ORF » Species Summary » Anas platyrhynchos » KANSL1 cDNA ORF clone

KANSL1 cDNA ORF clone, Anas platyrhynchos(Mallard)

The following KANSL1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KANSL1 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
OAn120375 XM_013108333.1
Latest version!		 Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OAn145988 XM_021278577.1
Latest version!		 Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OAn174198 XM_027445322.1
Latest version!		 Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OAn174198 XM_027445321.1
Latest version!		 Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OAn174199 XM_027445323.1
Latest version!		 Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OAn174200 XM_027445324.1
Latest version!		 Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00

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

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

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

  • Reference Sequences (Refseq)
    KANSL1 ( XM_013108333.1 ) cDNA ORF clone, Anas platyrhynchos(Mallard) -> XP_012963787.1 Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), mRNA.
    Price & Availability↑
    CloneID OAn120375
    Clone ID Related Accession (Same CDS sequence) XM_013108333.1
    Accession Version XM_013108333.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3078bp)
    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 1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004678640.1) 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## ##RefSeq-Attributes-START## ab initio :: 3% of CDS bases ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCTCACCA CATCCGATTC 
    AAGCTGGCTC CCCCGTCCTC CACCTTGTCG CCTGGCAGTG CCGAGAGCAA CGGCAACGCC 
    AACAACATCC TCCTGGCTGC CAACGGCACC AAAAGGAAAG CCATTGCTCC GGAGGATCCC 
    AGTTTAGATT TCCGAAACAA CCCTACGAAG GAAGAGCTGG GCAAGCTGCA GCCGCTAGTG 
    GCCTCTTATC TCTGCTCGGA TGTTACATCT GTTCCTTCAA AAGAGCCTCT GAAGCTGCAA 
    GGAGTCTTCA ACAAGCAGAC AGTCCTTAAA TCTCACTCTC TATTATCTCA GTCCTTCTTG 
    AAAACAAGCG ATCTGTTGGG GAGGCAACCG GTGTTGGAAT TTACTTTGGA GAATCTAAAA 
    ACAATGAGTA CTAATAGCCA GCCACCTCTC CCGCAAGCGC CTGTGAACGG CTTGGCCAAG 
    AAATTGGCCA AAAGTACCAA TTCAGACCAT GAAAACTCGA GTGCTCTGAA TGGTGGGAAG 
    TGTGCTCCTC CTGCCACTGC CCTCCAGGGC GTTGACTATA ACGCAGGGGG TTCCGAATCA 
    GGGGATTTGA AGACCGGGTT GACCAATTGC ACTCTTCCAC ACCGAAGCCT TGATGCCGAG 
    CACACGACTC CGTTTAGCAA TAATAGCACT GCAAACAAAT CTTCCCTTAA TTCCATGGAG 
    CAACAGCGGG TGCTCGAGGG TGGCAGTGGG GAGAGCAGGT TGCCCGGTGC TGCTGGCCAC 
    TCAGACTTCG GGAGCGGTAA GTCGGAGGAG CAGAAACCTT CTCTGCTGGC CGGTTACCAC 
    AGTGCTCTCG ACTCCGAGAT GAGGACGAGG GCATTGCTGC GACGGCAGGC AGACATCGAG 
    AACCGGGCTC GCAGGCTGCA GAAGCGCTTG CAAGTGGTGC AGGCGAAGCA GGTGGAGAGA 
    CACATCCAAC AGCAGTTGGG TGGCTTCTTG GAGAAAACTC TGAGCAAGCT CCCGACCTTG 
    GACCCCCTGA GGCATCGGAG CCAGTTGATG TTGACCAGAA AGGCAGAAGC AGCTTTGAGG 
    AAAGCTGCGA GCGAGACAGT TACTTCAGAA GGCCTGAGCA GCTTCTTGAA AAGCGATTCG 
    ATATCGGAAG AACTGGAGAG ATTCACGGCC AGTGGTATGG CCAACTTGAG ATCCAGCGAA 
    CAAGCGTTTG ACTCGGATGT CACTGACAGC AGCTCAGGAG GAGAGTCTGA CGTCGAAGAG 
    GAGGAACTGA CCAAAGCAGA CCCAGAACAA CCCCACGTAC CGCTGAGACG AAGGGCAGAG 
    TGGAGATGGG CAGCAGACCG TGCAGCCATC GTCAGTCGCT GGAATTGGCT CCAAGCCCAC 
    GTCTCGGACC TGGAATACCG AATCCGGCAG CAAACGGATA TTTACAAGCA GATTAGAGCC 
    AACAAGGGGC TGATAGTTCT CGGTGAAGCA GCACCCCCTG ATCCTGCAGT AGATGATGCG 
    TCCCGTGCCG TCAGCGCTGA GGGGAAGCTG GAGCCCGGGG CTGAGCGGCT GAGTGTTTCT 
    GGATCCCAGC CACTAGAGAA CTCGGGGATT TCTGCTTCAA GTACTCCTGA ATCCCATCCC 
    GCCAAGCCCT GTGGAGCACC GAGACCCGTC AATGGAGTTA TTAACACTCT TCAGCCTGGC 
    CTGGCAGAAC ACGCTCAGGG AGATGGCCAG GAAGCTGAGG AGCTCTTGCA TAAAAAGCAA 
    CGACTGAACA TGGTTTCTGC ATCTGATGGA ACGTGTGTAG CAGCTCGCAC TCGCCCAGTA 
    CTGAGCTGTA AGAAGCGACG GCTTGTTCGA CCTAGCAGCA TTATGCCCCT TTCCAAAAAG 
    GTCCACCGTA ACAGCCTGGT GCGATGTAGC TGCGACGTGA ACCCCTCGTG CGCTCTGTGT 
    GGCACCCGGA GCTCGACGAC TCTGGAAATC CAGTACGATG CCCCTCTGCT GGAGCGCCTC 
    TCCCAGCTGG ACTCCTGCAT CCATCCTGTT CTATCATTCC CAGATGACGT GCCGACGAGC 
    CTGCACTTCC AGAGCATGTT GAAATCCCAG TGGCAGAACA AACCCTACGA GAAAATCAAA 
    GCTCCCAAAA AGCTCTCGCT CAAGCACAGA GCCCCCATGC CTACCAGCAG CCTGTCCGAC 
    CCTATTCGCA AGGACCGCCA CAAGCTGGTG AACTCCTTCT TCACTGCAGC CAAGCGCTCA 
    CATCAAAAAA TCCAACCAGA CAAGGCACAC AGGCCGGCTT TAGACGATTT TACGGCCGTG 
    TCCAAGGCCG AGAGAGCGCC AGAGCGCTCG CTTGTCCAGC CTCCTGCCTA TGACAAAAAG 
    CGATTGCGAG ACTGCTCATC TGAGAGGAGT GAAGTGTTGA AGCATCACGC GGACGTCGGT 
    GGCCCGAGCT ACTTGTCGGC GGCTGCGACC CCTGCCCCTC ACAGCCCTAT CGCACGGCAA 
    CTGTCCACCT CCTCGGAAGG CTCTGCCCCT GCCAGCACGA GCTCACAGGG CACCTCCAAC 
    GCAGCCCAGC CAAGGAGGAG GAGAGGGGAG AGCTCCTTTG ATATTAACAA CATTGTCATC 
    CCCATGTCTG TCGCTGCAAC AACGCGTGTG GAGAAGCTGC AGTACAAAGA GATCCTCACA 
    CCCAGCTGGC GTGAAGTGGA TATCGGCGCT CTGAAGGCGA GCCCTGATGA AGACAACGAG 
    GAGATCGAGG ACTTGTCTGA TTCGGCCTTC GCTGCTCGGC ATGGCAAATG CGAGGAGATG 
    GAGCGGGCCC GGTGGCTTTG GAGCACGAGC ATGCCCCCGC AGCGGCGGGG CAGCAGGTCC 
    TACAGATCGA CAGCCGTGCT GCCCTGGGAG CGGCGCACCT TCCCCCTGTC GTACGATCCC 
    AGGACAGAGT GCGAGGACCA ATCCGACCCC CAGGACCGGT CGTCGCGCTG CACCCGGCGC 
    ACGTCGGGCA GTAAATCCTC CCGGGAGACC GATGGCACTT CTGCTTTGCC CAACCTGGCC 
    AGCCTCAAGA GCCGACCCCC CCTGGCGACA CCCTCCTCCT CTTCCTCCGC AGCAGTTCAG 
    CGGCCAGCGC ACAGATAG

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

    RefSeq XP_012963787.1
    CDS84..3161
    Translation

    Target ORF information:

    RefSeq Version XM_013108333.1
    Organism Anas platyrhynchos(Mallard)
    Definition Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_013108333.1

