ORF » Species Summary » Anas platyrhynchos » KANSL3 cDNA ORF clone

KANSL3 cDNA ORF clone, Anas platyrhynchos(mallard)

The following KANSL3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KANSL3 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
OAn111898 XM_013100588.2
Latest version!		 Anas platyrhynchos KAT8 regulatory NSL complex subunit 3 (KANSL3), mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $426.30
$609.00
OAn172778 XM_027443550.1
Latest version!		 Anas platyrhynchos KAT8 regulatory NSL complex subunit 3 (KANSL3), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
View Old Accession Versions >>
OAn111898 XM_013100588.1 Anas platyrhynchos KAT8 regulatory NSL complex subunit 3 (KANSL3), mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $426.30
$609.00
Hide Old Accession Versions >>

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** 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)
    KANSL3 ( XM_013100588.1 ) cDNA ORF clone, Anas platyrhynchos(mallard) -> XP_012956042.1 Anas platyrhynchos KAT8 regulatory NSL complex subunit 3 (KANSL3), mRNA.
    Price & Availability↑
    CloneID OAn111898
    Clone ID Related Accession (Same CDS sequence) XM_013100588.1 , XM_013100588.2
    Accession Version XM_013100588.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2421bp)
    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 2015-07-08
    Organism Anas platyrhynchos(Mallard)
    Product KAT8 regulatory NSL complex subunit 3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004677097.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Anas platyrhynchos Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 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
    ATGAACGAGT GCGAGCGCCA CGTCATGTTC GCCCGCACGG ACGCGGACGC CCCTCCACCG 
    CCGGATGACT GGGAGGAACA CGTCAACAGG ACGGGTTGGA CAATGGCTCA GAACAAGCTA 
    TTTAACAAGA TCCACAAAGC GCTGCAGTCC GACAGGCTGG CGCGCTTGGC CAACGAAGGG 
    GCTTGCAATG AGCCGGTCCT GAGGAGGATA GCGGTGGACA AATGTGCCCG GAGGGTCCGC 
    CAGGCGCTGG CCAGTGTGAA CTGGGACACC AAGCTGATCC AGTGGCTGCA CACAACGTTG 
    GTGGAAACCC TCAGTTTGCC GGTGTTGGCT GCGTACTTGG ACGCTCTGCA AACGCTTAAA 
    GGAAAGATCC CCACCCTGAT CGATAGGATG CTGCTCTCCT CCACCGCGAA GACGGGGGCA 
    GCAGGAGCCG AGGCTCTGTC GCTGCTGCTG AAGAGGCCGT GGGACCCAGC AGTGGGTGTC 
    CTGTCACATA ACAAACCAAG CAAATTGCCT GGTTCCCCCC TCATCCTGAT TGCTTCCTCC 
    GGCCCCTCCA ACTCCATGTT CCCCACTTCT CGACGGCACC GCTTCTGGCA GTCGCAGCTT 
    TCCTGCTTGG GAAAGGTGAT TCCCATCGCC ACCCACCTGC ACAACGGCAG TGGGGTGGGA 
    GTGCTGCAGT GTCTTGAGCA CATGATTGGC GCAGTGAGGA GCAAAGTGGC AGAGATTCAC 
    AACCACTTCT CTCACAAGCC AATCATCCTG ATCGGGTGGA ACACGGGTGC CTTGGTGGCC 
    TGTCACGTTT CAGTGATGGA GTACGTCACT GCAGTTGTGT GCCTTGGATT CCCTCTTCTA 
    ACAGTTGATG GCCCCAGAGG GGACATCGAT GACCCCCTCC TGGAGATGAA GACCCCTGTC 
    CTCTTTGTGA TCGGTCAGAA TTCCCTGCAG TGCAACATCG AAGCGATGGA AGATTTCCGG 
    GAGAAAATCC GAGCTGATAA CAGCATGGTG GTGGTGGGAG GAGCAGACGA CAATCTCAGG 
    ATAAGCAAAG CCAAAAAGAA GTCAGAAGGC CTGACCCAGA GTATGGTGGA CAGGTGCATC 
    CAGGATGAAA TAGCTGACTT CCTGACTGGA GTCCTCACTC GAGCGGAGAG CCACTCGGGC 
    TCTGATCCCC GTGACCTGGA CGCTGAGAAG AAGAAGAAGC CGCGCGACTC GACCCGGAGG 
    GATCTGTCGT TTGATTTGCC GGAGAGAACC AGCAGGCCCA CCTCACCAGC AGCCAAAGTG 
    CCCGCTTCAC CGTCGGGCTC GGAGGACTTG TCCAGCGTCT CCAGCAGCCC CACATCGAGC 
    CCCAAGACTA AAATGGCTGC GGTGTCCTCC ATCCAGAAGC CCACCCAGAT CAGCACCACG 
    CAGCTGCTCA AGAGGCAGGT GCAGAGGACG GACACTATCC TGACACACAA GCAGGCACAA 
    GCTCAGTTTG CTGCTTTTCT GAAACAAAAC ATGCTGGTGA GGAAAGCTCT TCCTCCTGGC 
    ACCTCTTCAT GTCTCTTTGT TCCAGTCTCC TCAGAGCACT CGGAAGGGGC TGAGAGAGAC 
    GATGTGCGCG TGCAGCTGAA GAGGCATCAG GCCCCCAGCC CGACCCAGTG CAGCAAAACT 
    TCCAAACGAG CCAAAATCAA GGTGACCATT GTCTCTCACG GAGATGCTGC GGGCGTGGGG 
    AACGGAGCAC CCCTCACCAC CCAGGCAGAA ATTGTCTCCG GAAAGCCGGT CCCCATGGCT 
    GTCGGCCAGT CCGTGTCAGG AGTGAAGGAG CCCTTCGGAC TGCTCGCCAC CTCCAAGCTG 
    AGCTCAGCAA CAGAAACCTC CTCCATGAGC CCTGCTCCGT CTGCCGTGAT CCCCAGCAGC 
    ACGGCGCCCA GCGCTTTCCA TGCCCTGCAG AGCAGGCTGG TAGCCAGCAG CGCTCACTGC 
    ATGCAGGCCC AGCCAGCCAG TGCCCTCCAA GGAGCAGCAT CTGCCAGCAG CCTGCTGCAA 
    GGGCTGAGCT TCAGCCTGCA GGACATCGGG ACCAAGTCGT CAGCCCTTCC TGCCAGCGTG 
    GCTGCTGCTG GATCACCCGT GCAGACCTCA GCTGTGAAGA CACCCACACC GCTCCAGAAC 
    CTGAGTGCCA TTACCACAGG CACGGGCACG ATCGTCCGCA CCATCCCAGT CGCCACCTCC 
    TTGTCTGTGG GAGCCTCGGC GAGCGGGAAA CCCACGGCCA TTCACCAGCT GCTGACCAAC 
    GGGGGACTGG CCAAGCTGGC CAGCAGCCTC CCTGGCTTGG CTCAGATCTC CAACCAGGCA 
    GCAGGCTTGA AGGCCCCAAC GACCATTACT GTGACGCTGC GTGGGCAGCC CAGCCGAGTG 
    ACCACGCTCA GCCAGGCTGC CATGGGGGCT GTGCAGCCCC AGCTCGACGA GCAGCCCATG 
    CAGACGCAGG CCCCTCAGTG A

