KANSL1 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

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
OMb50912 XM_015119939.1
Latest version!
Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMb50912 XM_028836967.1
Latest version!
Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMb50912 XM_015119941.2
Latest version!
Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMb50913 XM_028836968.1
Latest version!
Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMb50913 XM_015119942.1
Latest version!
Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMb50914 XM_015119943.1
Latest version!
Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMb50914 XM_028836969.1
Latest version!
Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMb50915 XM_015119944.1
Latest version!
Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMb50915 XM_028836970.1
Latest version!
Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMb10612 XM_001115950.4
Latest version!
Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
OMb10612 XM_001115933.3
Latest version!
Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
OMb10612 XM_001115923.3
Latest version!
Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
OMb10612 XM_015119937.2
Latest version!
Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
OMb10612 XM_015119938.2
Latest version!
Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
OMb10612 XM_028836966.1
Latest version!
Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
View Old Accession Versions >>
OMb10612 XM_001115950.3 Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
OMb10612 XM_001115933.2 Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
OMb50912 XM_015119941.1 Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMb10612 XM_015119937.1 Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
OMb10612 XM_015119938.1 Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
OMb10612 XM_001115923.2 Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID OMb50912
    Clone ID Related Accession (Same CDS sequence) XM_028836967.1 , XM_015119941.2 , XM_015119939.1 , XM_015119941.1
    Accession Version XM_028836967.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3315bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    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_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCCAGTT AGGAGGAGAA GGGGAGAGAG CTCATTTGAT
    ATTAACAACA TTGTCATCCC AATGTCTGTT GCTGCAACAA CTCGCGTAGA GAAACTGCAA
    TACAAGGAAA TCCTTACTCC CAGCTGGCGG GAGGTTGATC TTCAGTCTCT GAAGGGGAGT
    CCTGATGAGG AGAATGAGGA GATTGAAGAC CTATCTGACG CAGCTTTCGC CGCCCTGCAT
    GCCAAATGTG AGGAGATGGA GAGGGCACGG TGGCTGTGGA CCACGAGTGT GCCACCCCAG
    CGGCGGGGCA GCAGGTCCTA CAGGTCATCA GACGGCCGGA CAACCCCTCA GCTGGGCAGT
    GCCAACCCCT CCACCCCCCA GCCTGCCTCC CCTGATGTCA GCAGTAGCCA CTCTTTGTCA
    GAATACTCTC ATGGTCAGTC CCCTAGGAGC CCCATTAGCC CGGAACTGCA CTCAGCGCCC
    CTCACCCCTG TGGCTCGGGA CACTCCGCGA CACTTAGCCA GTGAGGATAC CCGTTGTTCC
    ACGCCAGAGC TGGGTCTGGA TGAACAGTCT GTCCAGCCCT GGGAGCGGCG GACCTTCCCC
    CTGGCGCACA GTCCCCAGGC GGAGTGTGAG GACCAGCTGG ATGCACAGGA GCGAGCAGCC
    CGCTGCACTC GACGCACCTC AGGCAGCAAG ACTGGCCGGG AGACAGAGGC GGCACCCACC
    TCGCCTCCCA CTGTCCCCCT CAAGAGTCGG CATCTGGTGG CAGCAGCCAC AGCTCAGCGC
    CCAACTCACA GATGA

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

    RefSeq XP_028692800.1
    CDS761..4075
    Translation

    Target ORF information:

    RefSeq Version XM_028836967.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028836967.1

