TTBK1A cDNA ORF clone, Danio rerio(Zebrafish)

The following TTBK1A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TTBK1A 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
ODa49575 XM_009306133.2
Latest version!
Danio rerio tau tubulin kinase 1a (ttbk1a), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $426.30
$609.00
ODa49572 XM_009306129.2
Latest version!
Danio rerio tau tubulin kinase 1a (ttbk1a), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa49573 XM_009306130.3
Latest version!
Danio rerio tau tubulin kinase 1a (ttbk1a), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa49574 XM_009306132.3
Latest version!
Danio rerio tau tubulin kinase 1a (ttbk1a), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa49574 XM_009306131.3
Latest version!
Danio rerio tau tubulin kinase 1a (ttbk1a), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
View Old Accession Versions >>
ODa49573 XM_009306130.2 Danio rerio tau tubulin kinase 1a (ttbk1a), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa49574 XM_009306132.2 Danio rerio tau tubulin kinase 1a (ttbk1a), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
ODa49574 XM_009306131.2 Danio rerio tau tubulin kinase 1a (ttbk1a), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
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 ODa49575
    Clone ID Related Accession (Same CDS sequence) XM_009306133.2
    Accession Version XM_009306133.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2268bp)
    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 tau-tubulin kinase 1 isoform X4
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007122.6) 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_009306133.1. ##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
    ATGATAAATG GCTCATTTAA GCTGGGCGCT GCCAGAGTGC TCTCAGGGTT GCAGTGCCTA 
    GCGCCAGCTC TGCAGGACAA CGCCAACATG AACGGCACTG CAGAGCAGCA GGACATTCTG
    CCCCCTCATT GCATGGTCAA AGATCGATGG AAAGTGCTGA AGAAGATCGG AGGAGGAGGG
    TTTGGGGAAA TCTACGAGGC GCTGGACCTG CTGACTCGAG AGAATGTGGC GTTAAAAGTG
    GAGTCAGCGC AACAGCCCAA ACAAGTCCTG AAGATGGAGG TAGCAGTTTT GAAGAAACTG
    CAGGGTAAAA ACCACGTATG TAAGTTCATA GGCTGTGGGC GAAACGATAA ATTCAACTAT
    GTCGTCATGC AGCTGCAGGG CAGAAACCTG GCAGATCTCA GGCGAAGTCA GCCTCGCGGC
    ACCTTTACCA TGAGCACAAC CCTCCGCTTG GGAAAACAGA TCCTCGAATC CATAGAAGCC
    ATTCACTCCG TTGGCTTTCT CCATCGAGAC ATCAAACCGT CAAATTTTGC CATGGGAAGG
    CTGCCTTCAA CATTCCGGAA ATGTTATATG CTAGATTTTG GGCTCGCAAG ACAGTATACA
    AACACCAATG GAGAAGTCAG ACCGACTTTC ATTCCTAGAA CTGTTGCAGG ATTTCGAGGG
    ACTGTTAGAT ATGCATCTGT GAATGCACAT AAAAACAAAG AAATGGGTCG CCATGATGAC
    TTATGGTCAT TGTTTTACAT GCTGGTTGAG TTTGCTGCTG GGCAGCTGCC ATGGAGGAAA
    ATCAAGGACA AGGAGCAAGT GGGTCAGATT AAGGAGCGCT ACGATCATAG GATGCTTCTT
    AAACACATGC CGTCAGAGTT TAATGTCTTC CTGGAGCATG TTTTAGCCCT TGACTACTAT
    ACCAAACCAG ACTATCAGCT CCTGATGTCA GTGTTCGAGA ACAGCATGAA GGAACGCATC
    ATCACTGAAA ACGAGCCCTA TGATTGGGAG AAAAGTGGGA CGGAGACTAT TATCTCTGCT
    ACCACACCGA CAGCAGCTCA GCAGAACACG AGACCCACAG CCGCGATGGT CGGGGTTATA
    AATGTGACCC CGATGCCAGG TGACCTTCCA AGGGAAAACA CAGATGATGT TGTACAGGAT
    GAGCACCTTA GTGACCAGGA AAACGCCCCT CCAATTCCCT CTGGACGGCC AGTTGATGGC
    AGCCAGATGC CCACAGATGC AGACGGATGG GAGGAGACAG ACTTCAACCG CAACAAACTC
    AGGATTAACC TTGGAAAGGG AGGTCAAGAA GAGGACGGTA GCCGGGGTGT GTGTCCTGTT
    TCGCCACAAA GGGGAGGTTT GGACTCTCCA GGGATGCAGG TTCACTCGAT CAGGTACCGA
    CGGGTCAACA GTCCTGAATC TGATCGCATG TCTGCTGCTG ATGGACGGGA CGGTTACGGC
    CAACGCTCTC GAATGGACAT TCTGGGTTCT CCATCTCGTC ACGTTTACTC CTCTCAGCCC
    GCTCAGATGC TCTCGGTGGA CGGTTGCAGA GGCCGTAATG AAGCCTCTGC ATCGGTGGAC
    CAGGAAGCCC ACAGCAATGC CTTCATCCGC TCAGTCCCGC TCGCAGAAGA AGAGGACTTC
    GACAGCAAAG AGTGGGTGAT CATAGACAAG GAAATGGAGC TCAGAGACTT CCACCACCTT
    CCAGGAGCCG AACCTACCAC TTCCGGCACG ACGGATGAGG AGCCGGAGGA ATTACGCCCT
    CTGGAGGAAG GAGATGATCG GAGGAGACAC AGAGGGAACG ATCCATCCGT CAGAACCAAA
    ACGTCCCATG GAGAACGGAC TACACGAGGG ATGCTACCAC TGACGGAGGA AGAGACATCC
    AGGAGGAGTG GGAAAGGCCA GTCCACGTCA ATGGAGAGCC CTGCGCAGTC ACCCTGTCAC
    TCGCTGCCCT CCGGACGGCC CCGGCGGAGA GATGCAGATA ACAACGGACC TCAGAGACAG
    CTGGACGAGG ACAGGTCACA CTCGGGACCG CGCTCCAATC AGCTTCGCCG TCTCGCTTCA
    TATGTCTTTT CGTCTTCTAC GTTGGAGACA GAGCAGTACC CGTCGTCCTT CATCCAGCGG
    AGCCGGTCCG CCGAAAGCAG CCCAGCTCAC GGTAACTTCC GCTCGGGCTC CAGACGTCAC
    GCTCCCCTGC AGCCGCCTGG ATCTCCACGC AGCAGGCACT CCATGCTCAA CGTGTCCCGT
    CTGCAGATCC AGCAGATGCT GGCCAAACTG ATGAACAAGA ACAGCTGA

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

    RefSeq XP_009304408.1
    CDS339..2606
    Translation

    Target ORF information:

    RefSeq Version XM_009306133.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio tau tubulin kinase 1a (ttbk1a), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009306133.2

    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
    ATGATAAATG GCTCATTTAA GCTGGGCGCT GCCAGAGTGC TCTCAGGGTT GCAGTGCCTA 
    GCGCCAGCTC TGCAGGACAA CGCCAACATG AACGGCACTG CAGAGCAGCA GGACATTCTG
    CCCCCTCATT GCATGGTCAA AGATCGATGG AAAGTGCTGA AGAAGATCGG AGGAGGAGGG
    TTTGGGGAAA TCTACGAGGC GCTGGACCTG CTGACTCGAG AGAATGTGGC GTTAAAAGTG
    GAGTCAGCGC AACAGCCCAA ACAAGTCCTG AAGATGGAGG TAGCAGTTTT GAAGAAACTG
    CAGGGTAAAA ACCACGTATG TAAGTTCATA GGCTGTGGGC GAAACGATAA ATTCAACTAT
    GTCGTCATGC AGCTGCAGGG CAGAAACCTG GCAGATCTCA GGCGAAGTCA GCCTCGCGGC
    ACCTTTACCA TGAGCACAAC CCTCCGCTTG GGAAAACAGA TCCTCGAATC CATAGAAGCC
    ATTCACTCCG TTGGCTTTCT CCATCGAGAC ATCAAACCGT CAAATTTTGC CATGGGAAGG
    CTGCCTTCAA CATTCCGGAA ATGTTATATG CTAGATTTTG GGCTCGCAAG ACAGTATACA
    AACACCAATG GAGAAGTCAG ACCGACTTTC ATTCCTAGAA CTGTTGCAGG ATTTCGAGGG
    ACTGTTAGAT ATGCATCTGT GAATGCACAT AAAAACAAAG AAATGGGTCG CCATGATGAC
    TTATGGTCAT TGTTTTACAT GCTGGTTGAG TTTGCTGCTG GGCAGCTGCC ATGGAGGAAA
    ATCAAGGACA AGGAGCAAGT GGGTCAGATT AAGGAGCGCT ACGATCATAG GATGCTTCTT
    AAACACATGC CGTCAGAGTT TAATGTCTTC CTGGAGCATG TTTTAGCCCT TGACTACTAT
    ACCAAACCAG ACTATCAGCT CCTGATGTCA GTGTTCGAGA ACAGCATGAA GGAACGCATC
    ATCACTGAAA ACGAGCCCTA TGATTGGGAG AAAAGTGGGA CGGAGACTAT TATCTCTGCT
    ACCACACCGA CAGCAGCTCA GCAGAACACG AGACCCACAG CCGCGATGGT CGGGGTTATA
    AATGTGACCC CGATGCCAGG TGACCTTCCA AGGGAAAACA CAGATGATGT TGTACAGGAT
    GAGCACCTTA GTGACCAGGA AAACGCCCCT CCAATTCCCT CTGGACGGCC AGTTGATGGC
    AGCCAGATGC CCACAGATGC AGACGGATGG GAGGAGACAG ACTTCAACCG CAACAAACTC
    AGGATTAACC TTGGAAAGGG AGGTCAAGAA GAGGACGGTA GCCGGGGTGT GTGTCCTGTT
    TCGCCACAAA GGGGAGGTTT GGACTCTCCA GGGATGCAGG TTCACTCGAT CAGGTACCGA
    CGGGTCAACA GTCCTGAATC TGATCGCATG TCTGCTGCTG ATGGACGGGA CGGTTACGGC
    CAACGCTCTC GAATGGACAT TCTGGGTTCT CCATCTCGTC ACGTTTACTC CTCTCAGCCC
    GCTCAGATGC TCTCGGTGGA CGGTTGCAGA GGCCGTAATG AAGCCTCTGC ATCGGTGGAC
    CAGGAAGCCC ACAGCAATGC CTTCATCCGC TCAGTCCCGC TCGCAGAAGA AGAGGACTTC
    GACAGCAAAG AGTGGGTGAT CATAGACAAG GAAATGGAGC TCAGAGACTT CCACCACCTT
    CCAGGAGCCG AACCTACCAC TTCCGGCACG ACGGATGAGG AGCCGGAGGA ATTACGCCCT
    CTGGAGGAAG GAGATGATCG GAGGAGACAC AGAGGGAACG ATCCATCCGT CAGAACCAAA
    ACGTCCCATG GAGAACGGAC TACACGAGGG ATGCTACCAC TGACGGAGGA AGAGACATCC
    AGGAGGAGTG GGAAAGGCCA GTCCACGTCA ATGGAGAGCC CTGCGCAGTC ACCCTGTCAC
    TCGCTGCCCT CCGGACGGCC CCGGCGGAGA GATGCAGATA ACAACGGACC TCAGAGACAG
    CTGGACGAGG ACAGGTCACA CTCGGGACCG CGCTCCAATC AGCTTCGCCG TCTCGCTTCA
    TATGTCTTTT CGTCTTCTAC GTTGGAGACA GAGCAGTACC CGTCGTCCTT CATCCAGCGG
    AGCCGGTCCG CCGAAAGCAG CCCAGCTCAC GGTAACTTCC GCTCGGGCTC CAGACGTCAC
    GCTCCCCTGC AGCCGCCTGG ATCTCCACGC AGCAGGCACT CCATGCTCAA CGTGTCCCGT
    CTGCAGATCC AGCAGATGCT GGCCAAACTG ATGAACAAGA ACAGCTGA

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

    CloneID ODa49572
    Clone ID Related Accession (Same CDS sequence) XM_009306129.2
    Accession Version XM_009306129.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3906bp)
    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 tau-tubulin kinase 1 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007122.6) 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_009306129.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGATAAATG GCTCATTTAA GCTGGGCGCT GCCAGAGTGC TCTCAGGGTT GCAGTGCCTA 
    GCGCCAGCTC TGCAGGACAA CGCCAACATG AACGGCACTG CAGAGCAGCA GGACATTCTG
    CCCCCTCATT GCATGGTCAA AGATCGATGG AAAGTGCTGA AGAAGATCGG AGGAGGAGGG
    TTTGGGGAAA TCTACGAGGC GCTGGACCTG CTGACTCGAG AGAATGTGGC GTTAAAAGTG
    GAGTCAGCGC AACAGCCCAA ACAAGTCCTG AAGATGGAGG TAGCAGTTTT GAAGAAACTG
    CAGGGTAAAA ACCACGTATG TAAGTTCATA GGCTGTGGGC GAAACGATAA ATTCAACTAT
    GTCGTCATGC AGCTGCAGGG CAGAAACCTG GCAGATCTCA GGCGAAGTCA GCCTCGCGGC
    ACCTTTACCA TGAGCACAAC CCTCCGCTTG GGAAAACAGA TCCTCGAATC CATAGAAGCC
    ATTCACTCCG TTGGCTTTCT CCATCGAGAC ATCAAACCGT CAAATTTTGC CATGGGAAGG
    CTGCCTTCAA CATTCCGGAA ATGTTATATG CTAGATTTTG GGCTCGCAAG ACAGTATACA
    AACACCAATG GAGAAGTCAG ACCGACTTTC ATTCCTAGAA CTGTTGCAGG ATTTCGAGGG
    ACTGTTAGAT ATGCATCTGT GAATGCACAT AAAAACAAAG AAATGGGTCG CCATGATGAC
    TTATGGTCAT TGTTTTACAT GCTGGTTGAG TTTGCTGCTG GGCAGCTGCC ATGGAGGAAA
    ATCAAGGACA AGGAGCAAGT GGGTCAGATT AAGGAGCGCT ACGATCATAG GATGCTTCTT
    AAACACATGC CGTCAGAGTT TAATGTCTTC CTGGAGCATG TTTTAGCCCT TGACTACTAT
    ACCAAACCAG ACTATCAGCT CCTGATGTCA GTGTTCGAGA ACAGCATGAA GGAACGCATC
    ATCACTGAAA ACGAGCCCTA TGATTGGGAG AAAAGTGGGA CGGAGACTAT TATCTCTGCT
    ACCACACCGA CAGCAGCTCA GCAGAACACG AGACCCACAG CCGCGATGGT CGGGGTTATA
    AATGTGACCC CGATGCCAGG TGACCTTCCA AGGGAAAACA CAGATGATGT TGTACAGGAT
    GAGCACCTTA GTGACCAGGA AAACGCCCCT CCAATTCCCT CTGGACGGCC AGTTGATGGC
    AGCCAGATGC CCACAGATGC AGACGGATGG GAGGAGACAG ACTTCAACCG CAACAAACTC
    AGGATTAACC TTGGAAAGGG AGGTCAAGAA GAGGACGGTA GCCGGGGTGT GTGTCCTGTT
    TCGCCACAAA GGGGAGGTTT GGACTCTCCA GGGATGCAGG TTCACTCGAT CAGGTACCGA
    CGGGTCAACA GTCCTGAATC TGATCGCATG TCTGCTGCTG ATGGACGGGA CGGTTACGGC
    CAACGCTCTC GAATGGACAT TCTGGGTTCT CCATCTCGTC ACGTTTACTC CTCTCAGCCC
    GCTCAGATGC TCTCGGTGGA CGGTTGCAGA GGCCGTAATG AAGCCTCTGC ATCGGTGGAC
    CAGGAAGCCC ACAGCAATGC CTTCATCCGC TCAGTCCCGC TCGCAGAAGA AGAGGACTTC
    GACAGCAAAG AGTGGGTGAT CATAGACAAG GAAATGGAGC TCAGAGACTT CCACCACCTT
    CCAGGAGCCG AACCTACCAC TTCCGGCACG ACGGATGAGG AGCCGGAGGA ATTACGCCCT
    CTGGAGGAAG GAGATGATCG GAGGAGACAC AGAGGGAACG ATCCATCCGT CAGAACCAAA
    ACGTCCCATG GAGAACGGAC TACACGAGGG ATGCTACCAC TGACGGAGGA AGAGACATCC
    AGGAGGAGTG GGAAAGGCCA GTCCACGTCA ATGGAGAGCC CTGCGCAGTC ACCCTGTCAC
    TCGCTGCCCT CCGGACGGCC CCGGCGGAGA GATGCAGATA ACAACGGACC TCAGAGACAG
    GCCCCAACCC CAAGTGAGCC TCTATTATCA CCCACTGACT ACAGGACTAA ATCCCCATCC
    TCTGAGAAGG AGATGTTCCA TATACTTCCA AAGCTGCAGG CTAAGAGAGC CGACTTCCTT
    ACAGTCATGC TTACAGGAAG CCTTCACCAG CGCCGGGCCT TCACAGCCAC ACCGCCTGAG
    ACACAAGATG AGGGGCCAAG AGATGATGAC GTCACAAAGA GCGAATCAAG CAGCGGAGCA
    AGTGAAAAGA GTACTGAACG TAGTCAAGAT GGGGCTCCAT CTACCTTGGT TGCCGATGAT
    CCACAAAAAG AGTCAAAAGA ACCAGGTTCG GTTGCTGATG TAGATCCTGA CCAAGAAGAT
    GTCTCAAACA CCCTTGTTTT GTTTTCACCA GGAGACACGA AGAAGTCACC AAATGCTATA
    ATCAGGGCTG AAGTTGATCA GGGTGTGGGG AGTTTTGATG CCCCTCAAAA TGAAAATCAA
    GGTCAATCAG AGGTCCAGAA ACAAGAGGAC ATCAAGCAAG CAGAGAGACC TATAGATGGA
    AGGCAAGCCG ATGTAACTGG GTTTGACCCA TTCATACAGT CATCTAAACC AGTGGTAACA
    ATCTCAACAA CTCCAGTGGC CTCTGCCTCA ATTGCATCAC CCCTTTTCTC CAAAGTGGAG
    CAAACTTTTG TACACATTGC AGAGACAACC CATCTGAATG TTATGTCTTC CAGTAGTGGA
    CAGGTTCTGG AAGTTTTACA GGAGGTTGAA GGCAAATTAC AGTCCAAACT GACAAAAGAC
    AAACCAGAGC CAGGAGGAGG TGCAGCTTGT GTCCAGTCTG AAGTCATCTC TCAGATTCTT
    ACAGAGGAAT CTCAGGTACC TAATGTCCTA GATGGGTCTT TGCCAAATGA ATCAACTGTA
    AAGCAAGAAA ATCCTACGGA TCCTCTATGT GTACAGTCTA TGGAACCCAT CATTCAAGAT
    TCAACAATTG ACTCCAATCA GGACGAAAAA CCAAAAGAAG AAATTCAAGA GGGGAGCACA
    GTACCTGATA TTGTTTCTAA ACCTCCAAGG CCAAGAAGCA GAAGTCGGAT TCCTATTCTA
    GTCCCGGAAG AGGAGCCAGG ATCTGAGAAA TCCCTGTCCA CCAAAGAACG AATGCGTAGA
    AGAGTCATGC AGCAAGACCT GGCCCGTCAA GTTGTGGAAA GACATCGTCA GGGTCGCTGG
    ATAAGACTGA ATTCCAGGAC ATCATCTTCG TTATCTTCTG GAGATGAGCC CAAGAGACCT
    TCAGAGACTC TTTCTACTAC AGGCTCGGAA GAAGATGTTC TTGAATCTGA TGATTCCCTA
    AACAAGCTCA AGAAGGAGGC TGAGGAAAAG CACCAAACTG GCTGGCACAG CAGGATCCCT
    CGACCAGTCA CCCCAATAAG GAAGCCTTCG ACTAAACTAG TTGTTGCACC TCCTTTGAGC
    CAACCTGAAG CTGCAAAATT AGAACAAAAA GCAAGCAATG GCCCAAAAGT ACAGTCACAA
    TCAGGATCAA GTGCTCCAGC ATTTCATGCA AGATCAAAAT CAACTCTGTC CCATTCGACC
    ATGCCAAGTG GAAGCAATTG CATGCCTCTC TCCTGTATTC CTGCAGCATC CCGCCGCAGC
    TTAAGCACCG CAAACTGCAC TTTCTCTTCA GCCCGTATAG CTAGTCCCTC GCCCCATAGG
    CTACACTTGC GAACTGCTGT TATTGAATCC CGCAAGCAAC CGTTTGCCCT CCGAACCACT
    GTGGAGCTCC CATTGAAGTC TAGGACTACT ACTTGCAGCA ATCCTGCAAA GGACACCAAA
    CCATCACCAA ACAAAGCCAC CAACACAACT GTCAGGAATC GAACCAAAGC TTCTACTCAA
    TCAAAAAACA CAGTTCCCGC TAAAAAGGAA AAAAGCACAA GCAACAATGC AGCTGCAGCC
    AGATAA