    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
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCTCACCA CATCCGATTC 
    AAGCTGGCTC CCCCGTCCTC CACCTTGTCG CCTGGCAGTG CCGAGAGCAA CGGCAACGCC 
    AACAACATCC TCCTGGCTGC CAACGGCACC AAAAGGAAAG CCATTGCTCC GGAGGATCCC 
    AGTTTAGATT TCCGAAACAA CCCTACGAAG GAAGAGCTGG GCAAGCTGCA GCCGCTAGTG 
    GCCTCTTATC TCTGCTCGGA TGTTACATCT GTTCCTTCAA AAGAGCCTCT GAAGCTGCAA 
    GGAGTCTTCA ACAAGCAGAC AGTCCTTAAA TCTCACTCTC TATTATCTCA GTCCTTCTTG 
    AAAACAAGCG ATCTGTTGGG GAGGCAACCG GTGTTGGAAT TTACTTTGGA GAATCTAAAA 
    ACAATGAGTA CTAATAGCCA GCCACCTCTC CCGCAAGCGC CTGTGAACGG CTTGGCCAAG 
    AAATTGGCCA AAAGTACCAA TTCAGACCAT GAAAACTCGA GTGCTCTGAA TGGTGGGAAG 
    TGTGCTCCTC CTGCCACTGC CCTCCAGGGC GTTGACTATA ACGCAGGGGG TTCCGAATCA 
    GGGGATTTGA AGACCGGGTT GACCAATTGC ACTCTTCCAC ACCGAAGCCT TGATGCCGAG 
    CACACGACTC CGTTTAGCAA TAATAGCACT GCAAACAAAT CTTCCCTTAA TTCCATGGAG 
    CAACAGCGGG TGCTCGAGGG TGGCAGTGGG GAGAGCAGGT TGCCCGGTGC TGCTGGCCAC 
    TCAGACTTCG GGAGCGGTAA GTCGGAGGAG CAGAAACCTT CTCTGCTGGC CGGTTACCAC 
    AGTGCTCTCG ACTCCGAGAT GAGGACGAGG GCATTGCTGC GACGGCAGGC AGACATCGAG 
    AACCGGGCTC GCAGGCTGCA GAAGCGCTTG CAAGTGGTGC AGGCGAAGCA GGTGGAGAGA 
    CACATCCAAC AGCAGTTGGG TGGCTTCTTG GAGAAAACTC TGAGCAAGCT CCCGACCTTG 
    GACCCCCTGA GGCATCGGAG CCAGTTGATG TTGACCAGAA AGGCAGAAGC AGCTTTGAGG 
    AAAGCTGCGA GCGAGACAGT TACTTCAGAA GGCCTGAGCA GCTTCTTGAA AAGCGATTCG 
    ATATCGGAAG AACTGGAGAG ATTCACGGCC AGTGGTATGG CCAACTTGAG ATCCAGCGAA 
    CAAGCGTTTG ACTCGGATGT CACTGACAGC AGCTCAGGAG GAGAGTCTGA CGTCGAAGAG 
    GAGGAACTGA CCAAAGCAGA CCCAGAACAA CCCCACGTAC CGCTGAGACG AAGGGCAGAG 
    TGGAGATGGG CAGCAGACCG TGCAGCCATC GTCAGTCGCT GGAATTGGCT CCAAGCCCAC 
    GTCTCGGACC TGGAATACCG AATCCGGCAG CAAACGGATA TTTACAAGCA GATTAGAGCC 
    AACAAGGGGC TGATAGTTCT CGGTGAAGCA GCACCCCCTG ATCCTGCAGT AGATGATGCG 
    TCCCGTGCCG TCAGCGCTGA GGGGAAGCTG GAGCCCGGGG CTGAGCGGCT GAGTGTTTCT 
    GGATCCCAGC CACTAGAGAA CTCGGGGATT TCTGCTTCAA GTACTCCTGA ATCCCATCCC 
    GCCAAGCCCT GTGGAGCACC GAGACCCGTC AATGGAGTTA TTAACACTCT TCAGCCTGGC 
    CTGGCAGAAC ACGCTCAGGG AGATGGCCAG GAAGCTGAGG AGCTCTTGCA TAAAAAGCAA 
    CGACTGAACA TGGTTTCTGC ATCTGATGGA ACGTGTGTAG CAGCTCGCAC TCGCCCAGTA 
    CTGAGCTGTA AGAAGCGACG GCTTGTTCGA CCTAGCAGCA TTATGCCCCT TTCCAAAAAG 
    GTCCACCGTA ACAGCCTGGT GCGATGTAGC TGCGACGTGA ACCCCTCGTG CGCTCTGTGT 
    GGCACCCGGA GCTCGACGAC TCTGGAAATC CAGTACGATG CCCCTCTGCT GGAGCGCCTC 
    TCCCAGCTGG ACTCCTGCAT CCATCCTGTT CTATCATTCC CAGATGACGT GCCGACGAGC 
    CTGCACTTCC AGAGCATGTT GAAATCCCAG TGGCAGAACA AACCCTACGA GAAAATCAAA 
    GCTCCCAAAA AGCTCTCGCT CAAGCACAGA GCCCCCATGC CTACCAGCAG CCTGTCCGAC 
    CCTATTCGCA AGGACCGCCA CAAGCTGGTG AACTCCTTCT TCACTGCAGC CAAGCGCTCA 
    CATCAAAAAA TCCAACCAGA CAAGGCACAC AGGCCGGCTT TAGACGATTT TACGGCCGTG 
    TCCAAGGCCG AGAGAGCGCC AGAGCGCTCG CTTGTCCAGC CTCCTGCCTA TGACAAAAAG 
    CGATTGCGAG ACTGCTCATC TGAGAGGAGT GAAGTGTTGA AGCATCACGC GGACGTCGGT 
    GGCCCGAGCT ACTTGTCGGC GGCTGCGACC CCTGCCCCTC ACAGCCCTAT CGCACGGCAA 
    CTGTCCACCT CCTCGGAAGG CTCTGCCCCT GCCAGCACGA GCTCACAGGG CACCTCCAAC 
    GCAGCCCAGC CAAGGAGGAG GAGAGGGGAG AGCTCCTTTG ATATTAACAA CATTGTCATC 
    CCCATGTCTG TCGCTGCAAC AACGCGTGTG GAGAAGCTGC AGTACAAAGA GATCCTCACA 
    CCCAGCTGGC GTGAAGTGGA TATCGGCGCT CTGAAGGCGA GCCCTGATGA AGACAACGAG 
    GAGATCGAGG ACTTGTCTGA TTCGGCCTTC GCTGCTCGGC ATGGCAAATG CGAGGAGATG 
    GAGCGGGCCC GGTGGCTTTG GAGCACGAGC ATGCCCCCGC AGCGGCGGGG CAGCAGGTCC 
    TACAGATCGA CAGCCGTGCT GCCCTGGGAG CGGCGCACCT TCCCCCTGTC GTACGATCCC 
    AGGACAGAGT GCGAGGACCA ATCCGACCCC CAGGACCGGT CGTCGCGCTG CACCCGGCGC 
    ACGTCGGGCA GTAAATCCTC CCGGGAGACC GATGGCACTT CTGCTTTGCC CAACCTGGCC 
    AGCCTCAAGA GCCGACCCCC CCTGGCGACA CCCTCCTCCT CTTCCTCCGC AGCAGTTCAG 
    CGGCCAGCGC ACAGATAG

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

    KANSL1 ( XM_021278577.1 ) cDNA ORF clone, Anas platyrhynchos(Mallard) -> XP_021134252.1 Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), mRNA.
    Price & Availability↑
    CloneID OAn145988
    Clone ID Related Accession (Same CDS sequence) XM_021278577.1
    Accession Version XM_021278577.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3285bp)
    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 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004678640.1) 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 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## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCTCACCA CATCCGATTC 
    AAGCTGGCTC CCCCGTCCTC CACCTTGTCG CCTGGCAGTG CCGAGAGCAA CGGCAACGCC 
    AACAACATCC TCCTGGCTGC CAACGGCACC AAAAGGAAAG CCATTGCTCC GGAGGATCCC 
    AGTTTAGATT TCCGAAACAA CCCTACGAAG GAAGAGCTGG GCAAGCTGCA GCCGCTAGTG 
    GCCTCTTATC TCTGCTCGGA TGTTACATCT GTTCCTTCAA AAGAGCCTCT GAAGCTGCAA 
    GGAGTCTTCA ACAAGCAGAC AGTCCTTAAA TCTCACTCTC TATTATCTCA GTCCTTCTTG 
    AAAACAAGCG ATCTGTTGGG GAGGCAACCG GTGTTGGAAT TTACTTTGGA GAATCTAAAA 
    ACAATGAGTA CTAATAGCCA GCCACCTCTC CCGCAAGCGC CTGTGAACGG CTTGGCCAAG 
    AAATTGGCCA AAAGTACCAA TTCAGACCAT GAAAACTCGA GTGCTCTGAA TGGTGGGAAG 
    TGTGCTCCTC CTGCCACTGC CCTCCAGGGC GTTGACTATA ACGCAGGGGG TTCCGAATCA 
    GGGGATTTGA AGACCGGGTT GACCAATTGC ACTCTTCCAC ACCGAAGCCT TGATGCCGAG 
    CACACGACTC CGTTTAGCAA TAATAGCACT GCAAACAAAT CTTCCCTTAA TTCCATGGAG 
    CAACAGCGGG TGCTCGAGGG TGGCAGTGGG GAGAGCAGGT TGCCCGGTGC TGCTGGCCAC 
    TCAGACTTCG GGAGCGGTAA GTCGGAGGAG CAGAAACCTT CTCTGCTGGC CGGTTACCAC 
    AGTGCTCTCG ACTCCGAGAT GAGGACGAGG GCATTGCTGC GACGGCAGGC AGACATCGAG 
    AACCGGGCTC GCAGGCTGCA GAAGCGCTTG CAAGTGGTGC AGGCGAAGCA GGTGGAGAGA 
    CACATCCAAC AGCAGTTGGG TGGCTTCTTG GAGAAAACTC TGAGCAAGCT CCCGACCTTG 
    GACCCCCTGA GGCATCGGAG CCAGTTGATG TTGACCAGAA AGGCAGAAGC AGCTTTGAGG 
    AAAGCTGCGA GCGAGACAGT TACTTCAGAA GGCCTGAGCA GCTTCTTGAA AAGCGATTCG 
    ATATCGGAAG AACTGGAGAG ATTCACGGCC AGTGGTATGG CCAACTTGAG ATCCAGCGAA 
    CAAGCGTTTG ACTCGGATGT CACTGACAGC AGCTCAGGAG GAGAGTCTGA CGTCGAAGAG 
    GAGGAACTGA CCAAAGCAGA CCCAGAACAA CCCCACGTAC CGCTGAGACG AAGGGCAGAG 
    TGGAGATGGG CAGCAGACCG TGCAGCCATC GTCAGTCGCT GGAATTGGCT CCAAGCCCAC 
    GTCTCGGACC TGGAATACCG AATCCGGCAG CAAACGGATA TTTACAAGCA GATTAGAGCC 
    AACAAGGGGC TGATAGTTCT CGGTGAAGCA GCACCCCCTG ATCCTGCAGT AGATGATGCG 
    TCCCGTGCCG TCAGCGCTGA GGGGAAGCTG GAGCCCGGGG CTGAGCGGCT GAGTGTTTCT 
    GGATCCCAGC CACTAGAGAA CTCGGGGATT TCTGCTTCAA GTACTCCTGA ATCCCATCCC 
    GCCAAGCCCT GTGGAGCACC GAGACCCGTC AATGGAGTTA TTAACACTCT TCAGCCTGGC 
    CTGGCAGAAC ACGCTCAGGG AGATGGCCAG GAAGCTGAGG AGCTCTTGCA TAAAAAGCAA 
    CGACTGAACA TGGTTTCTGC ATCTGATGGA ACGTGTGTAG CAGCTCGCAC TCGCCCAGTA 
    CTGAGCTGTA AGAAGCGACG GCTTGTTCGA CCTAGCAGCA TTATGCCCCT TTCCAAAAAG 
    GTCCACCGTA ACAGCCTGGT GCGATGTAGC TGCGACGTGA ACCCCTCGTG CGCTCTGTGT 
    GGCACCCGGA GCTCGACGAC TCTGGAAATC CAGTACGATG CCCCTCTGCT GGAGCGCCTC 
    TCCCAGCTGG ACTCCTGCAT CCATCCTGTT CTATCATTCC CAGATGACGT GCCGACGAGC 
    CTGCACTTCC AGAGCATGTT GAAATCCCAG TGGCAGAACA AACCCTACGA GAAAATCAAA 
    GCTCCCAAAA AGCTCTCGCT CAAGCACAGA GCCCCCATGC CTACCAGCAG CCTGTCCGAC 
    CCTATTCGCA AGGACCGCCA CAAGCTGGTG AACTCCTTCT TCACTGCAGC CAAGCGCTCA 
    CATCAAAAAA TCCAACCAGA CAAGGCACAC AGGCCGGCTT TAGACGATTT TACGGCCGTG 
    TCCAAGGCCG AGAGAGCGCC AGAGCGCTCG CTTGTCCAGC CTCCTGCCTA TGACAAAAAG 
    CGATTGCGAG ACTGCTCATC TGAGAGGAGT GAAGTGTTGA AGCATCACGC GGACGTCGGT 
    GGCCCGAGCT ACTTGTCGGC GGCTGCGACC CCTGCCCCTC ACAGCCCTAT CGCACGGCAA 
    CTGTCCACCT CCTCGGAAGG CTCTGCCCCT GCCAGCACGA GCTCACAGGG CACCTCCAAC 
    GCAGCCCAGC CAAGGAGGAG GAGAGGGGAG AGCTCCTTTG ATATTAACAA CATTGTCATC 
    CCCATGTCTG TCGCTGCAAC AACGCGTGTG GAGAAGCTGC AGTACAAAGA GATCCTCACA 
    CCCAGCTGGC GTGAAGTGGA TATCGGCGCT CTGAAGGCGA GCCCTGATGA AGACAACGAG 
    GAGATCGAGG ACTTGTCTGA TTCGGCCTTC GCTGCTCGGC ATGGCAAATG CGAGGAGATG 
    GAGCGGGCCC GGTGGCTTTG GAGCACGAGC ATGCCCCCGC AGCGGCGGGG CAGCAGGTCC 
    TACAGATGCC ACTCCCACTC GGAGCTGTCC CACACCCACT CCCCGCGCAG CCCCATCAGC 
    CCCGAACTGC TCTCAGCCCC CCTCACGCCC CTGTCCCGCG ACTCCATGCG GCTTCTGTCC 
    AGCGAGGACA CGCGCTGCTC CACGTCCTGC TCTCGGTGCC GCGCTAACGG GGCGACACTG 
    AGCCCGCCCC AGAGAGCTGC CCAAATGCAG CCAACCGCTG CCGTGCTGCC CTGGGAGCGG 
    CGCACCTTCC CCCTGTCGTA CGATCCCAGG ACAGAGTGCG AGGACCAATC CGACCCCCAG 
    GACCGGTCGT CGCGCTGCAC CCGGCGCACG TCGGGCAGTA AATCCTCCCG GGAGACCGAT 
    GGCACTTCTG CTTTGCCCAA CCTGGCCAGC CTCAAGAGCC GACCCCCCCT GGCGACACCC 
    TCCTCCTCTT CCTCCGCAGC AGTTCAGCGG CCAGCGCACA GATAG

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

    RefSeq XP_021134252.1
    CDS84..3368
    Translation

    Target ORF information:

    RefSeq Version XM_021278577.1
    Organism Anas platyrhynchos(mallard)
    Definition Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021278577.1

    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
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCTCACCA CATCCGATTC 
    AAGCTGGCTC CCCCGTCCTC CACCTTGTCG CCTGGCAGTG CCGAGAGCAA CGGCAACGCC 
    AACAACATCC TCCTGGCTGC CAACGGCACC AAAAGGAAAG CCATTGCTCC GGAGGATCCC 
    AGTTTAGATT TCCGAAACAA CCCTACGAAG GAAGAGCTGG GCAAGCTGCA GCCGCTAGTG 
    GCCTCTTATC TCTGCTCGGA TGTTACATCT GTTCCTTCAA AAGAGCCTCT GAAGCTGCAA 
    GGAGTCTTCA ACAAGCAGAC AGTCCTTAAA TCTCACTCTC TATTATCTCA GTCCTTCTTG 
    AAAACAAGCG ATCTGTTGGG GAGGCAACCG GTGTTGGAAT TTACTTTGGA GAATCTAAAA 
    ACAATGAGTA CTAATAGCCA GCCACCTCTC CCGCAAGCGC CTGTGAACGG CTTGGCCAAG 
    AAATTGGCCA AAAGTACCAA TTCAGACCAT GAAAACTCGA GTGCTCTGAA TGGTGGGAAG 
    TGTGCTCCTC CTGCCACTGC CCTCCAGGGC GTTGACTATA ACGCAGGGGG TTCCGAATCA 
    GGGGATTTGA AGACCGGGTT GACCAATTGC ACTCTTCCAC ACCGAAGCCT TGATGCCGAG 
    CACACGACTC CGTTTAGCAA TAATAGCACT GCAAACAAAT CTTCCCTTAA TTCCATGGAG 
    CAACAGCGGG TGCTCGAGGG TGGCAGTGGG GAGAGCAGGT TGCCCGGTGC TGCTGGCCAC 
    TCAGACTTCG GGAGCGGTAA GTCGGAGGAG CAGAAACCTT CTCTGCTGGC CGGTTACCAC 
    AGTGCTCTCG ACTCCGAGAT GAGGACGAGG GCATTGCTGC GACGGCAGGC AGACATCGAG 
    AACCGGGCTC GCAGGCTGCA GAAGCGCTTG CAAGTGGTGC AGGCGAAGCA GGTGGAGAGA 
    CACATCCAAC AGCAGTTGGG TGGCTTCTTG GAGAAAACTC TGAGCAAGCT CCCGACCTTG 
    GACCCCCTGA GGCATCGGAG CCAGTTGATG TTGACCAGAA AGGCAGAAGC AGCTTTGAGG 
    AAAGCTGCGA GCGAGACAGT TACTTCAGAA GGCCTGAGCA GCTTCTTGAA AAGCGATTCG 
    ATATCGGAAG AACTGGAGAG ATTCACGGCC AGTGGTATGG CCAACTTGAG ATCCAGCGAA 
    CAAGCGTTTG ACTCGGATGT CACTGACAGC AGCTCAGGAG GAGAGTCTGA CGTCGAAGAG 
    GAGGAACTGA CCAAAGCAGA CCCAGAACAA CCCCACGTAC CGCTGAGACG AAGGGCAGAG 
    TGGAGATGGG CAGCAGACCG TGCAGCCATC GTCAGTCGCT GGAATTGGCT CCAAGCCCAC 
    GTCTCGGACC TGGAATACCG AATCCGGCAG CAAACGGATA TTTACAAGCA GATTAGAGCC 
    AACAAGGGGC TGATAGTTCT CGGTGAAGCA GCACCCCCTG ATCCTGCAGT AGATGATGCG 
    TCCCGTGCCG TCAGCGCTGA GGGGAAGCTG GAGCCCGGGG CTGAGCGGCT GAGTGTTTCT 
    GGATCCCAGC CACTAGAGAA CTCGGGGATT TCTGCTTCAA GTACTCCTGA ATCCCATCCC 
    GCCAAGCCCT GTGGAGCACC GAGACCCGTC AATGGAGTTA TTAACACTCT TCAGCCTGGC 
    CTGGCAGAAC ACGCTCAGGG AGATGGCCAG GAAGCTGAGG AGCTCTTGCA TAAAAAGCAA 
    CGACTGAACA TGGTTTCTGC ATCTGATGGA ACGTGTGTAG CAGCTCGCAC TCGCCCAGTA 
    CTGAGCTGTA AGAAGCGACG GCTTGTTCGA CCTAGCAGCA TTATGCCCCT TTCCAAAAAG 
    GTCCACCGTA ACAGCCTGGT GCGATGTAGC TGCGACGTGA ACCCCTCGTG CGCTCTGTGT 
    GGCACCCGGA GCTCGACGAC TCTGGAAATC CAGTACGATG CCCCTCTGCT GGAGCGCCTC 
    TCCCAGCTGG ACTCCTGCAT CCATCCTGTT CTATCATTCC CAGATGACGT GCCGACGAGC 
    CTGCACTTCC AGAGCATGTT GAAATCCCAG TGGCAGAACA AACCCTACGA GAAAATCAAA 
    GCTCCCAAAA AGCTCTCGCT CAAGCACAGA GCCCCCATGC CTACCAGCAG CCTGTCCGAC 
    CCTATTCGCA AGGACCGCCA CAAGCTGGTG AACTCCTTCT TCACTGCAGC CAAGCGCTCA 
    CATCAAAAAA TCCAACCAGA CAAGGCACAC AGGCCGGCTT TAGACGATTT TACGGCCGTG 
    TCCAAGGCCG AGAGAGCGCC AGAGCGCTCG CTTGTCCAGC CTCCTGCCTA TGACAAAAAG 
    CGATTGCGAG ACTGCTCATC TGAGAGGAGT GAAGTGTTGA AGCATCACGC GGACGTCGGT 
    GGCCCGAGCT ACTTGTCGGC GGCTGCGACC CCTGCCCCTC ACAGCCCTAT CGCACGGCAA 
    CTGTCCACCT CCTCGGAAGG CTCTGCCCCT GCCAGCACGA GCTCACAGGG CACCTCCAAC 
    GCAGCCCAGC CAAGGAGGAG GAGAGGGGAG AGCTCCTTTG ATATTAACAA CATTGTCATC 
    CCCATGTCTG TCGCTGCAAC AACGCGTGTG GAGAAGCTGC AGTACAAAGA GATCCTCACA 
    CCCAGCTGGC GTGAAGTGGA TATCGGCGCT CTGAAGGCGA GCCCTGATGA AGACAACGAG 
    GAGATCGAGG ACTTGTCTGA TTCGGCCTTC GCTGCTCGGC ATGGCAAATG CGAGGAGATG 
    GAGCGGGCCC GGTGGCTTTG GAGCACGAGC ATGCCCCCGC AGCGGCGGGG CAGCAGGTCC 
    TACAGATGCC ACTCCCACTC GGAGCTGTCC CACACCCACT CCCCGCGCAG CCCCATCAGC 
    CCCGAACTGC TCTCAGCCCC CCTCACGCCC CTGTCCCGCG ACTCCATGCG GCTTCTGTCC 
    AGCGAGGACA CGCGCTGCTC CACGTCCTGC TCTCGGTGCC GCGCTAACGG GGCGACACTG 
    AGCCCGCCCC AGAGAGCTGC CCAAATGCAG CCAACCGCTG CCGTGCTGCC CTGGGAGCGG 
    CGCACCTTCC CCCTGTCGTA CGATCCCAGG ACAGAGTGCG AGGACCAATC CGACCCCCAG 
    GACCGGTCGT CGCGCTGCAC CCGGCGCACG TCGGGCAGTA AATCCTCCCG GGAGACCGAT 
    GGCACTTCTG CTTTGCCCAA CCTGGCCAGC CTCAAGAGCC GACCCCCCCT GGCGACACCC 
    TCCTCCTCTT CCTCCGCAGC AGTTCAGCGG CCAGCGCACA GATAG

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

    KANSL1 ( XM_027445321.1 ) cDNA ORF clone, Anas platyrhynchos(Mallard) -> XP_027301122.1 Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAn174198
    Clone ID Related Accession (Same CDS sequence) XM_027445321.1 , XM_027445322.1
    Accession Version XM_027445321.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3309bp)
    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 KAT8 regulatory NSL complex subunit 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_040073.1) 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## 