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

    RefSeq XP_012956042.1
    CDS154..2574
    Translation

    Target ORF information:

    RefSeq Version XM_013100588.1
    Organism Anas platyrhynchos(Mallard)
    Definition Anas platyrhynchos KAT8 regulatory NSL complex subunit 3 (KANSL3), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_013100588.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    ATGAACGAGT GCGAGCGCCA CGTCATGTTC GCCCGCACGG ACGCGGACGC CCCTCCACCG 
    CCGGATGACT GGGAGGAACA CGTCAACAGG ACGGGTTGGA CAATGGCTCA GAACAAGCTA 
    TTTAACAAGA TCCACAAAGC GCTGCAGTCC GACAGGCTGG CGCGCTTGGC CAACGAAGGG 
    GCTTGCAATG AGCCGGTCCT GAGGAGGATA GCGGTGGACA AATGTGCCCG GAGGGTCCGC 
    CAGGCGCTGG CCAGTGTGAA CTGGGACACC AAGCTGATCC AGTGGCTGCA CACAACGTTG 
    GTGGAAACCC TCAGTTTGCC GGTGTTGGCT GCGTACTTGG ACGCTCTGCA AACGCTTAAA 
    GGAAAGATCC CCACCCTGAT CGATAGGATG CTGCTCTCCT CCACCGCGAA GACGGGGGCA 
    GCAGGAGCCG AGGCTCTGTC GCTGCTGCTG AAGAGGCCGT GGGACCCAGC AGTGGGTGTC 
    CTGTCACATA ACAAACCAAG CAAATTGCCT GGTTCCCCCC TCATCCTGAT TGCTTCCTCC 
    GGCCCCTCCA ACTCCATGTT CCCCACTTCT CGACGGCACC GCTTCTGGCA GTCGCAGCTT 
    TCCTGCTTGG GAAAGGTGAT TCCCATCGCC ACCCACCTGC ACAACGGCAG TGGGGTGGGA 
    GTGCTGCAGT GTCTTGAGCA CATGATTGGC GCAGTGAGGA GCAAAGTGGC AGAGATTCAC 
    AACCACTTCT CTCACAAGCC AATCATCCTG ATCGGGTGGA ACACGGGTGC CTTGGTGGCC 
    TGTCACGTTT CAGTGATGGA GTACGTCACT GCAGTTGTGT GCCTTGGATT CCCTCTTCTA 
    ACAGTTGATG GCCCCAGAGG GGACATCGAT GACCCCCTCC TGGAGATGAA GACCCCTGTC 
    CTCTTTGTGA TCGGTCAGAA TTCCCTGCAG TGCAACATCG AAGCGATGGA AGATTTCCGG 
    GAGAAAATCC GAGCTGATAA CAGCATGGTG GTGGTGGGAG GAGCAGACGA CAATCTCAGG 
    ATAAGCAAAG CCAAAAAGAA GTCAGAAGGC CTGACCCAGA GTATGGTGGA CAGGTGCATC 
    CAGGATGAAA TAGCTGACTT CCTGACTGGA GTCCTCACTC GAGCGGAGAG CCACTCGGGC 
    TCTGATCCCC GTGACCTGGA CGCTGAGAAG AAGAAGAAGC CGCGCGACTC GACCCGGAGG 
    GATCTGTCGT TTGATTTGCC GGAGAGAACC AGCAGGCCCA CCTCACCAGC AGCCAAAGTG 
    CCCGCTTCAC CGTCGGGCTC GGAGGACTTG TCCAGCGTCT CCAGCAGCCC CACATCGAGC 
    CCCAAGACTA AAATGGCTGC GGTGTCCTCC ATCCAGAAGC CCACCCAGAT CAGCACCACG 
    CAGCTGCTCA AGAGGCAGGT GCAGAGGACG GACACTATCC TGACACACAA GCAGGCACAA 
    GCTCAGTTTG CTGCTTTTCT GAAACAAAAC ATGCTGGTGA GGAAAGCTCT TCCTCCTGGC 
    ACCTCTTCAT GTCTCTTTGT TCCAGTCTCC TCAGAGCACT CGGAAGGGGC TGAGAGAGAC 
    GATGTGCGCG TGCAGCTGAA GAGGCATCAG GCCCCCAGCC CGACCCAGTG CAGCAAAACT 
    TCCAAACGAG CCAAAATCAA GGTGACCATT GTCTCTCACG GAGATGCTGC GGGCGTGGGG 
    AACGGAGCAC CCCTCACCAC CCAGGCAGAA ATTGTCTCCG GAAAGCCGGT CCCCATGGCT 
    GTCGGCCAGT CCGTGTCAGG AGTGAAGGAG CCCTTCGGAC TGCTCGCCAC CTCCAAGCTG 
    AGCTCAGCAA CAGAAACCTC CTCCATGAGC CCTGCTCCGT CTGCCGTGAT CCCCAGCAGC 
    ACGGCGCCCA GCGCTTTCCA TGCCCTGCAG AGCAGGCTGG TAGCCAGCAG CGCTCACTGC 
    ATGCAGGCCC AGCCAGCCAG TGCCCTCCAA GGAGCAGCAT CTGCCAGCAG CCTGCTGCAA 
    GGGCTGAGCT TCAGCCTGCA GGACATCGGG ACCAAGTCGT CAGCCCTTCC TGCCAGCGTG 
    GCTGCTGCTG GATCACCCGT GCAGACCTCA GCTGTGAAGA CACCCACACC GCTCCAGAAC 
    CTGAGTGCCA TTACCACAGG CACGGGCACG ATCGTCCGCA CCATCCCAGT CGCCACCTCC 
    TTGTCTGTGG GAGCCTCGGC GAGCGGGAAA CCCACGGCCA TTCACCAGCT GCTGACCAAC 
    GGGGGACTGG CCAAGCTGGC CAGCAGCCTC CCTGGCTTGG CTCAGATCTC CAACCAGGCA 
    GCAGGCTTGA AGGCCCCAAC GACCATTACT GTGACGCTGC GTGGGCAGCC CAGCCGAGTG 
    ACCACGCTCA GCCAGGCTGC CATGGGGGCT GTGCAGCCCC AGCTCGACGA GCAGCCCATG 
    CAGACGCAGG CCCCTCAGTG A