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

    RefSeq XP_009304404.1
    CDS333..4238
    Translation

    Target ORF information:

    RefSeq Version XM_009306129.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio tau tubulin kinase 1a (ttbk1a), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009306129.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGATAAATG GCTCATTTAA GCTGGGCGCT GCCAGAGTGC TCTCAGGGTT GCAGTGCCTA 
    GCGCCAGCTC TGCAGGACAA CGCCAACATG AACGGCACTG CAGAGCAGCA GGACATTCTG
    CCCCCTCATT GCATGGTCAA AGATCGATGG AAAGTGCTGA AGAAGATCGG AGGAGGAGGG
    TTTGGGGAAA TCTACGAGGC GCTGGACCTG CTGACTCGAG AGAATGTGGC GTTAAAAGTG
    GAGTCAGCGC AACAGCCCAA ACAAGTCCTG AAGATGGAGG TAGCAGTTTT GAAGAAACTG
    CAGGGTAAAA ACCACGTATG TAAGTTCATA GGCTGTGGGC GAAACGATAA ATTCAACTAT
    GTCGTCATGC AGCTGCAGGG CAGAAACCTG GCAGATCTCA GGCGAAGTCA GCCTCGCGGC
    ACCTTTACCA TGAGCACAAC CCTCCGCTTG GGAAAACAGA TCCTCGAATC CATAGAAGCC
    ATTCACTCCG TTGGCTTTCT CCATCGAGAC ATCAAACCGT CAAATTTTGC CATGGGAAGG
    CTGCCTTCAA CATTCCGGAA ATGTTATATG CTAGATTTTG GGCTCGCAAG ACAGTATACA
    AACACCAATG GAGAAGTCAG ACCGACTTTC ATTCCTAGAA CTGTTGCAGG ATTTCGAGGG
    ACTGTTAGAT ATGCATCTGT GAATGCACAT AAAAACAAAG AAATGGGTCG CCATGATGAC
    TTATGGTCAT TGTTTTACAT GCTGGTTGAG TTTGCTGCTG GGCAGCTGCC ATGGAGGAAA
    ATCAAGGACA AGGAGCAAGT GGGTCAGATT AAGGAGCGCT ACGATCATAG GATGCTTCTT
    AAACACATGC CGTCAGAGTT TAATGTCTTC CTGGAGCATG TTTTAGCCCT TGACTACTAT
    ACCAAACCAG ACTATCAGCT CCTGATGTCA GTGTTCGAGA ACAGCATGAA GGAACGCATC
    ATCACTGAAA ACGAGCCCTA TGATTGGGAG AAAAGTGGGA CGGAGACTAT TATCTCTGCT
    ACCACACCGA CAGCAGCTCA GCAGAACACG AGACCCACAG CCGCGATGGT CGGGGTTATA
    AATGTGACCC CGATGCCAGG TGACCTTCCA AGGGAAAACA CAGATGATGT TGTACAGGAT
    GAGCACCTTA GTGACCAGGA AAACGCCCCT CCAATTCCCT CTGGACGGCC AGTTGATGGC
    AGCCAGATGC CCACAGATGC AGACGGATGG GAGGAGACAG ACTTCAACCG CAACAAACTC
    AGGATTAACC TTGGAAAGGG AGGTCAAGAA GAGGACGGTA GCCGGGGTGT GTGTCCTGTT
    TCGCCACAAA GGGGAGGTTT GGACTCTCCA GGGATGCAGG TTCACTCGAT CAGGTACCGA
    CGGGTCAACA GTCCTGAATC TGATCGCATG TCTGCTGCTG ATGGACGGGA CGGTTACGGC
    CAACGCTCTC GAATGGACAT TCTGGGTTCT CCATCTCGTC ACGTTTACTC CTCTCAGCCC
    GCTCAGATGC TCTCGGTGGA CGGTTGCAGA GGCCGTAATG AAGCCTCTGC ATCGGTGGAC
    CAGGAAGCCC ACAGCAATGC CTTCATCCGC TCAGTCCCGC TCGCAGAAGA AGAGGACTTC
    GACAGCAAAG AGTGGGTGAT CATAGACAAG GAAATGGAGC TCAGAGACTT CCACCACCTT
    CCAGGAGCCG AACCTACCAC TTCCGGCACG ACGGATGAGG AGCCGGAGGA ATTACGCCCT
    CTGGAGGAAG GAGATGATCG GAGGAGACAC AGAGGGAACG ATCCATCCGT CAGAACCAAA
    ACGTCCCATG GAGAACGGAC TACACGAGGG ATGCTACCAC TGACGGAGGA AGAGACATCC
    AGGAGGAGTG GGAAAGGCCA GTCCACGTCA ATGGAGAGCC CTGCGCAGTC ACCCTGTCAC
    TCGCTGCCCT CCGGACGGCC CCGGCGGAGA GATGCAGATA ACAACGGACC TCAGAGACAG
    GCCCCAACCC CAAGTGAGCC TCTATTATCA CCCACTGACT ACAGGACTAA ATCCCCATCC
    TCTGAGAAGG AGATGTTCCA TATACTTCCA AAGCTGCAGG CTAAGAGAGC CGACTTCCTT
    ACAGTCATGC TTACAGGAAG CCTTCACCAG CGCCGGGCCT TCACAGCCAC ACCGCCTGAG
    ACACAAGATG AGGGGCCAAG AGATGATGAC GTCACAAAGA GCGAATCAAG CAGCGGAGCA
    AGTGAAAAGA GTACTGAACG TAGTCAAGAT GGGGCTCCAT CTACCTTGGT TGCCGATGAT
    CCACAAAAAG AGTCAAAAGA ACCAGGTTCG GTTGCTGATG TAGATCCTGA CCAAGAAGAT
    GTCTCAAACA CCCTTGTTTT GTTTTCACCA GGAGACACGA AGAAGTCACC AAATGCTATA
    ATCAGGGCTG AAGTTGATCA GGGTGTGGGG AGTTTTGATG CCCCTCAAAA TGAAAATCAA
    GGTCAATCAG AGGTCCAGAA ACAAGAGGAC ATCAAGCAAG CAGAGAGACC TATAGATGGA
    AGGCAAGCCG ATGTAACTGG GTTTGACCCA TTCATACAGT CATCTAAACC AGTGGTAACA
    ATCTCAACAA CTCCAGTGGC CTCTGCCTCA ATTGCATCAC CCCTTTTCTC CAAAGTGGAG
    CAAACTTTTG TACACATTGC AGAGACAACC CATCTGAATG TTATGTCTTC CAGTAGTGGA
    CAGGTTCTGG AAGTTTTACA GGAGGTTGAA GGCAAATTAC AGTCCAAACT GACAAAAGAC
    AAACCAGAGC CAGGAGGAGG TGCAGCTTGT GTCCAGTCTG AAGTCATCTC TCAGATTCTT
    ACAGAGGAAT CTCAGGTACC TAATGTCCTA GATGGGTCTT TGCCAAATGA ATCAACTGTA
    AAGCAAGAAA ATCCTACGGA TCCTCTATGT GTACAGTCTA TGGAACCCAT CATTCAAGAT
    TCAACAATTG ACTCCAATCA GGACGAAAAA CCAAAAGAAG AAATTCAAGA GGGGAGCACA
    GTACCTGATA TTGTTTCTAA ACCTCCAAGG CCAAGAAGCA GAAGTCGGAT TCCTATTCTA
    GTCCCGGAAG AGGAGCCAGG ATCTGAGAAA TCCCTGTCCA CCAAAGAACG AATGCGTAGA
    AGAGTCATGC AGCAAGACCT GGCCCGTCAA GTTGTGGAAA GACATCGTCA GGGTCGCTGG
    ATAAGACTGA ATTCCAGGAC ATCATCTTCG TTATCTTCTG GAGATGAGCC CAAGAGACCT
    TCAGAGACTC TTTCTACTAC AGGCTCGGAA GAAGATGTTC TTGAATCTGA TGATTCCCTA
    AACAAGCTCA AGAAGGAGGC TGAGGAAAAG CACCAAACTG GCTGGCACAG CAGGATCCCT
    CGACCAGTCA CCCCAATAAG GAAGCCTTCG ACTAAACTAG TTGTTGCACC TCCTTTGAGC
    CAACCTGAAG CTGCAAAATT AGAACAAAAA GCAAGCAATG GCCCAAAAGT ACAGTCACAA
    TCAGGATCAA GTGCTCCAGC ATTTCATGCA AGATCAAAAT CAACTCTGTC CCATTCGACC
    ATGCCAAGTG GAAGCAATTG CATGCCTCTC TCCTGTATTC CTGCAGCATC CCGCCGCAGC
    TTAAGCACCG CAAACTGCAC TTTCTCTTCA GCCCGTATAG CTAGTCCCTC GCCCCATAGG
    CTACACTTGC GAACTGCTGT TATTGAATCC CGCAAGCAAC CGTTTGCCCT CCGAACCACT
    GTGGAGCTCC CATTGAAGTC TAGGACTACT ACTTGCAGCA ATCCTGCAAA GGACACCAAA
    CCATCACCAA ACAAAGCCAC CAACACAACT GTCAGGAATC GAACCAAAGC TTCTACTCAA
    TCAAAAAACA CAGTTCCCGC TAAAAAGGAA AAAAGCACAA GCAACAATGC AGCTGCAGCC
    AGATAA