    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
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCTCACCA CATCCGATTC 
    AAGCTGGCTC CCCCGTCCTC CACCTTGTCG CCTGGCAGTG CCGAGAGCAA CGGCAACGCC 
    AACAACATCC TCCTGGCTGC CAACGGCACC AAAAGGAAAG CCATTGCTCC GGAGGATCCC 
    AGTTTAGATT TCCGAAACAA CCCTACGAAG GAAGAGCTGG GCAAGCTGCA GCCGCTAGTG 
    GCCTCTTATC TCTGCTCGGA TGTTACATCT GTTCCTTCAA AAGAGCCTCT GAAGCTGCAA 
    GGAGTCTTCA ACAAGCAGAC AGTCCTTAAA TCTCACTCTC TATTATCTCA GTCCTTCTTG 
    AAAACAAGCG ATCTGTTGGG GAGGCAACCG GTGTTGGAAT TTACTTTGGA GAATCTAAAA 
    ACAATGAGTA CTAATAGCCA GCCACCTCTC CCGCAAGCGC CTGTGAACGG CTTGGCCAAG 
    AAATTGGCCA AAAGTACCAA TTCAGACCAT GAAAACTCGA GTGCTCTGAA TGGTGGGAAG 
    TGTGCTCCTC CTGCCGCTGC CCTCCAGGGC GTTGACTATA ACGCAGGGGG TTCCGAATCA 
    GGGGATTTGA AGACCGGGTT GACCAATTGC ACTCTTCCAC ACCGAAGCCT TGATGCCGAG 
    CACACGACTC CGTTTAGCAA TAATAGCACT GCAAACAAAT CTTCCCTTAA TTCCATGGAG 
    CAACAGCGGG TGCTCGAGGG TGGCAGTGGG GAGAGCAGGT TGCCCGGTGC TGCTGGCCAC 
    TCAGACTTCG GGAGCGGTAA GTCGGAGGAG CAGAAACCTT CTCTGCTGGC CGGTTACCAC 
    AGTGCTCTCG ACTCCGAGAT GAGGACGAGG GCATTGCTGC GACGGCAGGC AGACATTGAG 
    AACCGGGCTC GCAGGCTGCA GAAGCGCTTG CAAGTGGTGC AGGCGAAGCA GGTGGAGAGA 
    CACATCCAAC AGCAGTTGGG TGGCTTCTTG GAGAAAACTC TGAGCAAGCT CCCGACCTTG 
    GACCCCCTGA GGCATCGGAG CCAGTTGATG TTGACCAGAA AGGCAGAAGC AGCTTTGAGG 
    AAAGCTGCGA GCGAGACAGT TACTTCAGAA GGCCTGAGCA GCTTCTTGAA AAGCGATTCG 
    ATATCGGAAG AACTGGAGAG ATTCACAGCC AGTGGTATGG CCAACTTGAG ATCCAGCGAA 
    CAAGCGTTTG ACTCGGATGT CACTGACAGC AGCTCAGGAG GAGAGTCTGA CGTCGAAGAG 
    GAGGAACTGA CCAAAGCAGA CCCAGAACAA CCCCACGTAC CGCTGAGACG AAGGGCAGAG 
    TGGAGATGGG CAGCAGACCG TGCAGCCATC GTCAGTCGCT GGAATTGGCT CCAAGCCCAC 
    GTCTCGGACC TGGAATACCG AATCCGGCAG CAAACGGATA TTTACAAGCA GATTAGAGCC 
    AACAAGGGGC TGATAGTTCT CGGTGAAGCA GCACCCCCTG ATCCTGCGGT AGATGATGCG 
    TCCCGTGCCG TCAGCGCTGA GGGGAAGCTG GAGCCTGGGG CTGAGCGGCT GAGTGTTTCT 
    GGATCCCAGC CACTAGAGAA CTCGGGGATT TCTGCTTCAA GTACTCCTGA ATCCCATCCC 
    GCCAAGCCCT GTGGAGCACC AAGACCCGTC AATGGAGTTA TTAACACTCT TCAGCCTGGC 
    CTGGCAGAAC ACGCTCAGGG AGATGGCCAG GAAGCTGAGG AGCTCTTGCA TAAAAAGCAA 
    CGACTGAACA TGGTTTCTGC ATCTGATGGA ACGTGTGTAG CAGCTCGCAC TCGCCCAGTA 
    CTGAGCTGTA AGAAGCGACG GCTTGTTCGA CCTAGCAGCA TTATGCCCCT TTCCAAAAAG 
    GTCCACCGTA ACAGCCTGGT GCGATGTAGC TGCGACGTGA ACCCCTCGTG CGCTCTGTGC 
    GGCACCCGGA GCTCGACGAC TCTGGAAATC CAGTACGATG CCCCTCTGCT GGAGCGCCTC 
    TCCCAGCTGG ACTCCTGCAT CCATCCTGTT CTATCATTCC CAGATGACGT GCCGACGAGC 
    CTGCACTTCC AGAGCATGTT GAAATCCCAG TGGCAGAACA AACCCTACGA GAAAATCAAA 
    GCTCCCAAAA AGCTCTCGCT CAAGCACAGA GCCCCCATGC CTACCAGCAG CCTGTCCGAC 
    CCTATTCGCA AGGACCGCCA CAAGCTGGTG AACTCCTTCT TCACTGCAGC CAAGCGCTCA 
    CATCAAAAAA TCCAACCAGA CAAGGCACAC AGGCCGGCTT TAGACGATTT TACGGCCGTG 
    TCCAAGGCCG AGAGAGCGCC AGAGCGCTCG CTTGTCCAGC CTCCTGCCTA TGACAAAAAG 
    CGATTGCGAG ACTGCTCATC TGAGAGGAGT GAAGTGTTGA AGCATCACGC GGACGTCGGT 
    GGCCCGAGCT ACTTGTCGGC GGCTGCGACC CCTGCCCCTC ACAGTCCTAT CGCACGGCAA 
    CTGTCCACCT CCTCGGAAGG CTCTGCCCCT GCCAGCACGA GCTCACAGGG CACCTCCAAT 
    GCAGCCCAGC CAAGGAGGAG GAGAGGGGAG AGCTCCTTCG ATATTAACAA CATTGTCATC 
    CCCATGTCTG TCGCTGCAAC AACACGCGTG GAGAAGCTGC AGTACAAAGA GATCCTCACA 
    CCCAGCTGGC GTGAAGTGGA TATCGGCGCT CTGAAGGCGA GCCCTGATGA AGACAACGAG 
    GAGATCGAGG ACTTGTCTGA TTCGGCCTTC GCTGCTCGGC ATGGCAAATG CGAGGAGATG 
    GAGCGGGCCC GGTGGCTTTG GAGCACGAGC ATGCCCCCGC AGCGGCGGGG CAGCAGGTCC 
    TACAGATCGA CAGACGGACG GACGACCCCC CAGCTGGGGA ACCCCTCAAC TCCCCAGCCG 
    GCATCCCCCG ACGTGGGCAG CTGCCACTCC CACTCGGAGC TGTCCCACAC CCACTCCCCG 
    CGCAGCCCCA TCAGCCCCGA ACTGCTCTCA GCCCCCCTCA CGCCCCTGTC CCGCGACTCC 
    ATGCGGCTTC TGTCCAGCGA GGACACGCGC TGCTCCACGC CCGAGGCCGG CCTCGACGAG 
    CAGGCCGTGC TGCCCTGGGA GCGGCGCACC TTCCCCCTGT CGTACGATCC CAGGACAGAG 
    TGCGAGGACC AATCCGACCC CCAGGACCGG TCGTCGCGCT GCACCCGGCG CACGTCGGGC 
    AGTAAATCCT CCCGGGAGAC CGATGGCACT TCTGCTTTGC CCAACCTGGC CAGCCTCAAG 
    AGCCGACCCC CCCTGGCGAC ACCCTCCTCC TCTTCCTCCG CAGCAGTTCA GCGGCCAGCG 
    CACAGATAG

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

    RefSeq XP_027301122.1
    CDS340..3648
    Translation

    Target ORF information:

    RefSeq Version XM_027445321.1
    Organism Anas platyrhynchos(mallard)
    Definition Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_027445321.1

    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
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCTCACCA CATCCGATTC 
    AAGCTGGCTC CCCCGTCCTC CACCTTGTCG CCTGGCAGTG CCGAGAGCAA CGGCAACGCC 
    AACAACATCC TCCTGGCTGC CAACGGCACC AAAAGGAAAG CCATTGCTCC GGAGGATCCC 
    AGTTTAGATT TCCGAAACAA CCCTACGAAG GAAGAGCTGG GCAAGCTGCA GCCGCTAGTG 
    GCCTCTTATC TCTGCTCGGA TGTTACATCT GTTCCTTCAA AAGAGCCTCT GAAGCTGCAA 
    GGAGTCTTCA ACAAGCAGAC AGTCCTTAAA TCTCACTCTC TATTATCTCA GTCCTTCTTG 
    AAAACAAGCG ATCTGTTGGG GAGGCAACCG GTGTTGGAAT TTACTTTGGA GAATCTAAAA 
    ACAATGAGTA CTAATAGCCA GCCACCTCTC CCGCAAGCGC CTGTGAACGG CTTGGCCAAG 
    AAATTGGCCA AAAGTACCAA TTCAGACCAT GAAAACTCGA GTGCTCTGAA TGGTGGGAAG 
    TGTGCTCCTC CTGCCGCTGC CCTCCAGGGC GTTGACTATA ACGCAGGGGG TTCCGAATCA 
    GGGGATTTGA AGACCGGGTT GACCAATTGC ACTCTTCCAC ACCGAAGCCT TGATGCCGAG 
    CACACGACTC CGTTTAGCAA TAATAGCACT GCAAACAAAT CTTCCCTTAA TTCCATGGAG 
    CAACAGCGGG TGCTCGAGGG TGGCAGTGGG GAGAGCAGGT TGCCCGGTGC TGCTGGCCAC 
    TCAGACTTCG GGAGCGGTAA GTCGGAGGAG CAGAAACCTT CTCTGCTGGC CGGTTACCAC 
    AGTGCTCTCG ACTCCGAGAT GAGGACGAGG GCATTGCTGC GACGGCAGGC AGACATTGAG 
    AACCGGGCTC GCAGGCTGCA GAAGCGCTTG CAAGTGGTGC AGGCGAAGCA GGTGGAGAGA 
    CACATCCAAC AGCAGTTGGG TGGCTTCTTG GAGAAAACTC TGAGCAAGCT CCCGACCTTG 
    GACCCCCTGA GGCATCGGAG CCAGTTGATG TTGACCAGAA AGGCAGAAGC AGCTTTGAGG 
    AAAGCTGCGA GCGAGACAGT TACTTCAGAA GGCCTGAGCA GCTTCTTGAA AAGCGATTCG 
    ATATCGGAAG AACTGGAGAG ATTCACAGCC AGTGGTATGG CCAACTTGAG ATCCAGCGAA 
    CAAGCGTTTG ACTCGGATGT CACTGACAGC AGCTCAGGAG GAGAGTCTGA CGTCGAAGAG 
    GAGGAACTGA CCAAAGCAGA CCCAGAACAA CCCCACGTAC CGCTGAGACG AAGGGCAGAG 
    TGGAGATGGG CAGCAGACCG TGCAGCCATC GTCAGTCGCT GGAATTGGCT CCAAGCCCAC 
    GTCTCGGACC TGGAATACCG AATCCGGCAG CAAACGGATA TTTACAAGCA GATTAGAGCC 
    AACAAGGGGC TGATAGTTCT CGGTGAAGCA GCACCCCCTG ATCCTGCGGT AGATGATGCG 
    TCCCGTGCCG TCAGCGCTGA GGGGAAGCTG GAGCCTGGGG CTGAGCGGCT GAGTGTTTCT 
    GGATCCCAGC CACTAGAGAA CTCGGGGATT TCTGCTTCAA GTACTCCTGA ATCCCATCCC 
    GCCAAGCCCT GTGGAGCACC AAGACCCGTC AATGGAGTTA TTAACACTCT TCAGCCTGGC 
    CTGGCAGAAC ACGCTCAGGG AGATGGCCAG GAAGCTGAGG AGCTCTTGCA TAAAAAGCAA 
    CGACTGAACA TGGTTTCTGC ATCTGATGGA ACGTGTGTAG CAGCTCGCAC TCGCCCAGTA 
    CTGAGCTGTA AGAAGCGACG GCTTGTTCGA CCTAGCAGCA TTATGCCCCT TTCCAAAAAG 
    GTCCACCGTA ACAGCCTGGT GCGATGTAGC TGCGACGTGA ACCCCTCGTG CGCTCTGTGC 
    GGCACCCGGA GCTCGACGAC TCTGGAAATC CAGTACGATG CCCCTCTGCT GGAGCGCCTC 
    TCCCAGCTGG ACTCCTGCAT CCATCCTGTT CTATCATTCC CAGATGACGT GCCGACGAGC 
    CTGCACTTCC AGAGCATGTT GAAATCCCAG TGGCAGAACA AACCCTACGA GAAAATCAAA 
    GCTCCCAAAA AGCTCTCGCT CAAGCACAGA GCCCCCATGC CTACCAGCAG CCTGTCCGAC 
    CCTATTCGCA AGGACCGCCA CAAGCTGGTG AACTCCTTCT TCACTGCAGC CAAGCGCTCA 
    CATCAAAAAA TCCAACCAGA CAAGGCACAC AGGCCGGCTT TAGACGATTT TACGGCCGTG 
    TCCAAGGCCG AGAGAGCGCC AGAGCGCTCG CTTGTCCAGC CTCCTGCCTA TGACAAAAAG 
    CGATTGCGAG ACTGCTCATC TGAGAGGAGT GAAGTGTTGA AGCATCACGC GGACGTCGGT 
    GGCCCGAGCT ACTTGTCGGC GGCTGCGACC CCTGCCCCTC ACAGTCCTAT CGCACGGCAA 
    CTGTCCACCT CCTCGGAAGG CTCTGCCCCT GCCAGCACGA GCTCACAGGG CACCTCCAAT 
    GCAGCCCAGC CAAGGAGGAG GAGAGGGGAG AGCTCCTTCG ATATTAACAA CATTGTCATC 
    CCCATGTCTG TCGCTGCAAC AACACGCGTG GAGAAGCTGC AGTACAAAGA GATCCTCACA 
    CCCAGCTGGC GTGAAGTGGA TATCGGCGCT CTGAAGGCGA GCCCTGATGA AGACAACGAG 
    GAGATCGAGG ACTTGTCTGA TTCGGCCTTC GCTGCTCGGC ATGGCAAATG CGAGGAGATG 
    GAGCGGGCCC GGTGGCTTTG GAGCACGAGC ATGCCCCCGC AGCGGCGGGG CAGCAGGTCC 
    TACAGATCGA CAGACGGACG GACGACCCCC CAGCTGGGGA ACCCCTCAAC TCCCCAGCCG 
    GCATCCCCCG ACGTGGGCAG CTGCCACTCC CACTCGGAGC TGTCCCACAC CCACTCCCCG 
    CGCAGCCCCA TCAGCCCCGA ACTGCTCTCA GCCCCCCTCA CGCCCCTGTC CCGCGACTCC 
    ATGCGGCTTC TGTCCAGCGA GGACACGCGC TGCTCCACGC CCGAGGCCGG CCTCGACGAG 
    CAGGCCGTGC TGCCCTGGGA GCGGCGCACC TTCCCCCTGT CGTACGATCC CAGGACAGAG 
    TGCGAGGACC AATCCGACCC CCAGGACCGG TCGTCGCGCT GCACCCGGCG CACGTCGGGC 
    AGTAAATCCT CCCGGGAGAC CGATGGCACT TCTGCTTTGC CCAACCTGGC CAGCCTCAAG 
    AGCCGACCCC CCCTGGCGAC ACCCTCCTCC TCTTCCTCCG CAGCAGTTCA GCGGCCAGCG 
    CACAGATAG

