCCTCCAC GAAGCCGCAC TCTTTGGAAA GATGGATGTA
    GTTCAGCTAC TGCTTGACTC AGGGATTGAT GCCAACATCA GAGATTGCCA AGGAAGAACT
    GCACTAGATA TACTTAGAGA ACATCCGTCT CAGAAATCAC AACAAATTGC TTCTCTCATA
    CACGATTATA TGATGTCAGA TTGTGACAGA GGGAATTTTC ACGAAGACTT AGCACGACAT
    CGGCCAATAC CTACACCACG CACTTCAATA CCGTCTCCTG TGCCCTCACC GTCTCTACGG
    CATAAAAACG ATGCAGTAAC AGGGGAGTTG TCCAAGCTGC TGAATGAAAT AAAGATTTGC
    CGTGATAAGG ATTGCTCCTT CGAGGAGCTT TGTCAGACCA TCTCTTCTCA CTCTCAGTCT
    ATGGAGAGCT TCGGCAGCGG GCGACTGTCA GACGAGGAAC GCAACGGCAC TCTAACCCGA
    ATAAACAAGC GTCCCACTCC CCCGTTACCC CCGGCGTTGG AGGAGGAGGA AAAGAGCTGT
    GGACCCTCAG GCCTGTGGGA GGCGCTCACT CCCTGCAACG GCTGCAGAAA CCTGGGCTTT
    TCTCAGGACA AGCGATGTGT TGAAATTGCC CATTCTCCAT CACTGGATGT GTTTTTACCA
    GAGGATGAGG ACAACCCTTA CGAGTCAGTG GCTACAGCTG TCACACGCAA GCCCTGCTCT
    CTAGACATCA ACCTTCACAA CGCCTGTCCT CGCAACGGCC ACTTCTCACA TGTGTCGGTC
    AGCGATGCAG AGCGAGGTAA CCATGGAGAT GACTCTACAG GCTTGACTCC TGACTGCTCG
    CCTCCTTCAC CTGATACAGC CCTCAGGAAC ATCGAAAGAG TCATTCGCCC GCAGCCAAAG
    CAACGCACAT CACTGTCCTC CTCCCAGGAC GTCCAGAAGC CCCTGCAGAA CCACAGCGGG
    GATCCCTCGG AGGTCAGCTC ATCACTGGGA TATGCCAGCT TCAGCACCAG CCCGCCTGCC
    AGCCCTCCAA TCAGCCCTGC AAACTGCTCA ACTGGGTCAG CTGAAGACTA CGCCCTCACT
    GATGAAGCAA CGTACCAGAA GGAGTGCATA GAGCGAGACG ACCGGAGAAA CAGCCACGTT
    CCTGAGCAGT TCGCTGGCCT TCTTCATGGT TCATCTCCTG CCTGCGAATC TCCTGACAAC
    CCTTACCAAC TTTACGGAAA AGTGCGAAAG TTCAGTGTTC CTGAGCCTCC GCTCAGGCAC
    GGGAATTTCC TCCGAGCACC AGAGTACTCT CCTCCCTTCC CTCGCACTGG CAGCGAGGCG
    TCTGCTCTTA AAACTCAAAG AGAAGTCAAA CCGCAGGTAG TCTACAGGAC GATTTTTCAC
    ACCAGGGTCA ACCAGGGTCC AGTAACGTTT GGCGAACAAG TGGACAAGAC CACAGGGGTG
    CATGCAAGGA ACGGGGAGGC CCGGAGCAAC TGCACAGGTG GCTCTAGTCC AGCAAACAGC
    AATACAGGCT ACGAAGAAAG AGCCTGCACT CTTGGGAGGA TGAGGTCTAT GCCAAAAAAC
    GTTTTGGACC TTCAGCTGTC CCGAAACTTC TCTAAATCAG ACTCTAACCT GGTGGCTGTG
    TCTCCCATTG AAGAGGAGCA GTGGGGTTCC AGAGGGCAGA GCAGCCCTGG TAAAAGCAGC
    CCCAGCAGAC TAGAGCGAAC CCCCTCCTTT ACCGCAGAGT GGGAAGAGAT TGACAAGATT
    ATGAGCTCCA TAGGTGCAGG AATTGGCACA GAGATGGAGG GGATTACAGA GGATCACCCA
    GGCCCCCGTT GCCCCGTCCA GTCTGTGGGA CAGTGGCTGG ACAACATTGG GTTGGTGCAG
    TATGAAAACC ACCTGCTGTC TAACGGCTTT GACAACGTTC AGTTTATGGG CAGTAATGTT
    GTGGAGGACC AGGACCTGCT GGAGATTGGG ATTTTAAACT CTGCCCACAG ACAGCGACTT
    CTTCAGGCTA TTCGCCTTTT GCCCAGGGTG CGGCCCATTG GTTATGATGG AAATAATCCC
    ACCTCAGTGG CTGAATGGCT GGAGTCTCTG GAGTTGGGAG ATTACACCAA GTCCTTTCTC
    ATCAATGGCT ACACGTCTAT GGAGCTGGTC AAGAAGATCT GGGAGATCGA GCTCATCAAC
    GTTCTTAAGA TTAATTTGAT CGGCCACAGG AAAAGAATAC TAGCGTCACT CGGAGATCGA
    CTGCACGAAG ACCCTCCACA GAAGCCACCA CGGGCCATTT CCCTACGGGA GCCGACTGGG
    AACCACACTC CCCCTCAGCT GTCCCCGTCT CTGAGTCAGG CCTACCCCAA CGCCGGCTCT
    CTGGACGTCC AGCACCTCAT CATGCAGGCG GATGCCAGAC GCAGACGCAA CGACAACTAC
    TTTGAGGATG TGCCGCGCTC TAAACTAGAG AGACAGATGG CACAAGTCAG TATGCAAGGT
    GAATGGTGTG AGCCCATCAC GCTACGACCC CCAAATGAGG CGACGTCGTC TACACCGGTG
    CAGTACTGGC AACACCATCC AGAGAAGCTC ATCTTCCAGT CCTGTGACTA TGAAGCATAT
    TATCTGGGCT CGATGTTGGT GAAGGAGCTG CGCGGTACAG AATCCACACA TGATGCCTGT
    GCAAAAATGA GGAAGTCGAC AGAACAGATG AAGAAGATCC CCACCATAGT ACTGTCTGTC
    TCCTATAAGG GCGTCAAGTT CATCGATGCT ACTAACAAGA ACATTATCGC GGAGCATGAG
    ATCAGGAATA TCTCTTGTGC GGCTCAGGAT CCTGAAGATT TGTCCACATT TGCATACATC
    ACCAAGGACC TGAAATCCAG CCATCATTAC TGCCATGTGT TTACAGCCTT CGATGTGAAT
    CTGGCCTATG AGATTATCTT GACGTTAGGC CAGGCGTTTG AGGTGGCATA TCAGCTGGCT
    TTGCAGGCCA GAAAGAGTGG CCACGGGTCT TCAACTCTGC CTGAGAGCTT CGACAGCAAA
    CCCTCCAAAC CTGTACCTAA ACCACGTGGA AACATACGCA AGTCTATGGA ACAGCCCTCA
    ATGGATCAAA AGGGCCACGC TAACGTCCCC TGGATAGTCG AGCCTGGACA GGAAGCCAAA
    AGAGGAGCCA ACACCAAGGC AATGGCGGAC GCCCATGTCT ATTACAGTGG AATTCAGAGA
    ATGTAG

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

    CloneID ODa58398
    Clone ID Related Accession (Same CDS sequence) XM_017355052.2 , XM_017355052.1
    Accession Version XM_017355052.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3846bp)
    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 ankyrin repeat and sterile alpha motif domain-containing protein 1B isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGGAAAGG AGCAGGAGCT GCTGGAGGCG GCGCGGACCG GGAATGTGGG GCTGGTGGAG 
    AAGCTGTTGA GTGGGAAGAA AGGATTGCTG GGCTCGGGCT CCGGATCCAT ACCTCTGCCC
    GGGTTACTCA GTATGTGGAG AGGCCTCAAT GTCAACTGTG TGGACGGATC AGGATACACA
    CCTCTGCACC ACGCATCTCT GAACGGACAC AGGGACGTGG TATTGAAGTT GTTGCAGTTT
    GAAGCCTCTA CTAATGTGTC CGACAGTAAA GGCTGTTTTC CTCTGCATCT GGCTGCATGG
    AGAGGTGACG TGGACATAGT CCAGATTCTG ATCCACCATG GGCCTTCCCA CAGCAGAGTT
    AATGAGCAGA ACCTTGAGAA GGAGACAGCG TTACACTGTG CAGCTCAGTA CGGTCACTCC
    GAGGTGGTCC GTGTTTTGTT GCAAGAGCTG ACAGACCCCA GCATGAGGAA CAGTCGAGGA
    GAAACGCCGC TGGACCTGGC CGCCCTCTAC GGTCGCCTAC AGGTGGTCCG CATGCTACTG
    ACGGCCCACC CTAATCTAAT GAGCTGTAAT ACACGCAAAC ACACACCTCT ACACCTGGCT
    GCCCGCAATG GCCATTATGC TACAGTTCAA GTGCTTCTGG AGGCCGACAT GGACGTTAAC
    ACACAGACAG AGAAAGGAAG TGCCCTCCAC GAAGCCGCAC TCTTTGGAAA GATGGATGTA
    GTTCAGCTAC TGCTTGACTC AGGGATTGAT GCCAACATCA GAGATTGCCA AGGAAGAACT
    GCACTAGATA TACTTAGAGA ACATCCGTCT CAGAAATCAC AACAAATTGC TTCTCTCATA
    CACGATTATA TGATGTCAGA TTGTGACAGA GGGAATTTTC ACGAAGACTT AGCACGACAT
    CGGCCAATAC CTACACCACG CACTTCAATA CCGTCTCCTG TGCCCTCACC GTCTCTACGG
    CATAAAAACG ATGCAGTAAC AGGGGAGTTG TCCAAGCTGC TGAATGAAAT AAAGATTTGC
    CGTGATAAGG ATTGCTCCTT CGAGGAGCTT TGTCAGACCA TCTCTTCTCA CTCTCAGTCT
    ATGGAGAGCT TCGGCAGCGG GCGACTGTCA GACGAGGAAC GCAACGGCAC TCTAACCCGA
    ATAAACAAGC GTCCCACTCC CCCGTTACCC CCGGCGTTGG AGGAGGAGGA AAAGAGCTGT
    GGACCCTCAG GCCTGTGGGA GGCGCTCACT CCCTGCAACG GCTGCAGAAA CCTGGGCTTT
    TCTCAGGACA AGCGATGTGT TGAAATTGCC CATTCTCCAT CACTGGATGT GTTTTTACCA
    GAGGATGAGG ACAACCCTTA CGAGTCAGTG GCTACAGCTG TCACACGCAA GCCCTGCTCT
    CTAGACATCA ACCTTCACAA CGCCTGTCCT CGCAACGGCC ACTTCTCACA TGTGTCGGTC
    AGCGATGCAG AGCGAGGTAA CCATGGAGAT GACTCTACAG GCTTGACTCC TGACTGCTCG
    CCTCCTTCAC CTGATACAGC CCTCAGGAAC ATCGAAAGAG TCATTCGCCC GCAGCCAAAG
    CAACGCACAT CACTGTCCTC CTCCCAGGAC GTCCAGAAGC CCCTGCAGAA CCACAGCGGG
    GATCCCTCGG AGGTCAGCTC ATCACTGGGA TATGCCAGCT TCAGCACCAG CCCGCCTGCC
    AGCCCTCCAA TCAGCCCTGC AAACTGCTCA ACTGGGTCAG CTGAAGACTA CGCCCTCACT
    GATGAAGCAA CGTACCAGAA GGAGTGCATA GAGCGAGACG ACCGGAGAAA CAGCCACGTT
    CCTGAGCAGT TCGCTGGCCT TCTTCATGGT TCATCTCCTG CCTGCGAATC TCCTGACAAC
    CCTTACCAAC TTTACGGAAA AGTGCGAAAG TTCAGTGTTC CTGAGCCTCC GCTCAGGCAC
    GGGAATTTCC TCCGAGCACC AGAGTACTCT CCTCCCTTCC CTCGCACTGG CAGCGAGGCG
    TCTGCTCTTA AAACTCAAAG AGAAGTCAAA CCGCAGGTAG TCTACAGGAC GATTTTTCAC
    ACCAGGGTCA ACCAGGGTCC AGTAACGTTT GGCGAACAAG TGGACAAGAC CACAGGGGTG
    CATGCAAGGA ACGGGGAGGC CCGGAGCAAC TGCACAGGTG GCTCTAGTCC AGCAAACAGC
    AATACAGGCT ACGAAGAAAG AGCCTGCACT CTTGGGAGGA TGAGGTCTAT GCCAAAAAAC
    GTTTTGGACC TTCAGCTGTC CCGAAACTTC TCTAAATCAG ACTCTAACCT GGTGGCTGTG
    TCTCCCATTG AAGAGGAGCA GTGGGGTTCC AGAGGGCAGA GCAGCCCTGG TAAAAGCAGC
    CCCAGCAGAC TAGAGCGAAC CCCCTCCTTT ACCGCAGAGT GGGAAGAGAT TGACAAGATT
    ATGAGCTCCA TAGGTGCAGG AATTGGCACA GAGATGGAGG GGATTACAGA GGATCACCCA
    GGCCCCCGTT GCCCCGTCCA GTCTGTGGGA CAGTGGCTGG ACAACATTGG GTTGGTGCAG
    TATGAAAACC ACCTGCTGTC TAACGGCTTT GACAACGTTC AGTTTATGGG CAGTAATGTT
    GTGGAGGACC AGGACCTGCT GGAGATTGGG ATTTTAAACT CTGCCCACAG ACAGCGACTT
    CTTCAGGCTA TTCGCCTTTT GCCCAGGGTG CGGCCCATTG GTTATGATGG AAATAATCCC
    ACCTCAGTGG CTGAATGGCT GGAGTCTCTG GAGTTGGGAG ATTACACCAA GTCCTTTCTC
    ATCAATGGCT ACACGTCTAT GGAGCTGGTC AAGAAGATCT GGGAGATCGA GCTCATCAAC
    GTTCTTAAGA TTAATTTGAT CGGCCACAGG AAAAGAATAC TAGCGTCACT CGGAGATCGA
    CTGCACGAAG ACCCTCCACA GAAGCCACCA CGGGCCATTT CCCTACGGGA GCCGACTGGG
    AACCACACTC CCCCTCAGCT GTCCCCGTCT CTGAGTCAGG CCTACCCCAA CGCCGGCTCT
    CTGGACGTCC AGCACCTCAT CATGCAGGCG GATGCCAGAC GCAGACGCAA CGACAACTAC
    TTTGAGGATG TGCCGCGCTC TAAACTAGAG AGACAGATGG CACAAGTCAG TATGCAAGGT
    GAATGGTGTG AGCCCATCAC GCTACGACCC CCAAATGAGG CGACGTCGTC TACACCGGTG
    CAGTACTGGC AACACCATCC AGAGAAGCTC ATCTTCCAGT CCTGTGACTA TGAAGCATAT
    TATCTGGGCT CGATGTTGGT GAAGGAGCTG CGCGGTACAG AATCCACACA TGATGCCTGT
    GCAAAAATGA GGAAGTCGAC AGAACAGATG AAGAAGATCC CCACCATAGT ACTGTCTGTC
    TCCTATAAGG GCGTCAAGTT CATCGATGCT ACTAACAAGA ACATTATCGC GGAGCATGAG
    ATCAGGAATA TCTCTTGTGC GGCTCAGGAT CCTGAAGATT TGTCCACATT TGCATACATC
    ACCAAGGACC TGAAATCCAG CCATCATTAC TGCCATGTGT TTACAGCCTT CGATGTGAAT
    CTGGCCTATG AGATTATCTT GACGTTAGGC CAGGCGTTTG AGGTGGCATA TCAGCTGGCT
    TTGCAGGCCA GAAAGAGTGG CCACGGGTCT TCAACTCTGC CTGAGAGCTT CGACAGCAAA
    CCCTCCAAAC CTGTACCTAA ACCACGTGGA AACATACGCA AGTCTATGGA ACAGCCCTCA
    ATGGATCAAA AGGGCCACGC TAACGTCCCC TGGATAGTCG AGCCTGGACA GGAAGCCAAA
    AGAGGAGCCA ACACCAAGGC AATGGCGGAC GCCCATGTCT ATTACAGTGG AATTCAGAGA
    ATGTAG