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

    KANSL3 ( XM_013100588.2 ) cDNA ORF clone, Anas platyrhynchos(mallard) -> XP_012956042.1 Anas platyrhynchos KAT8 regulatory NSL complex subunit 3 (KANSL3), mRNA.
    Price & Availability↑
    CloneID OAn111898
    Clone ID Related Accession (Same CDS sequence) XM_013100588.1 , XM_013100588.2
    Accession Version XM_013100588.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2421bp)
    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 2017-05-23
    Organism Anas platyrhynchos(mallard)
    Product KAT8 regulatory NSL complex subunit 3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004677097.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 24, 2017 this sequence version replaced XM_013100588.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Anas platyrhynchos Annotation Release 102 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
    ATGAACGAGT GCGAGCGCCA CGTCATGTTC GCCCGCACGG ACGCGGACGC CCCTCCACCG 
    CCGGATGACT GGGAGGAACA CGTCAACAGG ACGGGTTGGA CAATGGCTCA GAACAAGCTA 
    TTTAACAAGA TCCACAAAGC GCTGCAGTCC GACAGGCTGG CGCGCTTGGC CAACGAAGGG 
    GCTTGCAATG AGCCGGTCCT GAGGAGGATA GCGGTGGACA AATGTGCCCG GAGGGTCCGC 
    CAGGCGCTGG CCAGTGTGAA CTGGGACACC AAGCTGATCC AGTGGCTGCA CACAACGTTG 
    GTGGAAACCC TCAGTTTGCC GGTGTTGGCT GCGTACTTGG ACGCTCTGCA AACGCTTAAA 
    GGAAAGATCC CCACCCTGAT CGATAGGATG CTGCTCTCCT CCACCGCGAA GACGGGGGCA 
    GCAGGAGCCG AGGCTCTGTC GCTGCTGCTG AAGAGGCCGT GGGACCCAGC AGTGGGTGTC 
    CTGTCACATA ACAAACCAAG CAAATTGCCT GGTTCCCCCC TCATCCTGAT TGCTTCCTCC 
    GGCCCCTCCA ACTCCATGTT CCCCACTTCT CGACGGCACC GCTTCTGGCA GTCGCAGCTT 
    TCCTGCTTGG GAAAGGTGAT TCCCATCGCC ACCCACCTGC ACAACGGCAG TGGGGTGGGA 
    GTGCTGCAGT GTCTTGAGCA CATGATTGGC GCAGTGAGGA GCAAAGTGGC AGAGATTCAC 
    AACCACTTCT CTCACAAGCC AATCATCCTG ATCGGGTGGA ACACGGGTGC CTTGGTGGCC 
    TGTCACGTTT CAGTGATGGA GTACGTCACT GCAGTTGTGT GCCTTGGATT CCCTCTTCTA 
    ACAGTTGATG GCCCCAGAGG GGACATCGAT GACCCCCTCC TGGAGATGAA GACCCCTGTC 
    CTCTTTGTGA TCGGTCAGAA TTCCCTGCAG TGCAACATCG AAGCGATGGA AGATTTCCGG 
    GAGAAAATCC GAGCTGATAA CAGCATGGTG GTGGTGGGAG GAGCAGACGA CAATCTCAGG 
    ATAAGCAAAG CCAAAAAGAA GTCAGAAGGC CTGACCCAGA GTATGGTGGA CAGGTGCATC 
    CAGGATGAAA TAGCTGACTT CCTGACTGGA GTCCTCACTC GAGCGGAGAG CCACTCGGGC 
    TCTGATCCCC GTGACCTGGA CGCTGAGAAG AAGAAGAAGC CGCGCGACTC GACCCGGAGG 
    GATCTGTCGT TTGATTTGCC GGAGAGAACC AGCAGGCCCA CCTCACCAGC AGCCAAAGTG 
    CCCGCTTCAC CGTCGGGCTC GGAGGACTTG TCCAGCGTCT CCAGCAGCCC CACATCGAGC 
    CCCAAGACTA AAATGGCTGC GGTGTCCTCC ATCCAGAAGC CCACCCAGAT CAGCACCACG 
    CAGCTGCTCA AGAGGCAGGT GCAGAGGACG GACACTATCC TGACACACAA GCAGGCACAA 
    GCTCAGTTTG CTGCTTTTCT GAAACAAAAC ATGCTGGTGA GGAAAGCTCT TCCTCCTGGC 
    ACCTCTTCAT GTCTCTTTGT TCCAGTCTCC TCAGAGCACT CGGAAGGGGC TGAGAGAGAC 
    GATGTGCGCG TGCAGCTGAA GAGGCATCAG GCCCCCAGCC CGACCCAGTG CAGCAAAACT 
    TCCAAACGAG CCAAAATCAA GGTGACCATT GTCTCTCACG GAGATGCTGC GGGCGTGGGG 
    AACGGAGCAC CCCTCACCAC CCAGGCAGAA ATTGTCTCCG GAAAGCCGGT CCCCATGGCT 
    GTCGGCCAGT CCGTGTCAGG AGTGAAGGAG CCCTTCGGAC TGCTCGCCAC CTCCAAGCTG 
    AGCTCAGCAA CAGAAACCTC CTCCATGAGC CCTGCTCCGT CTGCCGTGAT CCCCAGCAGC 
    ACGGCGCCCA GCGCTTTCCA TGCCCTGCAG AGCAGGCTGG TAGCCAGCAG CGCTCACTGC 
    ATGCAGGCCC AGCCAGCCAG TGCCCTCCAA GGAGCAGCAT CTGCCAGCAG CCTGCTGCAA 
    GGGCTGAGCT TCAGCCTGCA GGACATCGGG ACCAAGTCGT CAGCCCTTCC TGCCAGCGTG 
    GCTGCTGCTG GATCACCCGT GCAGACCTCA GCTGTGAAGA CACCCACACC GCTCCAGAAC 
    CTGAGTGCCA TTACCACAGG CACGGGCACG ATCGTCCGCA CCATCCCAGT CGCCACCTCC 
    TTGTCTGTGG GAGCCTCGGC GAGCGGGAAA CCCACGGCCA TTCACCAGCT GCTGACCAAC 
    GGGGGACTGG CCAAGCTGGC CAGCAGCCTC CCTGGCTTGG CTCAGATCTC CAACCAGGCA 
    GCAGGCTTGA AGGCCCCAAC GACCATTACT GTGACGCTGC GTGGGCAGCC CAGCCGAGTG 
    ACCACGCTCA GCCAGGCTGC CATGGGGGCT GTGCAGCCCC AGCTCGACGA GCAGCCCATG 
    CAGACGCAGG CCCCTCAGTG A

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

    RefSeq XP_012956042.1
    CDS115..2535
    Translation

    Target ORF information:

    RefSeq Version XM_013100588.2
    Organism Anas platyrhynchos(mallard)
    Definition Anas platyrhynchos KAT8 regulatory NSL complex subunit 3 (KANSL3), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_013100588.2