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

    KANSL1 ( XM_027445322.1 ) cDNA ORF clone, Anas platyrhynchos(Mallard) -> XP_027301123.1 Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAn174198
    Clone ID Related Accession (Same CDS sequence) XM_027445321.1 , XM_027445322.1
    Accession Version XM_027445322.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3309bp)
    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 KAT8 regulatory NSL complex subunit 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_040073.1) 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## 

    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
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCTCACCA CATCCGATTC 
    AAGCTGGCTC CCCCGTCCTC CACCTTGTCG CCTGGCAGTG CCGAGAGCAA CGGCAACGCC 
    AACAACATCC TCCTGGCTGC CAACGGCACC AAAAGGAAAG CCATTGCTCC GGAGGATCCC 
    AGTTTAGATT TCCGAAACAA CCCTACGAAG GAAGAGCTGG GCAAGCTGCA GCCGCTAGTG 
    GCCTCTTATC TCTGCTCGGA TGTTACATCT GTTCCTTCAA AAGAGCCTCT GAAGCTGCAA 
    GGAGTCTTCA ACAAGCAGAC AGTCCTTAAA TCTCACTCTC TATTATCTCA GTCCTTCTTG 
    AAAACAAGCG ATCTGTTGGG GAGGCAACCG GTGTTGGAAT TTACTTTGGA GAATCTAAAA 
    ACAATGAGTA CTAATAGCCA GCCACCTCTC CCGCAAGCGC CTGTGAACGG CTTGGCCAAG 
    AAATTGGCCA AAAGTACCAA TTCAGACCAT GAAAACTCGA GTGCTCTGAA TGGTGGGAAG 
    TGTGCTCCTC CTGCCGCTGC CCTCCAGGGC GTTGACTATA ACGCAGGGGG TTCCGAATCA 
    GGGGATTTGA AGACCGGGTT GACCAATTGC ACTCTTCCAC ACCGAAGCCT TGATGCCGAG 
    CACACGACTC CGTTTAGCAA TAATAGCACT GCAAACAAAT CTTCCCTTAA TTCCATGGAG 
    CAACAGCGGG TGCTCGAGGG TGGCAGTGGG GAGAGCAGGT TGCCCGGTGC TGCTGGCCAC 
    TCAGACTTCG GGAGCGGTAA GTCGGAGGAG CAGAAACCTT CTCTGCTGGC CGGTTACCAC 
    AGTGCTCTCG ACTCCGAGAT GAGGACGAGG GCATTGCTGC GACGGCAGGC AGACATTGAG 
    AACCGGGCTC GCAGGCTGCA GAAGCGCTTG CAAGTGGTGC AGGCGAAGCA GGTGGAGAGA 
    CACATCCAAC AGCAGTTGGG TGGCTTCTTG GAGAAAACTC TGAGCAAGCT CCCGACCTTG 
    GACCCCCTGA GGCATCGGAG CCAGTTGATG TTGACCAGAA AGGCAGAAGC AGCTTTGAGG 
    AAAGCTGCGA GCGAGACAGT TACTTCAGAA GGCCTGAGCA GCTTCTTGAA AAGCGATTCG 
    ATATCGGAAG AACTGGAGAG ATTCACAGCC AGTGGTATGG CCAACTTGAG ATCCAGCGAA 
    CAAGCGTTTG ACTCGGATGT CACTGACAGC AGCTCAGGAG GAGAGTCTGA CGTCGAAGAG 
    GAGGAACTGA CCAAAGCAGA CCCAGAACAA CCCCACGTAC CGCTGAGACG AAGGGCAGAG 
    TGGAGATGGG CAGCAGACCG TGCAGCCATC GTCAGTCGCT GGAATTGGCT CCAAGCCCAC 
    GTCTCGGACC TGGAATACCG AATCCGGCAG CAAACGGATA TTTACAAGCA GATTAGAGCC 
    AACAAGGGGC TGATAGTTCT CGGTGAAGCA GCACCCCCTG ATCCTGCGGT AGATGATGCG 
    TCCCGTGCCG TCAGCGCTGA GGGGAAGCTG GAGCCTGGGG CTGAGCGGCT GAGTGTTTCT 
    GGATCCCAGC CACTAGAGAA CTCGGGGATT TCTGCTTCAA GTACTCCTGA ATCCCATCCC 
    GCCAAGCCCT GTGGAGCACC AAGACCCGTC AATGGAGTTA TTAACACTCT TCAGCCTGGC 
    CTGGCAGAAC ACGCTCAGGG AGATGGCCAG GAAGCTGAGG AGCTCTTGCA TAAAAAGCAA 
    CGACTGAACA TGGTTTCTGC ATCTGATGGA ACGTGTGTAG CAGCTCGCAC TCGCCCAGTA 
    CTGAGCTGTA AGAAGCGACG GCTTGTTCGA CCTAGCAGCA TTATGCCCCT TTCCAAAAAG 
    GTCCACCGTA ACAGCCTGGT GCGATGTAGC TGCGACGTGA ACCCCTCGTG CGCTCTGTGC 
    GGCACCCGGA GCTCGACGAC TCTGGAAATC CAGTACGATG CCCCTCTGCT GGAGCGCCTC 
    TCCCAGCTGG ACTCCTGCAT CCATCCTGTT CTATCATTCC CAGATGACGT GCCGACGAGC 
    CTGCACTTCC AGAGCATGTT GAAATCCCAG TGGCAGAACA AACCCTACGA GAAAATCAAA 
    GCTCCCAAAA AGCTCTCGCT CAAGCACAGA GCCCCCATGC CTACCAGCAG CCTGTCCGAC 
    CCTATTCGCA AGGACCGCCA CAAGCTGGTG AACTCCTTCT TCACTGCAGC CAAGCGCTCA 
    CATCAAAAAA TCCAACCAGA CAAGGCACAC AGGCCGGCTT TAGACGATTT TACGGCCGTG 
    TCCAAGGCCG AGAGAGCGCC AGAGCGCTCG CTTGTCCAGC CTCCTGCCTA TGACAAAAAG 
    CGATTGCGAG ACTGCTCATC TGAGAGGAGT GAAGTGTTGA AGCATCACGC GGACGTCGGT 
    GGCCCGAGCT ACTTGTCGGC GGCTGCGACC CCTGCCCCTC ACAGTCCTAT CGCACGGCAA 
    CTGTCCACCT CCTCGGAAGG CTCTGCCCCT GCCAGCACGA GCTCACAGGG CACCTCCAAT 
    GCAGCCCAGC CAAGGAGGAG GAGAGGGGAG AGCTCCTTCG ATATTAACAA CATTGTCATC 
    CCCATGTCTG TCGCTGCAAC AACACGCGTG GAGAAGCTGC AGTACAAAGA GATCCTCACA 
    CCCAGCTGGC GTGAAGTGGA TATCGGCGCT CTGAAGGCGA GCCCTGATGA AGACAACGAG 
    GAGATCGAGG ACTTGTCTGA TTCGGCCTTC GCTGCTCGGC ATGGCAAATG CGAGGAGATG 
    GAGCGGGCCC GGTGGCTTTG GAGCACGAGC ATGCCCCCGC AGCGGCGGGG CAGCAGGTCC 
    TACAGATCGA CAGACGGACG GACGACCCCC CAGCTGGGGA ACCCCTCAAC TCCCCAGCCG 
    GCATCCCCCG ACGTGGGCAG CTGCCACTCC CACTCGGAGC TGTCCCACAC CCACTCCCCG 
    CGCAGCCCCA TCAGCCCCGA ACTGCTCTCA GCCCCCCTCA CGCCCCTGTC CCGCGACTCC 
    ATGCGGCTTC TGTCCAGCGA GGACACGCGC TGCTCCACGC CCGAGGCCGG CCTCGACGAG 
    CAGGCCGTGC TGCCCTGGGA GCGGCGCACC TTCCCCCTGT CGTACGATCC CAGGACAGAG 
    TGCGAGGACC AATCCGACCC CCAGGACCGG TCGTCGCGCT GCACCCGGCG CACGTCGGGC 
    AGTAAATCCT CCCGGGAGAC CGATGGCACT TCTGCTTTGC CCAACCTGGC CAGCCTCAAG 
    AGCCGACCCC CCCTGGCGAC ACCCTCCTCC TCTTCCTCCG CAGCAGTTCA GCGGCCAGCG 
    CACAGATAG

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

    RefSeq XP_027301123.1
    CDS220..3528
    Translation

    Target ORF information:

    RefSeq Version XM_027445322.1
    Organism Anas platyrhynchos(mallard)
    Definition Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_027445322.1