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

    RefSeq XP_017210541.1
    CDS354..4199
    Translation

    Target ORF information:

    RefSeq Version XM_017355052.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355052.1

    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
    ATGGGAAAGG AGCAGGAGCT GCTGGAGGCG GCGCGGACCG GGAATGTGGG GCTGGTGGAG 
    AAGCTGTTGA GTGGGAAGAA AGGATTGCTG GGCTCGGGCT CCGGATCCAT ACCTCTGCCC
    GGGTTACTCA GTATGTGGAG AGGCCTCAAT GTCAACTGTG TGGACGGATC AGGATACACA
    CCTCTGCACC ACGCATCTCT GAACGGACAC AGGGACGTGG TATTGAAGTT GTTGCAGTTT
    GAAGCCTCTA CTAATGTGTC CGACAGTAAA GGCTGTTTTC CTCTGCATCT GGCTGCATGG
    AGAGGTGACG TGGACATAGT CCAGATTCTG ATCCACCATG GGCCTTCCCA CAGCAGAGTT
    AATGAGCAGA ACCTTGAGAA GGAGACAGCG TTACACTGTG CAGCTCAGTA CGGTCACTCC
    GAGGTGGTCC GTGTTTTGTT GCAAGAGCTG ACAGACCCCA GCATGAGGAA CAGTCGAGGA
    GAAACGCCGC TGGACCTGGC CGCCCTCTAC GGTCGCCTAC AGGTGGTCCG CATGCTACTG
    ACGGCCCACC CTAATCTAAT GAGCTGTAAT ACACGCAAAC ACACACCTCT ACACCTGGCT
    GCCCGCAATG GCCATTATGC TACAGTTCAA GTGCTTCTGG AGGCCGACAT GGACGTTAAC
    ACACAGACAG AGAAAGGAAG TGCCCTCCAC GAAGCCGCAC TCTTTGGAAA GATGGATGTA
    GTTCAGCTAC TGCTTGACTC AGGGATTGAT GCCAACATCA GAGATTGCCA AGGAAGAACT
    GCACTAGATA TACTTAGAGA ACATCCGTCT CAGAAATCAC AACAAATTGC TTCTCTCATA
    CACGATTATA TGATGTCAGA TTGTGACAGA GGGAATTTTC ACGAAGACTT AGCACGACAT
    CGGCCAATAC CTACACCACG CACTTCAATA CCGTCTCCTG TGCCCTCACC GTCTCTACGG
    CATAAAAACG ATGCAGTAAC AGGGGAGTTG TCCAAGCTGC TGAATGAAAT AAAGATTTGC
    CGTGATAAGG ATTGCTCCTT CGAGGAGCTT TGTCAGACCA TCTCTTCTCA CTCTCAGTCT
    ATGGAGAGCT TCGGCAGCGG GCGACTGTCA GACGAGGAAC GCAACGGCAC TCTAACCCGA
    ATAAACAAGC GTCCCACTCC CCCGTTACCC CCGGCGTTGG AGGAGGAGGA AAAGAGCTGT
    GGACCCTCAG GCCTGTGGGA GGCGCTCACT CCCTGCAACG GCTGCAGAAA CCTGGGCTTT
    TCTCAGGACA AGCGATGTGT TGAAATTGCC CATTCTCCAT CACTGGATGT GTTTTTACCA
    GAGGATGAGG ACAACCCTTA CGAGTCAGTG GCTACAGCTG TCACACGCAA GCCCTGCTCT
    CTAGACATCA ACCTTCACAA CGCCTGTCCT CGCAACGGCC ACTTCTCACA TGTGTCGGTC
    AGCGATGCAG AGCGAGGTAA CCATGGAGAT GACTCTACAG GCTTGACTCC TGACTGCTCG
    CCTCCTTCAC CTGATACAGC CCTCAGGAAC ATCGAAAGAG TCATTCGCCC GCAGCCAAAG
    CAACGCACAT CACTGTCCTC CTCCCAGGAC GTCCAGAAGC CCCTGCAGAA CCACAGCGGG
    GATCCCTCGG AGGTCAGCTC ATCACTGGGA TATGCCAGCT TCAGCACCAG CCCGCCTGCC
    AGCCCTCCAA TCAGCCCTGC AAACTGCTCA ACTGGGTCAG CTGAAGACTA CGCCCTCACT
    GATGAAGCAA CGTACCAGAA GGAGTGCATA GAGCGAGACG ACCGGAGAAA CAGCCACGTT
    CCTGAGCAGT TCGCTGGCCT TCTTCATGGT TCATCTCCTG CCTGCGAATC TCCTGACAAC
    CCTTACCAAC TTTACGGAAA AGTGCGAAAG TTCAGTGTTC CTGAGCCTCC GCTCAGGCAC
    GGGAATTTCC TCCGAGCACC AGAGTACTCT CCTCCCTTCC CTCGCACTGG CAGCGAGGCG
    TCTGCTCTTA AAACTCAAAG AGAAGTCAAA CCGCAGGTAG TCTACAGGAC GATTTTTCAC
    ACCAGGGTCA ACCAGGGTCC AGTAACGTTT GGCGAACAAG TGGACAAGAC CACAGGGGTG
    CATGCAAGGA ACGGGGAGGC CCGGAGCAAC TGCACAGGTG GCTCTAGTCC AGCAAACAGC
    AATACAGGCT ACGAAGAAAG AGCCTGCACT CTTGGGAGGA TGAGGTCTAT GCCAAAAAAC
    GTTTTGGACC TTCAGCTGTC CCGAAACTTC TCTAAATCAG ACTCTAACCT GGTGGCTGTG
    TCTCCCATTG AAGAGGAGCA GTGGGGTTCC AGAGGGCAGA GCAGCCCTGG TAAAAGCAGC
    CCCAGCAGAC TAGAGCGAAC CCCCTCCTTT ACCGCAGAGT GGGAAGAGAT TGACAAGATT
    ATGAGCTCCA TAGGTGCAGG AATTGGCACA GAGATGGAGG GGATTACAGA GGATCACCCA
    GGCCCCCGTT GCCCCGTCCA GTCTGTGGGA CAGTGGCTGG ACAACATTGG GTTGGTGCAG
    TATGAAAACC ACCTGCTGTC TAACGGCTTT GACAACGTTC AGTTTATGGG CAGTAATGTT
    GTGGAGGACC AGGACCTGCT GGAGATTGGG ATTTTAAACT CTGCCCACAG ACAGCGACTT
    CTTCAGGCTA TTCGCCTTTT GCCCAGGGTG CGGCCCATTG GTTATGATGG AAATAATCCC
    ACCTCAGTGG CTGAATGGCT GGAGTCTCTG GAGTTGGGAG ATTACACCAA GTCCTTTCTC
    ATCAATGGCT ACACGTCTAT GGAGCTGGTC AAGAAGATCT GGGAGATCGA GCTCATCAAC
    GTTCTTAAGA TTAATTTGAT CGGCCACAGG AAAAGAATAC TAGCGTCACT CGGAGATCGA
    CTGCACGAAG ACCCTCCACA GAAGCCACCA CGGGCCATTT CCCTACGGGA GCCGACTGGG
    AACCACACTC CCCCTCAGCT GTCCCCGTCT CTGAGTCAGG CCTACCCCAA CGCCGGCTCT
    CTGGACGTCC AGCACCTCAT CATGCAGGCG GATGCCAGAC GCAGACGCAA CGACAACTAC
    TTTGAGGATG TGCCGCGCTC TAAACTAGAG AGACAGATGG CACAAGTCAG TATGCAAGGT
    GAATGGTGTG AGCCCATCAC GCTACGACCC CCAAATGAGG CGACGTCGTC TACACCGGTG
    CAGTACTGGC AACACCATCC AGAGAAGCTC ATCTTCCAGT CCTGTGACTA TGAAGCATAT
    TATCTGGGCT CGATGTTGGT GAAGGAGCTG CGCGGTACAG AATCCACACA TGATGCCTGT
    GCAAAAATGA GGAAGTCGAC AGAACAGATG AAGAAGATCC CCACCATAGT ACTGTCTGTC
    TCCTATAAGG GCGTCAAGTT CATCGATGCT ACTAACAAGA ACATTATCGC GGAGCATGAG
    ATCAGGAATA TCTCTTGTGC GGCTCAGGAT CCTGAAGATT TGTCCACATT TGCATACATC
    ACCAAGGACC TGAAATCCAG CCATCATTAC TGCCATGTGT TTACAGCCTT CGATGTGAAT
    CTGGCCTATG AGATTATCTT GACGTTAGGC CAGGCGTTTG AGGTGGCATA TCAGCTGGCT
    TTGCAGGCCA GAAAGAGTGG CCACGGGTCT TCAACTCTGC CTGAGAGCTT CGACAGCAAA
    CCCTCCAAAC CTGTACCTAA ACCACGTGGA AACATACGCA AGTCTATGGA ACAGCCCTCA
    ATGGATCAAA AGGGCCACGC TAACGTCCCC TGGATAGTCG AGCCTGGACA GGAAGCCAAA
    AGAGGAGCCA ACACCAAGGC AATGGCGGAC GCCCATGTCT ATTACAGTGG AATTCAGAGA
    ATGTAG