    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
    ATGAACGAGT GCGAGCGCCA CGTCATGTTC GCCCGCACGG ACGCGGACGC CCCTCCACCG 
    CCGGATGACT GGGAGGAACA CGTCAACAGG ACGGGTTGGA CAATGGCTCA GAACAAGCTA 
    TTTAACAAGA TCCACAAAGC GCTGCAGTCC GACAGGCTGG CGCGCTTGGC CAACGAAGGG 
    GCTTGCAATG AGCCGGTCCT GAGGAGGATA GCGGTGGACA AATGTGCCCG GAGGGTCCGC 
    CAGGCGCTGG CCAGTGTGAA CTGGGACACC AAGCTGATCC AGTGGCTGCA CACAACGTTG 
    GTGGAAACCC TCAGTTTGCC GGTGTTGGCT GCGTACTTGG ACGCTCTGCA AACGCTTAAA 
    GGAAAGATCC CCACCCTGAT CGATAGGATG CTGCTCTCCT CCACCGCGAA GACGGGGGCA 
    GCAGGAGCCG AGGCTCTGTC GCTGCTGCTG AAGAGGCCGT GGGACCCAGC AGTGGGTGTC 
    CTGTCACATA ACAAACCAAG CAAATTGCCT GGTTCCCCCC TCATCCTGAT TGCTTCCTCC 
    GGCCCCTCCA ACTCCATGTT CCCCACTTCT CGACGGCACC GCTTCTGGCA GTCGCAGCTT 
    TCCTGCTTGG GAAAGGTGAT TCCCATCGCC ACCCACCTGC ACAACGGCAG TGGGGTGGGA 
    GTGCTGCAGT GTCTTGAGCA CATGATTGGC GCAGTGAGGA GCAAAGTGGC AGAGATTCAC 
    AACCACTTCT CTCACAAGCC AATCATCCTG ATCGGGTGGA ACACGGGTGC CTTGGTGGCC 
    TGTCACGTTT CAGTGATGGA GTACGTCACT GCAGTTGTGT GCCTTGGATT CCCTCTTCTA 
    ACAGTTGATG GCCCCAGAGG GGACATCGAT GACCCCCTCC TGGAGATGAA GACCCCTGTC 
    CTCTTTGTGA TCGGTCAGAA TTCCCTGCAG TGCAACATCG AAGCGATGGA AGATTTCCGG 
    GAGAAAATCC GAGCTGATAA CAGCATGGTG GTGGTGGGAG GAGCAGACGA CAATCTCAGG 
    ATAAGCAAAG CCAAAAAGAA GTCAGAAGGC CTGACCCAGA GTATGGTGGA CAGGTGCATC 
    CAGGATGAAA TAGCTGACTT CCTGACTGGA GTCCTCACTC GAGCGGAGAG CCACTCGGGC 
    TCTGATCCCC GTGACCTGGA CGCTGAGAAG AAGAAGAAGC CGCGCGACTC GACCCGGAGG 
    GATCTGTCGT TTGATTTGCC GGAGAGAACC AGCAGGCCCA CCTCACCAGC AGCCAAAGTG 
    CCCGCTTCAC CGTCGGGCTC GGAGGACTTG TCCAGCGTCT CCAGCAGCCC CACATCGAGC 
    CCCAAGACTA AAATGGCTGC GGTGTCCTCC ATCCAGAAGC CCACCCAGAT CAGCACCACG 
    CAGCTGCTCA AGAGGCAGGT GCAGAGGACG GACACTATCC TGACACACAA GCAGGCACAA 
    GCTCAGTTTG CTGCTTTTCT GAAACAAAAC ATGCTGGTGA GGAAAGCTCT TCCTCCTGGC 
    ACCTCTTCAT GTCTCTTTGT TCCAGTCTCC TCAGAGCACT CGGAAGGGGC TGAGAGAGAC 
    GATGTGCGCG TGCAGCTGAA GAGGCATCAG GCCCCCAGCC CGACCCAGTG CAGCAAAACT 
    TCCAAACGAG CCAAAATCAA GGTGACCATT GTCTCTCACG GAGATGCTGC GGGCGTGGGG 
    AACGGAGCAC CCCTCACCAC CCAGGCAGAA ATTGTCTCCG GAAAGCCGGT CCCCATGGCT 
    GTCGGCCAGT CCGTGTCAGG AGTGAAGGAG CCCTTCGGAC TGCTCGCCAC CTCCAAGCTG 
    AGCTCAGCAA CAGAAACCTC CTCCATGAGC CCTGCTCCGT CTGCCGTGAT CCCCAGCAGC 
    ACGGCGCCCA GCGCTTTCCA TGCCCTGCAG AGCAGGCTGG TAGCCAGCAG CGCTCACTGC 
    ATGCAGGCCC AGCCAGCCAG TGCCCTCCAA GGAGCAGCAT CTGCCAGCAG CCTGCTGCAA 
    GGGCTGAGCT TCAGCCTGCA GGACATCGGG ACCAAGTCGT CAGCCCTTCC TGCCAGCGTG 
    GCTGCTGCTG GATCACCCGT GCAGACCTCA GCTGTGAAGA CACCCACACC GCTCCAGAAC 
    CTGAGTGCCA TTACCACAGG CACGGGCACG ATCGTCCGCA CCATCCCAGT CGCCACCTCC 
    TTGTCTGTGG GAGCCTCGGC GAGCGGGAAA CCCACGGCCA TTCACCAGCT GCTGACCAAC 
    GGGGGACTGG CCAAGCTGGC CAGCAGCCTC CCTGGCTTGG CTCAGATCTC CAACCAGGCA 
    GCAGGCTTGA AGGCCCCAAC GACCATTACT GTGACGCTGC GTGGGCAGCC CAGCCGAGTG 
    ACCACGCTCA GCCAGGCTGC CATGGGGGCT GTGCAGCCCC AGCTCGACGA GCAGCCCATG 
    CAGACGCAGG CCCCTCAGTG A