    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
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCTCACCA CATCCGATTC 
    AAGCTGGCTC CCCCGTCCTC CACCTTGTCG CCTGGCAGTG CCGAGAGCAA CGGCAACGCC 
    AACAACATCC TCCTGGCTGC CAACGGCACC AAAAGGAAAG CCATTGCTCC GGAGGATCCC 
    AGTTTAGATT TCCGAAACAA CCCTACGAAG GAAGAGCTGG GCAAGCTGCA GCCGCTAGTG 
    GCCTCTTATC TCTGCTCGGA TGTTACATCT GTTCCTTCAA AAGAGCCTCT GAAGCTGCAA 
    GGAGTCTTCA ACAAGCAGAC AGTCCTTAAA TCTCACTCTC TATTATCTCA GTCCTTCTTG 
    AAAACAAGCG ATCTGTTGGG GAGGCAACCG GTGTTGGAAT TTACTTTGGA GAATCTAAAA 
    ACAATGAGTA CTAATAGCCA GCCACCTCTC CCGCAAGCGC CTGTGAACGG CTTGGCCAAG 
    AAATTGGCCA AAAGTACCAA TTCAGACCAT GAAAACTCGA GTGCTCTGAA TGGTGGGAAG 
    TGTGCTCCTC CTGCCGCTGC CCTCCAGGGC GTTGACTATA ACGCAGGGGG TTCCGAATCA 
    GGGGATTTGA AGACCGGGTT GACCAATTGC ACTCTTCCAC ACCGAAGCCT TGATGCCGAG 
    CACACGACTC CGTTTAGCAA TAATAGCACT GCAAACAAAT CTTCCCTTAA TTCCATGGAG 
    CAACAGCGGG TGCTCGAGGG TGGCAGTGGG GAGAGCAGGT TGCCCGGTGC TGCTGGCCAC 
    TCAGACTTCG GGAGCGGTAA GTCGGAGGAG CAGAAACCTT CTCTGCTGGC CGGTTACCAC 
    AGTGCTCTCG ACTCCGAGAT GAGGACGAGG GCATTGCTGC GACGGCAGGC AGACATTGAG 
    AACCGGGCTC GCAGGCTGCA GAAGCGCTTG CAAGTGGTGC AGGCGAAGCA GGTGGAGAGA 
    CACATCCAAC AGCAGTTGGG TGGCTTCTTG GAGAAAACTC TGAGCAAGCT CCCGACCTTG 
    GACCCCCTGA GGCATCGGAG CCAGTTGATG TTGACCAGAA AGGCAGAAGC AGCTTTGAGG 
    AAAGCTGCGA GCGAGACAGT TACTTCAGAA GGCCTGAGCA GCTTCTTGAA AAGCGATTCG 
    ATATCGGAAG AACTGGAGAG ATTCACAGCC AGTGGTATGG CCAACTTGAG ATCCAGCGAA 
    CAAGCGTTTG ACTCGGATGT CACTGACAGC AGCTCAGGAG GAGAGTCTGA CGTCGAAGAG 
    GAGGAACTGA CCAAAGCAGA CCCAGAACAA CCCCACGTAC CGCTGAGACG AAGGGCAGAG 
    TGGAGATGGG CAGCAGACCG TGCAGCCATC GTCAGTCGCT GGAATTGGCT CCAAGCCCAC 
    GTCTCGGACC TGGAATACCG AATCCGGCAG CAAACGGATA TTTACAAGCA GATTAGAGCC 
    AACAAGGGGC TGATAGTTCT CGGTGAAGCA GCACCCCCTG ATCCTGCGGT AGATGATGCG 
    TCCCGTGCCG TCAGCGCTGA GGGGAAGCTG GAGCCTGGGG CTGAGCGGCT GAGTGTTTCT 
    GGATCCCAGC CACTAGAGAA CTCGGGGATT TCTGCTTCAA GTACTCCTGA ATCCCATCCC 
    GCCAAGCCCT GTGGAGCACC AAGACCCGTC AATGGAGTTA TTAACACTCT TCAGCCTGGC 
    CTGGCAGAAC ACGCTCAGGG AGATGGCCAG GAAGCTGAGG AGCTCTTGCA TAAAAAGCAA 
    CGACTGAACA TGGTTTCTGC ATCTGATGGA ACGTGTGTAG CAGCTCGCAC TCGCCCAGTA 
    CTGAGCTGTA AGAAGCGACG GCTTGTTCGA CCTAGCAGCA TTATGCCCCT TTCCAAAAAG 
    GTCCACCGTA ACAGCCTGGT GCGATGTAGC TGCGACGTGA ACCCCTCGTG CGCTCTGTGC 
    GGCACCCGGA GCTCGACGAC TCTGGAAATC CAGTACGATG CCCCTCTGCT GGAGCGCCTC 
    TCCCAGCTGG ACTCCTGCAT CCATCCTGTT CTATCATTCC CAGATGACGT GCCGACGAGC 
    CTGCACTTCC AGAGCATGTT GAAATCCCAG TGGCAGAACA AACCCTACGA GAAAATCAAA 
    GCTCCCAAAA AGCTCTCGCT CAAGCACAGA GCCCCCATGC CTACCAGCAG CCTGTCCGAC 
    CCTATTCGCA AGGACCGCCA CAAGCTGGTG AACTCCTTCT TCACTGCAGC CAAGCGCTCA 
    CATCAAAAAA TCCAACCAGA CAAGGCACAC AGGCCGGCTT TAGACGATTT TACGGCCGTG 
    TCCAAGGCCG AGAGAGCGCC AGAGCGCTCG CTTGTCCAGC CTCCTGCCTA TGACAAAAAG 
    CGATTGCGAG ACTGCTCATC TGAGAGGAGT GAAGTGTTGA AGCATCACGC GGACGTCGGT 
    GGCCCGAGCT ACTTGTCGGC GGCTGCGACC CCTGCCCCTC ACAGTCCTAT CGCACGGCAA 
    CTGTCCACCT CCTCGGAAGG CTCTGCCCCT GCCAGCACGA GCTCACAGGG CACCTCCAAT 
    GCAGCCCAGC CAAGGAGGAG GAGAGGGGAG AGCTCCTTCG ATATTAACAA CATTGTCATC 
    CCCATGTCTG TCGCTGCAAC AACACGCGTG GAGAAGCTGC AGTACAAAGA GATCCTCACA 
    CCCAGCTGGC GTGAAGTGGA TATCGGCGCT CTGAAGGCGA GCCCTGATGA AGACAACGAG 
    GAGATCGAGG ACTTGTCTGA TTCGGCCTTC GCTGCTCGGC ATGGCAAATG CGAGGAGATG 
    GAGCGGGCCC GGTGGCTTTG GAGCACGAGC ATGCCCCCGC AGCGGCGGGG CAGCAGGTCC 
    TACAGATCGA CAGACGGACG GACGACCCCC CAGCTGGGGA ACCCCTCAAC TCCCCAGCCG 
    GCATCCCCCG ACGTGGGCAG CTGCCACTCC CACTCGGAGC TGTCCCACAC CCACTCCCCG 
    CGCAGCCCCA TCAGCCCCGA ACTGCTCTCA GCCCCCCTCA CGCCCCTGTC CCGCGACTCC 
    ATGCGGCTTC TGTCCAGCGA GGACACGCGC TGCTCCACGC CCGAGGCCGG CCTCGACGAG 
    CAGGCCGTGC TGCCCTGGGA GCGGCGCACC TTCCCCCTGT CGTACGATCC CAGGACAGAG 
    TGCGAGGACC AATCCGACCC CCAGGACCGG TCGTCGCGCT GCACCCGGCG CACGTCGGGC 
    AGTAAATCCT CCCGGGAGAC CGATGGCACT TCTGCTTTGC CCAACCTGGC CAGCCTCAAG 
    AGCCGACCCC CCCTGGCGAC ACCCTCCTCC TCTTCCTCCG CAGCAGTTCA GCGGCCAGCG 
    CACAGATAG

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

    KANSL1 ( XM_027445323.1 ) cDNA ORF clone, Anas platyrhynchos(Mallard) -> XP_027301124.1 Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OAn174199
    Clone ID Related Accession (Same CDS sequence) XM_027445323.1
    Accession Version XM_027445323.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3306bp)
    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 KAT8 regulatory NSL complex subunit 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_040073.1) 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## 

    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
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCTCACCA CATCCGATTC 
    AAGCTGGCTC CCCCGTCCTC CACCTTGTCG CCTGGCAGTG CCGAGAGCAA CGGCAACGCC 
    AACAACATCC TCCTGGCTGC CAACGGCACC AAAAGGAAAG CCATTGCTCC GGAGGATCCC 
    AGTTTAGATT TCCGAAACAA CCCTACGAAG GAAGAGCTGG GCAAGCTGCA GCCGCTAGTG 
    GCCTCTTATC TCTGCTCGGA TGTTACATCT GTTCCTTCAA AAGAGCCTCT GAAGCTGCAA 
    GGAGTCTTCA ACAAGCAGAC AGTCCTTAAA TCTCACTCTC TATTATCTCA GTCCTTCTTG 
    AAAACAAGCG ATCTGTTGGG GAGGCAACCG GTGTTGGAAT TTACTTTGGA GAATCTAAAA 
    ACAATGAGTA CTAATAGCCA GCCACCTCTC CCGCAAGCGC CTGTGAACGG CTTGGCCAAG 
    AAATTGGCCA AAAGTACCAA TTCAGACCAT GAAAACTCGA GTGCTCTGAA TGGTGGGAAG 
    TGTGCTCCTC CTGCCGCTGC CCTCCAGGGC GTTGACTATA ACGCAGGGGG TTCCGAATCA 
    GGGGATTTGA AGACCGGGTT GACCAATTGC ACTCTTCCAC ACCGAAGCCT TGATGCCGAG 
    CACACGACTC CGTTTAGCAA TAATAGCACT GCAAACAAAT CTTCCCTTAA TTCCATGGAG 
    CAACAGCGGG TGCTCGAGGG TGGCAGTGGG GAGAGCAGGT TGCCCGGTGC TGCTGGCCAC 
    TCAGACTTCG GGAGCGGTAA GTCGGAGGAG CAGAAACCTT CTCTGCTGGC CGGTTACCAC 
    AGTGCTCTCG ACTCCGAGAT GAGGACGAGG GCATTGCTGC GACGGCAGGC AGACATTGAG 
    AACCGGGCTC GCAGGCTGCA GAAGCGCTTG CAAGTGGTGC AGGCGAAGCA GGTGGAGAGA 
    CACATCCAAC AGCAGTTGGG TGGCTTCTTG GAGAAAACTC TGAGCAAGCT CCCGACCTTG 
    GACCCCCTGA GGCATCGGAG CCAGTTGATG TTGACCAGAA AGGCAGAAGC AGCTTTGAGG 
    AAAGCTGCGA GCGAGACAGT TACTTCAGAA GGCCTGAGCA GCTTCTTGAA AAGCGATTCG 
    ATATCGGAAG AACTGGAGAG ATTCACAGCC AGTGGTATGG CCAACTTGAG ATCCAGCGAA 
    CAAGCGTTTG ACTCGGATGT CACTGACAGC AGCTCAGGAG GAGAGTCTGA CGTCGAAGAG 
    GAGGAACTGA CCAAAGCAGA CCCAGAACAA CCCCACGTAC CGCTGAGACG AAGGGCAGAG 
    TGGAGATGGG CAGCAGACCG TGCAGCCATC GTCAGTCGCT GGAATTGGCT CCAAGCCCAC 
    GTCTCGGACC TGGAATACCG AATCCGGCAG CAAACGGATA TTTACAAGCA GATTAGAGCC 
    AACAAGGGGC TGATAGTTCT CGGTGAAGCA GCACCCCCTG ATCCTGCGGT AGATGATGCG 
    TCCCGTGCCG TCAGCGCTGA GGGGAAGCTG GAGCCTGGGG CTGAGCGGCT GAGTGTTTCT 
    GGATCCCAGC CACTAGAGAA CTCGGGGATT TCTGCTTCAA GTACTCCTGA ATCCCATCCC 
    GCCAAGCCCT GTGGAGCACC AAGACCCGTC AATGGAGTTA TTAACACTCT TCAGCCTGGC 
    CTGGCAGAAC ACGCTCAGGG AGATGGCCAG GAAGCTGAGG AGCTCTTGCA TAAAAAGCAA 
    CGACTGAACA TGGTTTCTGC ATCTGATGGA ACGTGTGTAG CAGCTCGCAC TCGCCCAGTA 
    CTGAGCTGTA AGAAGCGACG GCTTGTTCGA CCTAGCAGCA TTATGCCCCT TTCCAAAAAG 
    GTCCACCGTA ACAGCCTGGT GCGATGTAGC TGCGACGTGA ACCCCTCGTG CGCTCTGTGC 
    GGCACCCGGA GCTCGACGAC TCTGGAAATC CAGTACGATG CCCCTCTGCT GGAGCGCCTC 
    TCCCAGCTGG ACTCCTGCAT CCATCCTGTT CTATCATTCC CAGATGACGT GCCGACGAGC 
    CTGCACTTCC AGAGCATGTT GAAATCCCAG TGGCAGAACA AACCCTACGA GAAAATCAAA 
    GCTCCCAAAA AGCTCTCGCT CAAGCACAGA GCCCCCATGC CTACCAGCAG CCTGTCCGAC 
    CCTATTCGCA AGGACCGCCA CAAGCTGGTG AACTCCTTCT TCACTGCAGC CAAGCGCTCA 
    CATCAAAAAA TCCAACCAGA CAAGGCACAC AGGCCGGCTT TAGACGATTT TACGGCCGTG 
    TCCAAGGCCG AGAGAGCGCC AGAGCGCTCG CTTGTCCAGC CTCCTGCCTA TGACAAAAAG 
    CGATTGCGAG ACTGCTCATC TGAGAGGAGT GAAGTGTTGA AGCATCACGC GGACGTCGGT 
    GGCCCGAGCT ACTTGTCGGC GGCTGCGACC CCTGCCCCTC ACAGTCCTAT CGCACGGCAA 
    CTGTCCACCT CCTCGGAAGG CTCTGCCCCT GCCAGCACGA GCTCACAGGG CACCTCCAAT 
    GCAGCCCCAA GGAGGAGGAG AGGGGAGAGC TCCTTCGATA TTAACAACAT TGTCATCCCC 
    ATGTCTGTCG CTGCAACAAC ACGCGTGGAG AAGCTGCAGT ACAAAGAGAT CCTCACACCC 
    AGCTGGCGTG AAGTGGATAT CGGCGCTCTG AAGGCGAGCC CTGATGAAGA CAACGAGGAG 
    ATCGAGGACT TGTCTGATTC GGCCTTCGCT GCTCGGCATG GCAAATGCGA GGAGATGGAG 
    CGGGCCCGGT GGCTTTGGAG CACGAGCATG CCCCCGCAGC GGCGGGGCAG CAGGTCCTAC 
    AGATCGACAG ACGGACGGAC GACCCCCCAG CTGGGGAACC CCTCAACTCC CCAGCCGGCA 
    TCCCCCGACG TGGGCAGCTG CCACTCCCAC TCGGAGCTGT CCCACACCCA CTCCCCGCGC 
    AGCCCCATCA GCCCCGAACT GCTCTCAGCC CCCCTCACGC CCCTGTCCCG CGACTCCATG 
    CGGCTTCTGT CCAGCGAGGA CACGCGCTGC TCCACGCCCG AGGCCGGCCT CGACGAGCAG 
    GCCGTGCTGC CCTGGGAGCG GCGCACCTTC CCCCTGTCGT ACGATCCCAG GACAGAGTGC 
    GAGGACCAAT CCGACCCCCA GGACCGGTCG TCGCGCTGCA CCCGGCGCAC GTCGGGCAGT 
    AAATCCTCCC GGGAGACCGA TGGCACTTCT GCTTTGCCCA ACCTGGCCAG CCTCAAGAGC 
    CGACCCCCCC TGGCGACACC CTCCTCCTCT TCCTCCGCAG CAGTTCAGCG GCCAGCGCAC 
    AGATAG