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

    CloneID ODa58399
    Clone ID Related Accession (Same CDS sequence) XM_017355053.1 , XM_017355053.2
    Accession Version XM_017355053.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3222bp)
    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 ankyrin repeat and sterile alpha motif domain-containing protein 1B isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGTTTTATC TACAGCTGTT TTTGAGGATT TATCTTCTCA GAACAGAGAA AGGAAGTGCC 
    CTCCACGAAG CCGCACTCTT TGGAAAGATG GATGTAGTTC AGCTACTGCT TGACTCAGGG
    ATTGATGCCA ACATCAGAGA TTGCCAAGGA AGAACTGCAC TAGATATACT TAGAGAACAT
    CCGTCTCAGA AATCACAACA AATTGCTTCT CTCATACACG ATTATATGAT GTCAGATTGT
    GACAGAGGGA ATTTTCACGA AGACTTAGCA CGACATCGGC CAATACCTAC ACCACGCACT
    TCAATACCGT CTCCTGTGCC CTCACCGTCT CTACGGCATA AAAACGATGC AGTAACAGGG
    GAGTTGTCCA AGCTGCTGAA TGAAATAAAG ATTTGCCGTG ATAAGGATTG CTCCTTCGAG
    GAGCTTTGTC AGACCATCTC TTCTCACTCT CAGTCTATGG AGAGCTTCGG CAGCGGGCGA
    CTGTCAGACG AGGAACGCAA CGGCACTCTA ACCCGAATAA ACAAGCGTCC CACTCCCCCG
    TTACCCCCGG CGTTGGAGGA GGAGGAAAAG AGCTGTGGAC CCTCAGGCCT GTGGGAGGCG
    CTCACTCCCT GCAACGGCTG CAGAAACCTG GGCTTTTCTC AGGACAAGCG ATGTGTTGAA
    ATTGCCCATT CTCCATCACT GGATGTGTTT TTACCAGAGG ATGAGGACAA CCCTTACGAG
    TCAGTGGCTA CAGCTGTCAC ACGCAAGCCC TGCTCTCTAG ACATCAACCT TCACAACGCC
    TGTCCTCGCA ACGGCCACTT CTCACATGTG TCGGTCAGCG ATGCAGAGCG AGGTAACCAT
    GGAGATGACT CTACAGGCTT GACTCCTGAC TGCTCGCCTC CTTCACCTGA TACAGCCCTC
    AGGAACATCG AAAGAGTCAT TCGCCCGCAG CCAAAGCAAC GCACATCACT GTCCTCCTCC
    CAGGACGTCC AGAAGCCCCT GCAGAACCAC AGCGGGGATC CCTCGGAGGT CAGCTCATCA
    CTGGGATATG CCAGCTTCAG CACCAGCCCG CCTGCCAGCC CTCCAATCAG CCCTGCAAAC
    TGCTCAACTG GGTCAGCTGA AGACTACGCC CTCACTGATG AAGCAACGTA CCAGAAGGAG
    TGCATAGAGC GAGACGACCG GAGAAACAGC CACGTTCCTG AGCAGTTCGC TGGCCTTCTT
    CATGGTTCAT CTCCTGCCTG CGAATCTCCT GACAACCCTT ACCAACTTTA CGGAAAAGTG
    CGAAAGTTCA GTGTTCCTGA GCCTCCGCTC AGGCACGGGA ATTTCCTCCG AGCACCAGAG
    TACTCTCCTC CCTTCCCTCG CACTGGCAGC GAGGCGTCTG CTCTTAAAAC TCAAAGAGAA
    GTCAAACCGC AGGTAGTCTA CAGGACGATT TTTCACACCA GGGTCAACCA GGGTCCAGTA
    ACGTTTGGCG AACAAGTGGA CAAGACCACA GGGGTGCATG CAAGGAACGG GGAGGCCCGG
    AGCAACTGCA CAGGTGGCTC TAGTCCAGCA AACAGCAATA CAGGCTACGA AGAAAGAGCC
    TGCACTCTTG GGAGGATGAG GTCTATGCCA AAAAACGTTT TGGACCTTCA GCTGTCCCGA
    AACTTCTCTA AATCAGACTC TAACCTGGTG GCTGTGTCTC CCATTGAAGA GGAGCAGTGG
    GGTTCCAGAG GGCAGAGCAG CCCTGGTAAA AGCAGCCCCA GCAGACTAGA GCGAACCCCC
    TCCTTTACCG CAGAGTGGGA AGAGATTGAC AAGATTATGA GCTCCATAGG TGCAGGAATT
    GGCACAGAGA TGGAGGGGAT TACAGAGGAT CACCCAGGCC CCCGTTGCCC CGTCCAGTCT
    GTGGGACAGT GGCTGGACAA CATTGGGTTG GTGCAGTATG AAAACCACCT GCTGTCTAAC
    GGCTTTGACA ACGTTCAGTT TATGGGCAGT AATGTTGTGG AGGACCAGGA CCTGCTGGAG
    ATTGGGATTT TAAACTCTGC CCACAGACAG CGACTTCTTC AGGCTATTCG CCTTTTGCCC
    AGGGTGCGGC CCATTGGTTA TGATGGAAAT AATCCCACCT CAGTGGCTGA ATGGCTGGAG
    TCTCTGGAGT TGGGAGATTA CACCAAGTCC TTTCTCATCA ATGGCTACAC GTCTATGGAG
    CTGGTCAAGA AGATCTGGGA GATCGAGCTC ATCAACGTTC TTAAGATTAA TTTGATCGGC
    CACAGGAAAA GAATACTAGC GTCACTCGGA GATCGACTGC ACGAAGACCC TCCACAGAAG
    CCACCACGGG CCATTTCCCT ACGGGAGCCG ACTGGGAACC ACACTCCCCC TCAGCTGTCC
    CCGTCTCTGA GTCAGGCCTA CCCCAACGCC GGCTCTCTGG ACGTCCAGCA CCTCATCATG
    CAGGCGGATG CCAGACGCAG ACGCAACGAC AACTACTTTG AGGATGTGCC GCGCTCTAAA
    CTAGAGAGAC AGATGGCACA AGTCAGTATG CAAGGTGAAT GGTGTGAGCC CATCACGCTA
    CGACCCCCAA ATGAGGCGAC GTCGTCTACA CCGGTGCAGT ACTGGCAACA CCATCCAGAG
    AAGCTCATCT TCCAGTCCTG TGACTATGAA GCATATTATC TGGGCTCGAT GTTGGTGAAG
    GAGCTGCGCG GTACAGAATC CACACATGAT GCCTGTGCAA AAATGAGGAA GTCGACAGAA
    CAGATGAAGA AGATCCCCAC CATAGTACTG TCTGTCTCCT ATAAGGGCGT CAAGTTCATC
    GATGCTACTA ACAAGAACAT TATCGCGGAG CATGAGATCA GGAATATCTC TTGTGCGGCT
    CAGGATCCTG AAGATTTGTC CACATTTGCA TACATCACCA AGGACCTGAA ATCCAGCCAT
    CATTACTGCC ATGTGTTTAC AGCCTTCGAT GTGAATCTGG CCTATGAGAT TATCTTGACG
    TTAGGCCAGG CGTTTGAGGT GGCATATCAG CTGGCTTTGC AGGCCAGAAA GAGTGGCCAC
    GGGTCTTCAA CTCTGCCTGA GAGCTTCGAC AGCAAACCCT CCAAACCTGT ACCTAAACCA
    CGTGGAAACA TACGCAAGTC TATGGAACAG CCCTCAATGG ATCAAAAGGG CCACGCTAAC
    GTCCCCTGGA TAGTCGAGCC TGGACAGGAA GCCAAAAGAG GAGCCAACAC CAAGGCAATG
    GCGGACGCCC ATGTCTATTA CAGTGGAATT CAGAGAATGT AG

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

    RefSeq XP_017210542.1
    CDS109..3330
    Translation

    Target ORF information:

    RefSeq Version XM_017355053.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355053.1

    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
    ATGTTTTATC TACAGCTGTT TTTGAGGATT TATCTTCTCA GAACAGAGAA AGGAAGTGCC 
    CTCCACGAAG CCGCACTCTT TGGAAAGATG GATGTAGTTC AGCTACTGCT TGACTCAGGG
    ATTGATGCCA ACATCAGAGA TTGCCAAGGA AGAACTGCAC TAGATATACT TAGAGAACAT
    CCGTCTCAGA AATCACAACA AATTGCTTCT CTCATACACG ATTATATGAT GTCAGATTGT
    GACAGAGGGA ATTTTCACGA AGACTTAGCA CGACATCGGC CAATACCTAC ACCACGCACT
    TCAATACCGT CTCCTGTGCC CTCACCGTCT CTACGGCATA AAAACGATGC AGTAACAGGG
    GAGTTGTCCA AGCTGCTGAA TGAAATAAAG ATTTGCCGTG ATAAGGATTG CTCCTTCGAG
    GAGCTTTGTC AGACCATCTC TTCTCACTCT CAGTCTATGG AGAGCTTCGG CAGCGGGCGA
    CTGTCAGACG AGGAACGCAA CGGCACTCTA ACCCGAATAA ACAAGCGTCC CACTCCCCCG
    TTACCCCCGG CGTTGGAGGA GGAGGAAAAG AGCTGTGGAC CCTCAGGCCT GTGGGAGGCG
    CTCACTCCCT GCAACGGCTG CAGAAACCTG GGCTTTTCTC AGGACAAGCG ATGTGTTGAA
    ATTGCCCATT CTCCATCACT GGATGTGTTT TTACCAGAGG ATGAGGACAA CCCTTACGAG
    TCAGTGGCTA CAGCTGTCAC ACGCAAGCCC TGCTCTCTAG ACATCAACCT TCACAACGCC
    TGTCCTCGCA ACGGCCACTT CTCACATGTG TCGGTCAGCG ATGCAGAGCG AGGTAACCAT
    GGAGATGACT CTACAGGCTT GACTCCTGAC TGCTCGCCTC CTTCACCTGA TACAGCCCTC
    AGGAACATCG AAAGAGTCAT TCGCCCGCAG CCAAAGCAAC GCACATCACT GTCCTCCTCC
    CAGGACGTCC AGAAGCCCCT GCAGAACCAC AGCGGGGATC CCTCGGAGGT CAGCTCATCA
    CTGGGATATG CCAGCTTCAG CACCAGCCCG CCTGCCAGCC CTCCAATCAG CCCTGCAAAC
    TGCTCAACTG GGTCAGCTGA AGACTACGCC CTCACTGATG AAGCAACGTA CCAGAAGGAG
    TGCATAGAGC GAGACGACCG GAGAAACAGC CACGTTCCTG AGCAGTTCGC TGGCCTTCTT
    CATGGTTCAT CTCCTGCCTG CGAATCTCCT GACAACCCTT ACCAACTTTA CGGAAAAGTG
    CGAAAGTTCA GTGTTCCTGA GCCTCCGCTC AGGCACGGGA ATTTCCTCCG AGCACCAGAG
    TACTCTCCTC CCTTCCCTCG CACTGGCAGC GAGGCGTCTG CTCTTAAAAC TCAAAGAGAA
    GTCAAACCGC AGGTAGTCTA CAGGACGATT TTTCACACCA GGGTCAACCA GGGTCCAGTA
    ACGTTTGGCG AACAAGTGGA CAAGACCACA GGGGTGCATG CAAGGAACGG GGAGGCCCGG
    AGCAACTGCA CAGGTGGCTC TAGTCCAGCA AACAGCAATA CAGGCTACGA AGAAAGAGCC
    TGCACTCTTG GGAGGATGAG GTCTATGCCA AAAAACGTTT TGGACCTTCA GCTGTCCCGA
    AACTTCTCTA AATCAGACTC TAACCTGGTG GCTGTGTCTC CCATTGAAGA GGAGCAGTGG
    GGTTCCAGAG GGCAGAGCAG CCCTGGTAAA AGCAGCCCCA GCAGACTAGA GCGAACCCCC
    TCCTTTACCG CAGAGTGGGA AGAGATTGAC AAGATTATGA GCTCCATAGG TGCAGGAATT
    GGCACAGAGA TGGAGGGGAT TACAGAGGAT CACCCAGGCC CCCGTTGCCC CGTCCAGTCT
    GTGGGACAGT GGCTGGACAA CATTGGGTTG GTGCAGTATG AAAACCACCT GCTGTCTAAC
    GGCTTTGACA ACGTTCAGTT TATGGGCAGT AATGTTGTGG AGGACCAGGA CCTGCTGGAG
    ATTGGGATTT TAAACTCTGC CCACAGACAG CGACTTCTTC AGGCTATTCG CCTTTTGCCC
    AGGGTGCGGC CCATTGGTTA TGATGGAAAT AATCCCACCT CAGTGGCTGA ATGGCTGGAG
    TCTCTGGAGT TGGGAGATTA CACCAAGTCC TTTCTCATCA ATGGCTACAC GTCTATGGAG
    CTGGTCAAGA AGATCTGGGA GATCGAGCTC ATCAACGTTC TTAAGATTAA TTTGATCGGC
    CACAGGAAAA GAATACTAGC GTCACTCGGA GATCGACTGC ACGAAGACCC TCCACAGAAG
    CCACCACGGG CCATTTCCCT ACGGGAGCCG ACTGGGAACC ACACTCCCCC TCAGCTGTCC
    CCGTCTCTGA GTCAGGCCTA CCCCAACGCC GGCTCTCTGG ACGTCCAGCA CCTCATCATG
    CAGGCGGATG CCAGACGCAG ACGCAACGAC AACTACTTTG AGGATGTGCC GCGCTCTAAA
    CTAGAGAGAC AGATGGCACA AGTCAGTATG CAAGGTGAAT GGTGTGAGCC CATCACGCTA
    CGACCCCCAA ATGAGGCGAC GTCGTCTACA CCGGTGCAGT ACTGGCAACA CCATCCAGAG
    AAGCTCATCT TCCAGTCCTG TGACTATGAA GCATATTATC TGGGCTCGAT GTTGGTGAAG
    GAGCTGCGCG GTACAGAATC CACACATGAT GCCTGTGCAA AAATGAGGAA GTCGACAGAA
    CAGATGAAGA AGATCCCCAC CATAGTACTG TCTGTCTCCT ATAAGGGCGT CAAGTTCATC
    GATGCTACTA ACAAGAACAT TATCGCGGAG CATGAGATCA GGAATATCTC TTGTGCGGCT
    CAGGATCCTG AAGATTTGTC CACATTTGCA TACATCACCA AGGACCTGAA ATCCAGCCAT
    CATTACTGCC ATGTGTTTAC AGCCTTCGAT GTGAATCTGG CCTATGAGAT TATCTTGACG
    TTAGGCCAGG CGTTTGAGGT GGCATATCAG CTGGCTTTGC AGGCCAGAAA GAGTGGCCAC
    GGGTCTTCAA CTCTGCCTGA GAGCTTCGAC AGCAAACCCT CCAAACCTGT ACCTAAACCA
    CGTGGAAACA TACGCAAGTC TATGGAACAG CCCTCAATGG ATCAAAAGGG CCACGCTAAC
    GTCCCCTGGA TAGTCGAGCC TGGACAGGAA GCCAAAAGAG GAGCCAACAC CAAGGCAATG
    GCGGACGCCC ATGTCTATTA CAGTGGAATT CAGAGAATGT AG