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

    KANSL3 ( XM_027443550.1 ) cDNA ORF clone, Anas platyrhynchos(mallard) -> XP_027299351.1 Anas platyrhynchos KAT8 regulatory NSL complex subunit 3 (KANSL3), mRNA.
    Price & Availability↑
    CloneID OAn172778
    Clone ID Related Accession (Same CDS sequence) XM_027443550.1
    Accession Version XM_027443550.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3513bp)
    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 2018-12-19
    Organism Anas platyrhynchos(mallard)
    Product LOW QUALITY PROTEIN: KAT8 regulatory NSL complex subunit 3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_040068.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Anas platyrhynchos Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## internal stop codons :: corrected 1 genomic stop codon ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGGCGCAGC GCGACCGCGA CCGGGAGCGC GATCGCGATC GGGACCGGGA CCGCGACCGC 
    GACCGGGACC GAGAGCTGCA ATGGTCGGCG CGGAGGATGG GGACGTCGCT GCTGCTGCAG 
    CTGTCGGCCC ACGAGCGGGA GCTGGACCTG GTGTGCCTGG ACCACAGCTA CGCCAAGCCC 
    TGGAGCGCCC ACCCCGACGC CAGCGCCGCC CGGCCCGCGA GGATGCTCTT CCTGCCCCCC 
    AGGAGGAGCC CCGGCAGCGC CCTCGAGGCA GATGTCCCCA TCGACGTCGA GACGGTGACG 
    CCCACGCCCG TGCCGCTGTA CGACAACCAG AAGGCGCGCA GCGTGATGAA CGAGTGCGAG 
    CGCCACGTCA TGTTCGCCCG CACGGACGCG GACGCCCCTC CGCCGCCGGA TGACTGGGAG 
    GAACACGTCA ACAGGACGGG TTGGACAATG GCTCAGAACA AGCTATTTAA CAAGATCCAC 
    AAAGCGCTGC AGTCCGACAG GCTGGCGCGC TTGGCCAACG AAGGGGCTTG CAATGAGCCG 
    GTCCTGAGGA GGATAGCGGT GGACAAATGT GCCCGGAGGG TCCGCCAGGC GCTGGCCAGT 
    GTGAACTGGG ACACCAAGCT GATCCAGTGG CTGCACACAA CGTTGGTGGA AACCCTCAGT 
    TTGCCAGTGT TGGCTGCGTA CTTGGACGCT CTGCAAACGC TTAAAGGAAA GATCCCCACC 
    CTGATCGATA GGATGCTGCT CTCCTCCACC GCGAAGACGG GGGCAGCAGG AGCCGAGGCT 
    CTGTCGCTGC TGCTGAAGAG GCCGTGGGAC CCAGCAGTGG GTGTCCTGTC ACATAACAAA 
    CCAAGCAAAT TGCCTGGTTC CCCCCTCATC CTGATTGCTT CCTCTGGCCC CTCCAACTCC 
    ATGTTCCCCA CTTCTCGACG GCACCGCTTC TGGCAGTCGC AGCTTTCCTG CTTGGGAAAG 
    GTGATTCCCA TCGCCACCCA CCTGCTGAAC AACGGCAGCG GGGTGGGAGT GCTGCAGTGT 
    CTCGAGCACA TGATTGGCGC AGTGAGGAGC AAAGTGGCAG AGATTCACAA CCACTTCTCT 
    CACAAGCCGA TCATCCTGAT CGGGTGGAAC ACGGGTGCCT TGGTGGCCTG TCACGTTTCA 
    GTGATGGAGT ACGTCACTGC AGTTGTGTGC CTTGGATTCC CTCTTCTAAC AGTTGATGGC 
    CCCAGAGGGG ACATCGATGA CCCCCTCCTG GAGATGAAGA CCCCTGTCCT CTTTGTGATC 
    GGTCAGAATT CCCTGCAGTG CAACATCGAA GCGATGGAAG ATTTCCGGGA GAAAATCCGA 
    GCTGATAACA GCATGGTGGT GGTGGGAGGA GCAGACGACA ATCTCAGGTG ATGTCCTCAA 