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

    RefSeq XP_027301124.1
    CDS341..3646
    Translation

    Target ORF information:

    RefSeq Version XM_027445323.1
    Organism Anas platyrhynchos(mallard)
    Definition Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_027445323.1

    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
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCTCACCA CATCCGATTC 
    AAGCTGGCTC CCCCGTCCTC CACCTTGTCG CCTGGCAGTG CCGAGAGCAA CGGCAACGCC 
    AACAACATCC TCCTGGCTGC CAACGGCACC AAAAGGAAAG CCATTGCTCC GGAGGATCCC 
    AGTTTAGATT TCCGAAACAA CCCTACGAAG GAAGAGCTGG GCAAGCTGCA GCCGCTAGTG 
    GCCTCTTATC TCTGCTCGGA TGTTACATCT GTTCCTTCAA AAGAGCCTCT GAAGCTGCAA 
    GGAGTCTTCA ACAAGCAGAC AGTCCTTAAA TCTCACTCTC TATTATCTCA GTCCTTCTTG 
    AAAACAAGCG ATCTGTTGGG GAGGCAACCG GTGTTGGAAT TTACTTTGGA GAATCTAAAA 
    ACAATGAGTA CTAATAGCCA GCCACCTCTC CCGCAAGCGC CTGTGAACGG CTTGGCCAAG 
    AAATTGGCCA AAAGTACCAA TTCAGACCAT GAAAACTCGA GTGCTCTGAA TGGTGGGAAG 
    TGTGCTCCTC CTGCCGCTGC CCTCCAGGGC GTTGACTATA ACGCAGGGGG TTCCGAATCA 
    GGGGATTTGA AGACCGGGTT GACCAATTGC ACTCTTCCAC ACCGAAGCCT TGATGCCGAG 
    CACACGACTC CGTTTAGCAA TAATAGCACT GCAAACAAAT CTTCCCTTAA TTCCATGGAG 
    CAACAGCGGG TGCTCGAGGG TGGCAGTGGG GAGAGCAGGT TGCCCGGTGC TGCTGGCCAC 
    TCAGACTTCG GGAGCGGTAA GTCGGAGGAG CAGAAACCTT CTCTGCTGGC CGGTTACCAC 
    AGTGCTCTCG ACTCCGAGAT GAGGACGAGG GCATTGCTGC GACGGCAGGC AGACATTGAG 
    AACCGGGCTC GCAGGCTGCA GAAGCGCTTG CAAGTGGTGC AGGCGAAGCA GGTGGAGAGA 
    CACATCCAAC AGCAGTTGGG TGGCTTCTTG GAGAAAACTC TGAGCAAGCT CCCGACCTTG 
    GACCCCCTGA GGCATCGGAG CCAGTTGATG TTGACCAGAA AGGCAGAAGC AGCTTTGAGG 
    AAAGCTGCGA GCGAGACAGT TACTTCAGAA GGCCTGAGCA GCTTCTTGAA AAGCGATTCG 
    ATATCGGAAG AACTGGAGAG ATTCACAGCC AGTGGTATGG CCAACTTGAG ATCCAGCGAA 
    CAAGCGTTTG ACTCGGATGT CACTGACAGC AGCTCAGGAG GAGAGTCTGA CGTCGAAGAG 
    GAGGAACTGA CCAAAGCAGA CCCAGAACAA CCCCACGTAC CGCTGAGACG AAGGGCAGAG 
    TGGAGATGGG CAGCAGACCG TGCAGCCATC GTCAGTCGCT GGAATTGGCT CCAAGCCCAC 
    GTCTCGGACC TGGAATACCG AATCCGGCAG CAAACGGATA TTTACAAGCA GATTAGAGCC 
    AACAAGGGGC TGATAGTTCT CGGTGAAGCA GCACCCCCTG ATCCTGCGGT AGATGATGCG 
    TCCCGTGCCG TCAGCGCTGA GGGGAAGCTG GAGCCTGGGG CTGAGCGGCT GAGTGTTTCT 
    GGATCCCAGC CACTAGAGAA CTCGGGGATT TCTGCTTCAA GTACTCCTGA ATCCCATCCC 
    GCCAAGCCCT GTGGAGCACC AAGACCCGTC AATGGAGTTA TTAACACTCT TCAGCCTGGC 
    CTGGCAGAAC ACGCTCAGGG AGATGGCCAG GAAGCTGAGG AGCTCTTGCA TAAAAAGCAA 
    CGACTGAACA TGGTTTCTGC ATCTGATGGA ACGTGTGTAG CAGCTCGCAC TCGCCCAGTA 
    CTGAGCTGTA AGAAGCGACG GCTTGTTCGA CCTAGCAGCA TTATGCCCCT TTCCAAAAAG 
    GTCCACCGTA ACAGCCTGGT GCGATGTAGC TGCGACGTGA ACCCCTCGTG CGCTCTGTGC 
    GGCACCCGGA GCTCGACGAC TCTGGAAATC CAGTACGATG CCCCTCTGCT GGAGCGCCTC 
    TCCCAGCTGG ACTCCTGCAT CCATCCTGTT CTATCATTCC CAGATGACGT GCCGACGAGC 
    CTGCACTTCC AGAGCATGTT GAAATCCCAG TGGCAGAACA AACCCTACGA GAAAATCAAA 
    GCTCCCAAAA AGCTCTCGCT CAAGCACAGA GCCCCCATGC CTACCAGCAG CCTGTCCGAC 
    CCTATTCGCA AGGACCGCCA CAAGCTGGTG AACTCCTTCT TCACTGCAGC CAAGCGCTCA 
    CATCAAAAAA TCCAACCAGA CAAGGCACAC AGGCCGGCTT TAGACGATTT TACGGCCGTG 
    TCCAAGGCCG AGAGAGCGCC AGAGCGCTCG CTTGTCCAGC CTCCTGCCTA TGACAAAAAG 
    CGATTGCGAG ACTGCTCATC TGAGAGGAGT GAAGTGTTGA AGCATCACGC GGACGTCGGT 
    GGCCCGAGCT ACTTGTCGGC GGCTGCGACC CCTGCCCCTC ACAGTCCTAT CGCACGGCAA 
    CTGTCCACCT CCTCGGAAGG CTCTGCCCCT GCCAGCACGA GCTCACAGGG CACCTCCAAT 
    GCAGCCCCAA GGAGGAGGAG AGGGGAGAGC TCCTTCGATA TTAACAACAT TGTCATCCCC 
    ATGTCTGTCG CTGCAACAAC ACGCGTGGAG AAGCTGCAGT ACAAAGAGAT CCTCACACCC 
    AGCTGGCGTG AAGTGGATAT CGGCGCTCTG AAGGCGAGCC CTGATGAAGA CAACGAGGAG 
    ATCGAGGACT TGTCTGATTC GGCCTTCGCT GCTCGGCATG GCAAATGCGA GGAGATGGAG 
    CGGGCCCGGT GGCTTTGGAG CACGAGCATG CCCCCGCAGC GGCGGGGCAG CAGGTCCTAC 
    AGATCGACAG ACGGACGGAC GACCCCCCAG CTGGGGAACC CCTCAACTCC CCAGCCGGCA 
    TCCCCCGACG TGGGCAGCTG CCACTCCCAC TCGGAGCTGT CCCACACCCA CTCCCCGCGC 
    AGCCCCATCA GCCCCGAACT GCTCTCAGCC CCCCTCACGC CCCTGTCCCG CGACTCCATG 
    CGGCTTCTGT CCAGCGAGGA CACGCGCTGC TCCACGCCCG AGGCCGGCCT CGACGAGCAG 
    GCCGTGCTGC CCTGGGAGCG GCGCACCTTC CCCCTGTCGT ACGATCCCAG GACAGAGTGC 
    GAGGACCAAT CCGACCCCCA GGACCGGTCG TCGCGCTGCA CCCGGCGCAC GTCGGGCAGT 
    AAATCCTCCC GGGAGACCGA TGGCACTTCT GCTTTGCCCA ACCTGGCCAG CCTCAAGAGC 
    CGACCCCCCC TGGCGACACC CTCCTCCTCT TCCTCCGCAG CAGTTCAGCG GCCAGCGCAC 
    AGATAG

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

    KANSL1 ( XM_027445324.1 ) cDNA ORF clone, Anas platyrhynchos(Mallard) -> XP_027301125.1 Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OAn174200
    Clone ID Related Accession (Same CDS sequence) XM_027445324.1
    Accession Version XM_027445324.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3147bp)
    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 KAT8 regulatory NSL complex subunit 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_040073.1) 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## 