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

    CloneID ODa49573
    Clone ID Related Accession (Same CDS sequence) XM_009306130.3 , XM_009306130.2
    Accession Version XM_009306130.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3897bp)
    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 tau-tubulin kinase 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007122.7) 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_009306130.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGATAAATG GCTCATTTAA GCTGGGCGCT GCCAGAGTGC TCTCAGGGTT GCAGTGCCTA 
    GCGCCAGCTC TGCAGGACAA CGCCAACATG AACGGCACTG CAGAGCAGCA GGACATTCTG
    CCCCCTCATT GCATGGTCAA AGATCGATGG AAAGTGCTGA AGAAGATCGG AGGAGGAGGG
    TTTGGGGAAA TCTACGAGGC GCTGGACCTG CTGACTCGAG AGAATGTGGC GTTAAAAGTG
    GAGTCAGCGC AACAGCCCAA ACAAGTCCTG AAGATGGAGG TAGCAGTTTT GAAGAAACTG
    CAGGGTAAAA ACCACGTATG TAAGTTCATA GGCTGTGGGC GAAACGATAA ATTCAACTAT
    GTCGTCATGC AGCTGCAGGG CAGAAACCTG GCAGATCTCA GGCGAAGTCA GCCTCGCGGC
    ACCTTTACCA TGAGCACAAC CCTCCGCTTG GGAAAACAGA TCCTCGAATC CATAGAAGCC
    ATTCACTCCG TTGGCTTTCT CCATCGAGAC ATCAAACCGT CAAATTTTGC CATGGGAAGG
    CTGCCTTCAA CATTCCGGAA ATGTTATATG CTAGATTTTG GGCTCGCAAG ACAGTATACA
    AACACCAATG GAGAAGTCAG ACCGCCTAGA ACTGTTGCAG GATTTCGAGG GACTGTTAGA
    TATGCATCTG TGAATGCACA TAAAAACAAA GAAATGGGTC GCCATGATGA CTTATGGTCA
    TTGTTTTACA TGCTGGTTGA GTTTGCTGCT GGGCAGCTGC CATGGAGGAA AATCAAGGAC
    AAGGAGCAAG TGGGTCAGAT TAAGGAGCGC TACGATCATA GGATGCTTCT TAAACACATG
    CCGTCAGAGT TTAATGTCTT CCTGGAGCAT GTTTTAGCCC TTGACTACTA TACCAAACCA
    GACTATCAGC TCCTGATGTC AGTGTTCGAG AACAGCATGA AGGAACGCAT CATCACTGAA
    AACGAGCCCT ATGATTGGGA GAAAAGTGGG ACGGAGACTA TTATCTCTGC TACCACACCG
    ACAGCAGCTC AGCAGAACAC GAGACCCACA GCCGCGATGG TCGGGGTTAT AAATGTGACC
    CCGATGCCAG GTGACCTTCC AAGGGAAAAC ACAGATGATG TTGTACAGGA TGAGCACCTT
    AGTGACCAGG AAAACGCCCC TCCAATTCCC TCTGGACGGC CAGTTGATGG CAGCCAGATG
    CCCACAGATG CAGACGGATG GGAGGAGACA GACTTCAACC GCAACAAACT CAGGATTAAC
    CTTGGAAAGG GAGGTCAAGA AGAGGACGGT AGCCGGGGTG TGTGTCCTGT TTCGCCACAA
    AGGGGAGGTT TGGACTCTCC AGGGATGCAG GTTCACTCGA TCAGGTACCG ACGGGTCAAC
    AGTCCTGAAT CTGATCGCAT GTCTGCTGCT GATGGACGGG ACGGTTACGG CCAACGCTCT
    CGAATGGACA TTCTGGGTTC TCCATCTCGT CACGTTTACT CCTCTCAGCC CGCTCAGATG
    CTCTCGGTGG ACGGTTGCAG AGGCCGTAAT GAAGCCTCTG CATCGGTGGA CCAGGAAGCC
    CACAGCAATG CCTTCATCCG CTCAGTCCCG CTCGCAGAAG AAGAGGACTT CGACAGCAAA
    GAGTGGGTGA TCATAGACAA GGAAATGGAG CTCAGAGACT TCCACCACCT TCCAGGAGCC
    GAACCTACCA CTTCCGGCAC GACGGATGAG GAGCCGGAGG AATTACGCCC TCTGGAGGAA
    GGAGATGATC GGAGGAGACA CAGAGGGAAC GATCCATCCG TCAGAACCAA AACGTCCCAT
    GGAGAACGGA CTACACGAGG GATGCTACCA CTGACGGAGG AAGAGACATC CAGGAGGAGT
    GGGAAAGGCC AGTCCACGTC AATGGAGAGC CCTGCGCAGT CACCCTGTCA CTCGCTGCCC
    TCCGGACGGC CCCGGCGGAG AGATGCAGAT AACAACGGAC CTCAGAGACA GGCCCCAACC
    CCAAGTGAGC CTCTATTATC ACCCACTGAC TACAGGACTA AATCCCCATC CTCTGAGAAG
    GAGATGTTCC ATATACTTCC AAAGCTGCAG GCTAAGAGAG CCGACTTCCT TACAGTCATG
    CTTACAGGAA GCCTTCACCA GCGCCGGGCC TTCACAGCCA CACCGCCTGA GACACAAGAT
    GAGGGGCCAA GAGATGATGA CGTCACAAAG AGCGAATCAA GCAGCGGAGC AAGTGAAAAG
    AGTACTGAAC GTAGTCAAGA TGGGGCTCCA TCTACCTTGG TTGCCGATGA TCCACAAAAA
    GAGTCAAAAG AACCAGGTTC GGTTGCTGAT GTAGATCCTG ACCAAGAAGA TGTCTCAAAC
    ACCCTTGTTT TGTTTTCACC AGGAGACACG AAGAAGTCAC CAAATGCTAT AATCAGGGCT
    GAAGTTGATC AGGGTGTGGG GAGTTTTGAT GCCCCTCAAA ATGAAAATCA AGGTCAATCA
    GAGGTCCAGA AACAAGAGGA CATCAAGCAA GCAGAGAGAC CTATAGATGG AAGGCAAGCC
    GATGTAACTG GGTTTGACCC ATTCATACAG TCATCTAAAC CAGTGGTAAC AATCTCAACA
    ACTCCAGTGG CCTCTGCCTC AATTGCATCA CCCCTTTTCT CCAAAGTGGA GCAAACTTTT
    GTACACATTG CAGAGACAAC CCATCTGAAT GTTATGTCTT CCAGTAGTGG ACAGGTTCTG
    GAAGTTTTAC AGGAGGTTGA AGGCAAATTA CAGTCCAAAC TGACAAAAGA CAAACCAGAG
    CCAGGAGGAG GTGCAGCTTG TGTCCAGTCT GAAGTCATCT CTCAGATTCT TACAGAGGAA
    TCTCAGGTAC CTAATGTCCT AGATGGGTCT TTGCCAAATG AATCAACTGT AAAGCAAGAA
    AATCCTACGG ATCCTCTATG TGTACAGTCT ATGGAACCCA TCATTCAAGA TTCAACAATT
    GACTCCAATC AGGACGAAAA ACCAAAAGAA GAAATTCAAG AGGGGAGCAC AGTACCTGAT
    ATTGTTTCTA AACCTCCAAG GCCAAGAAGC AGAAGTCGGA TTCCTATTCT AGTCCCGGAA
    GAGGAGCCAG GATCTGAGAA ATCCCTGTCC ACCAAAGAAC GAATGCGTAG AAGAGTCATG
    CAGCAAGACC TGGCCCGTCA AGTTGTGGAA AGACATCGTC AGGGTCGCTG GATAAGACTG
    AATTCCAGGA CATCATCTTC GTTATCTTCT GGAGATGAGC CCAAGAGACC TTCAGAGACT
    CTTTCTACTA CAGGCTCGGA AGAAGATGTT CTTGAATCTG ATGATTCCCT AAACAAGCTC
    AAGAAGGAGG CTGAGGAAAA GCACCAAACT GGCTGGCACA GCAGGATCCC TCGACCAGTC
    ACCCCAATAA GGAAGCCTTC GACTAAACTA GTTGTTGCAC CTCCTTTGAG CCAACCTGAA
    GCTGCAAAAT TAGAACAAAA AGCAAGCAAT GGCCCAAAAG TACAGTCACA ATCAGGATCA
    AGTGCTCCAG CATTTCATGC AAGATCAAAA TCAACTCTGT CCCATTCGAC CATGCCAAGT
    GGAAGCAATT GCATGCCTCT CTCCTGTATT CCTGCAGCAT CCCGCCGCAG CTTAAGCACC
    GCAAACTGCA CTTTCTCTTC AGCCCGTATA GCTAGTCCCT CGCCCCATAG GCTACACTTG
    CGAACTGCTG TTATTGAATC CCGCAAGCAA CCGTTTGCCC TCCGAACCAC TGTGGAGCTC
    CCATTGAAGT CTAGGACTAC TACTTGCAGC AATCCTGCAA AGGACACCAA ACCATCACCA
    AACAAAGCCA CCAACACAAC TGTCAGGAAT CGAACCAAAG CTTCTACTCA ATCAAAAAAC
    ACAGTTCCCG CTAAAAAGGA AAAAAGCACA AGCAACAATG CAGCTGCAGC CAGATAA

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

    RefSeq XP_009304405.1
    CDS109..4005
    Translation

    Target ORF information:

    RefSeq Version XM_009306130.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio tau tubulin kinase 1a (ttbk1a), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009306130.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGATAAATG GCTCATTTAA GCTGGGCGCT GCCAGAGTGC TCTCAGGGTT GCAGTGCCTA 
    GCGCCAGCTC TGCAGGACAA CGCCAACATG AACGGCACTG CAGAGCAGCA GGACATTCTG
    CCCCCTCATT GCATGGTCAA AGATCGATGG AAAGTGCTGA AGAAGATCGG AGGAGGAGGG
    TTTGGGGAAA TCTACGAGGC GCTGGACCTG CTGACTCGAG AGAATGTGGC GTTAAAAGTG
    GAGTCAGCGC AACAGCCCAA ACAAGTCCTG AAGATGGAGG TAGCAGTTTT GAAGAAACTG
    CAGGGTAAAA ACCACGTATG TAAGTTCATA GGCTGTGGGC GAAACGATAA ATTCAACTAT
    GTCGTCATGC AGCTGCAGGG CAGAAACCTG GCAGATCTCA GGCGAAGTCA GCCTCGCGGC
    ACCTTTACCA TGAGCACAAC CCTCCGCTTG GGAAAACAGA TCCTCGAATC CATAGAAGCC
    ATTCACTCCG TTGGCTTTCT CCATCGAGAC ATCAAACCGT CAAATTTTGC CATGGGAAGG
    CTGCCTTCAA CATTCCGGAA ATGTTATATG CTAGATTTTG GGCTCGCAAG ACAGTATACA
    AACACCAATG GAGAAGTCAG ACCGCCTAGA ACTGTTGCAG GATTTCGAGG GACTGTTAGA
    TATGCATCTG TGAATGCACA TAAAAACAAA GAAATGGGTC GCCATGATGA CTTATGGTCA
    TTGTTTTACA TGCTGGTTGA GTTTGCTGCT GGGCAGCTGC CATGGAGGAA AATCAAGGAC
    AAGGAGCAAG TGGGTCAGAT TAAGGAGCGC TACGATCATA GGATGCTTCT TAAACACATG
    CCGTCAGAGT TTAATGTCTT CCTGGAGCAT GTTTTAGCCC TTGACTACTA TACCAAACCA
    GACTATCAGC TCCTGATGTC AGTGTTCGAG AACAGCATGA AGGAACGCAT CATCACTGAA
    AACGAGCCCT ATGATTGGGA GAAAAGTGGG ACGGAGACTA TTATCTCTGC TACCACACCG
    ACAGCAGCTC AGCAGAACAC GAGACCCACA GCCGCGATGG TCGGGGTTAT AAATGTGACC
    CCGATGCCAG GTGACCTTCC AAGGGAAAAC ACAGATGATG TTGTACAGGA TGAGCACCTT
    AGTGACCAGG AAAACGCCCC TCCAATTCCC TCTGGACGGC CAGTTGATGG CAGCCAGATG
    CCCACAGATG CAGACGGATG GGAGGAGACA GACTTCAACC GCAACAAACT CAGGATTAAC
    CTTGGAAAGG GAGGTCAAGA AGAGGACGGT AGCCGGGGTG TGTGTCCTGT TTCGCCACAA
    AGGGGAGGTT TGGACTCTCC AGGGATGCAG GTTCACTCGA TCAGGTACCG ACGGGTCAAC
    AGTCCTGAAT CTGATCGCAT GTCTGCTGCT GATGGACGGG ACGGTTACGG CCAACGCTCT
    CGAATGGACA TTCTGGGTTC TCCATCTCGT CACGTTTACT CCTCTCAGCC CGCTCAGATG
    CTCTCGGTGG ACGGTTGCAG AGGCCGTAAT GAAGCCTCTG CATCGGTGGA CCAGGAAGCC
    CACAGCAATG CCTTCATCCG CTCAGTCCCG CTCGCAGAAG AAGAGGACTT CGACAGCAAA
    GAGTGGGTGA TCATAGACAA GGAAATGGAG CTCAGAGACT TCCACCACCT TCCAGGAGCC
    GAACCTACCA CTTCCGGCAC GACGGATGAG GAGCCGGAGG AATTACGCCC TCTGGAGGAA
    GGAGATGATC GGAGGAGACA CAGAGGGAAC GATCCATCCG TCAGAACCAA AACGTCCCAT
    GGAGAACGGA CTACACGAGG GATGCTACCA CTGACGGAGG AAGAGACATC CAGGAGGAGT
    GGGAAAGGCC AGTCCACGTC AATGGAGAGC CCTGCGCAGT CACCCTGTCA CTCGCTGCCC
    TCCGGACGGC CCCGGCGGAG AGATGCAGAT AACAACGGAC CTCAGAGACA GGCCCCAACC
    CCAAGTGAGC CTCTATTATC ACCCACTGAC TACAGGACTA AATCCCCATC CTCTGAGAAG
    GAGATGTTCC ATATACTTCC AAAGCTGCAG GCTAAGAGAG CCGACTTCCT TACAGTCATG
    CTTACAGGAA GCCTTCACCA GCGCCGGGCC TTCACAGCCA CACCGCCTGA GACACAAGAT
    GAGGGGCCAA GAGATGATGA CGTCACAAAG AGCGAATCAA GCAGCGGAGC AAGTGAAAAG
    AGTACTGAAC GTAGTCAAGA TGGGGCTCCA TCTACCTTGG TTGCCGATGA TCCACAAAAA
    GAGTCAAAAG AACCAGGTTC GGTTGCTGAT GTAGATCCTG ACCAAGAAGA TGTCTCAAAC
    ACCCTTGTTT TGTTTTCACC AGGAGACACG AAGAAGTCAC CAAATGCTAT AATCAGGGCT
    GAAGTTGATC AGGGTGTGGG GAGTTTTGAT GCCCCTCAAA ATGAAAATCA AGGTCAATCA
    GAGGTCCAGA AACAAGAGGA CATCAAGCAA GCAGAGAGAC CTATAGATGG AAGGCAAGCC
    GATGTAACTG GGTTTGACCC ATTCATACAG TCATCTAAAC CAGTGGTAAC AATCTCAACA
    ACTCCAGTGG CCTCTGCCTC AATTGCATCA CCCCTTTTCT CCAAAGTGGA GCAAACTTTT
    GTACACATTG CAGAGACAAC CCATCTGAAT GTTATGTCTT CCAGTAGTGG ACAGGTTCTG
    GAAGTTTTAC AGGAGGTTGA AGGCAAATTA CAGTCCAAAC TGACAAAAGA CAAACCAGAG
    CCAGGAGGAG GTGCAGCTTG TGTCCAGTCT GAAGTCATCT CTCAGATTCT TACAGAGGAA
    TCTCAGGTAC CTAATGTCCT AGATGGGTCT TTGCCAAATG AATCAACTGT AAAGCAAGAA
    AATCCTACGG ATCCTCTATG TGTACAGTCT ATGGAACCCA TCATTCAAGA TTCAACAATT
    GACTCCAATC AGGACGAAAA ACCAAAAGAA GAAATTCAAG AGGGGAGCAC AGTACCTGAT
    ATTGTTTCTA AACCTCCAAG GCCAAGAAGC AGAAGTCGGA TTCCTATTCT AGTCCCGGAA
    GAGGAGCCAG GATCTGAGAA ATCCCTGTCC ACCAAAGAAC GAATGCGTAG AAGAGTCATG
    CAGCAAGACC TGGCCCGTCA AGTTGTGGAA AGACATCGTC AGGGTCGCTG GATAAGACTG
    AATTCCAGGA CATCATCTTC GTTATCTTCT GGAGATGAGC CCAAGAGACC TTCAGAGACT
    CTTTCTACTA CAGGCTCGGA AGAAGATGTT CTTGAATCTG ATGATTCCCT AAACAAGCTC
    AAGAAGGAGG CTGAGGAAAA GCACCAAACT GGCTGGCACA GCAGGATCCC TCGACCAGTC
    ACCCCAATAA GGAAGCCTTC GACTAAACTA GTTGTTGCAC CTCCTTTGAG CCAACCTGAA
    GCTGCAAAAT TAGAACAAAA AGCAAGCAAT GGCCCAAAAG TACAGTCACA ATCAGGATCA
    AGTGCTCCAG CATTTCATGC AAGATCAAAA TCAACTCTGT CCCATTCGAC CATGCCAAGT
    GGAAGCAATT GCATGCCTCT CTCCTGTATT CCTGCAGCAT CCCGCCGCAG CTTAAGCACC
    GCAAACTGCA CTTTCTCTTC AGCCCGTATA GCTAGTCCCT CGCCCCATAG GCTACACTTG
    CGAACTGCTG TTATTGAATC CCGCAAGCAA CCGTTTGCCC TCCGAACCAC TGTGGAGCTC
    CCATTGAAGT CTAGGACTAC TACTTGCAGC AATCCTGCAA AGGACACCAA ACCATCACCA
    AACAAAGCCA CCAACACAAC TGTCAGGAAT CGAACCAAAG CTTCTACTCA ATCAAAAAAC
    ACAGTTCCCG CTAAAAAGGA AAAAAGCACA AGCAACAATG CAGCTGCAGC CAGATAA