    AGCCAAAAGA AGTCAGAAGG CCTGACCCAG AGTATGGTGG ACAGGTGCAT CCAGGATGAA 
    ATAGCTGACT TCCTGACTGG AGTCCTCACT CGAGCGGAGA GCCACTCGGG CTCTGATCCC 
    CGTGACCTGG ACGCTGAGAA GAAGAAGAAG CCGCGCGACT CGACCCGGAG GGATCTGTCG 
    TTTGATTTGC CGGAGAGAAC CAGCAGGCCC ACCTCACCAG CAGCCAAAGT GCCCGCTTCA 
    CCGTCGGGCT CGGAGGACTT GTCCAGCGTC TCCAGCAGCC CCACGTCGAG CCCCAAGACT 
    AAAATGGCTG CGGTGTCCTC CATCCAGAAG CCCACCCAGA TCAGCACCAC GCAGCTGCTC 
    AAGAGGCAGG TGCAGAGGAC GGACACTATC CTGACACACA AGCAGGCACA AGCTCAGTTT 
    GCTGCTTTTC TGAAACAAAA CATGCTGGTG AGGAAAGCTC TTCCTCCTGG CACCTCTTCA 
    TGTCTCTTTG TTCCAGTCTC CTCAGAGCAC TCGGAAGGGG CTGAGAGAGA CGATGTGCGC 
    GTGCAGCTGA AGAGGCATCA GGCCCCCAGC CCGACCCAGT GCAGCAAAAC TTCCAAACGA 
    GCCAAAATCA AGGTGACCAT TGTCTCTCAC GGAGATGCTG CGGGCGTGGG GAACGGAGCA 
    CCCCTCACCA CCCAGGCAGA AATTGTCTCC GGAAAGCCGG TCCCCATGGC TGTCGGCCAG 
    TCCGTGTCAG GAGTGAAGGA GCCCTTCGGA CTGCTCGCCA CCTCCAAGCT GAGCTCAGCA 
    ACAGAAACCT CCTCCATGAG CCCTGCTCCG TCTGCCGTGA TCCCCAGCAG CACGGCGCCC 
    AGCGCTTTCC ATGCCCTGCA GAGCAGGCTG GTAGCCAGCA GCGCCCACTG CATGCAGGCC 
    CAGCCAGCCA GTGCCCTCCA AGGAGCAGCA TCTGCCAGCA GCCTGCTGCA AGGGCTGAGC 
    TTCAGCCTGC AGGACATCGG GACCAAGTCG TCAGCCCTTC CTGCCAGTGT GGCTGCTGCT 
    GGATCGCCCG TGCAGACCTC AGCTGTGAAG ACACCCACAC CGCTCCAGAA CCTGAGTGCC 
    ATTACCACAG GCACGGGCAC GATCGTCCGC ACCATCCCAG TCGCCACCTC CTTGTCTGTG 
    GGAGCCTCGG CGAGCGGGAA ACCCACGGCC ATTCACCAGC TGCTGACCAA CGGGGGACTG 
    GCCAAGCTGG CCAGCAGCCT CCCTGGCTTG GCTCAGATCT CCAACCAGGC AGCAGGCTTG 
    AAGGCCCCAA CGACCATTAC TGTGACGCTG CGTGGGCAGC CCAGCCGAGT GACCACGCTC 
    AGCCAGGCTG CCATGGGGGC TGTGCAGCCC CAGCTCGACG AGCAGCCCAT GCAGACGCAG 
    GCCCCTCAGG CTCCGGACGG TGCAGTTGGG AACTTGGCCG CCCCAGCTTC CAGCGCCGCC 
    TCTCCTGGCA AGCTGCTGTC TCAGATGGAT CTCAGCAAAG CCCAGGCTGG CGCAGAGATG 
    GCTCCTGCCG ACCCCACAGC CCACCTGACC GCCGCGGCAG CACCCGTAGT GACCAGCGCC 
    AGCCCCATGA AGACGCTGTA CGTCATGTCG GACGCCAAGC TCTCCGCGCT CACCAAGTCC 
    GTGATGGGTG AGGCTACCTC AGTCCCCCTC AAACTGCCCG GCATCCAGCC TTCCTCCTCC 
    TCCTCCTCCT CGTCCGCCAG CTCTCCCACT GGCGCCGTCA CCTTCGCCAC CTCCCCGCTG 
    GCCGGCGCTC CCAGTCCTCC CGGCAGCCTG GTGCACCCGA AGGTGGGACC CGTCCTGCAG 
    ACCGCCTCCA AGACCGTCAT CCTCACCTCG ACGCTGGCCG CGGTGAAGGG CGACGGGCCC 
    CTCGGGCACC TCGGGGAGAA GGTCAGCCTG AGCAAGAGCG CCTCGGCCCT CGGCCACGCT 
    CTGGGGACGA TGGAGACCCT GGGGAGGGTT CCCTCCGTGG TGGACGACGG CAGCACCGTC 
    ATCCACACCA GAGAGACTCT GGCCAACAGA CACTTGCTGC CCCAGGGCGT GCTGCCTGCA 
    GGGGCCGGCA CCACGCTGAT AACGCTGGGC AGCAGCCTGG CCAGCTCCTC CATCATCGCC 
    GCGGCGGGGC CCACGCTCAG CCAGAAGCCG TAG