    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
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCTCACCA CATCCGATTC 
    AAGCTGGCTC CCCCGTCCTC CACCTTGTCG CCTGGCAGTG CCGAGAGCAA CGGCAACGCC 
    AACAACATCC TCCTGGCTGC CAACGGCACC AAAAGGAAAG CCATTGCTCC GGAGGATCCC 
    AGTTTAGATT TCCGAAACAA CCCTACGAAG GAAGAGCTGG GCAAGCTGCA GCCGCTAGTG 
    GCCTCTTATC TCTGCTCGGA TGTTACATCT GTTCCTTCAA AAGAGCCTCT GAAGCTGCAA 
    GGAGTCTTCA ACAAGCAGAC AGTCCTTAAA TCTCACTCTC TATTATCTCA GTCCTTCTTG 
    AAAACAAGCG ATCTGTTGGG GAGGCAACCG GTGTTGGAAT TTACTTTGGA GAATCTAAAA 
    ACAATGAGTA CTAATAGCCA GCCACCTCTC CCGCAAGCGC CTGTGAACGG CTTGGCCAAG 
    AAATTGGCCA AAAGTACCAA TTCAGACCAT GAAAACTCGA GTGCTCTGAA TGGTGGGAAG 
    TGTGCTCCTC CTGCCGCTGC CCTCCAGGGC GTTGACTATA ACGCAGGGGG TTCCGAATCA 
    GGGGATTTGA AGACCGGGTT GACCAATTGC ACTCTTCCAC ACCGAAGCCT TGATGCCGAG 
    CACACGACTC CGTTTAGCAA TAATAGCACT GCAAACAAAT CTTCCCTTAA TTCCATGGAG 
    CAACAGCGGG TGCTCGAGGG TGGCAGTGGG GAGAGCAGGT TGCCCGGTGC TGCTGGCCAC 
    TCAGACTTCG GGAGCGGTAA GTCGGAGGAG CAGAAACCTT CTCTGCTGGC CGGTTACCAC 
    AGTGCTCTCG ACTCCGAGAT GAGGACGAGG GCATTGCTGC GACGGCAGGC AGACATTGAG 
    AACCGGGCTC GCAGGCTGCA GAAGCGCTTG CAAGTGGTGC AGGCGAAGCA GGTGGAGAGA 
    CACATCCAAC AGCAGTTGGG TGGCTTCTTG GAGAAAACTC TGAGCAAGCT CCCGACCTTG 
    GACCCCCTGA GGCATCGGAG CCAGTTGATG TTGACCAGAA AGGCAGAAGC AGCTTTGAGG 
    AAAGCTGCGA GCGAGACAGT TACTTCAGAA GGCCTGAGCA GCTTCTTGAA AAGCGATTCG 
    ATATCGGAAG AACTGGAGAG ATTCACAGCC AGTGGTATGG CCAACTTGAG ATCCAGCGAA 
    CAAGCGTTTG ACTCGGATGT CACTGACAGC AGCTCAGGAG GAGAGTCTGA CGTCGAAGAG 
    GAGGAACTGA CCAAAGCAGA CCCAGAACAA CCCCACGTAC CGCTGAGACG AAGGGCAGAG 
    TGGAGATGGG CAGCAGACCG TGCAGCCATC GTCAGTCGCT GGAATTGGCT CCAAGCCCAC 
    GTCTCGGACC TGGAATACCG AATCCGGCAG CAAACGGATA TTTACAAGCA GATTAGAGCC 
    AACAAGGGGC TGATAGTTCT CGGTGAAGCA GCACCCCCTG ATCCTGCGGT AGATGATGCG 
    TCCCGTGCCG TCAGCGCTGA GGGGAAGCTG GAGCCTGGGG CTGAGCGGCT GAGTGTTTCT 
    GGATCCCAGC CACTAGAGAA CTCGGGGATT TCTGCTTCAA GTACTCCTGA ATCCCATCCC 
    GCCAAGCCCT GTGGAGCACC AAGACCCGTC AATGGAGTTA TTAACACTCT TCAGCCTGGC 
    CTGGCAGAAC ACGCTCAGGG AGATGGCCAG GAAGCTGAGG AGCTCTTGCA TAAAAAGCAA 
    CGACTGAACA TGGTTTCTGC ATCTGATGGA ACGTGTGTAG CAGCTCGCAC TCGCCCAGTA 
    CTGAGCTGTA AGAAGCGACG GCTTGTTCGA CCTAGCAGCA TTATGCCCCT TTCCAAAAAG 
    GTCCACCGTA ACAGCCTGGT GCGATGTAGC TGCGACGTGA ACCCCTCGTG CGCTCTGTGC 
    GGCACCCGGA GCTCGACGAC TCTGGAAATC CAGTACGATG CCCCTCTGCT GGAGCGCCTC 
    TCCCAGCTGG ACTCCTGCAT CCATCCTGTT CTATCATTCC CAGATGACGT GCCGACGAGC 
    CTGCACTTCC AGAGCATGTT GAAATCCCAG TGGCAGAACA AACCCTACGA GAAAATCAAA 
    GCTCCCAAAA AGCTCTCGCT CAAGCACAGA GCCCCCATGC CTACCAGCAG CCTGTCCGAC 
    CCTATTCGCA AGGACCGCCA CAAGCTGGTG AACTCCTTCT TCACTGCAGC CATGTTGAAG 
    CATCACGCGG ACGTCGGTGG CCCGAGCTAC TTGTCGGCGG CTGCGACCCC TGCCCCTCAC 
    AGTCCTATCG CACGGCAACT GTCCACCTCC TCGGAAGGCT CTGCCCCTGC CAGCACGAGC 
    TCACAGGGCA CCTCCAATGC AGCCCAGCCA AGGAGGAGGA GAGGGGAGAG CTCCTTCGAT 
    ATTAACAACA TTGTCATCCC CATGTCTGTC GCTGCAACAA CACGCGTGGA GAAGCTGCAG 
    TACAAAGAGA TCCTCACACC CAGCTGGCGT GAAGTGGATA TCGGCGCTCT GAAGGCGAGC 
    CCTGATGAAG ACAACGAGGA GATCGAGGAC TTGTCTGATT CGGCCTTCGC TGCTCGGCAT 
    GGCAAATGCG AGGAGATGGA GCGGGCCCGG TGGCTTTGGA GCACGAGCAT GCCCCCGCAG 
    CGGCGGGGCA GCAGGTCCTA CAGATCGACA GACGGACGGA CGACCCCCCA GCTGGGGAAC 
    CCCTCAACTC CCCAGCCGGC ATCCCCCGAC GTGGGCAGCT GCCACTCCCA CTCGGAGCTG 
    TCCCACACCC ACTCCCCGCG CAGCCCCATC AGCCCCGAAC TGCTCTCAGC CCCCCTCACG 
    CCCCTGTCCC GCGACTCCAT GCGGCTTCTG TCCAGCGAGG ACACGCGCTG CTCCACGCCC 
    GAGGCCGGCC TCGACGAGCA GGCCGTGCTG CCCTGGGAGC GGCGCACCTT CCCCCTGTCG 
    TACGATCCCA GGACAGAGTG CGAGGACCAA TCCGACCCCC AGGACCGGTC GTCGCGCTGC 
    ACCCGGCGCA CGTCGGGCAG TAAATCCTCC CGGGAGACCG ATGGCACTTC TGCTTTGCCC 
    AACCTGGCCA GCCTCAAGAG CCGACCCCCC CTGGCGACAC CCTCCTCCTC TTCCTCCGCA 
    GCAGTTCAGC GGCCAGCGCA CAGATAG

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

    RefSeq XP_027301125.1
    CDS340..3486
    Translation

    Target ORF information:

    RefSeq Version XM_027445324.1
    Organism Anas platyrhynchos(mallard)
    Definition Anas platyrhynchos KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_027445324.1

    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
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCTCACCA CATCCGATTC 
    AAGCTGGCTC CCCCGTCCTC CACCTTGTCG CCTGGCAGTG CCGAGAGCAA CGGCAACGCC 
    AACAACATCC TCCTGGCTGC CAACGGCACC AAAAGGAAAG CCATTGCTCC GGAGGATCCC 
    AGTTTAGATT TCCGAAACAA CCCTACGAAG GAAGAGCTGG GCAAGCTGCA GCCGCTAGTG 
    GCCTCTTATC TCTGCTCGGA TGTTACATCT GTTCCTTCAA AAGAGCCTCT GAAGCTGCAA 
    GGAGTCTTCA ACAAGCAGAC AGTCCTTAAA TCTCACTCTC TATTATCTCA GTCCTTCTTG 
    AAAACAAGCG ATCTGTTGGG GAGGCAACCG GTGTTGGAAT TTACTTTGGA GAATCTAAAA 
    ACAATGAGTA CTAATAGCCA GCCACCTCTC CCGCAAGCGC CTGTGAACGG CTTGGCCAAG 
    AAATTGGCCA AAAGTACCAA TTCAGACCAT GAAAACTCGA GTGCTCTGAA TGGTGGGAAG 
    TGTGCTCCTC CTGCCGCTGC CCTCCAGGGC GTTGACTATA ACGCAGGGGG TTCCGAATCA 
    GGGGATTTGA AGACCGGGTT GACCAATTGC ACTCTTCCAC ACCGAAGCCT TGATGCCGAG 
    CACACGACTC CGTTTAGCAA TAATAGCACT GCAAACAAAT CTTCCCTTAA TTCCATGGAG 
    CAACAGCGGG TGCTCGAGGG TGGCAGTGGG GAGAGCAGGT TGCCCGGTGC TGCTGGCCAC 
    TCAGACTTCG GGAGCGGTAA GTCGGAGGAG CAGAAACCTT CTCTGCTGGC CGGTTACCAC 
    AGTGCTCTCG ACTCCGAGAT GAGGACGAGG GCATTGCTGC GACGGCAGGC AGACATTGAG 
    AACCGGGCTC GCAGGCTGCA GAAGCGCTTG CAAGTGGTGC AGGCGAAGCA GGTGGAGAGA 
    CACATCCAAC AGCAGTTGGG TGGCTTCTTG GAGAAAACTC TGAGCAAGCT CCCGACCTTG 
    GACCCCCTGA GGCATCGGAG CCAGTTGATG TTGACCAGAA AGGCAGAAGC AGCTTTGAGG 
    AAAGCTGCGA GCGAGACAGT TACTTCAGAA GGCCTGAGCA GCTTCTTGAA AAGCGATTCG 
    ATATCGGAAG AACTGGAGAG ATTCACAGCC AGTGGTATGG CCAACTTGAG ATCCAGCGAA 
    CAAGCGTTTG ACTCGGATGT CACTGACAGC AGCTCAGGAG GAGAGTCTGA CGTCGAAGAG 
    GAGGAACTGA CCAAAGCAGA CCCAGAACAA CCCCACGTAC CGCTGAGACG AAGGGCAGAG 
    TGGAGATGGG CAGCAGACCG TGCAGCCATC GTCAGTCGCT GGAATTGGCT CCAAGCCCAC 
    GTCTCGGACC TGGAATACCG AATCCGGCAG CAAACGGATA TTTACAAGCA GATTAGAGCC 
    AACAAGGGGC TGATAGTTCT CGGTGAAGCA GCACCCCCTG ATCCTGCGGT AGATGATGCG 
    TCCCGTGCCG TCAGCGCTGA GGGGAAGCTG GAGCCTGGGG CTGAGCGGCT GAGTGTTTCT 
    GGATCCCAGC CACTAGAGAA CTCGGGGATT TCTGCTTCAA GTACTCCTGA ATCCCATCCC 
    GCCAAGCCCT GTGGAGCACC AAGACCCGTC AATGGAGTTA TTAACACTCT TCAGCCTGGC 
    CTGGCAGAAC ACGCTCAGGG AGATGGCCAG GAAGCTGAGG AGCTCTTGCA TAAAAAGCAA 
    CGACTGAACA TGGTTTCTGC ATCTGATGGA ACGTGTGTAG CAGCTCGCAC TCGCCCAGTA 
    CTGAGCTGTA AGAAGCGACG GCTTGTTCGA CCTAGCAGCA TTATGCCCCT TTCCAAAAAG 
    GTCCACCGTA ACAGCCTGGT GCGATGTAGC TGCGACGTGA ACCCCTCGTG CGCTCTGTGC 
    GGCACCCGGA GCTCGACGAC TCTGGAAATC CAGTACGATG CCCCTCTGCT GGAGCGCCTC 
    TCCCAGCTGG ACTCCTGCAT CCATCCTGTT CTATCATTCC CAGATGACGT GCCGACGAGC 
    CTGCACTTCC AGAGCATGTT GAAATCCCAG TGGCAGAACA AACCCTACGA GAAAATCAAA 
    GCTCCCAAAA AGCTCTCGCT CAAGCACAGA GCCCCCATGC CTACCAGCAG CCTGTCCGAC 
    CCTATTCGCA AGGACCGCCA CAAGCTGGTG AACTCCTTCT TCACTGCAGC CATGTTGAAG 
    CATCACGCGG ACGTCGGTGG CCCGAGCTAC TTGTCGGCGG CTGCGACCCC TGCCCCTCAC 
    AGTCCTATCG CACGGCAACT GTCCACCTCC TCGGAAGGCT CTGCCCCTGC CAGCACGAGC 
    TCACAGGGCA CCTCCAATGC AGCCCAGCCA AGGAGGAGGA GAGGGGAGAG CTCCTTCGAT 
    ATTAACAACA TTGTCATCCC CATGTCTGTC GCTGCAACAA CACGCGTGGA GAAGCTGCAG 
    TACAAAGAGA TCCTCACACC CAGCTGGCGT GAAGTGGATA TCGGCGCTCT GAAGGCGAGC 
    CCTGATGAAG ACAACGAGGA GATCGAGGAC TTGTCTGATT CGGCCTTCGC TGCTCGGCAT 
    GGCAAATGCG AGGAGATGGA GCGGGCCCGG TGGCTTTGGA GCACGAGCAT GCCCCCGCAG 
    CGGCGGGGCA GCAGGTCCTA CAGATCGACA GACGGACGGA CGACCCCCCA GCTGGGGAAC 
    CCCTCAACTC CCCAGCCGGC ATCCCCCGAC GTGGGCAGCT GCCACTCCCA CTCGGAGCTG 
    TCCCACACCC ACTCCCCGCG CAGCCCCATC AGCCCCGAAC TGCTCTCAGC CCCCCTCACG 
    CCCCTGTCCC GCGACTCCAT GCGGCTTCTG TCCAGCGAGG ACACGCGCTG CTCCACGCCC 
    GAGGCCGGCC TCGACGAGCA GGCCGTGCTG CCCTGGGAGC GGCGCACCTT CCCCCTGTCG 
    TACGATCCCA GGACAGAGTG CGAGGACCAA TCCGACCCCC AGGACCGGTC GTCGCGCTGC 
    ACCCGGCGCA CGTCGGGCAG TAAATCCTCC CGGGAGACCG ATGGCACTTC TGCTTTGCCC 
    AACCTGGCCA GCCTCAAGAG CCGACCCCCC CTGGCGACAC CCTCCTCCTC TTCCTCCGCA 
    GCAGTTCAGC GGCCAGCGCA CAGATAG

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

見積依頼

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