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

    CloneID ODa49573
    Clone ID Related Accession (Same CDS sequence) XM_009306130.3 , XM_009306130.2
    Accession Version XM_009306130.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3897bp)
    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 tau-tubulin kinase 1 isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007122.6) 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_009306130.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGATAAATG GCTCATTTAA GCTGGGCGCT GCCAGAGTGC TCTCAGGGTT GCAGTGCCTA 
    GCGCCAGCTC TGCAGGACAA CGCCAACATG AACGGCACTG CAGAGCAGCA GGACATTCTG
    CCCCCTCATT GCATGGTCAA AGATCGATGG AAAGTGCTGA AGAAGATCGG AGGAGGAGGG
    TTTGGGGAAA TCTACGAGGC GCTGGACCTG CTGACTCGAG AGAATGTGGC GTTAAAAGTG
    GAGTCAGCGC AACAGCCCAA ACAAGTCCTG AAGATGGAGG TAGCAGTTTT GAAGAAACTG
    CAGGGTAAAA ACCACGTATG TAAGTTCATA GGCTGTGGGC GAAACGATAA ATTCAACTAT
    GTCGTCATGC AGCTGCAGGG CAGAAACCTG GCAGATCTCA GGCGAAGTCA GCCTCGCGGC
    ACCTTTACCA TGAGCACAAC CCTCCGCTTG GGAAAACAGA TCCTCGAATC CATAGAAGCC
    ATTCACTCCG TTGGCTTTCT CCATCGAGAC ATCAAACCGT CAAATTTTGC CATGGGAAGG
    CTGCCTTCAA CATTCCGGAA ATGTTATATG CTAGATTTTG GGCTCGCAAG ACAGTATACA
    AACACCAATG GAGAAGTCAG ACCGCCTAGA ACTGTTGCAG GATTTCGAGG GACTGTTAGA
    TATGCATCTG TGAATGCACA TAAAAACAAA GAAATGGGTC GCCATGATGA CTTATGGTCA
    TTGTTTTACA TGCTGGTTGA GTTTGCTGCT GGGCAGCTGC CATGGAGGAA AATCAAGGAC
    AAGGAGCAAG TGGGTCAGAT TAAGGAGCGC TACGATCATA GGATGCTTCT TAAACACATG
    CCGTCAGAGT TTAATGTCTT CCTGGAGCAT GTTTTAGCCC TTGACTACTA TACCAAACCA
    GACTATCAGC TCCTGATGTC AGTGTTCGAG AACAGCATGA AGGAACGCAT CATCACTGAA
    AACGAGCCCT ATGATTGGGA GAAAAGTGGG ACGGAGACTA TTATCTCTGC TACCACACCG
    ACAGCAGCTC AGCAGAACAC GAGACCCACA GCCGCGATGG TCGGGGTTAT AAATGTGACC
    CCGATGCCAG GTGACCTTCC AAGGGAAAAC ACAGATGATG TTGTACAGGA TGAGCACCTT
    AGTGACCAGG AAAACGCCCC TCCAATTCCC TCTGGACGGC CAGTTGATGG CAGCCAGATG
    CCCACAGATG CAGACGGATG GGAGGAGACA GACTTCAACC GCAACAAACT CAGGATTAAC
    CTTGGAAAGG GAGGTCAAGA AGAGGACGGT AGCCGGGGTG TGTGTCCTGT TTCGCCACAA
    AGGGGAGGTT TGGACTCTCC AGGGATGCAG GTTCACTCGA TCAGGTACCG ACGGGTCAAC
    AGTCCTGAAT CTGATCGCAT GTCTGCTGCT GATGGACGGG ACGGTTACGG CCAACGCTCT
    CGAATGGACA TTCTGGGTTC TCCATCTCGT CACGTTTACT CCTCTCAGCC CGCTCAGATG
    CTCTCGGTGG ACGGTTGCAG AGGCCGTAAT GAAGCCTCTG CATCGGTGGA CCAGGAAGCC
    CACAGCAATG CCTTCATCCG CTCAGTCCCG CTCGCAGAAG AAGAGGACTT CGACAGCAAA
    GAGTGGGTGA TCATAGACAA GGAAATGGAG CTCAGAGACT TCCACCACCT TCCAGGAGCC
    GAACCTACCA CTTCCGGCAC GACGGATGAG GAGCCGGAGG AATTACGCCC TCTGGAGGAA
    GGAGATGATC GGAGGAGACA CAGAGGGAAC GATCCATCCG TCAGAACCAA AACGTCCCAT
    GGAGAACGGA CTACACGAGG GATGCTACCA CTGACGGAGG AAGAGACATC CAGGAGGAGT
    GGGAAAGGCC AGTCCACGTC AATGGAGAGC CCTGCGCAGT CACCCTGTCA CTCGCTGCCC
    TCCGGACGGC CCCGGCGGAG AGATGCAGAT AACAACGGAC CTCAGAGACA GGCCCCAACC
    CCAAGTGAGC CTCTATTATC ACCCACTGAC TACAGGACTA AATCCCCATC CTCTGAGAAG
    GAGATGTTCC ATATACTTCC AAAGCTGCAG GCTAAGAGAG CCGACTTCCT TACAGTCATG
    CTTACAGGAA GCCTTCACCA GCGCCGGGCC TTCACAGCCA CACCGCCTGA GACACAAGAT
    GAGGGGCCAA GAGATGATGA CGTCACAAAG AGCGAATCAA GCAGCGGAGC AAGTGAAAAG
    AGTACTGAAC GTAGTCAAGA TGGGGCTCCA TCTACCTTGG TTGCCGATGA TCCACAAAAA
    GAGTCAAAAG AACCAGGTTC GGTTGCTGAT GTAGATCCTG ACCAAGAAGA TGTCTCAAAC
    ACCCTTGTTT TGTTTTCACC AGGAGACACG AAGAAGTCAC CAAATGCTAT AATCAGGGCT
    GAAGTTGATC AGGGTGTGGG GAGTTTTGAT GCCCCTCAAA ATGAAAATCA AGGTCAATCA
    GAGGTCCAGA AACAAGAGGA CATCAAGCAA GCAGAGAGAC CTATAGATGG AAGGCAAGCC
    GATGTAACTG GGTTTGACCC ATTCATACAG TCATCTAAAC CAGTGGTAAC AATCTCAACA
    ACTCCAGTGG CCTCTGCCTC AATTGCATCA CCCCTTTTCT CCAAAGTGGA GCAAACTTTT
    GTACACATTG CAGAGACAAC CCATCTGAAT GTTATGTCTT CCAGTAGTGG ACAGGTTCTG
    GAAGTTTTAC AGGAGGTTGA AGGCAAATTA CAGTCCAAAC TGACAAAAGA CAAACCAGAG
    CCAGGAGGAG GTGCAGCTTG TGTCCAGTCT GAAGTCATCT CTCAGATTCT TACAGAGGAA
    TCTCAGGTAC CTAATGTCCT AGATGGGTCT TTGCCAAATG AATCAACTGT AAAGCAAGAA
    AATCCTACGG ATCCTCTATG TGTACAGTCT ATGGAACCCA TCATTCAAGA TTCAACAATT
    GACTCCAATC AGGACGAAAA ACCAAAAGAA GAAATTCAAG AGGGGAGCAC AGTACCTGAT
    ATTGTTTCTA AACCTCCAAG GCCAAGAAGC AGAAGTCGGA TTCCTATTCT AGTCCCGGAA
    GAGGAGCCAG GATCTGAGAA ATCCCTGTCC ACCAAAGAAC GAATGCGTAG AAGAGTCATG
    CAGCAAGACC TGGCCCGTCA AGTTGTGGAA AGACATCGTC AGGGTCGCTG GATAAGACTG
    AATTCCAGGA CATCATCTTC GTTATCTTCT GGAGATGAGC CCAAGAGACC TTCAGAGACT
    CTTTCTACTA CAGGCTCGGA AGAAGATGTT CTTGAATCTG ATGATTCCCT AAACAAGCTC
    AAGAAGGAGG CTGAGGAAAA GCACCAAACT GGCTGGCACA GCAGGATCCC TCGACCAGTC
    ACCCCAATAA GGAAGCCTTC GACTAAACTA GTTGTTGCAC CTCCTTTGAG CCAACCTGAA
    GCTGCAAAAT TAGAACAAAA AGCAAGCAAT GGCCCAAAAG TACAGTCACA ATCAGGATCA
    AGTGCTCCAG CATTTCATGC AAGATCAAAA TCAACTCTGT CCCATTCGAC CATGCCAAGT
    GGAAGCAATT GCATGCCTCT CTCCTGTATT CCTGCAGCAT CCCGCCGCAG CTTAAGCACC
    GCAAACTGCA CTTTCTCTTC AGCCCGTATA GCTAGTCCCT CGCCCCATAG GCTACACTTG
    CGAACTGCTG TTATTGAATC CCGCAAGCAA CCGTTTGCCC TCCGAACCAC TGTGGAGCTC
    CCATTGAAGT CTAGGACTAC TACTTGCAGC AATCCTGCAA AGGACACCAA ACCATCACCA
    AACAAAGCCA CCAACACAAC TGTCAGGAAT CGAACCAAAG CTTCTACTCA ATCAAAAAAC
    ACAGTTCCCG CTAAAAAGGA AAAAAGCACA AGCAACAATG CAGCTGCAGC CAGATAA

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

    RefSeq XP_009304405.1
    CDS332..4228
    Translation

    Target ORF information:

    RefSeq Version XM_009306130.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio tau tubulin kinase 1a (ttbk1a), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009306130.2

    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
    ATGATAAATG GCTCATTTAA GCTGGGCGCT GCCAGAGTGC TCTCAGGGTT GCAGTGCCTA 
    GCGCCAGCTC TGCAGGACAA CGCCAACATG AACGGCACTG CAGAGCAGCA GGACATTCTG
    CCCCCTCATT GCATGGTCAA AGATCGATGG AAAGTGCTGA AGAAGATCGG AGGAGGAGGG
    TTTGGGGAAA TCTACGAGGC GCTGGACCTG CTGACTCGAG AGAATGTGGC GTTAAAAGTG
    GAGTCAGCGC AACAGCCCAA ACAAGTCCTG AAGATGGAGG TAGCAGTTTT GAAGAAACTG
    CAGGGTAAAA ACCACGTATG TAAGTTCATA GGCTGTGGGC GAAACGATAA ATTCAACTAT
    GTCGTCATGC AGCTGCAGGG CAGAAACCTG GCAGATCTCA GGCGAAGTCA GCCTCGCGGC
    ACCTTTACCA TGAGCACAAC CCTCCGCTTG GGAAAACAGA TCCTCGAATC CATAGAAGCC
    ATTCACTCCG TTGGCTTTCT CCATCGAGAC ATCAAACCGT CAAATTTTGC CATGGGAAGG
    CTGCCTTCAA CATTCCGGAA ATGTTATATG CTAGATTTTG GGCTCGCAAG ACAGTATACA
    AACACCAATG GAGAAGTCAG ACCGCCTAGA ACTGTTGCAG GATTTCGAGG GACTGTTAGA
    TATGCATCTG TGAATGCACA TAAAAACAAA GAAATGGGTC GCCATGATGA CTTATGGTCA
    TTGTTTTACA TGCTGGTTGA GTTTGCTGCT GGGCAGCTGC CATGGAGGAA AATCAAGGAC
    AAGGAGCAAG TGGGTCAGAT TAAGGAGCGC TACGATCATA GGATGCTTCT TAAACACATG
    CCGTCAGAGT TTAATGTCTT CCTGGAGCAT GTTTTAGCCC TTGACTACTA TACCAAACCA
    GACTATCAGC TCCTGATGTC AGTGTTCGAG AACAGCATGA AGGAACGCAT CATCACTGAA
    AACGAGCCCT ATGATTGGGA GAAAAGTGGG ACGGAGACTA TTATCTCTGC TACCACACCG
    ACAGCAGCTC AGCAGAACAC GAGACCCACA GCCGCGATGG TCGGGGTTAT AAATGTGACC
    CCGATGCCAG GTGACCTTCC AAGGGAAAAC ACAGATGATG TTGTACAGGA TGAGCACCTT
    AGTGACCAGG AAAACGCCCC TCCAATTCCC TCTGGACGGC CAGTTGATGG CAGCCAGATG
    CCCACAGATG CAGACGGATG GGAGGAGACA GACTTCAACC GCAACAAACT CAGGATTAAC
    CTTGGAAAGG GAGGTCAAGA AGAGGACGGT AGCCGGGGTG TGTGTCCTGT TTCGCCACAA
    AGGGGAGGTT TGGACTCTCC AGGGATGCAG GTTCACTCGA TCAGGTACCG ACGGGTCAAC
    AGTCCTGAAT CTGATCGCAT GTCTGCTGCT GATGGACGGG ACGGTTACGG CCAACGCTCT
    CGAATGGACA TTCTGGGTTC TCCATCTCGT CACGTTTACT CCTCTCAGCC CGCTCAGATG
    CTCTCGGTGG ACGGTTGCAG AGGCCGTAAT GAAGCCTCTG CATCGGTGGA CCAGGAAGCC
    CACAGCAATG CCTTCATCCG CTCAGTCCCG CTCGCAGAAG AAGAGGACTT CGACAGCAAA
    GAGTGGGTGA TCATAGACAA GGAAATGGAG CTCAGAGACT TCCACCACCT TCCAGGAGCC
    GAACCTACCA CTTCCGGCAC GACGGATGAG GAGCCGGAGG AATTACGCCC TCTGGAGGAA
    GGAGATGATC GGAGGAGACA CAGAGGGAAC GATCCATCCG TCAGAACCAA AACGTCCCAT
    GGAGAACGGA CTACACGAGG GATGCTACCA CTGACGGAGG AAGAGACATC CAGGAGGAGT
    GGGAAAGGCC AGTCCACGTC AATGGAGAGC CCTGCGCAGT CACCCTGTCA CTCGCTGCCC
    TCCGGACGGC CCCGGCGGAG AGATGCAGAT AACAACGGAC CTCAGAGACA GGCCCCAACC
    CCAAGTGAGC CTCTATTATC ACCCACTGAC TACAGGACTA AATCCCCATC CTCTGAGAAG
    GAGATGTTCC ATATACTTCC AAAGCTGCAG GCTAAGAGAG CCGACTTCCT TACAGTCATG
    CTTACAGGAA GCCTTCACCA GCGCCGGGCC TTCACAGCCA CACCGCCTGA GACACAAGAT
    GAGGGGCCAA GAGATGATGA CGTCACAAAG AGCGAATCAA GCAGCGGAGC AAGTGAAAAG
    AGTACTGAAC GTAGTCAAGA TGGGGCTCCA TCTACCTTGG TTGCCGATGA TCCACAAAAA
    GAGTCAAAAG AACCAGGTTC GGTTGCTGAT GTAGATCCTG ACCAAGAAGA TGTCTCAAAC
    ACCCTTGTTT TGTTTTCACC AGGAGACACG AAGAAGTCAC CAAATGCTAT AATCAGGGCT
    GAAGTTGATC AGGGTGTGGG GAGTTTTGAT GCCCCTCAAA ATGAAAATCA AGGTCAATCA
    GAGGTCCAGA AACAAGAGGA CATCAAGCAA GCAGAGAGAC CTATAGATGG AAGGCAAGCC
    GATGTAACTG GGTTTGACCC ATTCATACAG TCATCTAAAC CAGTGGTAAC AATCTCAACA
    ACTCCAGTGG CCTCTGCCTC AATTGCATCA CCCCTTTTCT CCAAAGTGGA GCAAACTTTT
    GTACACATTG CAGAGACAAC CCATCTGAAT GTTATGTCTT CCAGTAGTGG ACAGGTTCTG
    GAAGTTTTAC AGGAGGTTGA AGGCAAATTA CAGTCCAAAC TGACAAAAGA CAAACCAGAG
    CCAGGAGGAG GTGCAGCTTG TGTCCAGTCT GAAGTCATCT CTCAGATTCT TACAGAGGAA
    TCTCAGGTAC CTAATGTCCT AGATGGGTCT TTGCCAAATG AATCAACTGT AAAGCAAGAA
    AATCCTACGG ATCCTCTATG TGTACAGTCT ATGGAACCCA TCATTCAAGA TTCAACAATT
    GACTCCAATC AGGACGAAAA ACCAAAAGAA GAAATTCAAG AGGGGAGCAC AGTACCTGAT
    ATTGTTTCTA AACCTCCAAG GCCAAGAAGC AGAAGTCGGA TTCCTATTCT AGTCCCGGAA
    GAGGAGCCAG GATCTGAGAA ATCCCTGTCC ACCAAAGAAC GAATGCGTAG AAGAGTCATG
    CAGCAAGACC TGGCCCGTCA AGTTGTGGAA AGACATCGTC AGGGTCGCTG GATAAGACTG
    AATTCCAGGA CATCATCTTC GTTATCTTCT GGAGATGAGC CCAAGAGACC TTCAGAGACT
    CTTTCTACTA CAGGCTCGGA AGAAGATGTT CTTGAATCTG ATGATTCCCT AAACAAGCTC
    AAGAAGGAGG CTGAGGAAAA GCACCAAACT GGCTGGCACA GCAGGATCCC TCGACCAGTC
    ACCCCAATAA GGAAGCCTTC GACTAAACTA GTTGTTGCAC CTCCTTTGAG CCAACCTGAA
    GCTGCAAAAT TAGAACAAAA AGCAAGCAAT GGCCCAAAAG TACAGTCACA ATCAGGATCA
    AGTGCTCCAG CATTTCATGC AAGATCAAAA TCAACTCTGT CCCATTCGAC CATGCCAAGT
    GGAAGCAATT GCATGCCTCT CTCCTGTATT CCTGCAGCAT CCCGCCGCAG CTTAAGCACC
    GCAAACTGCA CTTTCTCTTC AGCCCGTATA GCTAGTCCCT CGCCCCATAG GCTACACTTG
    CGAACTGCTG TTATTGAATC CCGCAAGCAA CCGTTTGCCC TCCGAACCAC TGTGGAGCTC
    CCATTGAAGT CTAGGACTAC TACTTGCAGC AATCCTGCAA AGGACACCAA ACCATCACCA
    AACAAAGCCA CCAACACAAC TGTCAGGAAT CGAACCAAAG CTTCTACTCA ATCAAAAAAC
    ACAGTTCCCG CTAAAAAGGA AAAAAGCACA AGCAACAATG CAGCTGCAGC CAGATAA