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

    RefSeq XP_027299351.1
    CDS45..3557
    Translation

    Target ORF information:

    RefSeq Version XM_027443550.1
    Organism Anas platyrhynchos(mallard)
    Definition Anas platyrhynchos KAT8 regulatory NSL complex subunit 3 (KANSL3), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_027443550.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGGCGCAGC GCGACCGCGA CCGGGAGCGC GATCGCGATC GGGACCGGGA CCGCGACCGC 
    GACCGGGACC GAGAGCTGCA ATGGTCGGCG CGGAGGATGG GGACGTCGCT GCTGCTGCAG 
    CTGTCGGCCC ACGAGCGGGA GCTGGACCTG GTGTGCCTGG ACCACAGCTA CGCCAAGCCC 
    TGGAGCGCCC ACCCCGACGC CAGCGCCGCC CGGCCCGCGA GGATGCTCTT CCTGCCCCCC 
    AGGAGGAGCC CCGGCAGCGC CCTCGAGGCA GATGTCCCCA TCGACGTCGA GACGGTGACG 
    CCCACGCCCG TGCCGCTGTA CGACAACCAG AAGGCGCGCA GCGTGATGAA CGAGTGCGAG 
    CGCCACGTCA TGTTCGCCCG CACGGACGCG GACGCCCCTC CGCCGCCGGA TGACTGGGAG 
    GAACACGTCA ACAGGACGGG TTGGACAATG GCTCAGAACA AGCTATTTAA CAAGATCCAC 
    AAAGCGCTGC AGTCCGACAG GCTGGCGCGC TTGGCCAACG AAGGGGCTTG CAATGAGCCG 
    GTCCTGAGGA GGATAGCGGT GGACAAATGT GCCCGGAGGG TCCGCCAGGC GCTGGCCAGT 
    GTGAACTGGG ACACCAAGCT GATCCAGTGG CTGCACACAA CGTTGGTGGA AACCCTCAGT 
    TTGCCAGTGT TGGCTGCGTA CTTGGACGCT CTGCAAACGC TTAAAGGAAA GATCCCCACC 
    CTGATCGATA GGATGCTGCT CTCCTCCACC GCGAAGACGG GGGCAGCAGG AGCCGAGGCT 
    CTGTCGCTGC TGCTGAAGAG GCCGTGGGAC CCAGCAGTGG GTGTCCTGTC ACATAACAAA 
    CCAAGCAAAT TGCCTGGTTC CCCCCTCATC CTGATTGCTT CCTCTGGCCC CTCCAACTCC 
    ATGTTCCCCA CTTCTCGACG GCACCGCTTC TGGCAGTCGC AGCTTTCCTG CTTGGGAAAG 
    GTGATTCCCA TCGCCACCCA CCTGCTGAAC AACGGCAGCG GGGTGGGAGT GCTGCAGTGT 
    CTCGAGCACA TGATTGGCGC AGTGAGGAGC AAAGTGGCAG AGATTCACAA CCACTTCTCT 
    CACAAGCCGA TCATCCTGAT CGGGTGGAAC ACGGGTGCCT TGGTGGCCTG TCACGTTTCA 
    GTGATGGAGT ACGTCACTGC AGTTGTGTGC CTTGGATTCC CTCTTCTAAC AGTTGATGGC 
    CCCAGAGGGG ACATCGATGA CCCCCTCCTG GAGATGAAGA CCCCTGTCCT CTTTGTGATC 
    GGTCAGAATT CCCTGCAGTG CAACATCGAA GCGATGGAAG ATTTCCGGGA GAAAATCCGA 
    GCTGATAACA GCATGGTGGT GGTGGGAGGA GCAGACGACA ATCTCAGGTG ATGTCCTCAA 
    AGCCAAAAGA AGTCAGAAGG CCTGACCCAG AGTATGGTGG ACAGGTGCAT CCAGGATGAA 
    ATAGCTGACT TCCTGACTGG AGTCCTCACT CGAGCGGAGA GCCACTCGGG CTCTGATCCC 
    CGTGACCTGG ACGCTGAGAA GAAGAAGAAG CCGCGCGACT CGACCCGGAG GGATCTGTCG 
    TTTGATTTGC CGGAGAGAAC CAGCAGGCCC ACCTCACCAG CAGCCAAAGT GCCCGCTTCA 