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

    CloneID ODa58399
    Clone ID Related Accession (Same CDS sequence) XM_017355053.1 , XM_017355053.2
    Accession Version XM_017355053.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3222bp)
    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 ankyrin repeat and sterile alpha motif domain-containing protein 1B isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.7) 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_017355053.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGTTTTATC TACAGCTGTT TTTGAGGATT TATCTTCTCA GAACAGAGAA AGGAAGTGCC 
    CTCCACGAAG CCGCACTCTT TGGAAAGATG GATGTAGTTC AGCTACTGCT TGACTCAGGG
    ATTGATGCCA ACATCAGAGA TTGCCAAGGA AGAACTGCAC TAGATATACT TAGAGAACAT
    CCGTCTCAGA AATCACAACA AATTGCTTCT CTCATACACG ATTATATGAT GTCAGATTGT
    GACAGAGGGA ATTTTCACGA AGACTTAGCA CGACATCGGC CAATACCTAC ACCACGCACT
    TCAATACCGT CTCCTGTGCC CTCACCGTCT CTACGGCATA AAAACGATGC AGTAACAGGG
    GAGTTGTCCA AGCTGCTGAA TGAAATAAAG ATTTGCCGTG ATAAGGATTG CTCCTTCGAG
    GAGCTTTGTC AGACCATCTC TTCTCACTCT CAGTCTATGG AGAGCTTCGG CAGCGGGCGA
    CTGTCAGACG AGGAACGCAA CGGCACTCTA ACCCGAATAA ACAAGCGTCC CACTCCCCCG
    TTACCCCCGG CGTTGGAGGA GGAGGAAAAG AGCTGTGGAC CCTCAGGCCT GTGGGAGGCG
    CTCACTCCCT GCAACGGCTG CAGAAACCTG GGCTTTTCTC AGGACAAGCG ATGTGTTGAA
    ATTGCCCATT CTCCATCACT GGATGTGTTT TTACCAGAGG ATGAGGACAA CCCTTACGAG
    TCAGTGGCTA CAGCTGTCAC ACGCAAGCCC TGCTCTCTAG ACATCAACCT TCACAACGCC
    TGTCCTCGCA ACGGCCACTT CTCACATGTG TCGGTCAGCG ATGCAGAGCG AGGTAACCAT
    GGAGATGACT CTACAGGCTT GACTCCTGAC TGCTCGCCTC CTTCACCTGA TACAGCCCTC
    AGGAACATCG AAAGAGTCAT TCGCCCGCAG CCAAAGCAAC GCACATCACT GTCCTCCTCC
    CAGGACGTCC AGAAGCCCCT GCAGAACCAC AGCGGGGATC CCTCGGAGGT CAGCTCATCA
    CTGGGATATG CCAGCTTCAG CACCAGCCCG CCTGCCAGCC CTCCAATCAG CCCTGCAAAC
    TGCTCAACTG GGTCAGCTGA AGACTACGCC CTCACTGATG AAGCAACGTA CCAGAAGGAG
    TGCATAGAGC GAGACGACCG GAGAAACAGC CACGTTCCTG AGCAGTTCGC TGGCCTTCTT
    CATGGTTCAT CTCCTGCCTG CGAATCTCCT GACAACCCTT ACCAACTTTA CGGAAAAGTG
    CGAAAGTTCA GTGTTCCTGA GCCTCCGCTC AGGCACGGGA ATTTCCTCCG AGCACCAGAG
    TACTCTCCTC CCTTCCCTCG CACTGGCAGC GAGGCGTCTG CTCTTAAAAC TCAAAGAGAA
    GTCAAACCGC AGGTAGTCTA CAGGACGATT TTTCACACCA GGGTCAACCA GGGTCCAGTA
    ACGTTTGGCG AACAAGTGGA CAAGACCACA GGGGTGCATG CAAGGAACGG GGAGGCCCGG
    AGCAACTGCA CAGGTGGCTC TAGTCCAGCA AACAGCAATA CAGGCTACGA AGAAAGAGCC
    TGCACTCTTG GGAGGATGAG GTCTATGCCA AAAAACGTTT TGGACCTTCA GCTGTCCCGA
    AACTTCTCTA AATCAGACTC TAACCTGGTG GCTGTGTCTC CCATTGAAGA GGAGCAGTGG
    GGTTCCAGAG GGCAGAGCAG CCCTGGTAAA AGCAGCCCCA GCAGACTAGA GCGAACCCCC
    TCCTTTACCG CAGAGTGGGA AGAGATTGAC AAGATTATGA GCTCCATAGG TGCAGGAATT
    GGCACAGAGA TGGAGGGGAT TACAGAGGAT CACCCAGGCC CCCGTTGCCC CGTCCAGTCT
    GTGGGACAGT GGCTGGACAA CATTGGGTTG GTGCAGTATG AAAACCACCT GCTGTCTAAC
    GGCTTTGACA ACGTTCAGTT TATGGGCAGT AATGTTGTGG AGGACCAGGA CCTGCTGGAG
    ATTGGGATTT TAAACTCTGC CCACAGACAG CGACTTCTTC AGGCTATTCG CCTTTTGCCC
    AGGGTGCGGC CCATTGGTTA TGATGGAAAT AATCCCACCT CAGTGGCTGA ATGGCTGGAG
    TCTCTGGAGT TGGGAGATTA CACCAAGTCC TTTCTCATCA ATGGCTACAC GTCTATGGAG
    CTGGTCAAGA AGATCTGGGA GATCGAGCTC ATCAACGTTC TTAAGATTAA TTTGATCGGC
    CACAGGAAAA GAATACTAGC GTCACTCGGA GATCGACTGC ACGAAGACCC TCCACAGAAG
    CCACCACGGG CCATTTCCCT ACGGGAGCCG ACTGGGAACC ACACTCCCCC TCAGCTGTCC
    CCGTCTCTGA GTCAGGCCTA CCCCAACGCC GGCTCTCTGG ACGTCCAGCA CCTCATCATG
    CAGGCGGATG CCAGACGCAG ACGCAACGAC AACTACTTTG AGGATGTGCC GCGCTCTAAA
    CTAGAGAGAC AGATGGCACA AGTCAGTATG CAAGGTGAAT GGTGTGAGCC CATCACGCTA
    CGACCCCCAA ATGAGGCGAC GTCGTCTACA CCGGTGCAGT ACTGGCAACA CCATCCAGAG
    AAGCTCATCT TCCAGTCCTG TGACTATGAA GCATATTATC TGGGCTCGAT GTTGGTGAAG
    GAGCTGCGCG GTACAGAATC CACACATGAT GCCTGTGCAA AAATGAGGAA GTCGACAGAA
    CAGATGAAGA AGATCCCCAC CATAGTACTG TCTGTCTCCT ATAAGGGCGT CAAGTTCATC
    GATGCTACTA ACAAGAACAT TATCGCGGAG CATGAGATCA GGAATATCTC TTGTGCGGCT
    CAGGATCCTG AAGATTTGTC CACATTTGCA TACATCACCA AGGACCTGAA ATCCAGCCAT
    CATTACTGCC ATGTGTTTAC AGCCTTCGAT GTGAATCTGG CCTATGAGAT TATCTTGACG
    TTAGGCCAGG CGTTTGAGGT GGCATATCAG CTGGCTTTGC AGGCCAGAAA GAGTGGCCAC
    GGGTCTTCAA CTCTGCCTGA GAGCTTCGAC AGCAAACCCT CCAAACCTGT ACCTAAACCA
    CGTGGAAACA TACGCAAGTC TATGGAACAG CCCTCAATGG ATCAAAAGGG CCACGCTAAC
    GTCCCCTGGA TAGTCGAGCC TGGACAGGAA GCCAAAAGAG GAGCCAACAC CAAGGCAATG
    GCGGACGCCC ATGTCTATTA CAGTGGAATT CAGAGAATGT AG

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

    RefSeq XP_017210542.1
    CDS102..3323
    Translation

    Target ORF information:

    RefSeq Version XM_017355053.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355053.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGTTTTATC TACAGCTGTT TTTGAGGATT TATCTTCTCA GAACAGAGAA AGGAAGTGCC 
    CTCCACGAAG CCGCACTCTT TGGAAAGATG GATGTAGTTC AGCTACTGCT TGACTCAGGG
    ATTGATGCCA ACATCAGAGA TTGCCAAGGA AGAACTGCAC TAGATATACT TAGAGAACAT
    CCGTCTCAGA AATCACAACA AATTGCTTCT CTCATACACG ATTATATGAT GTCAGATTGT
    GACAGAGGGA ATTTTCACGA AGACTTAGCA CGACATCGGC CAATACCTAC ACCACGCACT
    TCAATACCGT CTCCTGTGCC CTCACCGTCT CTACGGCATA AAAACGATGC AGTAACAGGG
    GAGTTGTCCA AGCTGCTGAA TGAAATAAAG ATTTGCCGTG ATAAGGATTG CTCCTTCGAG
    GAGCTTTGTC AGACCATCTC TTCTCACTCT CAGTCTATGG AGAGCTTCGG CAGCGGGCGA
    CTGTCAGACG AGGAACGCAA CGGCACTCTA ACCCGAATAA ACAAGCGTCC CACTCCCCCG
    TTACCCCCGG CGTTGGAGGA GGAGGAAAAG AGCTGTGGAC CCTCAGGCCT GTGGGAGGCG
    CTCACTCCCT GCAACGGCTG CAGAAACCTG GGCTTTTCTC AGGACAAGCG ATGTGTTGAA
    ATTGCCCATT CTCCATCACT GGATGTGTTT TTACCAGAGG ATGAGGACAA CCCTTACGAG
    TCAGTGGCTA CAGCTGTCAC ACGCAAGCCC TGCTCTCTAG ACATCAACCT TCACAACGCC
    TGTCCTCGCA ACGGCCACTT CTCACATGTG TCGGTCAGCG ATGCAGAGCG AGGTAACCAT
    GGAGATGACT CTACAGGCTT GACTCCTGAC TGCTCGCCTC CTTCACCTGA TACAGCCCTC
    AGGAACATCG AAAGAGTCAT TCGCCCGCAG CCAAAGCAAC GCACATCACT GTCCTCCTCC
    CAGGACGTCC AGAAGCCCCT GCAGAACCAC AGCGGGGATC CCTCGGAGGT CAGCTCATCA
    CTGGGATATG CCAGCTTCAG CACCAGCCCG CCTGCCAGCC CTCCAATCAG CCCTGCAAAC
    TGCTCAACTG GGTCAGCTGA AGACTACGCC CTCACTGATG AAGCAACGTA CCAGAAGGAG
    TGCATAGAGC GAGACGACCG GAGAAACAGC CACGTTCCTG AGCAGTTCGC TGGCCTTCTT
    CATGGTTCAT CTCCTGCCTG CGAATCTCCT GACAACCCTT ACCAACTTTA CGGAAAAGTG
    CGAAAGTTCA GTGTTCCTGA GCCTCCGCTC AGGCACGGGA ATTTCCTCCG AGCACCAGAG
    TACTCTCCTC CCTTCCCTCG CACTGGCAGC GAGGCGTCTG CTCTTAAAAC TCAAAGAGAA
    GTCAAACCGC AGGTAGTCTA CAGGACGATT TTTCACACCA GGGTCAACCA GGGTCCAGTA
    ACGTTTGGCG AACAAGTGGA CAAGACCACA GGGGTGCATG CAAGGAACGG GGAGGCCCGG
    AGCAACTGCA CAGGTGGCTC TAGTCCAGCA AACAGCAATA CAGGCTACGA AGAAAGAGCC
    TGCACTCTTG GGAGGATGAG GTCTATGCCA AAAAACGTTT TGGACCTTCA GCTGTCCCGA
    AACTTCTCTA AATCAGACTC TAACCTGGTG GCTGTGTCTC CCATTGAAGA GGAGCAGTGG
    GGTTCCAGAG GGCAGAGCAG CCCTGGTAAA AGCAGCCCCA GCAGACTAGA GCGAACCCCC
    TCCTTTACCG CAGAGTGGGA AGAGATTGAC AAGATTATGA GCTCCATAGG TGCAGGAATT
    GGCACAGAGA TGGAGGGGAT TACAGAGGAT CACCCAGGCC CCCGTTGCCC CGTCCAGTCT
    GTGGGACAGT GGCTGGACAA CATTGGGTTG GTGCAGTATG AAAACCACCT GCTGTCTAAC
    GGCTTTGACA ACGTTCAGTT TATGGGCAGT AATGTTGTGG AGGACCAGGA CCTGCTGGAG
    ATTGGGATTT TAAACTCTGC CCACAGACAG CGACTTCTTC AGGCTATTCG CCTTTTGCCC
    AGGGTGCGGC CCATTGGTTA TGATGGAAAT AATCCCACCT CAGTGGCTGA ATGGCTGGAG
    TCTCTGGAGT TGGGAGATTA CACCAAGTCC TTTCTCATCA ATGGCTACAC GTCTATGGAG
    CTGGTCAAGA AGATCTGGGA GATCGAGCTC ATCAACGTTC TTAAGATTAA TTTGATCGGC
    CACAGGAAAA GAATACTAGC GTCACTCGGA GATCGACTGC ACGAAGACCC TCCACAGAAG
    CCACCACGGG CCATTTCCCT ACGGGAGCCG ACTGGGAACC ACACTCCCCC TCAGCTGTCC
    CCGTCTCTGA GTCAGGCCTA CCCCAACGCC GGCTCTCTGG ACGTCCAGCA CCTCATCATG
    CAGGCGGATG CCAGACGCAG ACGCAACGAC AACTACTTTG AGGATGTGCC GCGCTCTAAA
    CTAGAGAGAC AGATGGCACA AGTCAGTATG CAAGGTGAAT GGTGTGAGCC CATCACGCTA
    CGACCCCCAA ATGAGGCGAC GTCGTCTACA CCGGTGCAGT ACTGGCAACA CCATCCAGAG
    AAGCTCATCT TCCAGTCCTG TGACTATGAA GCATATTATC TGGGCTCGAT GTTGGTGAAG
    GAGCTGCGCG GTACAGAATC CACACATGAT GCCTGTGCAA AAATGAGGAA GTCGACAGAA
    CAGATGAAGA AGATCCCCAC CATAGTACTG TCTGTCTCCT ATAAGGGCGT CAAGTTCATC
    GATGCTACTA ACAAGAACAT TATCGCGGAG CATGAGATCA GGAATATCTC TTGTGCGGCT
    CAGGATCCTG AAGATTTGTC CACATTTGCA TACATCACCA AGGACCTGAA ATCCAGCCAT
    CATTACTGCC ATGTGTTTAC AGCCTTCGAT GTGAATCTGG CCTATGAGAT TATCTTGACG
    TTAGGCCAGG CGTTTGAGGT GGCATATCAG CTGGCTTTGC AGGCCAGAAA GAGTGGCCAC
    GGGTCTTCAA CTCTGCCTGA GAGCTTCGAC AGCAAACCCT CCAAACCTGT ACCTAAACCA
    CGTGGAAACA TACGCAAGTC TATGGAACAG CCCTCAATGG ATCAAAAGGG CCACGCTAAC
    GTCCCCTGGA TAGTCGAGCC TGGACAGGAA GCCAAAAGAG GAGCCAACAC CAAGGCAATG
    GCGGACGCCC ATGTCTATTA CAGTGGAATT CAGAGAATGT AG