    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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCCAGTT AGGAGGAGAA GGGGAGAGAG CTCATTTGAT
    ATTAACAACA TTGTCATCCC AATGTCTGTT GCTGCAACAA CTCGCGTAGA GAAACTGCAA
    TACAAGGAAA TCCTTACTCC CAGCTGGCGG GAGGTTGATC TTCAGTCTCT GAAGGGGAGT
    CCTGATGAGG AGAATGAGGA GATTGAAGAC CTATCTGACG CAGCTTTCGC CGCCCTGCAT
    GCCAAATGTG AGGAGATGGA GAGGGCACGG TGGCTGTGGA CCACGAGTGT GCCACCCCAG
    CGGCGGGGCA GCAGGTCCTA CAGGTCATCA GACGGCCGGA CAACCCCTCA GCTGGGCAGT
    GCCAACCCCT CCACCCCCCA GCCTGCCTCC CCTGATGTCA GCAGTAGCCA CTCTTTGTCA
    GAATACTCTC ATGGTCAGTC CCCTAGGAGC CCCATTAGCC CGGAACTGCA CTCAGCGCCC
    CTCACCCCTG TGGCTCGGGA CACTCCGCGA CACTTAGCCA GTGAGGATAC CCGTTGTTCC
    ACGCCAGAGC TGGGTCTGGA TGAACAGTCT GTCCAGCCCT GGGAGCGGCG GACCTTCCCC
    CTGGCGCACA GTCCCCAGGC GGAGTGTGAG GACCAGCTGG ATGCACAGGA GCGAGCAGCC
    CGCTGCACTC GACGCACCTC AGGCAGCAAG ACTGGCCGGG AGACAGAGGC GGCACCCACC
    TCGCCTCCCA CTGTCCCCCT CAAGAGTCGG CATCTGGTGG CAGCAGCCAC AGCTCAGCGC
    CCAACTCACA GATGA

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

    CloneID OMb50912
    Clone ID Related Accession (Same CDS sequence) XM_028836967.1 , XM_015119941.2 , XM_015119939.1 , XM_015119941.1
    Accession Version XM_015119941.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3315bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    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_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015119941.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCCAGTT AGGAGGAGAA GGGGAGAGAG CTCATTTGAT
    ATTAACAACA TTGTCATCCC AATGTCTGTT GCTGCAACAA CTCGCGTAGA GAAACTGCAA
    TACAAGGAAA TCCTTACTCC CAGCTGGCGG GAGGTTGATC TTCAGTCTCT GAAGGGGAGT
    CCTGATGAGG AGAATGAGGA GATTGAAGAC CTATCTGACG CAGCTTTCGC CGCCCTGCAT
    GCCAAATGTG AGGAGATGGA GAGGGCACGG TGGCTGTGGA CCACGAGTGT GCCACCCCAG
    CGGCGGGGCA GCAGGTCCTA CAGGTCATCA GACGGCCGGA CAACCCCTCA GCTGGGCAGT
    GCCAACCCCT CCACCCCCCA GCCTGCCTCC CCTGATGTCA GCAGTAGCCA CTCTTTGTCA
    GAATACTCTC ATGGTCAGTC CCCTAGGAGC CCCATTAGCC CGGAACTGCA CTCAGCGCCC
    CTCACCCCTG TGGCTCGGGA CACTCCGCGA CACTTAGCCA GTGAGGATAC CCGTTGTTCC
    ACGCCAGAGC TGGGTCTGGA TGAACAGTCT GTCCAGCCCT GGGAGCGGCG GACCTTCCCC
    CTGGCGCACA GTCCCCAGGC GGAGTGTGAG GACCAGCTGG ATGCACAGGA GCGAGCAGCC
    CGCTGCACTC GACGCACCTC AGGCAGCAAG ACTGGCCGGG AGACAGAGGC GGCACCCACC
    TCGCCTCCCA CTGTCCCCCT CAAGAGTCGG CATCTGGTGG CAGCAGCCAC AGCTCAGCGC
    CCAACTCACA GATGA

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

    RefSeq XP_014975427.1
    CDS253..3567
    Translation

    Target ORF information:

    RefSeq Version XM_015119941.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015119941.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCCAGTT AGGAGGAGAA GGGGAGAGAG CTCATTTGAT
    ATTAACAACA TTGTCATCCC AATGTCTGTT GCTGCAACAA CTCGCGTAGA GAAACTGCAA
    TACAAGGAAA TCCTTACTCC CAGCTGGCGG GAGGTTGATC TTCAGTCTCT GAAGGGGAGT
    CCTGATGAGG AGAATGAGGA GATTGAAGAC CTATCTGACG CAGCTTTCGC CGCCCTGCAT
    GCCAAATGTG AGGAGATGGA GAGGGCACGG TGGCTGTGGA CCACGAGTGT GCCACCCCAG
    CGGCGGGGCA GCAGGTCCTA CAGGTCATCA GACGGCCGGA CAACCCCTCA GCTGGGCAGT
    GCCAACCCCT CCACCCCCCA GCCTGCCTCC CCTGATGTCA GCAGTAGCCA CTCTTTGTCA
    GAATACTCTC ATGGTCAGTC CCCTAGGAGC CCCATTAGCC CGGAACTGCA CTCAGCGCCC
    CTCACCCCTG TGGCTCGGGA CACTCCGCGA CACTTAGCCA GTGAGGATAC CCGTTGTTCC
    ACGCCAGAGC TGGGTCTGGA TGAACAGTCT GTCCAGCCCT GGGAGCGGCG GACCTTCCCC
    CTGGCGCACA GTCCCCAGGC GGAGTGTGAG GACCAGCTGG ATGCACAGGA GCGAGCAGCC
    CGCTGCACTC GACGCACCTC AGGCAGCAAG ACTGGCCGGG AGACAGAGGC GGCACCCACC
    TCGCCTCCCA CTGTCCCCCT CAAGAGTCGG CATCTGGTGG CAGCAGCCAC AGCTCAGCGC
    CCAACTCACA GATGA

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

    CloneID OMb50912
    Clone ID Related Accession (Same CDS sequence) XM_028836967.1 , XM_015119941.2 , XM_015119939.1 , XM_015119941.1
    Accession Version XM_015119939.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3315bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    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 (NW_014805577.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCCAGTT AGGAGGAGAA GGGGAGAGAG CTCATTTGAT
    ATTAACAACA TTGTCATCCC AATGTCTGTT GCTGCAACAA CTCGCGTAGA GAAACTGCAA
    TACAAGGAAA TCCTTACTCC CAGCTGGCGG GAGGTTGATC TTCAGTCTCT GAAGGGGAGT
    CCTGATGAGG AGAATGAGGA GATTGAAGAC CTATCTGACG CAGCTTTCGC CGCCCTGCAT
    GCCAAATGTG AGGAGATGGA GAGGGCACGG TGGCTGTGGA CCACGAGTGT GCCACCCCAG
    CGGCGGGGCA GCAGGTCCTA CAGGTCATCA GACGGCCGGA CAACCCCTCA GCTGGGCAGT
    GCCAACCCCT CCACCCCCCA GCCTGCCTCC CCTGATGTCA GCAGTAGCCA CTCTTTGTCA
    GAATACTCTC ATGGTCAGTC CCCTAGGAGC CCCATTAGCC CGGAACTGCA CTCAGCGCCC
    CTCACCCCTG TGGCTCGGGA CACTCCGCGA CACTTAGCCA GTGAGGATAC CCGTTGTTCC
    ACGCCAGAGC TGGGTCTGGA TGAACAGTCT GTCCAGCCCT GGGAGCGGCG GACCTTCCCC
    CTGGCGCACA GTCCCCAGGC GGAGTGTGAG GACCAGCTGG ATGCACAGGA GCGAGCAGCC
    CGCTGCACTC GACGCACCTC AGGCAGCAAG ACTGGCCGGG AGACAGAGGC GGCACCCACC
    TCGCCTCCCA CTGTCCCCCT CAAGAGTCGG CATCTGGTGG CAGCAGCCAC AGCTCAGCGC
    CCAACTCACA GATGA

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

    RefSeq XP_014975425.1
    CDS233..3547
    Translation

    Target ORF information:

    RefSeq Version XM_015119939.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015119939.1