    CCGTCGGGCT CGGAGGACTT GTCCAGCGTC TCCAGCAGCC CCACGTCGAG CCCCAAGACT 
    AAAATGGCTG CGGTGTCCTC CATCCAGAAG CCCACCCAGA TCAGCACCAC GCAGCTGCTC 
    AAGAGGCAGG TGCAGAGGAC GGACACTATC CTGACACACA AGCAGGCACA AGCTCAGTTT 
    GCTGCTTTTC TGAAACAAAA CATGCTGGTG AGGAAAGCTC TTCCTCCTGG CACCTCTTCA 
    TGTCTCTTTG TTCCAGTCTC CTCAGAGCAC TCGGAAGGGG CTGAGAGAGA CGATGTGCGC 
    GTGCAGCTGA AGAGGCATCA GGCCCCCAGC CCGACCCAGT GCAGCAAAAC TTCCAAACGA 
    GCCAAAATCA AGGTGACCAT TGTCTCTCAC GGAGATGCTG CGGGCGTGGG GAACGGAGCA 
    CCCCTCACCA CCCAGGCAGA AATTGTCTCC GGAAAGCCGG TCCCCATGGC TGTCGGCCAG 
    TCCGTGTCAG GAGTGAAGGA GCCCTTCGGA CTGCTCGCCA CCTCCAAGCT GAGCTCAGCA 
    ACAGAAACCT CCTCCATGAG CCCTGCTCCG TCTGCCGTGA TCCCCAGCAG CACGGCGCCC 
    AGCGCTTTCC ATGCCCTGCA GAGCAGGCTG GTAGCCAGCA GCGCCCACTG CATGCAGGCC 
    CAGCCAGCCA GTGCCCTCCA AGGAGCAGCA TCTGCCAGCA GCCTGCTGCA AGGGCTGAGC 
    TTCAGCCTGC AGGACATCGG GACCAAGTCG TCAGCCCTTC CTGCCAGTGT GGCTGCTGCT 
    GGATCGCCCG TGCAGACCTC AGCTGTGAAG ACACCCACAC CGCTCCAGAA CCTGAGTGCC 
    ATTACCACAG GCACGGGCAC GATCGTCCGC ACCATCCCAG TCGCCACCTC CTTGTCTGTG 
    GGAGCCTCGG CGAGCGGGAA ACCCACGGCC ATTCACCAGC TGCTGACCAA CGGGGGACTG 
    GCCAAGCTGG CCAGCAGCCT CCCTGGCTTG GCTCAGATCT CCAACCAGGC AGCAGGCTTG 
    AAGGCCCCAA CGACCATTAC TGTGACGCTG CGTGGGCAGC CCAGCCGAGT GACCACGCTC 
    AGCCAGGCTG CCATGGGGGC TGTGCAGCCC CAGCTCGACG AGCAGCCCAT GCAGACGCAG 
    GCCCCTCAGG CTCCGGACGG TGCAGTTGGG AACTTGGCCG CCCCAGCTTC CAGCGCCGCC 
    TCTCCTGGCA AGCTGCTGTC TCAGATGGAT CTCAGCAAAG CCCAGGCTGG CGCAGAGATG 
    GCTCCTGCCG ACCCCACAGC CCACCTGACC GCCGCGGCAG CACCCGTAGT GACCAGCGCC 
    AGCCCCATGA AGACGCTGTA CGTCATGTCG GACGCCAAGC TCTCCGCGCT CACCAAGTCC 
    GTGATGGGTG AGGCTACCTC AGTCCCCCTC AAACTGCCCG GCATCCAGCC TTCCTCCTCC 
    TCCTCCTCCT CGTCCGCCAG CTCTCCCACT GGCGCCGTCA CCTTCGCCAC CTCCCCGCTG 
    GCCGGCGCTC CCAGTCCTCC CGGCAGCCTG GTGCACCCGA AGGTGGGACC CGTCCTGCAG 
    ACCGCCTCCA AGACCGTCAT CCTCACCTCG ACGCTGGCCG CGGTGAAGGG CGACGGGCCC 
    CTCGGGCACC TCGGGGAGAA GGTCAGCCTG AGCAAGAGCG CCTCGGCCCT CGGCCACGCT 
    CTGGGGACGA TGGAGACCCT GGGGAGGGTT CCCTCCGTGG TGGACGACGG CAGCACCGTC 
    ATCCACACCA GAGAGACTCT GGCCAACAGA CACTTGCTGC CCCAGGGCGT GCTGCCTGCA 
    GGGGCCGGCA CCACGCTGAT AACGCTGGGC AGCAGCCTGG CCAGCTCCTC CATCATCGCC 
    GCGGCGGGGC CCACGCTCAG CCAGAAGCCG TAG

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

見積依頼

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