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

    CloneID ODa00056
    Clone ID Related Accession (Same CDS sequence) NM_001100017.2
    Accession Version NM_001100017.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3843bp)
    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 2019-12-28
    Organism Danio rerio(zebrafish)
    Product ankyrin repeat and sterile alpha motif domain-containing protein 1B
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BX901882.34, BX897712.12, BX890574.7 and CT025647.7. On Aug 29, 2008 this sequence version replaced NM_001100017.1. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA2168446, SAMEA2168447 [ECO:0000350] ##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
    ATGGGAAAGG AGCAGGAGCT GCTGGAGGCG GCGCGGACCG GGAATGTGGG GCTGGTGGAG 
    AAGCTGTTGA GTGGGAAGAA AGGATTGCTG GGCTCGGGCT CCGGATCCAT ACCTCTGCCC
    GGGTTACTCA GTATGTGGAG AGGCCTCAAT GTCAACTGTG TGGACGGATC AGGATACACA
    CCTCTGCACC ACGCATCTCT GAACGGACAC AGGGACGTGG TATTGAAGTT GTTGCAGTTT
    GAAGCCTCTA CTAATGTGTC CGACAGTAAA GGCTGTTTTC CTCTGCATCT GGCTGCATGG
    AGAGGTGACG TGGACATAGT CCAGATTCTG ATCCACCATG GGCCTTCCCA CAGCAGAGTT
    AATGAGCAGA ACCTTGAGAA GGAGACAGCG TTACACTGTG CAGCTCAGTA CGGTCACTCC
    GAGGTGGTCC GTGTTTTGTT GCAAGAGCTG ACAGACCCCA GCATGAGGAA CAGTCGAGGA
    GAAACGCCGC TGGACCTGGC CGCCCTCTAC GGTCGCCTAC AGGTGGTCCG CATGCTACTG
    ACGGCCCACC CTAATCTAAT GAGCTGTAAT ACACGCAAAC ACACACCTCT ACACCTGGCT
    GCCCGCAATG GCCATTATGC TACAGTTCAA GTGCTTCTGG AGGCCGACAT GGACGTTAAC
    ACACAGACAG AGAAAGGAAG TGCCCTCCAC GAAGCCGCAC TCTTTGGAAA GATGGATGTA
    GTTCAGCTAC TGCTTGACTC AGGGATTGAT GCCAACATCA GAGATTGCCA AGGAAGAACT
    GCACTAGATA TACTTAGAGA ACATCCGTCT CAGAAATCAC AACAAATTGC TTCTCTCATA
    CACGATTATA TGATGTCAGA TTGTGACAGA GGGAATTTTC ACGAAGACTT AGCACGACAT
    CGGCCAATAC CTACACCACG CACTTCAATA CCGTCTCCTG TGCCCTCACC GTCTCTACGG
    CATAAAAACG ATGCAGTAAC AGGGGAGTTG TCCAAGCTGC TGAATGAAAT AAAGATTTGC
    CGTGATAAGG ATTGCTCCTT CGAGGAGCTT TGTCAGACCA TCTCTTCTCA CTCTCAGTCT
    ATGGAGAGCT TCGGCAGCGG GCGACTGTCA GACGAGGAAC GCAACGGCAC TCTAACCCGA
    ATAAACAAGC GTCCCACTCC CCCGTTACCC CCGGCGTTGG AGGAGGAGGA AAAGAGCTGT
    GGACCCTCAG GCCTGTGGGA GGCGCTCACT CCCTGCAACG GCTGCAGAAA CCTGGGCTTT
    TCTCAGGACA AGCGATGTGT TGAAATTGCC CATTCTCCAT CACTGGATGT GTTTTTACCA
    GAGGATGAGG ACAACCCTTA CGAGTCAGTG GCTACAGCTG TCACACGCAA GCCCTGCTCT
    CTAGACATCA ACCTTCACAA CGCCTGTCCT CGCAACGGCC ACTTCTCACA TGTGTCGGTC
    AGCGATGCAG AGCGAGGTAA CCATGGAGAT GACTCTACAG GCTTGACTCC TGACTGCTCG
    CCTCCTTCAC CTGATACAGC CCTCAGGAAC ATCGAAAGAG TCATTCGCCC GCAGCCAAAG
    CAACGCACAT CACTGTCCTC CTCCCAGGAC GTCCAGAAGC CCCTGCAGAA CCACAGCGGG
    GATCCCTCGG AGGTCAGCTC ATCACTGGGA TATGCCAGCT TCAGCACCAG CCCGCCTGCC
    AGCCCTCCAA TCAGCCCTGC AAACTGCTCA ACTGGGTCAG CTGAAGACTA CGCCCTCACT
    GATGAAGCAA CGTACCAGAA GGAGTGCATA GAGCGAGACG ACCGGAGAAA CAGCCACGTT
    CCTGAGCAGT TCGCTGGCCT TCTTCATGGT TCATCTCCTG CCTGCGAATC TCCTGACAAC
    CCTTACCAAC TTTACGGAAA AGTGCGAAAG TTCAGTGTTC CTGAGCCTCC GCTCAGGCAC
    GGGAATTTCC TCCGAGCACC AGAGTACTCT CCTCCCTTCC CTCGCACTGG CAGCGAGGCG
    TCTGCTCTTA AAACTCAAAG AGAAGTCAAA CCGCAGGTAG TCTACAGGAC GATTTTTCAC
    ACCAGGGTCA ACCAGGGTCC AGTAACGTTT GGCGAACAAG TGGACAAGAC CACAGGGGTG
    CATGCAAGGA ACGGGGAGGC CCGGAGCAAC TGCACAGGTG GCTCTAGTCC AGCAAACAGC
    AATACAGGCT ACGAAGAAAG AGCCTGCACT CTTGGGAGGA TGAGGTCTAT GCCAAAAAAC
    GTTTTGGACC TTCAGCTGTC CCGAAACTTC TCTAAATCAG ACTCTAACCT GGTGGCTGTG
    TCTCCCATTG AAGAGGAGCA GTGGGGTTCC AGAGGGCAGA GCAGCCCTGG TAAAAGCAGC
    CCCAGCAGAC TAGAGCGAAC CCCCTCCTTT ACCGCAGAGT GGGAAGAGAT TGACAAGATT
    ATGAGCTCCA TAGGTGCAGG AATTGGCACA GAGATGGAGG GGATTACAGA GGATCACCCA
    GGCCCCCGTT GCCCCGTCCA GTCTGTGGGA CAGTGGCTGG ACAACATTGG GTTGGTGCAG
    TATGAAAACC ACCTGCTGTC TAACGGCTTT GACAACGTTC AGTTTATGGG CAGTAATGTT
    GTGGAGGACC AGGACCTGCT GGAGATTGGG ATTTTAAACT CTGCCCACAG ACAGCGACTT
    CTTCAGGCTA TTCGCCTTTT GCCCAGGGTG CGGCCCATTG GTTATGATGG AAATAATCCC
    ACCTCAGTGG CTGAATGGCT GGAGTCTCTG GAGTTGGGAG ATTACACCAA GTCCTTTCTC
    ATCAATGGCT ACACGTCTAT GGAGCTGGTC AAGAAGATCT GGGAGATCGA GCTCATCAAC
    GTTCTTAAGA TTAATTTGAT CGGCCACAGG AAAAGAATAC TAGCGTCACT CGGAGATCGA
    CTGCACGAAG ACCCTCCACA GAAGCCACCA CGGGCCATTT CCCTACGGGA GCCGACTGGG
    AACCACACTC CCCCTCAGCT GTCCCCGTCT CTGAGTCAGG CCTACCCCAA CGCCGGCTCT
    CTGGACGTCC AGCACCTCAT CATGCAGGCG GATGCCAGAC GCAGACGCAA CGACAACTAC
    TTTGAGGATG TGCCGCGCTC TAAACTAGAG AGACAGATGG CACAAGTCAG TATGCAAGGT
    GAATGGTGTG AGCCCATCAC GCTACGACCC CCAAATGAGG CGACGTCGTC TACACCGGTG
    CAGTACTGGC AACACCATCC AGAGAAGCTC ATCTTCCAGT CCTGTGACTA TGAAGCATAT
    TATCTGGGCT CGATGTTGGT GAAGGAGCTG CGCGGTACAG AATCCACACA TGATGCCTGT
    GCAAAAATGA GGTCGACAGA ACAGATGAAG AAGATCCCCA CCATAGTACT GTCTGTCTCC
    TATAAGGGCG TCAAGTTCAT CGATGCTACT AACAAGAACA TTATCGCGGA GCATGAGATC
    AGGAATATCT CTTGTGCGGC TCAGGATCCT GAAGATTTGT CCACATTTGC ATACATCACC
    AAGGACCTGA AATCCAGCCA TCATTACTGC CATGTGTTTA CAGCCTTCGA TGTGAATCTG
    GCCTATGAGA TTATCTTGAC GTTAGGCCAG GCGTTTGAGG TGGCATATCA GCTGGCTTTG
    CAGGCCAGAA AGAGTGGCCA CGGGTCTTCA ACTCTGCCTG AGAGCTTCGA CAGCAAACCC
    TCCAAACCTG TACCTAAACC ACGTGGAAAC ATACGCAAGT CTATGGAACA GCCCTCAATG
    GATCAAAAGG GCCACGCTAA CGTCCCCTGG ATAGTCGAGC CTGGACAGGA AGCCAAAAGA
    GGAGCCAACA CCAAGGCAAT GGCGGACGCC CATGTCTATT ACAGTGGAAT TCAGAGAATG
    TAG

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

    RefSeq NP_001093487.1
    CDS1..3843
    Translation

    Target ORF information:

    RefSeq Version NM_001100017.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001100017.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGGAAAGG AGCAGGAGCT GCTGGAGGCG GCGCGGACCG GGAATGTGGG GCTGGTGGAG 
    AAGCTGTTGA GTGGGAAGAA AGGATTGCTG GGCTCGGGCT CCGGATCCAT ACCTCTGCCC
    GGGTTACTCA GTATGTGGAG AGGCCTCAAT GTCAACTGTG TGGACGGATC AGGATACACA
    CCTCTGCACC ACGCATCTCT GAACGGACAC AGGGACGTGG TATTGAAGTT GTTGCAGTTT
    GAAGCCTCTA CTAATGTGTC CGACAGTAAA GGCTGTTTTC CTCTGCATCT GGCTGCATGG
    AGAGGTGACG TGGACATAGT CCAGATTCTG ATCCACCATG GGCCTTCCCA CAGCAGAGTT
    AATGAGCAGA ACCTTGAGAA GGAGACAGCG TTACACTGTG CAGCTCAGTA CGGTCACTCC
    GAGGTGGTCC GTGTTTTGTT GCAAGAGCTG ACAGACCCCA GCATGAGGAA CAGTCGAGGA
    GAAACGCCGC TGGACCTGGC CGCCCTCTAC GGTCGCCTAC AGGTGGTCCG CATGCTACTG
    ACGGCCCACC CTAATCTAAT GAGCTGTAAT ACACGCAAAC ACACACCTCT ACACCTGGCT
    GCCCGCAATG GCCATTATGC TACAGTTCAA GTGCTTCTGG AGGCCGACAT GGACGTTAAC
    ACACAGACAG AGAAAGGAAG TGCCCTCCAC GAAGCCGCAC TCTTTGGAAA GATGGATGTA
    GTTCAGCTAC TGCTTGACTC AGGGATTGAT GCCAACATCA GAGATTGCCA AGGAAGAACT
    GCACTAGATA TACTTAGAGA ACATCCGTCT CAGAAATCAC AACAAATTGC TTCTCTCATA
    CACGATTATA TGATGTCAGA TTGTGACAGA GGGAATTTTC ACGAAGACTT AGCACGACAT
    CGGCCAATAC CTACACCACG CACTTCAATA CCGTCTCCTG TGCCCTCACC GTCTCTACGG
    CATAAAAACG ATGCAGTAAC AGGGGAGTTG TCCAAGCTGC TGAATGAAAT AAAGATTTGC
    CGTGATAAGG ATTGCTCCTT CGAGGAGCTT TGTCAGACCA TCTCTTCTCA CTCTCAGTCT
    ATGGAGAGCT TCGGCAGCGG GCGACTGTCA GACGAGGAAC GCAACGGCAC TCTAACCCGA
    ATAAACAAGC GTCCCACTCC CCCGTTACCC CCGGCGTTGG AGGAGGAGGA AAAGAGCTGT
    GGACCCTCAG GCCTGTGGGA GGCGCTCACT CCCTGCAACG GCTGCAGAAA CCTGGGCTTT
    TCTCAGGACA AGCGATGTGT TGAAATTGCC CATTCTCCAT CACTGGATGT GTTTTTACCA
    GAGGATGAGG ACAACCCTTA CGAGTCAGTG GCTACAGCTG TCACACGCAA GCCCTGCTCT
    CTAGACATCA ACCTTCACAA CGCCTGTCCT CGCAACGGCC ACTTCTCACA TGTGTCGGTC
    AGCGATGCAG AGCGAGGTAA CCATGGAGAT GACTCTACAG GCTTGACTCC TGACTGCTCG
    CCTCCTTCAC CTGATACAGC CCTCAGGAAC ATCGAAAGAG TCATTCGCCC GCAGCCAAAG
    CAACGCACAT CACTGTCCTC CTCCCAGGAC GTCCAGAAGC CCCTGCAGAA CCACAGCGGG
    GATCCCTCGG AGGTCAGCTC ATCACTGGGA TATGCCAGCT TCAGCACCAG CCCGCCTGCC
    AGCCCTCCAA TCAGCCCTGC AAACTGCTCA ACTGGGTCAG CTGAAGACTA CGCCCTCACT
    GATGAAGCAA CGTACCAGAA GGAGTGCATA GAGCGAGACG ACCGGAGAAA CAGCCACGTT
    CCTGAGCAGT TCGCTGGCCT TCTTCATGGT TCATCTCCTG CCTGCGAATC TCCTGACAAC
    CCTTACCAAC TTTACGGAAA AGTGCGAAAG TTCAGTGTTC CTGAGCCTCC GCTCAGGCAC
    GGGAATTTCC TCCGAGCACC AGAGTACTCT CCTCCCTTCC CTCGCACTGG CAGCGAGGCG
    TCTGCTCTTA AAACTCAAAG AGAAGTCAAA CCGCAGGTAG TCTACAGGAC GATTTTTCAC
    ACCAGGGTCA ACCAGGGTCC AGTAACGTTT GGCGAACAAG TGGACAAGAC CACAGGGGTG
    CATGCAAGGA ACGGGGAGGC CCGGAGCAAC TGCACAGGTG GCTCTAGTCC AGCAAACAGC
    AATACAGGCT ACGAAGAAAG AGCCTGCACT CTTGGGAGGA TGAGGTCTAT GCCAAAAAAC
    GTTTTGGACC TTCAGCTGTC CCGAAACTTC TCTAAATCAG ACTCTAACCT GGTGGCTGTG
    TCTCCCATTG AAGAGGAGCA GTGGGGTTCC AGAGGGCAGA GCAGCCCTGG TAAAAGCAGC
    CCCAGCAGAC TAGAGCGAAC CCCCTCCTTT ACCGCAGAGT GGGAAGAGAT TGACAAGATT
    ATGAGCTCCA TAGGTGCAGG AATTGGCACA GAGATGGAGG GGATTACAGA GGATCACCCA
    GGCCCCCGTT GCCCCGTCCA GTCTGTGGGA CAGTGGCTGG ACAACATTGG GTTGGTGCAG
    TATGAAAACC ACCTGCTGTC TAACGGCTTT GACAACGTTC AGTTTATGGG CAGTAATGTT
    GTGGAGGACC AGGACCTGCT GGAGATTGGG ATTTTAAACT CTGCCCACAG ACAGCGACTT
    CTTCAGGCTA TTCGCCTTTT GCCCAGGGTG CGGCCCATTG GTTATGATGG AAATAATCCC
    ACCTCAGTGG CTGAATGGCT GGAGTCTCTG GAGTTGGGAG ATTACACCAA GTCCTTTCTC
    ATCAATGGCT ACACGTCTAT GGAGCTGGTC AAGAAGATCT GGGAGATCGA GCTCATCAAC
    GTTCTTAAGA TTAATTTGAT CGGCCACAGG AAAAGAATAC TAGCGTCACT CGGAGATCGA
    CTGCACGAAG ACCCTCCACA GAAGCCACCA CGGGCCATTT CCCTACGGGA GCCGACTGGG
    AACCACACTC CCCCTCAGCT GTCCCCGTCT CTGAGTCAGG CCTACCCCAA CGCCGGCTCT
    CTGGACGTCC AGCACCTCAT CATGCAGGCG GATGCCAGAC GCAGACGCAA CGACAACTAC
    TTTGAGGATG TGCCGCGCTC TAAACTAGAG AGACAGATGG CACAAGTCAG TATGCAAGGT
    GAATGGTGTG AGCCCATCAC GCTACGACCC CCAAATGAGG CGACGTCGTC TACACCGGTG
    CAGTACTGGC AACACCATCC AGAGAAGCTC ATCTTCCAGT CCTGTGACTA TGAAGCATAT
    TATCTGGGCT CGATGTTGGT GAAGGAGCTG CGCGGTACAG AATCCACACA TGATGCCTGT
    GCAAAAATGA GGTCGACAGA ACAGATGAAG AAGATCCCCA CCATAGTACT GTCTGTCTCC
    TATAAGGGCG TCAAGTTCAT CGATGCTACT AACAAGAACA TTATCGCGGA GCATGAGATC
    AGGAATATCT CTTGTGCGGC TCAGGATCCT GAAGATTTGT CCACATTTGC ATACATCACC
    AAGGACCTGA AATCCAGCCA TCATTACTGC CATGTGTTTA CAGCCTTCGA TGTGAATCTG
    GCCTATGAGA TTATCTTGAC GTTAGGCCAG GCGTTTGAGG TGGCATATCA GCTGGCTTTG
    CAGGCCAGAA AGAGTGGCCA CGGGTCTTCA ACTCTGCCTG AGAGCTTCGA CAGCAAACCC
    TCCAAACCTG TACCTAAACC ACGTGGAAAC ATACGCAAGT CTATGGAACA GCCCTCAATG
    GATCAAAAGG GCCACGCTAA CGTCCCCTGG ATAGTCGAGC CTGGACAGGA AGCCAAAAGA
    GGAGCCAACA CCAAGGCAAT GGCGGACGCC CATGTCTATT ACAGTGGAAT TCAGAGAATG
    TAG

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

    CloneID ODa44592
    Clone ID Related Accession (Same CDS sequence) XM_009300299.3 , XM_009300299.2
    Accession Version XM_009300299.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3819bp)
    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 ankyrin repeat and sterile alpha motif domain-containing protein 1B isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.7) 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_009300299.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGGAAAGG AGCAGGAGCT GCTGGAGGCG GCGCGGACCG GGAATGTGGG GCTGGTGGAG 
    AAGCTGTTGA GTGGGAAGAA AGGATTGCTG GGCTCGGGCT CCGGATCCAT ACCTCTGCCC
    GGGTTACTCA GTATGTGGAG AGGCCTCAAT GTCAACTGTG TGGACGGATC AGGATACACA
    CCTCTGCACC ACGCATCTCT GAACGGACAC AGGGACGTGG TATTGAAGTT GTTGCAGTTT
    GAAGCCTCTA CTAATGTGTC CGACAGTAAA GGCTGTTTTC CTCTGCATCT GGCTGCATGG
    AGAGGTGACG TGGACATAGT CCAGATTCTG ATCCACCATG GGCCTTCCCA CAGCAGAGTT
    AATGAGCAGA ACCTTGAGAA GGAGACAGCG TTACACTGTG CAGCTCAGTA CGGTCACTCC
    GAGGTGGTCC GTGTTTTGTT GCAAGAGCTG ACAGACCCCA GCATGAGGAA CAGTCGAGGA
    GAAACGCCGC TGGACCTGGC CGCCCTCTAC GGTCGCCTAC AGGTGGTCCG CATGCTACTG
    ACGGCCCACC CTAATCTAAT GAGCTGTAAT ACACGCAAAC ACACACCTCT ACACCTGGCT
    GCCCGCAATG GCCATTATGC TACAGTTCAA GTGCTTCTGG AGGCCGACAT GGACGTTAAC
    ACACAGACAG AGAAAGGAAG TGCCCTCCAC GAAGCCGCAC TCTTTGGAAA GATGGATGTA
    GTTCAGCTAC TGCTTGACTC AGGGATTGAT GCCAACATCA GAGATTGCCA AGGAAGAACT
    GCACTAGATA TACTTAGAGA ACATCCGTCT CAGAAATCAC AACAAATTGC TTCTCTCATA
    CACGATTATA TGATGTCAGA TTGTGACAGA GGGAATTTTC ACGAAGACTT AGCACGACAT
    CGGCCAATAC CTACACCACG CACTTCAATA CCGTCTCCTG TGCCCTCACC GTCTCTACGG
    CATAAAAACG ATGCAGTAAC AGGGGAGTTG TCCAAGCTGC TGAATGAAAT AAAGATTTGC
    CGTGATAAGG ATTGCTCCTT CGAGGAGCTT TGTCAGACCA TCTCTTCTCA CTCTCAGTCT
    ATGGAGAGCT TCGGCAGCGG GCGACTGTCA GACGAGGAAC GCAACGGCAC TCTAACCCGA
    ATAAACAAGC GTCCCACTCC CCCGTTACCC CCGGCGTTGG AGGAGGAGGA AAAGAGCTGT
    GGACCCTCAG GCCTGTGGGA GGCGCTCACT CCCTGCAACG GCTGCAGAAA CCTGGGCTTT
    TCTCAGGACA AGCGATGTGT TGAAATTGCC CATTCTCCAT CACTGGATGT GTTTTTACCA
    GAGGATGAGG ACAACCCTTA CGAGTCAGTG GCTACAGCTG TCACACGCAA GCCCTGCTCT
    CTAGACATCA ACCTTCACAA CGCCTGTCCT CGCAACGGCC ACTTCTCACA TGTGTCGGTC
    AGCGATGCAG AGCGAGGTAA CCATGGAGAT GACTCTACAG GCTTGACTCC TGACTGCTCG
    CCTCCTTCAC CTGATACAGC CCTCAGGAAC ATCGAAAGAG TCATTCGCCC GCAGCCAAAG
    CAACGCACAT CACTGTCCTC CTCCCAGGAC GTCCAGAAGC CCCTGCAGAA CCACAGCGGG
    GATCCCTCGG AGGTCAGCTC ATCACTGGGA TATGCCAGCT TCAGCACCAG CCCGCCTGCC
    AGCCCTCCAA TCAGCCCTGC AAACTGCTCA ACTGGGTCAG CTGAAGACTA CGCCCTCACT
    GATGAAGCAA CGTACCAGAA GGAGTGCATA GAGCGAGACG ACCGGAGAAA CAGCCACGTT
    CCTGAGCAGT TCGCTGGCCT TCTTCATGGT TCATCTCCTG CCTGCGAATC TCCTGACAAC
    CCTTACCAAC TTTACGGAAA AGTGCGAAAG TTCAGTGTTC CTGAGCCTCC GCTCAGGCAC
    GGGAATTTCC TCCGAGCACC AGAGTACTCT CCTCCCTTCC CTCGCACTGG CAGCGAGGCG
    TCTGCTCTTA AAACTCAAAG AGAAGTCAAA CCGCAGGTAG TCTACAGGAC GATTTTTCAC
    ACCAGGGTCA ACCAGGGTCC AGTAACGTTT GGCGAACAAG TGGACAAGAC CACAGGGGTG
    CATGCAAGGA ACGGGGAGGC CCGGAGCAAC TGCACAGGTG GCTCTAGTCC AGCAAACAGC
    AATACAGGCT ACGAAGAAAG AGCCTGCACT CTTGGGAGGA TGAGGTCTAT GCCAAAAAAC
    GTTTTGGACC TTCAGCTGTC CCGAAACTTC TCTAAATCAG ACTCTAACCT GGTGGCTGTG
    TCTCCCATTG AAGAGGAGCA GTGGGGTTCC AGAGGGCAGA GCAGCCCTGG TAAAAGCAGC
    CCCAGCAGAC TAGAGCGAAC CCCCTCCTTT ACCGCAGAGT GGGAAGAGAT TGACAAGATT
    ATGAGCTCCA TAGGTGCAGG AATTGGCACA GAGATGGAGG GGATTACAGA GGATCACCCA
    GGCCCCCGTT GCCCCGTCCA GTCTGTGGGA CAGTGGCTGG ACAACATTGG GTTGGTGCAG
    TATGAAAACC ACCTGCTGTC TAACGGCTTT GACAACGTTC AGTTTATGGG CAGTAATGTT
    GTGGAGGACC AGGACCTGCT GGAGATTGGG ATTTTAAACT CTGCCCACAG ACAGCGACTT
    CTTCAGGCTA TTCGCCTTTT GCCCAGGGTG CGGCCCATTG GTTATGATGG AAATAATCCC
    ACCTCAGTGG CTGAATGGCT GGAGTCTCTG GAGTTGGGAG ATTACACCAA GTCCTTTCTC
    ATCAATGGCT ACACGTCTAT GGAGCTGGTC AAGAAGATCT GGGAGATCGA GCTCATCAAC
    GTTCTTAAGA TTAATTTGAT CGGCCACAGG AAAAGAATAC TAGCGTCACT CGGAGATCGA
    CTGCACGAAG ACCCTCCACA GAAGCCACCA CGGGCCATTT CCCTACGGGA GCCGACTGGG
    AACCACACTC CCCCTCAGCT GTCCCCGTCT CTGAGTCAGG CCTACCCCAA CGCCGGCTCT
    CTGGACGTCC AGCACCTCAT CATGCAGGCG GATGCCAGAC GCAGACGCAA CGACAACTAC
    TTTGAGGATG TGCCGCGCTC TAAACTAGAG AGACAGATGG CACAAGTCAG TATGCAAGGT
    GAATGGTGTG AGCCCATCAC GCTACGACCC CCAAATGAGG CGACGTCGTC TACACCGGTG
    CAGTACTGGC AACACCATCC AGAGAAGCTC ATCTTCCAGT CCTGTGACTA TGAAGCATAT
    TATCTGGGCT CGATGTTGGT GAAGGAGCTG CGCGGTACAG AATCCACACA TGATGCCTGT
    GCAAAAATGA GGAAGTCGAC AGAACAGATG AAGAAGATCC CCACCATAGT ACTGTCTGTC
    TCCTATAAGG GCGTCAAGTT CATCGATGCT ACTAACAAGA ACATTATCGC GGAGCATGAG
    ATCAGGAATA TCTCTTGTGC GGCTCAGGAT CCTGAAGATT TGTCCACATT TGCATACATC
    ACCAAGGACC TGAAATCCAG CCATCATTAC TGCCATGTGT TTACAGCCTT CGATGTGAAT
    CTGGCCTATG AGATTATCTT GACGTTAGGC CAGGCGTTTG AGGTGGCATA TCAGCTGGCT
    TTGCAGGCCA GAAAGAGTGG CCACGGGTCT TCAACTCTGC CTGAGAGCTT CGACAGCAAA
    CCCTCCAAAC CTGTACCTAA ACCACGTGGA AACATACGCA AGTCTATGGA ACAGCCCTCA
    ATGGATCAAA AGGGCCACGC TAACGTCCCC TGGATAGTCG AGCCTGGACA GGAAGCCAAA
    AGAGGAGCCA ACACCAAGTA TGAGACCACT ATTTTCTAA