    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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCCAGTT AGGAGGAGAA GGGGAGAGAG CTCATTTGAT
    ATTAACAACA TTGTCATCCC AATGTCTGTT GCTGCAACAA CTCGCGTAGA GAAACTGCAA
    TACAAGGAAA TCCTTACTCC CAGCTGGCGG GAGGTTGATC TTCAGTCTCT GAAGGGGAGT
    CCTGATGAGG AGAATGAGGA GATTGAAGAC CTATCTGACG CAGCTTTCGC CGCCCTGCAT
    GCCAAATGTG AGGAGATGGA GAGGGCACGG TGGCTGTGGA CCACGAGTGT GCCACCCCAG
    CGGCGGGGCA GCAGGTCCTA CAGGTCATCA GACGGCCGGA CAACCCCTCA GCTGGGCAGT
    GCCAACCCCT CCACCCCCCA GCCTGCCTCC CCTGATGTCA GCAGTAGCCA CTCTTTGTCA
    GAATACTCTC ATGGTCAGTC CCCTAGGAGC CCCATTAGCC CGGAACTGCA CTCAGCGCCC
    CTCACCCCTG TGGCTCGGGA CACTCCGCGA CACTTAGCCA GTGAGGATAC CCGTTGTTCC
    ACGCCAGAGC TGGGTCTGGA TGAACAGTCT GTCCAGCCCT GGGAGCGGCG GACCTTCCCC
    CTGGCGCACA GTCCCCAGGC GGAGTGTGAG GACCAGCTGG ATGCACAGGA GCGAGCAGCC
    CGCTGCACTC GACGCACCTC AGGCAGCAAG ACTGGCCGGG AGACAGAGGC GGCACCCACC
    TCGCCTCCCA CTGTCCCCCT CAAGAGTCGG CATCTGGTGG CAGCAGCCAC AGCTCAGCGC
    CCAACTCACA GATGA

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

    CloneID OMb50912
    Clone ID Related Accession (Same CDS sequence) XM_028836967.1 , XM_015119941.2 , XM_015119939.1 , XM_015119941.1
    Accession Version XM_015119941.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3315bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    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 (NW_014805577.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCCAGTT AGGAGGAGAA GGGGAGAGAG CTCATTTGAT
    ATTAACAACA TTGTCATCCC AATGTCTGTT GCTGCAACAA CTCGCGTAGA GAAACTGCAA
    TACAAGGAAA TCCTTACTCC CAGCTGGCGG GAGGTTGATC TTCAGTCTCT GAAGGGGAGT
    CCTGATGAGG AGAATGAGGA GATTGAAGAC CTATCTGACG CAGCTTTCGC CGCCCTGCAT
    GCCAAATGTG AGGAGATGGA GAGGGCACGG TGGCTGTGGA CCACGAGTGT GCCACCCCAG
    CGGCGGGGCA GCAGGTCCTA CAGGTCATCA GACGGCCGGA CAACCCCTCA GCTGGGCAGT
    GCCAACCCCT CCACCCCCCA GCCTGCCTCC CCTGATGTCA GCAGTAGCCA CTCTTTGTCA
    GAATACTCTC ATGGTCAGTC CCCTAGGAGC CCCATTAGCC CGGAACTGCA CTCAGCGCCC
    CTCACCCCTG TGGCTCGGGA CACTCCGCGA CACTTAGCCA GTGAGGATAC CCGTTGTTCC
    ACGCCAGAGC TGGGTCTGGA TGAACAGTCT GTCCAGCCCT GGGAGCGGCG GACCTTCCCC
    CTGGCGCACA GTCCCCAGGC GGAGTGTGAG GACCAGCTGG ATGCACAGGA GCGAGCAGCC
    CGCTGCACTC GACGCACCTC AGGCAGCAAG ACTGGCCGGG AGACAGAGGC GGCACCCACC
    TCGCCTCCCA CTGTCCCCCT CAAGAGTCGG CATCTGGTGG CAGCAGCCAC AGCTCAGCGC
    CCAACTCACA GATGA

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

    RefSeq XP_014975427.1
    CDS308..3622
    Translation

    Target ORF information:

    RefSeq Version XM_015119941.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015119941.1