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

    CloneID ODa49574
    Clone ID Related Accession (Same CDS sequence) XM_009306132.3 , XM_009306132.2 , XM_009306131.3 , XM_009306131.2
    Accession Version XM_009306132.3 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 tau-tubulin kinase 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007122.7) 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_009306132.2. ##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
    ATGAACGGCA CTGCAGAGCA GCAGGACATT CTGCCCCCTC ATTGCATGGT CAAAGATCGA 
    TGGAAAGTGC TGAAGAAGAT CGGAGGAGGA GGGTTTGGGG AAATCTACGA GGCGCTGGAC
    CTGCTGACTC GAGAGAATGT GGCGTTAAAA GTGGAGTCAG CGCAACAGCC CAAACAAGTC
    CTGAAGATGG AGGTAGCAGT TTTGAAGAAA CTGCAGGGTA AAAACCACGT ATGTAAGTTC
    ATAGGCTGTG GGCGAAACGA TAAATTCAAC TATGTCGTCA TGCAGCTGCA GGGCAGAAAC
    CTGGCAGATC TCAGGCGAAG TCAGCCTCGC GGCACCTTTA CCATGAGCAC AACCCTCCGC
    TTGGGAAAAC AGATCCTCGA ATCCATAGAA GCCATTCACT CCGTTGGCTT TCTCCATCGA
    GACATCAAAC CGTCAAATTT TGCCATGGGA AGGCTGCCTT CAACATTCCG GAAATGTTAT
    ATGCTAGATT TTGGGCTCGC AAGACAGTAT ACAAACACCA ATGGAGAAGT CAGACCGACT
    TTCATTCCTA GAACTGTTGC AGGATTTCGA GGGACTGTTA GATATGCATC TGTGAATGCA
    CATAAAAACA AAGAAATGGG TCGCCATGAT GACTTATGGT CATTGTTTTA CATGCTGGTT
    GAGTTTGCTG CTGGGCAGCT GCCATGGAGG AAAATCAAGG ACAAGGAGCA AGTGGGTCAG
    ATTAAGGAGC GCTACGATCA TAGGATGCTT CTTAAACACA TGCCGTCAGA GTTTAATGTC
    TTCCTGGAGC ATGTTTTAGC CCTTGACTAC TATACCAAAC CAGACTATCA GCTCCTGATG
    TCAGTGTTCG AGAACAGCAT GAAGGAACGC ATCATCACTG AAAACGAGCC CTATGATTGG
    GAGAAAAGTG GGACGGAGAC TATTATCTCT GCTACCACAC CGACAGCAGC TCAGCAGAAC
    ACGAGACCCA CAGCCGCGAT GGTCGGGGTT ATAAATGTGA CCCCGATGCC AGGTGACCTT
    CCAAGGGAAA ACACAGATGA TGTTGTACAG GATGAGCACC TTAGTGACCA GGAAAACGCC
    CCTCCAATTC CCTCTGGACG GCCAGTTGAT GGCAGCCAGA TGCCCACAGA TGCAGACGGA
    TGGGAGGAGA CAGACTTCAA CCGCAACAAA CTCAGGATTA ACCTTGGAAA GGGAGGTCAA
    GAAGAGGACG GTAGCCGGGG TGTGTGTCCT GTTTCGCCAC AAAGGGGAGG TTTGGACTCT
    CCAGGGATGC AGGTTCACTC GATCAGGTAC CGACGGGTCA ACAGTCCTGA ATCTGATCGC
    ATGTCTGCTG CTGATGGACG GGACGGTTAC GGCCAACGCT CTCGAATGGA CATTCTGGGT
    TCTCCATCTC GTCACGTTTA CTCCTCTCAG CCCGCTCAGA TGCTCTCGGT GGACGGTTGC
    AGAGGCCGTA ATGAAGCCTC TGCATCGGTG GACCAGGAAG CCCACAGCAA TGCCTTCATC
    CGCTCAGTCC CGCTCGCAGA AGAAGAGGAC TTCGACAGCA AAGAGTGGGT GATCATAGAC
    AAGGAAATGG AGCTCAGAGA CTTCCACCAC CTTCCAGGAG CCGAACCTAC CACTTCCGGC
    ACGACGGATG AGGAGCCGGA GGAATTACGC CCTCTGGAGG AAGGAGATGA TCGGAGGAGA
    CACAGAGGGA ACGATCCATC CGTCAGAACC AAAACGTCCC ATGGAGAACG GACTACACGA
    GGGATGCTAC CACTGACGGA GGAAGAGACA TCCAGGAGGA GTGGGAAAGG CCAGTCCACG
    TCAATGGAGA GCCCTGCGCA GTCACCCTGT CACTCGCTGC CCTCCGGACG GCCCCGGCGG
    AGAGATGCAG ATAACAACGG ACCTCAGAGA CAGGCCCCAA CCCCAAGTGA GCCTCTATTA
    TCACCCACTG ACTACAGGAC TAAATCCCCA TCCTCTGAGA AGGAGATGTT CCATATACTT
    CCAAAGCTGC AGGCTAAGAG AGCCGACTTC CTTACAGTCA TGCTTACAGG AAGCCTTCAC
    CAGCGCCGGG CCTTCACAGC CACACCGCCT GAGACACAAG ATGAGGGGCC AAGAGATGAT
    GACGTCACAA AGAGCGAATC AAGCAGCGGA GCAAGTGAAA AGAGTACTGA ACGTAGTCAA
    GATGGGGCTC CATCTACCTT GGTTGCCGAT GATCCACAAA AAGAGTCAAA AGAACCAGGT
    TCGGTTGCTG ATGTAGATCC TGACCAAGAA GATGTCTCAA ACACCCTTGT TTTGTTTTCA
    CCAGGAGACA CGAAGAAGTC ACCAAATGCT ATAATCAGGG CTGAAGTTGA TCAGGGTGTG
    GGGAGTTTTG ATGCCCCTCA AAATGAAAAT CAAGGTCAAT CAGAGGTCCA GAAACAAGAG
    GACATCAAGC AAGCAGAGAG ACCTATAGAT GGAAGGCAAG CCGATGTAAC TGGGTTTGAC
    CCATTCATAC AGTCATCTAA ACCAGTGGTA ACAATCTCAA CAACTCCAGT GGCCTCTGCC
    TCAATTGCAT CACCCCTTTT CTCCAAAGTG GAGCAAACTT TTGTACACAT TGCAGAGACA
    ACCCATCTGA ATGTTATGTC TTCCAGTAGT GGACAGGTTC TGGAAGTTTT ACAGGAGGTT
    GAAGGCAAAT TACAGTCCAA ACTGACAAAA GACAAACCAG AGCCAGGAGG AGGTGCAGCT
    TGTGTCCAGT CTGAAGTCAT CTCTCAGATT CTTACAGAGG AATCTCAGGT ACCTAATGTC
    CTAGATGGGT CTTTGCCAAA TGAATCAACT GTAAAGCAAG AAAATCCTAC GGATCCTCTA
    TGTGTACAGT CTATGGAACC CATCATTCAA GATTCAACAA TTGACTCCAA TCAGGACGAA
    AAACCAAAAG AAGAAATTCA AGAGGGGAGC ACAGTACCTG ATATTGTTTC TAAACCTCCA
    AGGCCAAGAA GCAGAAGTCG GATTCCTATT CTAGTCCCGG AAGAGGAGCC AGGATCTGAG
    AAATCCCTGT CCACCAAAGA ACGAATGCGT AGAAGAGTCA TGCAGCAAGA CCTGGCCCGT
    CAAGTTGTGG AAAGACATCG TCAGGGTCGC TGGATAAGAC TGAATTCCAG GACATCATCT
    TCGTTATCTT CTGGAGATGA GCCCAAGAGA CCTTCAGAGA CTCTTTCTAC TACAGGCTCG
    GAAGAAGATG TTCTTGAATC TGATGATTCC CTAAACAAGC TCAAGAAGGA GGCTGAGGAA
    AAGCACCAAA CTGGCTGGCA CAGCAGGATC CCTCGACCAG TCACCCCAAT AAGGAAGCCT
    TCGACTAAAC TAGTTGTTGC ACCTCCTTTG AGCCAACCTG AAGCTGCAAA ATTAGAACAA
    AAAGCAAGCA ATGGCCCAAA AGTACAGTCA CAATCAGGAT CAAGTGCTCC AGCATTTCAT
    GCAAGATCAA AATCAACTCT GTCCCATTCG ACCATGCCAA GTGGAAGCAA TTGCATGCCT
    CTCTCCTGTA TTCCTGCAGC ATCCCGCCGC AGCTTAAGCA CCGCAAACTG CACTTTCTCT
    TCAGCCCGTA TAGCTAGTCC CTCGCCCCAT AGGCTACACT TGCGAACTGC TGTTATTGAA
    TCCCGCAAGC AACCGTTTGC CCTCCGAACC ACTGTGGAGC TCCCATTGAA GTCTAGGACT
    ACTACTTGCA GCAATCCTGC AAAGGACACC AAACCATCAC CAAACAAAGC CACCAACACA
    ACTGTCAGGA ATCGAACCAA AGCTTCTACT CAATCAAAAA ACACAGTTCC CGCTAAAAAG
    GAAAAAAGCA CAAGCAACAA TGCAGCTGCA GCCAGATAA

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

    RefSeq XP_009304407.1
    CDS692..4510
    Translation

    Target ORF information:

    RefSeq Version XM_009306132.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio tau tubulin kinase 1a (ttbk1a), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009306132.3

    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
    ATGAACGGCA CTGCAGAGCA GCAGGACATT CTGCCCCCTC ATTGCATGGT CAAAGATCGA 
    TGGAAAGTGC TGAAGAAGAT CGGAGGAGGA GGGTTTGGGG AAATCTACGA GGCGCTGGAC
    CTGCTGACTC GAGAGAATGT GGCGTTAAAA GTGGAGTCAG CGCAACAGCC CAAACAAGTC
    CTGAAGATGG AGGTAGCAGT TTTGAAGAAA CTGCAGGGTA AAAACCACGT ATGTAAGTTC
    ATAGGCTGTG GGCGAAACGA TAAATTCAAC TATGTCGTCA TGCAGCTGCA GGGCAGAAAC
    CTGGCAGATC TCAGGCGAAG TCAGCCTCGC GGCACCTTTA CCATGAGCAC AACCCTCCGC
    TTGGGAAAAC AGATCCTCGA ATCCATAGAA GCCATTCACT CCGTTGGCTT TCTCCATCGA
    GACATCAAAC CGTCAAATTT TGCCATGGGA AGGCTGCCTT CAACATTCCG GAAATGTTAT
    ATGCTAGATT TTGGGCTCGC AAGACAGTAT ACAAACACCA ATGGAGAAGT CAGACCGACT
    TTCATTCCTA GAACTGTTGC AGGATTTCGA GGGACTGTTA GATATGCATC TGTGAATGCA
    CATAAAAACA AAGAAATGGG TCGCCATGAT GACTTATGGT CATTGTTTTA CATGCTGGTT
    GAGTTTGCTG CTGGGCAGCT GCCATGGAGG AAAATCAAGG ACAAGGAGCA AGTGGGTCAG
    ATTAAGGAGC GCTACGATCA TAGGATGCTT CTTAAACACA TGCCGTCAGA GTTTAATGTC
    TTCCTGGAGC ATGTTTTAGC CCTTGACTAC TATACCAAAC CAGACTATCA GCTCCTGATG
    TCAGTGTTCG AGAACAGCAT GAAGGAACGC ATCATCACTG AAAACGAGCC CTATGATTGG
    GAGAAAAGTG GGACGGAGAC TATTATCTCT GCTACCACAC CGACAGCAGC TCAGCAGAAC
    ACGAGACCCA CAGCCGCGAT GGTCGGGGTT ATAAATGTGA CCCCGATGCC AGGTGACCTT
    CCAAGGGAAA ACACAGATGA TGTTGTACAG GATGAGCACC TTAGTGACCA GGAAAACGCC
    CCTCCAATTC CCTCTGGACG GCCAGTTGAT GGCAGCCAGA TGCCCACAGA TGCAGACGGA
    TGGGAGGAGA CAGACTTCAA CCGCAACAAA CTCAGGATTA ACCTTGGAAA GGGAGGTCAA
    GAAGAGGACG GTAGCCGGGG TGTGTGTCCT GTTTCGCCAC AAAGGGGAGG TTTGGACTCT
    CCAGGGATGC AGGTTCACTC GATCAGGTAC CGACGGGTCA ACAGTCCTGA ATCTGATCGC
    ATGTCTGCTG CTGATGGACG GGACGGTTAC GGCCAACGCT CTCGAATGGA CATTCTGGGT
    TCTCCATCTC GTCACGTTTA CTCCTCTCAG CCCGCTCAGA TGCTCTCGGT GGACGGTTGC
    AGAGGCCGTA ATGAAGCCTC TGCATCGGTG GACCAGGAAG CCCACAGCAA TGCCTTCATC
    CGCTCAGTCC CGCTCGCAGA AGAAGAGGAC TTCGACAGCA AAGAGTGGGT GATCATAGAC
    AAGGAAATGG AGCTCAGAGA CTTCCACCAC CTTCCAGGAG CCGAACCTAC CACTTCCGGC
    ACGACGGATG AGGAGCCGGA GGAATTACGC CCTCTGGAGG AAGGAGATGA TCGGAGGAGA
    CACAGAGGGA ACGATCCATC CGTCAGAACC AAAACGTCCC ATGGAGAACG GACTACACGA
    GGGATGCTAC CACTGACGGA GGAAGAGACA TCCAGGAGGA GTGGGAAAGG CCAGTCCACG
    TCAATGGAGA GCCCTGCGCA GTCACCCTGT CACTCGCTGC CCTCCGGACG GCCCCGGCGG
    AGAGATGCAG ATAACAACGG ACCTCAGAGA CAGGCCCCAA CCCCAAGTGA GCCTCTATTA
    TCACCCACTG ACTACAGGAC TAAATCCCCA TCCTCTGAGA AGGAGATGTT CCATATACTT
    CCAAAGCTGC AGGCTAAGAG AGCCGACTTC CTTACAGTCA TGCTTACAGG AAGCCTTCAC
    CAGCGCCGGG CCTTCACAGC CACACCGCCT GAGACACAAG ATGAGGGGCC AAGAGATGAT
    GACGTCACAA AGAGCGAATC AAGCAGCGGA GCAAGTGAAA AGAGTACTGA ACGTAGTCAA
    GATGGGGCTC CATCTACCTT GGTTGCCGAT GATCCACAAA AAGAGTCAAA AGAACCAGGT
    TCGGTTGCTG ATGTAGATCC TGACCAAGAA GATGTCTCAA ACACCCTTGT TTTGTTTTCA
    CCAGGAGACA CGAAGAAGTC ACCAAATGCT ATAATCAGGG CTGAAGTTGA TCAGGGTGTG
    GGGAGTTTTG ATGCCCCTCA AAATGAAAAT CAAGGTCAAT CAGAGGTCCA GAAACAAGAG
    GACATCAAGC AAGCAGAGAG ACCTATAGAT GGAAGGCAAG CCGATGTAAC TGGGTTTGAC
    CCATTCATAC AGTCATCTAA ACCAGTGGTA ACAATCTCAA CAACTCCAGT GGCCTCTGCC
    TCAATTGCAT CACCCCTTTT CTCCAAAGTG GAGCAAACTT TTGTACACAT TGCAGAGACA
    ACCCATCTGA ATGTTATGTC TTCCAGTAGT GGACAGGTTC TGGAAGTTTT ACAGGAGGTT
    GAAGGCAAAT TACAGTCCAA ACTGACAAAA GACAAACCAG AGCCAGGAGG AGGTGCAGCT
    TGTGTCCAGT CTGAAGTCAT CTCTCAGATT CTTACAGAGG AATCTCAGGT ACCTAATGTC
    CTAGATGGGT CTTTGCCAAA TGAATCAACT GTAAAGCAAG AAAATCCTAC GGATCCTCTA
    TGTGTACAGT CTATGGAACC CATCATTCAA GATTCAACAA TTGACTCCAA TCAGGACGAA
    AAACCAAAAG AAGAAATTCA AGAGGGGAGC ACAGTACCTG ATATTGTTTC TAAACCTCCA
    AGGCCAAGAA GCAGAAGTCG GATTCCTATT CTAGTCCCGG AAGAGGAGCC AGGATCTGAG
    AAATCCCTGT CCACCAAAGA ACGAATGCGT AGAAGAGTCA TGCAGCAAGA CCTGGCCCGT
    CAAGTTGTGG AAAGACATCG TCAGGGTCGC TGGATAAGAC TGAATTCCAG GACATCATCT
    TCGTTATCTT CTGGAGATGA GCCCAAGAGA CCTTCAGAGA CTCTTTCTAC TACAGGCTCG
    GAAGAAGATG TTCTTGAATC TGATGATTCC CTAAACAAGC TCAAGAAGGA GGCTGAGGAA
    AAGCACCAAA CTGGCTGGCA CAGCAGGATC CCTCGACCAG TCACCCCAAT AAGGAAGCCT
    TCGACTAAAC TAGTTGTTGC ACCTCCTTTG AGCCAACCTG AAGCTGCAAA ATTAGAACAA
    AAAGCAAGCA ATGGCCCAAA AGTACAGTCA CAATCAGGAT CAAGTGCTCC AGCATTTCAT
    GCAAGATCAA AATCAACTCT GTCCCATTCG ACCATGCCAA GTGGAAGCAA TTGCATGCCT
    CTCTCCTGTA TTCCTGCAGC ATCCCGCCGC AGCTTAAGCA CCGCAAACTG CACTTTCTCT
    TCAGCCCGTA TAGCTAGTCC CTCGCCCCAT AGGCTACACT TGCGAACTGC TGTTATTGAA
    TCCCGCAAGC AACCGTTTGC CCTCCGAACC ACTGTGGAGC TCCCATTGAA GTCTAGGACT
    ACTACTTGCA GCAATCCTGC AAAGGACACC AAACCATCAC CAAACAAAGC CACCAACACA
    ACTGTCAGGA ATCGAACCAA AGCTTCTACT CAATCAAAAA ACACAGTTCC CGCTAAAAAG
    GAAAAAAGCA CAAGCAACAA TGCAGCTGCA GCCAGATAA