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

    RefSeq XP_009298574.1
    CDS337..4155
    Translation

    Target ORF information:

    RefSeq Version XM_009300299.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009300299.3

    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
    ATGGGAAAGG AGCAGGAGCT GCTGGAGGCG GCGCGGACCG GGAATGTGGG GCTGGTGGAG 
    AAGCTGTTGA GTGGGAAGAA AGGATTGCTG GGCTCGGGCT CCGGATCCAT ACCTCTGCCC
    GGGTTACTCA GTATGTGGAG AGGCCTCAAT GTCAACTGTG TGGACGGATC AGGATACACA
    CCTCTGCACC ACGCATCTCT GAACGGACAC AGGGACGTGG TATTGAAGTT GTTGCAGTTT
    GAAGCCTCTA CTAATGTGTC CGACAGTAAA GGCTGTTTTC CTCTGCATCT GGCTGCATGG
    AGAGGTGACG TGGACATAGT CCAGATTCTG ATCCACCATG GGCCTTCCCA CAGCAGAGTT
    AATGAGCAGA ACCTTGAGAA GGAGACAGCG TTACACTGTG CAGCTCAGTA CGGTCACTCC
    GAGGTGGTCC GTGTTTTGTT GCAAGAGCTG ACAGACCCCA GCATGAGGAA CAGTCGAGGA
    GAAACGCCGC TGGACCTGGC CGCCCTCTAC GGTCGCCTAC AGGTGGTCCG CATGCTACTG
    ACGGCCCACC CTAATCTAAT GAGCTGTAAT ACACGCAAAC ACACACCTCT ACACCTGGCT
    GCCCGCAATG GCCATTATGC TACAGTTCAA GTGCTTCTGG AGGCCGACAT GGACGTTAAC
    ACACAGACAG AGAAAGGAAG TGCCCTCCAC GAAGCCGCAC TCTTTGGAAA GATGGATGTA
    GTTCAGCTAC TGCTTGACTC AGGGATTGAT GCCAACATCA GAGATTGCCA AGGAAGAACT
    GCACTAGATA TACTTAGAGA ACATCCGTCT CAGAAATCAC AACAAATTGC TTCTCTCATA
    CACGATTATA TGATGTCAGA TTGTGACAGA GGGAATTTTC ACGAAGACTT AGCACGACAT
    CGGCCAATAC CTACACCACG CACTTCAATA CCGTCTCCTG TGCCCTCACC GTCTCTACGG
    CATAAAAACG ATGCAGTAAC AGGGGAGTTG TCCAAGCTGC TGAATGAAAT AAAGATTTGC
    CGTGATAAGG ATTGCTCCTT CGAGGAGCTT TGTCAGACCA TCTCTTCTCA CTCTCAGTCT
    ATGGAGAGCT TCGGCAGCGG GCGACTGTCA GACGAGGAAC GCAACGGCAC TCTAACCCGA
    ATAAACAAGC GTCCCACTCC CCCGTTACCC CCGGCGTTGG AGGAGGAGGA AAAGAGCTGT
    GGACCCTCAG GCCTGTGGGA GGCGCTCACT CCCTGCAACG GCTGCAGAAA CCTGGGCTTT
    TCTCAGGACA AGCGATGTGT TGAAATTGCC CATTCTCCAT CACTGGATGT GTTTTTACCA
    GAGGATGAGG ACAACCCTTA CGAGTCAGTG GCTACAGCTG TCACACGCAA GCCCTGCTCT
    CTAGACATCA ACCTTCACAA CGCCTGTCCT CGCAACGGCC ACTTCTCACA TGTGTCGGTC
    AGCGATGCAG AGCGAGGTAA CCATGGAGAT GACTCTACAG GCTTGACTCC TGACTGCTCG
    CCTCCTTCAC CTGATACAGC CCTCAGGAAC ATCGAAAGAG TCATTCGCCC GCAGCCAAAG
    CAACGCACAT CACTGTCCTC CTCCCAGGAC GTCCAGAAGC CCCTGCAGAA CCACAGCGGG
    GATCCCTCGG AGGTCAGCTC ATCACTGGGA TATGCCAGCT TCAGCACCAG CCCGCCTGCC
    AGCCCTCCAA TCAGCCCTGC AAACTGCTCA ACTGGGTCAG CTGAAGACTA CGCCCTCACT
    GATGAAGCAA CGTACCAGAA GGAGTGCATA GAGCGAGACG ACCGGAGAAA CAGCCACGTT
    CCTGAGCAGT TCGCTGGCCT TCTTCATGGT TCATCTCCTG CCTGCGAATC TCCTGACAAC
    CCTTACCAAC TTTACGGAAA AGTGCGAAAG TTCAGTGTTC CTGAGCCTCC GCTCAGGCAC
    GGGAATTTCC TCCGAGCACC AGAGTACTCT CCTCCCTTCC CTCGCACTGG CAGCGAGGCG
    TCTGCTCTTA AAACTCAAAG AGAAGTCAAA CCGCAGGTAG TCTACAGGAC GATTTTTCAC
    ACCAGGGTCA ACCAGGGTCC AGTAACGTTT GGCGAACAAG TGGACAAGAC CACAGGGGTG
    CATGCAAGGA ACGGGGAGGC CCGGAGCAAC TGCACAGGTG GCTCTAGTCC AGCAAACAGC
    AATACAGGCT ACGAAGAAAG AGCCTGCACT CTTGGGAGGA TGAGGTCTAT GCCAAAAAAC
    GTTTTGGACC TTCAGCTGTC CCGAAACTTC TCTAAATCAG ACTCTAACCT GGTGGCTGTG
    TCTCCCATTG AAGAGGAGCA GTGGGGTTCC AGAGGGCAGA GCAGCCCTGG TAAAAGCAGC
    CCCAGCAGAC TAGAGCGAAC CCCCTCCTTT ACCGCAGAGT GGGAAGAGAT TGACAAGATT
    ATGAGCTCCA TAGGTGCAGG AATTGGCACA GAGATGGAGG GGATTACAGA GGATCACCCA
    GGCCCCCGTT GCCCCGTCCA GTCTGTGGGA CAGTGGCTGG ACAACATTGG GTTGGTGCAG
    TATGAAAACC ACCTGCTGTC TAACGGCTTT GACAACGTTC AGTTTATGGG CAGTAATGTT
    GTGGAGGACC AGGACCTGCT GGAGATTGGG ATTTTAAACT CTGCCCACAG ACAGCGACTT
    CTTCAGGCTA TTCGCCTTTT GCCCAGGGTG CGGCCCATTG GTTATGATGG AAATAATCCC
    ACCTCAGTGG CTGAATGGCT GGAGTCTCTG GAGTTGGGAG ATTACACCAA GTCCTTTCTC
    ATCAATGGCT ACACGTCTAT GGAGCTGGTC AAGAAGATCT GGGAGATCGA GCTCATCAAC
    GTTCTTAAGA TTAATTTGAT CGGCCACAGG AAAAGAATAC TAGCGTCACT CGGAGATCGA
    CTGCACGAAG ACCCTCCACA GAAGCCACCA CGGGCCATTT CCCTACGGGA GCCGACTGGG
    AACCACACTC CCCCTCAGCT GTCCCCGTCT CTGAGTCAGG CCTACCCCAA CGCCGGCTCT
    CTGGACGTCC AGCACCTCAT CATGCAGGCG GATGCCAGAC GCAGACGCAA CGACAACTAC
    TTTGAGGATG TGCCGCGCTC TAAACTAGAG AGACAGATGG CACAAGTCAG TATGCAAGGT
    GAATGGTGTG AGCCCATCAC GCTACGACCC CCAAATGAGG CGACGTCGTC TACACCGGTG
    CAGTACTGGC AACACCATCC AGAGAAGCTC ATCTTCCAGT CCTGTGACTA TGAAGCATAT
    TATCTGGGCT CGATGTTGGT GAAGGAGCTG CGCGGTACAG AATCCACACA TGATGCCTGT
    GCAAAAATGA GGAAGTCGAC AGAACAGATG AAGAAGATCC CCACCATAGT ACTGTCTGTC
    TCCTATAAGG GCGTCAAGTT CATCGATGCT ACTAACAAGA ACATTATCGC GGAGCATGAG
    ATCAGGAATA TCTCTTGTGC GGCTCAGGAT CCTGAAGATT TGTCCACATT TGCATACATC
    ACCAAGGACC TGAAATCCAG CCATCATTAC TGCCATGTGT TTACAGCCTT CGATGTGAAT
    CTGGCCTATG AGATTATCTT GACGTTAGGC CAGGCGTTTG AGGTGGCATA TCAGCTGGCT
    TTGCAGGCCA GAAAGAGTGG CCACGGGTCT TCAACTCTGC CTGAGAGCTT CGACAGCAAA
    CCCTCCAAAC CTGTACCTAA ACCACGTGGA AACATACGCA AGTCTATGGA ACAGCCCTCA
    ATGGATCAAA AGGGCCACGC TAACGTCCCC TGGATAGTCG AGCCTGGACA GGAAGCCAAA
    AGAGGAGCCA ACACCAAGTA TGAGACCACT ATTTTCTAA