    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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCCAGTT AGGAGGAGAA GGGGAGAGAG CTCATTTGAT
    ATTAACAACA TTGTCATCCC AATGTCTGTT GCTGCAACAA CTCGCGTAGA GAAACTGCAA
    TACAAGGAAA TCCTTACTCC CAGCTGGCGG GAGGTTGATC TTCAGTCTCT GAAGGGGAGT
    CCTGATGAGG AGAATGAGGA GATTGAAGAC CTATCTGACG CAGCTTTCGC CGCCCTGCAT
    GCCAAATGTG AGGAGATGGA GAGGGCACGG TGGCTGTGGA CCACGAGTGT GCCACCCCAG
    CGGCGGGGCA GCAGGTCCTA CAGGTCATCA GACGGCCGGA CAACCCCTCA GCTGGGCAGT
    GCCAACCCCT CCACCCCCCA GCCTGCCTCC CCTGATGTCA GCAGTAGCCA CTCTTTGTCA
    GAATACTCTC ATGGTCAGTC CCCTAGGAGC CCCATTAGCC CGGAACTGCA CTCAGCGCCC
    CTCACCCCTG TGGCTCGGGA CACTCCGCGA CACTTAGCCA GTGAGGATAC CCGTTGTTCC
    ACGCCAGAGC TGGGTCTGGA TGAACAGTCT GTCCAGCCCT GGGAGCGGCG GACCTTCCCC
    CTGGCGCACA GTCCCCAGGC GGAGTGTGAG GACCAGCTGG ATGCACAGGA GCGAGCAGCC
    CGCTGCACTC GACGCACCTC AGGCAGCAAG ACTGGCCGGG AGACAGAGGC GGCACCCACC
    TCGCCTCCCA CTGTCCCCCT CAAGAGTCGG CATCTGGTGG CAGCAGCCAC AGCTCAGCGC
    CCAACTCACA GATGA

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

    CloneID OMb50913
    Clone ID Related Accession (Same CDS sequence) XM_015119942.1 , XM_028836968.1
    Accession Version XM_015119942.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3216bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    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 (NW_014805577.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GATTGAGTCT
    TTTTCTCAGC CATTGGAAAA CCATGGTCCC CCTATTATTG GTCATGTTTC AGAGTCACTG
    TCTACCAAAT CATGTGGAGC ACTCAGACCT GTCAATGGAG TTATTAACAC TCTTCAGCCT
    GTCTTGGCAG ACCACATTCC AGGTGACAGC TCTGATGCTG AGGAACAATT ACATAAAAAG
    CAACGACTGA ATCTAGTCTC TTCATCATCT GATGGCACCT GTGTGGCAGC CCGGACACGT
    CCTGTACTGA GCTGTAAGAA ACGGAGGCTT GTTCGACCCA ACAGCATTGT TCCTCTTTCC
    AAGAAGGTTC ACCGGAACAG CACAATCCGC CCTGGCTGTG ATGTGAATCC CTCCTGTGCG
    TTGTGTGGTT CAGGCAGCAT CAACACTATG CCTCCCGAAA TTCACTATGA AGCCCCTCTG
    TTGGAACGTC TTTCCCAGTT GGACTCTTGT GTTCACCCTG TTCTAGCATT TCCAGATGAT
    GTTCCCACAA GCCTGCATTT CCAGAGCATG CTGAAATCTC AGTGGCAGAA CAAGCCTTTT
    GACAAAATCA AACCTCCCAA AAAGTTATCG CTTAAGCACA GAGCACCCAT GCCGGGCAGT
    CTGCCAGATC CAGCTCGTAA GGACAGGCAC AAATTGGTCA GCTCCTTCCT AACAACAGCC
    AAGCTGTCCC ATCACCAAAC CCGGCCTGAC AGGACCCACA GGCAGCACTT AGACGATGTG
    GGGGCCGTGC CCATGGTGGA GCGAGTGACA GCGCCAAAAG CAGAGCGCTT GCTCAACCCA
    CCGCCACCCG TGCATGACCC AAACCACAGC AAAATGAGAT TGCGAGACCA TTCATCTGAG
    AGAAGTGAAG TGTTGAAACA TCACACAGAC ATGAGCAGTT CGAGCTACTT GGCAGCCACC
    CACCATCCTC CACACAGTCC CTTGGTGCGA CAGCTCTCCA CCTCCTCAGA CTCCCCTGCA
    CCCGCCAGCT CTAACTCACA GGTTACAGCC AGCACATCGC AGCAGCCAGT TAGGAGGAGA
    AGGGGAGAGA GCTCATTTGA TATTAACAAC ATTGTCATCC CAATGTCTGT TGCTGCAACA
    ACTCGCGTAG AGAAACTGCA ATACAAGGAA ATCCTTACTC CCAGCTGGCG GGAGGTTGAT
    CTTCAGTCTC TGAAGGGGAG TCCTGATGAG GAGAATGAGG AGATTGAAGA CCTATCTGAC
    GCAGCTTTCG CCGCCCTGCA TGCCAAATGT GAGGAGATGG AGAGGGCACG GTGGCTGTGG
    ACCACGAGTG TGCCACCCCA GCGGCGGGGC AGCAGGTCCT ACAGGTCATC AGACGGCCGG
    ACAACCCCTC AGCTGGGCAG TGCCAACCCC TCCACCCCCC AGCCTGCCTC CCCTGATGTC
    AGCAGTAGCC ACTCTTTGTC AGAATACTCT CATGGTCAGT CCCCTAGGAG CCCCATTAGC
    CCGGAACTGC ACTCAGCGCC CCTCACCCCT GTGGCTCGGG ACACTCCGCG ACACTTAGCC
    AGTGAGGATA CCCGTTGTTC CACGCCAGAG CTGGGTCTGG ATGAACAGTC TGTCCAGCCC
    TGGGAGCGGC GGACCTTCCC CCTGGCGCAC AGTCCCCAGG CGGAGTGTGA GGACCAGCTG
    GATGCACAGG AGCGAGCAGC CCGCTGCACT CGACGCACCT CAGGCAGCAA GACTGGCCGG
    GAGACAGAGG CGGCACCCAC CTCGCCTCCC ACTGTCCCCC TCAAGAGTCG GCATCTGGTG
    GCAGCAGCCA CAGCTCAGCG CCCAACTCAC AGATGA