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

    CloneID ODa49574
    Clone ID Related Accession (Same CDS sequence) XM_009306132.3 , XM_009306132.2 , XM_009306131.3 , XM_009306131.2
    Accession Version XM_009306132.2 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 tau-tubulin kinase 1 isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007122.6) 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_009306132.1. ##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
    ATGAACGGCA CTGCAGAGCA GCAGGACATT CTGCCCCCTC ATTGCATGGT CAAAGATCGA 
    TGGAAAGTGC TGAAGAAGAT CGGAGGAGGA GGGTTTGGGG AAATCTACGA GGCGCTGGAC
    CTGCTGACTC GAGAGAATGT GGCGTTAAAA GTGGAGTCAG CGCAACAGCC CAAACAAGTC
    CTGAAGATGG AGGTAGCAGT TTTGAAGAAA CTGCAGGGTA AAAACCACGT ATGTAAGTTC
    ATAGGCTGTG GGCGAAACGA TAAATTCAAC TATGTCGTCA TGCAGCTGCA GGGCAGAAAC
    CTGGCAGATC TCAGGCGAAG TCAGCCTCGC GGCACCTTTA CCATGAGCAC AACCCTCCGC
    TTGGGAAAAC AGATCCTCGA ATCCATAGAA GCCATTCACT CCGTTGGCTT TCTCCATCGA
    GACATCAAAC CGTCAAATTT TGCCATGGGA AGGCTGCCTT CAACATTCCG GAAATGTTAT
    ATGCTAGATT TTGGGCTCGC AAGACAGTAT ACAAACACCA ATGGAGAAGT CAGACCGACT
    TTCATTCCTA GAACTGTTGC AGGATTTCGA GGGACTGTTA GATATGCATC TGTGAATGCA
    CATAAAAACA AAGAAATGGG TCGCCATGAT GACTTATGGT CATTGTTTTA CATGCTGGTT
    GAGTTTGCTG CTGGGCAGCT GCCATGGAGG AAAATCAAGG ACAAGGAGCA AGTGGGTCAG
    ATTAAGGAGC GCTACGATCA TAGGATGCTT CTTAAACACA TGCCGTCAGA GTTTAATGTC
    TTCCTGGAGC ATGTTTTAGC CCTTGACTAC TATACCAAAC CAGACTATCA GCTCCTGATG
    TCAGTGTTCG AGAACAGCAT GAAGGAACGC ATCATCACTG AAAACGAGCC CTATGATTGG
    GAGAAAAGTG GGACGGAGAC TATTATCTCT GCTACCACAC CGACAGCAGC TCAGCAGAAC
    ACGAGACCCA CAGCCGCGAT GGTCGGGGTT ATAAATGTGA CCCCGATGCC AGGTGACCTT
    CCAAGGGAAA ACACAGATGA TGTTGTACAG GATGAGCACC TTAGTGACCA GGAAAACGCC
    CCTCCAATTC CCTCTGGACG GCCAGTTGAT GGCAGCCAGA TGCCCACAGA TGCAGACGGA
    TGGGAGGAGA CAGACTTCAA CCGCAACAAA CTCAGGATTA ACCTTGGAAA GGGAGGTCAA
    GAAGAGGACG GTAGCCGGGG TGTGTGTCCT GTTTCGCCAC AAAGGGGAGG TTTGGACTCT
    CCAGGGATGC AGGTTCACTC GATCAGGTAC CGACGGGTCA ACAGTCCTGA ATCTGATCGC
    ATGTCTGCTG CTGATGGACG GGACGGTTAC GGCCAACGCT CTCGAATGGA CATTCTGGGT
    TCTCCATCTC GTCACGTTTA CTCCTCTCAG CCCGCTCAGA TGCTCTCGGT GGACGGTTGC
    AGAGGCCGTA ATGAAGCCTC TGCATCGGTG GACCAGGAAG CCCACAGCAA TGCCTTCATC
    CGCTCAGTCC CGCTCGCAGA AGAAGAGGAC TTCGACAGCA AAGAGTGGGT GATCATAGAC
    AAGGAAATGG AGCTCAGAGA CTTCCACCAC CTTCCAGGAG CCGAACCTAC CACTTCCGGC
    ACGACGGATG AGGAGCCGGA GGAATTACGC CCTCTGGAGG AAGGAGATGA TCGGAGGAGA
    CACAGAGGGA ACGATCCATC CGTCAGAACC AAAACGTCCC ATGGAGAACG GACTACACGA
    GGGATGCTAC CACTGACGGA GGAAGAGACA TCCAGGAGGA GTGGGAAAGG CCAGTCCACG
    TCAATGGAGA GCCCTGCGCA GTCACCCTGT CACTCGCTGC CCTCCGGACG GCCCCGGCGG
    AGAGATGCAG ATAACAACGG ACCTCAGAGA CAGGCCCCAA CCCCAAGTGA GCCTCTATTA
    TCACCCACTG ACTACAGGAC TAAATCCCCA TCCTCTGAGA AGGAGATGTT CCATATACTT
    CCAAAGCTGC AGGCTAAGAG AGCCGACTTC CTTACAGTCA TGCTTACAGG AAGCCTTCAC
    CAGCGCCGGG CCTTCACAGC CACACCGCCT GAGACACAAG ATGAGGGGCC AAGAGATGAT
    GACGTCACAA AGAGCGAATC AAGCAGCGGA GCAAGTGAAA AGAGTACTGA ACGTAGTCAA
    GATGGGGCTC CATCTACCTT GGTTGCCGAT GATCCACAAA AAGAGTCAAA AGAACCAGGT
    TCGGTTGCTG ATGTAGATCC TGACCAAGAA GATGTCTCAA ACACCCTTGT TTTGTTTTCA
    CCAGGAGACA CGAAGAAGTC ACCAAATGCT ATAATCAGGG CTGAAGTTGA TCAGGGTGTG
    GGGAGTTTTG ATGCCCCTCA AAATGAAAAT CAAGGTCAAT CAGAGGTCCA GAAACAAGAG
    GACATCAAGC AAGCAGAGAG ACCTATAGAT GGAAGGCAAG CCGATGTAAC TGGGTTTGAC
    CCATTCATAC AGTCATCTAA ACCAGTGGTA ACAATCTCAA CAACTCCAGT GGCCTCTGCC
    TCAATTGCAT CACCCCTTTT CTCCAAAGTG GAGCAAACTT TTGTACACAT TGCAGAGACA
    ACCCATCTGA ATGTTATGTC TTCCAGTAGT GGACAGGTTC TGGAAGTTTT ACAGGAGGTT
    GAAGGCAAAT TACAGTCCAA ACTGACAAAA GACAAACCAG AGCCAGGAGG AGGTGCAGCT
    TGTGTCCAGT CTGAAGTCAT CTCTCAGATT CTTACAGAGG AATCTCAGGT ACCTAATGTC
    CTAGATGGGT CTTTGCCAAA TGAATCAACT GTAAAGCAAG AAAATCCTAC GGATCCTCTA
    TGTGTACAGT CTATGGAACC CATCATTCAA GATTCAACAA TTGACTCCAA TCAGGACGAA
    AAACCAAAAG AAGAAATTCA AGAGGGGAGC ACAGTACCTG ATATTGTTTC TAAACCTCCA
    AGGCCAAGAA GCAGAAGTCG GATTCCTATT CTAGTCCCGG AAGAGGAGCC AGGATCTGAG
    AAATCCCTGT CCACCAAAGA ACGAATGCGT AGAAGAGTCA TGCAGCAAGA CCTGGCCCGT
    CAAGTTGTGG AAAGACATCG TCAGGGTCGC TGGATAAGAC TGAATTCCAG GACATCATCT
    TCGTTATCTT CTGGAGATGA GCCCAAGAGA CCTTCAGAGA CTCTTTCTAC TACAGGCTCG
    GAAGAAGATG TTCTTGAATC TGATGATTCC CTAAACAAGC TCAAGAAGGA GGCTGAGGAA
    AAGCACCAAA CTGGCTGGCA CAGCAGGATC CCTCGACCAG TCACCCCAAT AAGGAAGCCT
    TCGACTAAAC TAGTTGTTGC ACCTCCTTTG AGCCAACCTG AAGCTGCAAA ATTAGAACAA
    AAAGCAAGCA ATGGCCCAAA AGTACAGTCA CAATCAGGAT CAAGTGCTCC AGCATTTCAT
    GCAAGATCAA AATCAACTCT GTCCCATTCG ACCATGCCAA GTGGAAGCAA TTGCATGCCT
    CTCTCCTGTA TTCCTGCAGC ATCCCGCCGC AGCTTAAGCA CCGCAAACTG CACTTTCTCT
    TCAGCCCGTA TAGCTAGTCC CTCGCCCCAT AGGCTACACT TGCGAACTGC TGTTATTGAA
    TCCCGCAAGC AACCGTTTGC CCTCCGAACC ACTGTGGAGC TCCCATTGAA GTCTAGGACT
    ACTACTTGCA GCAATCCTGC AAAGGACACC AAACCATCAC CAAACAAAGC CACCAACACA
    ACTGTCAGGA ATCGAACCAA AGCTTCTACT CAATCAAAAA ACACAGTTCC CGCTAAAAAG
    GAAAAAAGCA CAAGCAACAA TGCAGCTGCA GCCAGATAA

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

    RefSeq XP_009304407.1
    CDS680..4498
    Translation

    Target ORF information:

    RefSeq Version XM_009306132.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio tau tubulin kinase 1a (ttbk1a), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009306132.2

    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
    ATGAACGGCA CTGCAGAGCA GCAGGACATT CTGCCCCCTC ATTGCATGGT CAAAGATCGA 
    TGGAAAGTGC TGAAGAAGAT CGGAGGAGGA GGGTTTGGGG AAATCTACGA GGCGCTGGAC
    CTGCTGACTC GAGAGAATGT GGCGTTAAAA GTGGAGTCAG CGCAACAGCC CAAACAAGTC
    CTGAAGATGG AGGTAGCAGT TTTGAAGAAA CTGCAGGGTA AAAACCACGT ATGTAAGTTC
    ATAGGCTGTG GGCGAAACGA TAAATTCAAC TATGTCGTCA TGCAGCTGCA GGGCAGAAAC
    CTGGCAGATC TCAGGCGAAG TCAGCCTCGC GGCACCTTTA CCATGAGCAC AACCCTCCGC
    TTGGGAAAAC AGATCCTCGA ATCCATAGAA GCCATTCACT CCGTTGGCTT TCTCCATCGA
    GACATCAAAC CGTCAAATTT TGCCATGGGA AGGCTGCCTT CAACATTCCG GAAATGTTAT
    ATGCTAGATT TTGGGCTCGC AAGACAGTAT ACAAACACCA ATGGAGAAGT CAGACCGACT
    TTCATTCCTA GAACTGTTGC AGGATTTCGA GGGACTGTTA GATATGCATC TGTGAATGCA
    CATAAAAACA AAGAAATGGG TCGCCATGAT GACTTATGGT CATTGTTTTA CATGCTGGTT
    GAGTTTGCTG CTGGGCAGCT GCCATGGAGG AAAATCAAGG ACAAGGAGCA AGTGGGTCAG
    ATTAAGGAGC GCTACGATCA TAGGATGCTT CTTAAACACA TGCCGTCAGA GTTTAATGTC
    TTCCTGGAGC ATGTTTTAGC CCTTGACTAC TATACCAAAC CAGACTATCA GCTCCTGATG
    TCAGTGTTCG AGAACAGCAT GAAGGAACGC ATCATCACTG AAAACGAGCC CTATGATTGG
    GAGAAAAGTG GGACGGAGAC TATTATCTCT GCTACCACAC CGACAGCAGC TCAGCAGAAC
    ACGAGACCCA CAGCCGCGAT GGTCGGGGTT ATAAATGTGA CCCCGATGCC AGGTGACCTT
    CCAAGGGAAA ACACAGATGA TGTTGTACAG GATGAGCACC TTAGTGACCA GGAAAACGCC
    CCTCCAATTC CCTCTGGACG GCCAGTTGAT GGCAGCCAGA TGCCCACAGA TGCAGACGGA
    TGGGAGGAGA CAGACTTCAA CCGCAACAAA CTCAGGATTA ACCTTGGAAA GGGAGGTCAA
    GAAGAGGACG GTAGCCGGGG TGTGTGTCCT GTTTCGCCAC AAAGGGGAGG TTTGGACTCT
    CCAGGGATGC AGGTTCACTC GATCAGGTAC CGACGGGTCA ACAGTCCTGA ATCTGATCGC
    ATGTCTGCTG CTGATGGACG GGACGGTTAC GGCCAACGCT CTCGAATGGA CATTCTGGGT
    TCTCCATCTC GTCACGTTTA CTCCTCTCAG CCCGCTCAGA TGCTCTCGGT GGACGGTTGC
    AGAGGCCGTA ATGAAGCCTC TGCATCGGTG GACCAGGAAG CCCACAGCAA TGCCTTCATC
    CGCTCAGTCC CGCTCGCAGA AGAAGAGGAC TTCGACAGCA AAGAGTGGGT GATCATAGAC
    AAGGAAATGG AGCTCAGAGA CTTCCACCAC CTTCCAGGAG CCGAACCTAC CACTTCCGGC
    ACGACGGATG AGGAGCCGGA GGAATTACGC CCTCTGGAGG AAGGAGATGA TCGGAGGAGA
    CACAGAGGGA ACGATCCATC CGTCAGAACC AAAACGTCCC ATGGAGAACG GACTACACGA
    GGGATGCTAC CACTGACGGA GGAAGAGACA TCCAGGAGGA GTGGGAAAGG CCAGTCCACG
    TCAATGGAGA GCCCTGCGCA GTCACCCTGT CACTCGCTGC CCTCCGGACG GCCCCGGCGG
    AGAGATGCAG ATAACAACGG ACCTCAGAGA CAGGCCCCAA CCCCAAGTGA GCCTCTATTA
    TCACCCACTG ACTACAGGAC TAAATCCCCA TCCTCTGAGA AGGAGATGTT CCATATACTT
    CCAAAGCTGC AGGCTAAGAG AGCCGACTTC CTTACAGTCA TGCTTACAGG AAGCCTTCAC
    CAGCGCCGGG CCTTCACAGC CACACCGCCT GAGACACAAG ATGAGGGGCC AAGAGATGAT
    GACGTCACAA AGAGCGAATC AAGCAGCGGA GCAAGTGAAA AGAGTACTGA ACGTAGTCAA
    GATGGGGCTC CATCTACCTT GGTTGCCGAT GATCCACAAA AAGAGTCAAA AGAACCAGGT
    TCGGTTGCTG ATGTAGATCC TGACCAAGAA GATGTCTCAA ACACCCTTGT TTTGTTTTCA
    CCAGGAGACA CGAAGAAGTC ACCAAATGCT ATAATCAGGG CTGAAGTTGA TCAGGGTGTG
    GGGAGTTTTG ATGCCCCTCA AAATGAAAAT CAAGGTCAAT CAGAGGTCCA GAAACAAGAG
    GACATCAAGC AAGCAGAGAG ACCTATAGAT GGAAGGCAAG CCGATGTAAC TGGGTTTGAC
    CCATTCATAC AGTCATCTAA ACCAGTGGTA ACAATCTCAA CAACTCCAGT GGCCTCTGCC
    TCAATTGCAT CACCCCTTTT CTCCAAAGTG GAGCAAACTT TTGTACACAT TGCAGAGACA
    ACCCATCTGA ATGTTATGTC TTCCAGTAGT GGACAGGTTC TGGAAGTTTT ACAGGAGGTT
    GAAGGCAAAT TACAGTCCAA ACTGACAAAA GACAAACCAG AGCCAGGAGG AGGTGCAGCT
    TGTGTCCAGT CTGAAGTCAT CTCTCAGATT CTTACAGAGG AATCTCAGGT ACCTAATGTC
    CTAGATGGGT CTTTGCCAAA TGAATCAACT GTAAAGCAAG AAAATCCTAC GGATCCTCTA
    TGTGTACAGT CTATGGAACC CATCATTCAA GATTCAACAA TTGACTCCAA TCAGGACGAA
    AAACCAAAAG AAGAAATTCA AGAGGGGAGC ACAGTACCTG ATATTGTTTC TAAACCTCCA
    AGGCCAAGAA GCAGAAGTCG GATTCCTATT CTAGTCCCGG AAGAGGAGCC AGGATCTGAG
    AAATCCCTGT CCACCAAAGA ACGAATGCGT AGAAGAGTCA TGCAGCAAGA CCTGGCCCGT
    CAAGTTGTGG AAAGACATCG TCAGGGTCGC TGGATAAGAC TGAATTCCAG GACATCATCT
    TCGTTATCTT CTGGAGATGA GCCCAAGAGA CCTTCAGAGA CTCTTTCTAC TACAGGCTCG
    GAAGAAGATG TTCTTGAATC TGATGATTCC CTAAACAAGC TCAAGAAGGA GGCTGAGGAA
    AAGCACCAAA CTGGCTGGCA CAGCAGGATC CCTCGACCAG TCACCCCAAT AAGGAAGCCT
    TCGACTAAAC TAGTTGTTGC ACCTCCTTTG AGCCAACCTG AAGCTGCAAA ATTAGAACAA
    AAAGCAAGCA ATGGCCCAAA AGTACAGTCA CAATCAGGAT CAAGTGCTCC AGCATTTCAT
    GCAAGATCAA AATCAACTCT GTCCCATTCG ACCATGCCAA GTGGAAGCAA TTGCATGCCT
    CTCTCCTGTA TTCCTGCAGC ATCCCGCCGC AGCTTAAGCA CCGCAAACTG CACTTTCTCT
    TCAGCCCGTA TAGCTAGTCC CTCGCCCCAT AGGCTACACT TGCGAACTGC TGTTATTGAA
    TCCCGCAAGC AACCGTTTGC CCTCCGAACC ACTGTGGAGC TCCCATTGAA GTCTAGGACT
    ACTACTTGCA GCAATCCTGC AAAGGACACC AAACCATCAC CAAACAAAGC CACCAACACA
    ACTGTCAGGA ATCGAACCAA AGCTTCTACT CAATCAAAAA ACACAGTTCC CGCTAAAAAG
    GAAAAAAGCA CAAGCAACAA TGCAGCTGCA GCCAGATAA