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

    CloneID ODa44592
    Clone ID Related Accession (Same CDS sequence) XM_009300299.3 , XM_009300299.2
    Accession Version XM_009300299.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3819bp)
    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 ankyrin repeat and sterile alpha motif domain-containing protein 1B isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.6) 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_009300299.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGGAAAGG AGCAGGAGCT GCTGGAGGCG GCGCGGACCG GGAATGTGGG GCTGGTGGAG 
    AAGCTGTTGA GTGGGAAGAA AGGATTGCTG GGCTCGGGCT CCGGATCCAT ACCTCTGCCC
    GGGTTACTCA GTATGTGGAG AGGCCTCAAT GTCAACTGTG TGGACGGATC AGGATACACA
    CCTCTGCACC ACGCATCTCT GAACGGACAC AGGGACGTGG TATTGAAGTT GTTGCAGTTT
    GAAGCCTCTA CTAATGTGTC CGACAGTAAA GGCTGTTTTC CTCTGCATCT GGCTGCATGG
    AGAGGTGACG TGGACATAGT CCAGATTCTG ATCCACCATG GGCCTTCCCA CAGCAGAGTT
    AATGAGCAGA ACCTTGAGAA GGAGACAGCG TTACACTGTG CAGCTCAGTA CGGTCACTCC
    GAGGTGGTCC GTGTTTTGTT GCAAGAGCTG ACAGACCCCA GCATGAGGAA CAGTCGAGGA
    GAAACGCCGC TGGACCTGGC CGCCCTCTAC GGTCGCCTAC AGGTGGTCCG CATGCTACTG
    ACGGCCCACC CTAATCTAAT GAGCTGTAAT ACACGCAAAC ACACACCTCT ACACCTGGCT
    GCCCGCAATG GCCATTATGC TACAGTTCAA GTGCTTCTGG AGGCCGACAT GGACGTTAAC
    ACACAGACAG AGAAAGGAAG TGCCCTCCAC GAAGCCGCAC TCTTTGGAAA GATGGATGTA
    GTTCAGCTAC TGCTTGACTC AGGGATTGAT GCCAACATCA GAGATTGCCA AGGAAGAACT
    GCACTAGATA TACTTAGAGA ACATCCGTCT CAGAAATCAC AACAAATTGC TTCTCTCATA
    CACGATTATA TGATGTCAGA TTGTGACAGA GGGAATTTTC ACGAAGACTT AGCACGACAT
    CGGCCAATAC CTACACCACG CACTTCAATA CCGTCTCCTG TGCCCTCACC GTCTCTACGG
    CATAAAAACG ATGCAGTAAC AGGGGAGTTG TCCAAGCTGC TGAATGAAAT AAAGATTTGC
    CGTGATAAGG ATTGCTCCTT CGAGGAGCTT TGTCAGACCA TCTCTTCTCA CTCTCAGTCT
    ATGGAGAGCT TCGGCAGCGG GCGACTGTCA GACGAGGAAC GCAACGGCAC TCTAACCCGA
    ATAAACAAGC GTCCCACTCC CCCGTTACCC CCGGCGTTGG AGGAGGAGGA AAAGAGCTGT
    GGACCCTCAG GCCTGTGGGA GGCGCTCACT CCCTGCAACG GCTGCAGAAA CCTGGGCTTT
    TCTCAGGACA AGCGATGTGT TGAAATTGCC CATTCTCCAT CACTGGATGT GTTTTTACCA
    GAGGATGAGG ACAACCCTTA CGAGTCAGTG GCTACAGCTG TCACACGCAA GCCCTGCTCT
    CTAGACATCA ACCTTCACAA CGCCTGTCCT CGCAACGGCC ACTTCTCACA TGTGTCGGTC
    AGCGATGCAG AGCGAGGTAA CCATGGAGAT GACTCTACAG GCTTGACTCC TGACTGCTCG
    CCTCCTTCAC CTGATACAGC CCTCAGGAAC ATCGAAAGAG TCATTCGCCC GCAGCCAAAG
    CAACGCACAT CACTGTCCTC CTCCCAGGAC GTCCAGAAGC CCCTGCAGAA CCACAGCGGG
    GATCCCTCGG AGGTCAGCTC ATCACTGGGA TATGCCAGCT TCAGCACCAG CCCGCCTGCC
    AGCCCTCCAA TCAGCCCTGC AAACTGCTCA ACTGGGTCAG CTGAAGACTA CGCCCTCACT
    GATGAAGCAA CGTACCAGAA GGAGTGCATA GAGCGAGACG ACCGGAGAAA CAGCCACGTT
    CCTGAGCAGT TCGCTGGCCT TCTTCATGGT TCATCTCCTG CCTGCGAATC TCCTGACAAC
    CCTTACCAAC TTTACGGAAA AGTGCGAAAG TTCAGTGTTC CTGAGCCTCC GCTCAGGCAC
    GGGAATTTCC TCCGAGCACC AGAGTACTCT CCTCCCTTCC CTCGCACTGG CAGCGAGGCG
    TCTGCTCTTA AAACTCAAAG AGAAGTCAAA CCGCAGGTAG TCTACAGGAC GATTTTTCAC
    ACCAGGGTCA ACCAGGGTCC AGTAACGTTT GGCGAACAAG TGGACAAGAC CACAGGGGTG
    CATGCAAGGA ACGGGGAGGC CCGGAGCAAC TGCACAGGTG GCTCTAGTCC AGCAAACAGC
    AATACAGGCT ACGAAGAAAG AGCCTGCACT CTTGGGAGGA TGAGGTCTAT GCCAAAAAAC
    GTTTTGGACC TTCAGCTGTC CCGAAACTTC TCTAAATCAG ACTCTAACCT GGTGGCTGTG
    TCTCCCATTG AAGAGGAGCA GTGGGGTTCC AGAGGGCAGA GCAGCCCTGG TAAAAGCAGC
    CCCAGCAGAC TAGAGCGAAC CCCCTCCTTT ACCGCAGAGT GGGAAGAGAT TGACAAGATT
    ATGAGCTCCA TAGGTGCAGG AATTGGCACA GAGATGGAGG GGATTACAGA GGATCACCCA
    GGCCCCCGTT GCCCCGTCCA GTCTGTGGGA CAGTGGCTGG ACAACATTGG GTTGGTGCAG
    TATGAAAACC ACCTGCTGTC TAACGGCTTT GACAACGTTC AGTTTATGGG CAGTAATGTT
    GTGGAGGACC AGGACCTGCT GGAGATTGGG ATTTTAAACT CTGCCCACAG ACAGCGACTT
    CTTCAGGCTA TTCGCCTTTT GCCCAGGGTG CGGCCCATTG GTTATGATGG AAATAATCCC
    ACCTCAGTGG CTGAATGGCT GGAGTCTCTG GAGTTGGGAG ATTACACCAA GTCCTTTCTC
    ATCAATGGCT ACACGTCTAT GGAGCTGGTC AAGAAGATCT GGGAGATCGA GCTCATCAAC
    GTTCTTAAGA TTAATTTGAT CGGCCACAGG AAAAGAATAC TAGCGTCACT CGGAGATCGA
    CTGCACGAAG ACCCTCCACA GAAGCCACCA CGGGCCATTT CCCTACGGGA GCCGACTGGG
    AACCACACTC CCCCTCAGCT GTCCCCGTCT CTGAGTCAGG CCTACCCCAA CGCCGGCTCT
    CTGGACGTCC AGCACCTCAT CATGCAGGCG GATGCCAGAC GCAGACGCAA CGACAACTAC
    TTTGAGGATG TGCCGCGCTC TAAACTAGAG AGACAGATGG CACAAGTCAG TATGCAAGGT
    GAATGGTGTG AGCCCATCAC GCTACGACCC CCAAATGAGG CGACGTCGTC TACACCGGTG
    CAGTACTGGC AACACCATCC AGAGAAGCTC ATCTTCCAGT CCTGTGACTA TGAAGCATAT
    TATCTGGGCT CGATGTTGGT GAAGGAGCTG CGCGGTACAG AATCCACACA TGATGCCTGT
    GCAAAAATGA GGAAGTCGAC AGAACAGATG AAGAAGATCC CCACCATAGT ACTGTCTGTC
    TCCTATAAGG GCGTCAAGTT CATCGATGCT ACTAACAAGA ACATTATCGC GGAGCATGAG
    ATCAGGAATA TCTCTTGTGC GGCTCAGGAT CCTGAAGATT TGTCCACATT TGCATACATC
    ACCAAGGACC TGAAATCCAG CCATCATTAC TGCCATGTGT TTACAGCCTT CGATGTGAAT
    CTGGCCTATG AGATTATCTT GACGTTAGGC CAGGCGTTTG AGGTGGCATA TCAGCTGGCT
    TTGCAGGCCA GAAAGAGTGG CCACGGGTCT TCAACTCTGC CTGAGAGCTT CGACAGCAAA
    CCCTCCAAAC CTGTACCTAA ACCACGTGGA AACATACGCA AGTCTATGGA ACAGCCCTCA
    ATGGATCAAA AGGGCCACGC TAACGTCCCC TGGATAGTCG AGCCTGGACA GGAAGCCAAA
    AGAGGAGCCA ACACCAAGTA TGAGACCACT ATTTTCTAA

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

    RefSeq XP_009298574.1
    CDS354..4172
    Translation

    Target ORF information:

    RefSeq Version XM_009300299.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio ankyrin repeat and sterile alpha motif domain containing 1B (anks1b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009300299.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGGAAAGG AGCAGGAGCT GCTGGAGGCG GCGCGGACCG GGAATGTGGG GCTGGTGGAG 
    AAGCTGTTGA GTGGGAAGAA AGGATTGCTG GGCTCGGGCT CCGGATCCAT ACCTCTGCCC
    GGGTTACTCA GTATGTGGAG AGGCCTCAAT GTCAACTGTG TGGACGGATC AGGATACACA
    CCTCTGCACC ACGCATCTCT GAACGGACAC AGGGACGTGG TATTGAAGTT GTTGCAGTTT
    GAAGCCTCTA CTAATGTGTC CGACAGTAAA GGCTGTTTTC CTCTGCATCT GGCTGCATGG
    AGAGGTGACG TGGACATAGT CCAGATTCTG ATCCACCATG GGCCTTCCCA CAGCAGAGTT
    AATGAGCAGA ACCTTGAGAA GGAGACAGCG TTACACTGTG CAGCTCAGTA CGGTCACTCC
    GAGGTGGTCC GTGTTTTGTT GCAAGAGCTG ACAGACCCCA GCATGAGGAA CAGTCGAGGA
    GAAACGCCGC TGGACCTGGC CGCCCTCTAC GGTCGCCTAC AGGTGGTCCG CATGCTACTG
    ACGGCCCACC CTAATCTAAT GAGCTGTAAT ACACGCAAAC ACACACCTCT ACACCTGGCT
    GCCCGCAATG GCCATTATGC TACAGTTCAA GTGCTTCTGG AGGCCGACAT GGACGTTAAC
    ACACAGACAG AGAAAGGAAG TGCCCTCCAC GAAGCCGCAC TCTTTGGAAA GATGGATGTA
    GTTCAGCTAC TGCTTGACTC AGGGATTGAT GCCAACATCA GAGATTGCCA AGGAAGAACT
    GCACTAGATA TACTTAGAGA ACATCCGTCT CAGAAATCAC AACAAATTGC TTCTCTCATA
    CACGATTATA TGATGTCAGA TTGTGACAGA GGGAATTTTC ACGAAGACTT AGCACGACAT
    CGGCCAATAC CTACACCACG CACTTCAATA CCGTCTCCTG TGCCCTCACC GTCTCTACGG
    CATAAAAACG ATGCAGTAAC AGGGGAGTTG TCCAAGCTGC TGAATGAAAT AAAGATTTGC
    CGTGATAAGG ATTGCTCCTT CGAGGAGCTT TGTCAGACCA TCTCTTCTCA CTCTCAGTCT
    ATGGAGAGCT TCGGCAGCGG GCGACTGTCA GACGAGGAAC GCAACGGCAC TCTAACCCGA
    ATAAACAAGC GTCCCACTCC CCCGTTACCC CCGGCGTTGG AGGAGGAGGA AAAGAGCTGT
    GGACCCTCAG GCCTGTGGGA GGCGCTCACT CCCTGCAACG GCTGCAGAAA CCTGGGCTTT
    TCTCAGGACA AGCGATGTGT TGAAATTGCC CATTCTCCAT CACTGGATGT GTTTTTACCA
    GAGGATGAGG ACAACCCTTA CGAGTCAGTG GCTACAGCTG TCACACGCAA GCCCTGCTCT
    CTAGACATCA ACCTTCACAA CGCCTGTCCT CGCAACGGCC ACTTCTCACA TGTGTCGGTC
    AGCGATGCAG AGCGAGGTAA CCATGGAGAT GACTCTACAG GCTTGACTCC TGACTGCTCG
    CCTCCTTCAC CTGATACAGC CCTCAGGAAC ATCGAAAGAG TCATTCGCCC GCAGCCAAAG
    CAACGCACAT CACTGTCCTC CTCCCAGGAC GTCCAGAAGC CCCTGCAGAA CCACAGCGGG
    GATCCCTCGG AGGTCAGCTC ATCACTGGGA TATGCCAGCT TCAGCACCAG CCCGCCTGCC
    AGCCCTCCAA TCAGCCCTGC AAACTGCTCA ACTGGGTCAG CTGAAGACTA CGCCCTCACT
    GATGAAGCAA CGTACCAGAA GGAGTGCATA GAGCGAGACG ACCGGAGAAA CAGCCACGTT
    CCTGAGCAGT TCGCTGGCCT TCTTCATGGT TCATCTCCTG CCTGCGAATC TCCTGACAAC
    CCTTACCAAC TTTACGGAAA AGTGCGAAAG TTCAGTGTTC CTGAGCCTCC GCTCAGGCAC
    GGGAATTTCC TCCGAGCACC AGAGTACTCT CCTCCCTTCC CTCGCACTGG CAGCGAGGCG
    TCTGCTCTTA AAACTCAAAG AGAAGTCAAA CCGCAGGTAG TCTACAGGAC GATTTTTCAC
    ACCAGGGTCA ACCAGGGTCC AGTAACGTTT GGCGAACAAG TGGACAAGAC CACAGGGGTG
    CATGCAAGGA ACGGGGAGGC CCGGAGCAAC TGCACAGGTG GCTCTAGTCC AGCAAACAGC
    AATACAGGCT ACGAAGAAAG AGCCTGCACT CTTGGGAGGA TGAGGTCTAT GCCAAAAAAC
    GTTTTGGACC TTCAGCTGTC CCGAAACTTC TCTAAATCAG ACTCTAACCT GGTGGCTGTG
    TCTCCCATTG AAGAGGAGCA GTGGGGTTCC AGAGGGCAGA GCAGCCCTGG TAAAAGCAGC
    CCCAGCAGAC TAGAGCGAAC CCCCTCCTTT ACCGCAGAGT GGGAAGAGAT TGACAAGATT
    ATGAGCTCCA TAGGTGCAGG AATTGGCACA GAGATGGAGG GGATTACAGA GGATCACCCA
    GGCCCCCGTT GCCCCGTCCA GTCTGTGGGA CAGTGGCTGG ACAACATTGG GTTGGTGCAG
    TATGAAAACC ACCTGCTGTC TAACGGCTTT GACAACGTTC AGTTTATGGG CAGTAATGTT
    GTGGAGGACC AGGACCTGCT GGAGATTGGG ATTTTAAACT CTGCCCACAG ACAGCGACTT
    CTTCAGGCTA TTCGCCTTTT GCCCAGGGTG CGGCCCATTG GTTATGATGG AAATAATCCC
    ACCTCAGTGG CTGAATGGCT GGAGTCTCTG GAGTTGGGAG ATTACACCAA GTCCTTTCTC
    ATCAATGGCT ACACGTCTAT GGAGCTGGTC AAGAAGATCT GGGAGATCGA GCTCATCAAC
    GTTCTTAAGA TTAATTTGAT CGGCCACAGG AAAAGAATAC TAGCGTCACT CGGAGATCGA
    CTGCACGAAG ACCCTCCACA GAAGCCACCA CGGGCCATTT CCCTACGGGA GCCGACTGGG
    AACCACACTC CCCCTCAGCT GTCCCCGTCT CTGAGTCAGG CCTACCCCAA CGCCGGCTCT
    CTGGACGTCC AGCACCTCAT CATGCAGGCG GATGCCAGAC GCAGACGCAA CGACAACTAC
    TTTGAGGATG TGCCGCGCTC TAAACTAGAG AGACAGATGG CACAAGTCAG TATGCAAGGT
    GAATGGTGTG AGCCCATCAC GCTACGACCC CCAAATGAGG CGACGTCGTC TACACCGGTG
    CAGTACTGGC AACACCATCC AGAGAAGCTC ATCTTCCAGT CCTGTGACTA TGAAGCATAT
    TATCTGGGCT CGATGTTGGT GAAGGAGCTG CGCGGTACAG AATCCACACA TGATGCCTGT
    GCAAAAATGA GGAAGTCGAC AGAACAGATG AAGAAGATCC CCACCATAGT ACTGTCTGTC
    TCCTATAAGG GCGTCAAGTT CATCGATGCT ACTAACAAGA ACATTATCGC GGAGCATGAG
    ATCAGGAATA TCTCTTGTGC GGCTCAGGAT CCTGAAGATT TGTCCACATT TGCATACATC
    ACCAAGGACC TGAAATCCAG CCATCATTAC TGCCATGTGT TTACAGCCTT CGATGTGAAT
    CTGGCCTATG AGATTATCTT GACGTTAGGC CAGGCGTTTG AGGTGGCATA TCAGCTGGCT
    TTGCAGGCCA GAAAGAGTGG CCACGGGTCT TCAACTCTGC CTGAGAGCTT CGACAGCAAA
    CCCTCCAAAC CTGTACCTAA ACCACGTGGA AACATACGCA AGTCTATGGA ACAGCCCTCA
    ATGGATCAAA AGGGCCACGC TAACGTCCCC TGGATAGTCG AGCCTGGACA GGAAGCCAAA
    AGAGGAGCCA ACACCAAGTA TGAGACCACT ATTTTCTAA

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