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

    CloneID ODa49574
    Clone ID Related Accession (Same CDS sequence) XM_009306132.3 , XM_009306132.2 , XM_009306131.3 , XM_009306131.2
    Accession Version XM_009306131.3 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 tau-tubulin kinase 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007122.7) 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_009306131.2. ##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
    ATGAACGGCA CTGCAGAGCA GCAGGACATT CTGCCCCCTC ATTGCATGGT CAAAGATCGA 
    TGGAAAGTGC TGAAGAAGAT CGGAGGAGGA GGGTTTGGGG AAATCTACGA GGCGCTGGAC
    CTGCTGACTC GAGAGAATGT GGCGTTAAAA GTGGAGTCAG CGCAACAGCC CAAACAAGTC
    CTGAAGATGG AGGTAGCAGT TTTGAAGAAA CTGCAGGGTA AAAACCACGT ATGTAAGTTC
    ATAGGCTGTG GGCGAAACGA TAAATTCAAC TATGTCGTCA TGCAGCTGCA GGGCAGAAAC
    CTGGCAGATC TCAGGCGAAG TCAGCCTCGC GGCACCTTTA CCATGAGCAC AACCCTCCGC
    TTGGGAAAAC AGATCCTCGA ATCCATAGAA GCCATTCACT CCGTTGGCTT TCTCCATCGA
    GACATCAAAC CGTCAAATTT TGCCATGGGA AGGCTGCCTT CAACATTCCG GAAATGTTAT
    ATGCTAGATT TTGGGCTCGC AAGACAGTAT ACAAACACCA ATGGAGAAGT CAGACCGACT
    TTCATTCCTA GAACTGTTGC AGGATTTCGA GGGACTGTTA GATATGCATC TGTGAATGCA
    CATAAAAACA AAGAAATGGG TCGCCATGAT GACTTATGGT CATTGTTTTA CATGCTGGTT
    GAGTTTGCTG CTGGGCAGCT GCCATGGAGG AAAATCAAGG ACAAGGAGCA AGTGGGTCAG
    ATTAAGGAGC GCTACGATCA TAGGATGCTT CTTAAACACA TGCCGTCAGA GTTTAATGTC
    TTCCTGGAGC ATGTTTTAGC CCTTGACTAC TATACCAAAC CAGACTATCA GCTCCTGATG
    TCAGTGTTCG AGAACAGCAT GAAGGAACGC ATCATCACTG AAAACGAGCC CTATGATTGG
    GAGAAAAGTG GGACGGAGAC TATTATCTCT GCTACCACAC CGACAGCAGC TCAGCAGAAC
    ACGAGACCCA CAGCCGCGAT GGTCGGGGTT ATAAATGTGA CCCCGATGCC AGGTGACCTT
    CCAAGGGAAA ACACAGATGA TGTTGTACAG GATGAGCACC TTAGTGACCA GGAAAACGCC
    CCTCCAATTC CCTCTGGACG GCCAGTTGAT GGCAGCCAGA TGCCCACAGA TGCAGACGGA
    TGGGAGGAGA CAGACTTCAA CCGCAACAAA CTCAGGATTA ACCTTGGAAA GGGAGGTCAA
    GAAGAGGACG GTAGCCGGGG TGTGTGTCCT GTTTCGCCAC AAAGGGGAGG TTTGGACTCT
    CCAGGGATGC AGGTTCACTC GATCAGGTAC CGACGGGTCA ACAGTCCTGA ATCTGATCGC
    ATGTCTGCTG CTGATGGACG GGACGGTTAC GGCCAACGCT CTCGAATGGA CATTCTGGGT
    TCTCCATCTC GTCACGTTTA CTCCTCTCAG CCCGCTCAGA TGCTCTCGGT GGACGGTTGC
    AGAGGCCGTA ATGAAGCCTC TGCATCGGTG GACCAGGAAG CCCACAGCAA TGCCTTCATC
    CGCTCAGTCC CGCTCGCAGA AGAAGAGGAC TTCGACAGCA AAGAGTGGGT GATCATAGAC
    AAGGAAATGG AGCTCAGAGA CTTCCACCAC CTTCCAGGAG CCGAACCTAC CACTTCCGGC
    ACGACGGATG AGGAGCCGGA GGAATTACGC CCTCTGGAGG AAGGAGATGA TCGGAGGAGA
    CACAGAGGGA ACGATCCATC CGTCAGAACC AAAACGTCCC ATGGAGAACG GACTACACGA
    GGGATGCTAC CACTGACGGA GGAAGAGACA TCCAGGAGGA GTGGGAAAGG CCAGTCCACG
    TCAATGGAGA GCCCTGCGCA GTCACCCTGT CACTCGCTGC CCTCCGGACG GCCCCGGCGG
    AGAGATGCAG ATAACAACGG ACCTCAGAGA CAGGCCCCAA CCCCAAGTGA GCCTCTATTA
    TCACCCACTG ACTACAGGAC TAAATCCCCA TCCTCTGAGA AGGAGATGTT CCATATACTT
    CCAAAGCTGC AGGCTAAGAG AGCCGACTTC CTTACAGTCA TGCTTACAGG AAGCCTTCAC
    CAGCGCCGGG CCTTCACAGC CACACCGCCT GAGACACAAG ATGAGGGGCC AAGAGATGAT
    GACGTCACAA AGAGCGAATC AAGCAGCGGA GCAAGTGAAA AGAGTACTGA ACGTAGTCAA
    GATGGGGCTC CATCTACCTT GGTTGCCGAT GATCCACAAA AAGAGTCAAA AGAACCAGGT
    TCGGTTGCTG ATGTAGATCC TGACCAAGAA GATGTCTCAA ACACCCTTGT TTTGTTTTCA
    CCAGGAGACA CGAAGAAGTC ACCAAATGCT ATAATCAGGG CTGAAGTTGA TCAGGGTGTG
    GGGAGTTTTG ATGCCCCTCA AAATGAAAAT CAAGGTCAAT CAGAGGTCCA GAAACAAGAG
    GACATCAAGC AAGCAGAGAG ACCTATAGAT GGAAGGCAAG CCGATGTAAC TGGGTTTGAC
    CCATTCATAC AGTCATCTAA ACCAGTGGTA ACAATCTCAA CAACTCCAGT GGCCTCTGCC
    TCAATTGCAT CACCCCTTTT CTCCAAAGTG GAGCAAACTT TTGTACACAT TGCAGAGACA
    ACCCATCTGA ATGTTATGTC TTCCAGTAGT GGACAGGTTC TGGAAGTTTT ACAGGAGGTT
    GAAGGCAAAT TACAGTCCAA ACTGACAAAA GACAAACCAG AGCCAGGAGG AGGTGCAGCT
    TGTGTCCAGT CTGAAGTCAT CTCTCAGATT CTTACAGAGG AATCTCAGGT ACCTAATGTC
    CTAGATGGGT CTTTGCCAAA TGAATCAACT GTAAAGCAAG AAAATCCTAC GGATCCTCTA
    TGTGTACAGT CTATGGAACC CATCATTCAA GATTCAACAA TTGACTCCAA TCAGGACGAA
    AAACCAAAAG AAGAAATTCA AGAGGGGAGC ACAGTACCTG ATATTGTTTC TAAACCTCCA
    AGGCCAAGAA GCAGAAGTCG GATTCCTATT CTAGTCCCGG AAGAGGAGCC AGGATCTGAG
    AAATCCCTGT CCACCAAAGA ACGAATGCGT AGAAGAGTCA TGCAGCAAGA CCTGGCCCGT
    CAAGTTGTGG AAAGACATCG TCAGGGTCGC TGGATAAGAC TGAATTCCAG GACATCATCT
    TCGTTATCTT CTGGAGATGA GCCCAAGAGA CCTTCAGAGA CTCTTTCTAC TACAGGCTCG
    GAAGAAGATG TTCTTGAATC TGATGATTCC CTAAACAAGC TCAAGAAGGA GGCTGAGGAA
    AAGCACCAAA CTGGCTGGCA CAGCAGGATC CCTCGACCAG TCACCCCAAT AAGGAAGCCT
    TCGACTAAAC TAGTTGTTGC ACCTCCTTTG AGCCAACCTG AAGCTGCAAA ATTAGAACAA
    AAAGCAAGCA ATGGCCCAAA AGTACAGTCA CAATCAGGAT CAAGTGCTCC AGCATTTCAT
    GCAAGATCAA AATCAACTCT GTCCCATTCG ACCATGCCAA GTGGAAGCAA TTGCATGCCT
    CTCTCCTGTA TTCCTGCAGC ATCCCGCCGC AGCTTAAGCA CCGCAAACTG CACTTTCTCT
    TCAGCCCGTA TAGCTAGTCC CTCGCCCCAT AGGCTACACT TGCGAACTGC TGTTATTGAA
    TCCCGCAAGC AACCGTTTGC CCTCCGAACC ACTGTGGAGC TCCCATTGAA GTCTAGGACT
    ACTACTTGCA GCAATCCTGC AAAGGACACC AAACCATCAC CAAACAAAGC CACCAACACA
    ACTGTCAGGA ATCGAACCAA AGCTTCTACT CAATCAAAAA ACACAGTTCC CGCTAAAAAG
    GAAAAAAGCA CAAGCAACAA TGCAGCTGCA GCCAGATAA

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

    RefSeq XP_009304406.1
    CDS296..4114
    Translation

    Target ORF information:

    RefSeq Version XM_009306131.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio tau tubulin kinase 1a (ttbk1a), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009306131.3

    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
    ATGAACGGCA CTGCAGAGCA GCAGGACATT CTGCCCCCTC ATTGCATGGT CAAAGATCGA 
    TGGAAAGTGC TGAAGAAGAT CGGAGGAGGA GGGTTTGGGG AAATCTACGA GGCGCTGGAC
    CTGCTGACTC GAGAGAATGT GGCGTTAAAA GTGGAGTCAG CGCAACAGCC CAAACAAGTC
    CTGAAGATGG AGGTAGCAGT TTTGAAGAAA CTGCAGGGTA AAAACCACGT ATGTAAGTTC
    ATAGGCTGTG GGCGAAACGA TAAATTCAAC TATGTCGTCA TGCAGCTGCA GGGCAGAAAC
    CTGGCAGATC TCAGGCGAAG TCAGCCTCGC GGCACCTTTA CCATGAGCAC AACCCTCCGC
    TTGGGAAAAC AGATCCTCGA ATCCATAGAA GCCATTCACT CCGTTGGCTT TCTCCATCGA
    GACATCAAAC CGTCAAATTT TGCCATGGGA AGGCTGCCTT CAACATTCCG GAAATGTTAT
    ATGCTAGATT TTGGGCTCGC AAGACAGTAT ACAAACACCA ATGGAGAAGT CAGACCGACT
    TTCATTCCTA GAACTGTTGC AGGATTTCGA GGGACTGTTA GATATGCATC TGTGAATGCA
    CATAAAAACA AAGAAATGGG TCGCCATGAT GACTTATGGT CATTGTTTTA CATGCTGGTT
    GAGTTTGCTG CTGGGCAGCT GCCATGGAGG AAAATCAAGG ACAAGGAGCA AGTGGGTCAG
    ATTAAGGAGC GCTACGATCA TAGGATGCTT CTTAAACACA TGCCGTCAGA GTTTAATGTC
    TTCCTGGAGC ATGTTTTAGC CCTTGACTAC TATACCAAAC CAGACTATCA GCTCCTGATG
    TCAGTGTTCG AGAACAGCAT GAAGGAACGC ATCATCACTG AAAACGAGCC CTATGATTGG
    GAGAAAAGTG GGACGGAGAC TATTATCTCT GCTACCACAC CGACAGCAGC TCAGCAGAAC
    ACGAGACCCA CAGCCGCGAT GGTCGGGGTT ATAAATGTGA CCCCGATGCC AGGTGACCTT
    CCAAGGGAAA ACACAGATGA TGTTGTACAG GATGAGCACC TTAGTGACCA GGAAAACGCC
    CCTCCAATTC CCTCTGGACG GCCAGTTGAT GGCAGCCAGA TGCCCACAGA TGCAGACGGA
    TGGGAGGAGA CAGACTTCAA CCGCAACAAA CTCAGGATTA ACCTTGGAAA GGGAGGTCAA
    GAAGAGGACG GTAGCCGGGG TGTGTGTCCT GTTTCGCCAC AAAGGGGAGG TTTGGACTCT
    CCAGGGATGC AGGTTCACTC GATCAGGTAC CGACGGGTCA ACAGTCCTGA ATCTGATCGC
    ATGTCTGCTG CTGATGGACG GGACGGTTAC GGCCAACGCT CTCGAATGGA CATTCTGGGT
    TCTCCATCTC GTCACGTTTA CTCCTCTCAG CCCGCTCAGA TGCTCTCGGT GGACGGTTGC
    AGAGGCCGTA ATGAAGCCTC TGCATCGGTG GACCAGGAAG CCCACAGCAA TGCCTTCATC
    CGCTCAGTCC CGCTCGCAGA AGAAGAGGAC TTCGACAGCA AAGAGTGGGT GATCATAGAC
    AAGGAAATGG AGCTCAGAGA CTTCCACCAC CTTCCAGGAG CCGAACCTAC CACTTCCGGC
    ACGACGGATG AGGAGCCGGA GGAATTACGC CCTCTGGAGG AAGGAGATGA TCGGAGGAGA
    CACAGAGGGA ACGATCCATC CGTCAGAACC AAAACGTCCC ATGGAGAACG GACTACACGA
    GGGATGCTAC CACTGACGGA GGAAGAGACA TCCAGGAGGA GTGGGAAAGG CCAGTCCACG
    TCAATGGAGA GCCCTGCGCA GTCACCCTGT CACTCGCTGC CCTCCGGACG GCCCCGGCGG
    AGAGATGCAG ATAACAACGG ACCTCAGAGA CAGGCCCCAA CCCCAAGTGA GCCTCTATTA
    TCACCCACTG ACTACAGGAC TAAATCCCCA TCCTCTGAGA AGGAGATGTT CCATATACTT
    CCAAAGCTGC AGGCTAAGAG AGCCGACTTC CTTACAGTCA TGCTTACAGG AAGCCTTCAC
    CAGCGCCGGG CCTTCACAGC CACACCGCCT GAGACACAAG ATGAGGGGCC AAGAGATGAT
    GACGTCACAA AGAGCGAATC AAGCAGCGGA GCAAGTGAAA AGAGTACTGA ACGTAGTCAA
    GATGGGGCTC CATCTACCTT GGTTGCCGAT GATCCACAAA AAGAGTCAAA AGAACCAGGT
    TCGGTTGCTG ATGTAGATCC TGACCAAGAA GATGTCTCAA ACACCCTTGT TTTGTTTTCA
    CCAGGAGACA CGAAGAAGTC ACCAAATGCT ATAATCAGGG CTGAAGTTGA TCAGGGTGTG
    GGGAGTTTTG ATGCCCCTCA AAATGAAAAT CAAGGTCAAT CAGAGGTCCA GAAACAAGAG
    GACATCAAGC AAGCAGAGAG ACCTATAGAT GGAAGGCAAG CCGATGTAAC TGGGTTTGAC
    CCATTCATAC AGTCATCTAA ACCAGTGGTA ACAATCTCAA CAACTCCAGT GGCCTCTGCC
    TCAATTGCAT CACCCCTTTT CTCCAAAGTG GAGCAAACTT TTGTACACAT TGCAGAGACA
    ACCCATCTGA ATGTTATGTC TTCCAGTAGT GGACAGGTTC TGGAAGTTTT ACAGGAGGTT
    GAAGGCAAAT TACAGTCCAA ACTGACAAAA GACAAACCAG AGCCAGGAGG AGGTGCAGCT
    TGTGTCCAGT CTGAAGTCAT CTCTCAGATT CTTACAGAGG AATCTCAGGT ACCTAATGTC
    CTAGATGGGT CTTTGCCAAA TGAATCAACT GTAAAGCAAG AAAATCCTAC GGATCCTCTA
    TGTGTACAGT CTATGGAACC CATCATTCAA GATTCAACAA TTGACTCCAA TCAGGACGAA
    AAACCAAAAG AAGAAATTCA AGAGGGGAGC ACAGTACCTG ATATTGTTTC TAAACCTCCA
    AGGCCAAGAA GCAGAAGTCG GATTCCTATT CTAGTCCCGG AAGAGGAGCC AGGATCTGAG
    AAATCCCTGT CCACCAAAGA ACGAATGCGT AGAAGAGTCA TGCAGCAAGA CCTGGCCCGT
    CAAGTTGTGG AAAGACATCG TCAGGGTCGC TGGATAAGAC TGAATTCCAG GACATCATCT
    TCGTTATCTT CTGGAGATGA GCCCAAGAGA CCTTCAGAGA CTCTTTCTAC TACAGGCTCG
    GAAGAAGATG TTCTTGAATC TGATGATTCC CTAAACAAGC TCAAGAAGGA GGCTGAGGAA
    AAGCACCAAA CTGGCTGGCA CAGCAGGATC CCTCGACCAG TCACCCCAAT AAGGAAGCCT
    TCGACTAAAC TAGTTGTTGC ACCTCCTTTG AGCCAACCTG AAGCTGCAAA ATTAGAACAA
    AAAGCAAGCA ATGGCCCAAA AGTACAGTCA CAATCAGGAT CAAGTGCTCC AGCATTTCAT
    GCAAGATCAA AATCAACTCT GTCCCATTCG ACCATGCCAA GTGGAAGCAA TTGCATGCCT
    CTCTCCTGTA TTCCTGCAGC ATCCCGCCGC AGCTTAAGCA CCGCAAACTG CACTTTCTCT
    TCAGCCCGTA TAGCTAGTCC CTCGCCCCAT AGGCTACACT TGCGAACTGC TGTTATTGAA
    TCCCGCAAGC AACCGTTTGC CCTCCGAACC ACTGTGGAGC TCCCATTGAA GTCTAGGACT
    ACTACTTGCA GCAATCCTGC AAAGGACACC AAACCATCAC CAAACAAAGC CACCAACACA
    ACTGTCAGGA ATCGAACCAA AGCTTCTACT CAATCAAAAA ACACAGTTCC CGCTAAAAAG
    GAAAAAAGCA CAAGCAACAA TGCAGCTGCA GCCAGATAA

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

    CloneID ODa49574
    Clone ID Related Accession (Same CDS sequence) XM_009306132.3 , XM_009306132.2 , XM_009306131.3 , XM_009306131.2
    Accession Version XM_009306131.2 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 tau-tubulin kinase 1 isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007122.6) 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_009306131.1. ##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
    ATGAACGGCA CTGCAGAGCA GCAGGACATT CTGCCCCCTC ATTGCATGGT CAAAGATCGA 
    TGGAAAGTGC TGAAGAAGAT CGGAGGAGGA GGGTTTGGGG AAATCTACGA GGCGCTGGAC
    CTGCTGACTC GAGAGAATGT GGCGTTAAAA GTGGAGTCAG CGCAACAGCC CAAACAAGTC
    CTGAAGATGG AGGTAGCAGT TTTGAAGAAA CTGCAGGGTA AAAACCACGT ATGTAAGTTC
    ATAGGCTGTG GGCGAAACGA TAAATTCAAC TATGTCGTCA TGCAGCTGCA GGGCAGAAAC
    CTGGCAGATC TCAGGCGAAG TCAGCCTCGC GGCACCTTTA CCATGAGCAC AACCCTCCGC
    TTGGGAAAAC AGATCCTCGA ATCCATAGAA GCCATTCACT CCGTTGGCTT TCTCCATCGA
    GACATCAAAC CGTCAAATTT TGCCATGGGA AGGCTGCCTT CAACATTCCG GAAATGTTAT
    ATGCTAGATT TTGGGCTCGC AAGACAGTAT ACAAACACCA ATGGAGAAGT CAGACCGACT
    TTCATTCCTA GAACTGTTGC AGGATTTCGA GGGACTGTTA GATATGCATC TGTGAATGCA
    CATAAAAACA AAGAAATGGG TCGCCATGAT GACTTATGGT CATTGTTTTA CATGCTGGTT
    GAGTTTGCTG CTGGGCAGCT GCCATGGAGG AAAATCAAGG ACAAGGAGCA AGTGGGTCAG
    ATTAAGGAGC GCTACGATCA TAGGATGCTT CTTAAACACA TGCCGTCAGA GTTTAATGTC
    TTCCTGGAGC ATGTTTTAGC CCTTGACTAC TATACCAAAC CAGACTATCA GCTCCTGATG
    TCAGTGTTCG AGAACAGCAT GAAGGAACGC ATCATCACTG AAAACGAGCC CTATGATTGG
    GAGAAAAGTG GGACGGAGAC TATTATCTCT GCTACCACAC CGACAGCAGC TCAGCAGAAC
    ACGAGACCCA CAGCCGCGAT GGTCGGGGTT ATAAATGTGA CCCCGATGCC AGGTGACCTT
    CCAAGGGAAA ACACAGATGA TGTTGTACAG GATGAGCACC TTAGTGACCA GGAAAACGCC
    CCTCCAATTC CCTCTGGACG GCCAGTTGAT GGCAGCCAGA TGCCCACAGA TGCAGACGGA
    TGGGAGGAGA CAGACTTCAA CCGCAACAAA CTCAGGATTA ACCTTGGAAA GGGAGGTCAA
    GAAGAGGACG GTAGCCGGGG TGTGTGTCCT GTTTCGCCAC AAAGGGGAGG TTTGGACTCT
    CCAGGGATGC AGGTTCACTC GATCAGGTAC CGACGGGTCA ACAGTCCTGA ATCTGATCGC
    ATGTCTGCTG CTGATGGACG GGACGGTTAC GGCCAACGCT CTCGAATGGA CATTCTGGGT
    TCTCCATCTC GTCACGTTTA CTCCTCTCAG CCCGCTCAGA TGCTCTCGGT GGACGGTTGC
    AGAGGCCGTA ATGAAGCCTC TGCATCGGTG GACCAGGAAG CCCACAGCAA TGCCTTCATC
    CGCTCAGTCC CGCTCGCAGA AGAAGAGGAC TTCGACAGCA AAGAGTGGGT GATCATAGAC
    AAGGAAATGG AGCTCAGAGA CTTCCACCAC CTTCCAGGAG CCGAACCTAC CACTTCCGGC
    ACGACGGATG AGGAGCCGGA GGAATTACGC CCTCTGGAGG AAGGAGATGA TCGGAGGAGA
    CACAGAGGGA ACGATCCATC CGTCAGAACC AAAACGTCCC ATGGAGAACG GACTACACGA
    GGGATGCTAC CACTGACGGA GGAAGAGACA TCCAGGAGGA GTGGGAAAGG CCAGTCCACG
    TCAATGGAGA GCCCTGCGCA GTCACCCTGT CACTCGCTGC CCTCCGGACG GCCCCGGCGG
    AGAGATGCAG ATAACAACGG ACCTCAGAGA CAGGCCCCAA CCCCAAGTGA GCCTCTATTA
    TCACCCACTG ACTACAGGAC TAAATCCCCA TCCTCTGAGA AGGAGATGTT CCATATACTT
    CCAAAGCTGC AGGCTAAGAG AGCCGACTTC CTTACAGTCA TGCTTACAGG AAGCCTTCAC
    CAGCGCCGGG CCTTCACAGC CACACCGCCT GAGACACAAG ATGAGGGGCC AAGAGATGAT
    GACGTCACAA AGAGCGAATC AAGCAGCGGA GCAAGTGAAA AGAGTACTGA ACGTAGTCAA
    GATGGGGCTC CATCTACCTT GGTTGCCGAT GATCCACAAA AAGAGTCAAA AGAACCAGGT
    TCGGTTGCTG ATGTAGATCC TGACCAAGAA GATGTCTCAA ACACCCTTGT TTTGTTTTCA
    CCAGGAGACA CGAAGAAGTC ACCAAATGCT ATAATCAGGG CTGAAGTTGA TCAGGGTGTG
    GGGAGTTTTG ATGCCCCTCA AAATGAAAAT CAAGGTCAAT CAGAGGTCCA GAAACAAGAG
    GACATCAAGC AAGCAGAGAG ACCTATAGAT GGAAGGCAAG CCGATGTAAC TGGGTTTGAC
    CCATTCATAC AGTCATCTAA ACCAGTGGTA ACAATCTCAA CAACTCCAGT GGCCTCTGCC
    TCAATTGCAT CACCCCTTTT CTCCAAAGTG GAGCAAACTT TTGTACACAT TGCAGAGACA
    ACCCATCTGA ATGTTATGTC TTCCAGTAGT GGACAGGTTC TGGAAGTTTT ACAGGAGGTT
    GAAGGCAAAT TACAGTCCAA ACTGACAAAA GACAAACCAG AGCCAGGAGG AGGTGCAGCT
    TGTGTCCAGT CTGAAGTCAT CTCTCAGATT CTTACAGAGG AATCTCAGGT ACCTAATGTC
    CTAGATGGGT CTTTGCCAAA TGAATCAACT GTAAAGCAAG AAAATCCTAC GGATCCTCTA
    TGTGTACAGT CTATGGAACC CATCATTCAA GATTCAACAA TTGACTCCAA TCAGGACGAA
    AAACCAAAAG AAGAAATTCA AGAGGGGAGC ACAGTACCTG ATATTGTTTC TAAACCTCCA
    AGGCCAAGAA GCAGAAGTCG GATTCCTATT CTAGTCCCGG AAGAGGAGCC AGGATCTGAG
    AAATCCCTGT CCACCAAAGA ACGAATGCGT AGAAGAGTCA TGCAGCAAGA CCTGGCCCGT
    CAAGTTGTGG AAAGACATCG TCAGGGTCGC TGGATAAGAC TGAATTCCAG GACATCATCT
    TCGTTATCTT CTGGAGATGA GCCCAAGAGA CCTTCAGAGA CTCTTTCTAC TACAGGCTCG
    GAAGAAGATG TTCTTGAATC TGATGATTCC CTAAACAAGC TCAAGAAGGA GGCTGAGGAA
    AAGCACCAAA CTGGCTGGCA CAGCAGGATC CCTCGACCAG TCACCCCAAT AAGGAAGCCT
    TCGACTAAAC TAGTTGTTGC ACCTCCTTTG AGCCAACCTG AAGCTGCAAA ATTAGAACAA
    AAAGCAAGCA ATGGCCCAAA AGTACAGTCA CAATCAGGAT CAAGTGCTCC AGCATTTCAT
    GCAAGATCAA AATCAACTCT GTCCCATTCG ACCATGCCAA GTGGAAGCAA TTGCATGCCT
    CTCTCCTGTA TTCCTGCAGC ATCCCGCCGC AGCTTAAGCA CCGCAAACTG CACTTTCTCT
    TCAGCCCGTA TAGCTAGTCC CTCGCCCCAT AGGCTACACT TGCGAACTGC TGTTATTGAA
    TCCCGCAAGC AACCGTTTGC CCTCCGAACC ACTGTGGAGC TCCCATTGAA GTCTAGGACT
    ACTACTTGCA GCAATCCTGC AAAGGACACC AAACCATCAC CAAACAAAGC CACCAACACA
    ACTGTCAGGA ATCGAACCAA AGCTTCTACT CAATCAAAAA ACACAGTTCC CGCTAAAAAG
    GAAAAAAGCA CAAGCAACAA TGCAGCTGCA GCCAGATAA

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

    RefSeq XP_009304406.1
    CDS314..4132
    Translation

    Target ORF information:

    RefSeq Version XM_009306131.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio tau tubulin kinase 1a (ttbk1a), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009306131.2

    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
    ATGAACGGCA CTGCAGAGCA GCAGGACATT CTGCCCCCTC ATTGCATGGT CAAAGATCGA 
    TGGAAAGTGC TGAAGAAGAT CGGAGGAGGA GGGTTTGGGG AAATCTACGA GGCGCTGGAC
    CTGCTGACTC GAGAGAATGT GGCGTTAAAA GTGGAGTCAG CGCAACAGCC CAAACAAGTC
    CTGAAGATGG AGGTAGCAGT TTTGAAGAAA CTGCAGGGTA AAAACCACGT ATGTAAGTTC
    ATAGGCTGTG GGCGAAACGA TAAATTCAAC TATGTCGTCA TGCAGCTGCA GGGCAGAAAC
    CTGGCAGATC TCAGGCGAAG TCAGCCTCGC GGCACCTTTA CCATGAGCAC AACCCTCCGC
    TTGGGAAAAC AGATCCTCGA ATCCATAGAA GCCATTCACT CCGTTGGCTT TCTCCATCGA
    GACATCAAAC CGTCAAATTT TGCCATGGGA AGGCTGCCTT CAACATTCCG GAAATGTTAT
    ATGCTAGATT TTGGGCTCGC AAGACAGTAT ACAAACACCA ATGGAGAAGT CAGACCGACT
    TTCATTCCTA GAACTGTTGC AGGATTTCGA GGGACTGTTA GATATGCATC TGTGAATGCA
    CATAAAAACA AAGAAATGGG TCGCCATGAT GACTTATGGT CATTGTTTTA CATGCTGGTT
    GAGTTTGCTG CTGGGCAGCT GCCATGGAGG AAAATCAAGG ACAAGGAGCA AGTGGGTCAG
    ATTAAGGAGC GCTACGATCA TAGGATGCTT CTTAAACACA TGCCGTCAGA GTTTAATGTC
    TTCCTGGAGC ATGTTTTAGC CCTTGACTAC TATACCAAAC CAGACTATCA GCTCCTGATG
    TCAGTGTTCG AGAACAGCAT GAAGGAACGC ATCATCACTG AAAACGAGCC CTATGATTGG
    GAGAAAAGTG GGACGGAGAC TATTATCTCT GCTACCACAC CGACAGCAGC TCAGCAGAAC
    ACGAGACCCA CAGCCGCGAT GGTCGGGGTT ATAAATGTGA CCCCGATGCC AGGTGACCTT
    CCAAGGGAAA ACACAGATGA TGTTGTACAG GATGAGCACC TTAGTGACCA GGAAAACGCC
    CCTCCAATTC CCTCTGGACG GCCAGTTGAT GGCAGCCAGA TGCCCACAGA TGCAGACGGA
    TGGGAGGAGA CAGACTTCAA CCGCAACAAA CTCAGGATTA ACCTTGGAAA GGGAGGTCAA
    GAAGAGGACG GTAGCCGGGG TGTGTGTCCT GTTTCGCCAC AAAGGGGAGG TTTGGACTCT
    CCAGGGATGC AGGTTCACTC GATCAGGTAC CGACGGGTCA ACAGTCCTGA ATCTGATCGC
    ATGTCTGCTG CTGATGGACG GGACGGTTAC GGCCAACGCT CTCGAATGGA CATTCTGGGT
    TCTCCATCTC GTCACGTTTA CTCCTCTCAG CCCGCTCAGA TGCTCTCGGT GGACGGTTGC
    AGAGGCCGTA ATGAAGCCTC TGCATCGGTG GACCAGGAAG CCCACAGCAA TGCCTTCATC
    CGCTCAGTCC CGCTCGCAGA AGAAGAGGAC TTCGACAGCA AAGAGTGGGT GATCATAGAC
    AAGGAAATGG AGCTCAGAGA CTTCCACCAC CTTCCAGGAG CCGAACCTAC CACTTCCGGC
    ACGACGGATG AGGAGCCGGA GGAATTACGC CCTCTGGAGG AAGGAGATGA TCGGAGGAGA
    CACAGAGGGA ACGATCCATC CGTCAGAACC AAAACGTCCC ATGGAGAACG GACTACACGA
    GGGATGCTAC CACTGACGGA GGAAGAGACA TCCAGGAGGA GTGGGAAAGG CCAGTCCACG
    TCAATGGAGA GCCCTGCGCA GTCACCCTGT CACTCGCTGC CCTCCGGACG GCCCCGGCGG
    AGAGATGCAG ATAACAACGG ACCTCAGAGA CAGGCCCCAA CCCCAAGTGA GCCTCTATTA
    TCACCCACTG ACTACAGGAC TAAATCCCCA TCCTCTGAGA AGGAGATGTT CCATATACTT
    CCAAAGCTGC AGGCTAAGAG AGCCGACTTC CTTACAGTCA TGCTTACAGG AAGCCTTCAC
    CAGCGCCGGG CCTTCACAGC CACACCGCCT GAGACACAAG ATGAGGGGCC AAGAGATGAT
    GACGTCACAA AGAGCGAATC AAGCAGCGGA GCAAGTGAAA AGAGTACTGA ACGTAGTCAA
    GATGGGGCTC CATCTACCTT GGTTGCCGAT GATCCACAAA AAGAGTCAAA AGAACCAGGT
    TCGGTTGCTG ATGTAGATCC TGACCAAGAA GATGTCTCAA ACACCCTTGT TTTGTTTTCA
    CCAGGAGACA CGAAGAAGTC ACCAAATGCT ATAATCAGGG CTGAAGTTGA TCAGGGTGTG
    GGGAGTTTTG ATGCCCCTCA AAATGAAAAT CAAGGTCAAT CAGAGGTCCA GAAACAAGAG
    GACATCAAGC AAGCAGAGAG ACCTATAGAT GGAAGGCAAG CCGATGTAAC TGGGTTTGAC
    CCATTCATAC AGTCATCTAA ACCAGTGGTA ACAATCTCAA CAACTCCAGT GGCCTCTGCC
    TCAATTGCAT CACCCCTTTT CTCCAAAGTG GAGCAAACTT TTGTACACAT TGCAGAGACA
    ACCCATCTGA ATGTTATGTC TTCCAGTAGT GGACAGGTTC TGGAAGTTTT ACAGGAGGTT
    GAAGGCAAAT TACAGTCCAA ACTGACAAAA GACAAACCAG AGCCAGGAGG AGGTGCAGCT
    TGTGTCCAGT CTGAAGTCAT CTCTCAGATT CTTACAGAGG AATCTCAGGT ACCTAATGTC
    CTAGATGGGT CTTTGCCAAA TGAATCAACT GTAAAGCAAG AAAATCCTAC GGATCCTCTA
    TGTGTACAGT CTATGGAACC CATCATTCAA GATTCAACAA TTGACTCCAA TCAGGACGAA
    AAACCAAAAG AAGAAATTCA AGAGGGGAGC ACAGTACCTG ATATTGTTTC TAAACCTCCA
    AGGCCAAGAA GCAGAAGTCG GATTCCTATT CTAGTCCCGG AAGAGGAGCC AGGATCTGAG
    AAATCCCTGT CCACCAAAGA ACGAATGCGT AGAAGAGTCA TGCAGCAAGA CCTGGCCCGT
    CAAGTTGTGG AAAGACATCG TCAGGGTCGC TGGATAAGAC TGAATTCCAG GACATCATCT
    TCGTTATCTT CTGGAGATGA GCCCAAGAGA CCTTCAGAGA CTCTTTCTAC TACAGGCTCG
    GAAGAAGATG TTCTTGAATC TGATGATTCC CTAAACAAGC TCAAGAAGGA GGCTGAGGAA
    AAGCACCAAA CTGGCTGGCA CAGCAGGATC CCTCGACCAG TCACCCCAAT AAGGAAGCCT
    TCGACTAAAC TAGTTGTTGC ACCTCCTTTG AGCCAACCTG AAGCTGCAAA ATTAGAACAA
    AAAGCAAGCA ATGGCCCAAA AGTACAGTCA CAATCAGGAT CAAGTGCTCC AGCATTTCAT
    GCAAGATCAA AATCAACTCT GTCCCATTCG ACCATGCCAA GTGGAAGCAA TTGCATGCCT
    CTCTCCTGTA TTCCTGCAGC ATCCCGCCGC AGCTTAAGCA CCGCAAACTG CACTTTCTCT
    TCAGCCCGTA TAGCTAGTCC CTCGCCCCAT AGGCTACACT TGCGAACTGC TGTTATTGAA
    TCCCGCAAGC AACCGTTTGC CCTCCGAACC ACTGTGGAGC TCCCATTGAA GTCTAGGACT
    ACTACTTGCA GCAATCCTGC AAAGGACACC AAACCATCAC CAAACAAAGC CACCAACACA
    ACTGTCAGGA ATCGAACCAA AGCTTCTACT CAATCAAAAA ACACAGTTCC CGCTAAAAAG
    GAAAAAAGCA CAAGCAACAA TGCAGCTGCA GCCAGATAA

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