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

    RefSeq XP_014975428.1
    CDS233..3448
    Translation

    Target ORF information:

    RefSeq Version XM_015119942.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015119942.1

    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
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GATTGAGTCT
    TTTTCTCAGC CATTGGAAAA CCATGGTCCC CCTATTATTG GTCATGTTTC AGAGTCACTG
    TCTACCAAAT CATGTGGAGC ACTCAGACCT GTCAATGGAG TTATTAACAC TCTTCAGCCT
    GTCTTGGCAG ACCACATTCC AGGTGACAGC TCTGATGCTG AGGAACAATT ACATAAAAAG
    CAACGACTGA ATCTAGTCTC TTCATCATCT GATGGCACCT GTGTGGCAGC CCGGACACGT
    CCTGTACTGA GCTGTAAGAA ACGGAGGCTT GTTCGACCCA ACAGCATTGT TCCTCTTTCC
    AAGAAGGTTC ACCGGAACAG CACAATCCGC CCTGGCTGTG ATGTGAATCC CTCCTGTGCG
    TTGTGTGGTT CAGGCAGCAT CAACACTATG CCTCCCGAAA TTCACTATGA AGCCCCTCTG
    TTGGAACGTC TTTCCCAGTT GGACTCTTGT GTTCACCCTG TTCTAGCATT TCCAGATGAT
    GTTCCCACAA GCCTGCATTT CCAGAGCATG CTGAAATCTC AGTGGCAGAA CAAGCCTTTT
    GACAAAATCA AACCTCCCAA AAAGTTATCG CTTAAGCACA GAGCACCCAT GCCGGGCAGT
    CTGCCAGATC CAGCTCGTAA GGACAGGCAC AAATTGGTCA GCTCCTTCCT AACAACAGCC
    AAGCTGTCCC ATCACCAAAC CCGGCCTGAC AGGACCCACA GGCAGCACTT AGACGATGTG
    GGGGCCGTGC CCATGGTGGA GCGAGTGACA GCGCCAAAAG CAGAGCGCTT GCTCAACCCA
    CCGCCACCCG TGCATGACCC AAACCACAGC AAAATGAGAT TGCGAGACCA TTCATCTGAG
    AGAAGTGAAG TGTTGAAACA TCACACAGAC ATGAGCAGTT CGAGCTACTT GGCAGCCACC
    CACCATCCTC CACACAGTCC CTTGGTGCGA CAGCTCTCCA CCTCCTCAGA CTCCCCTGCA
    CCCGCCAGCT CTAACTCACA GGTTACAGCC AGCACATCGC AGCAGCCAGT TAGGAGGAGA
    AGGGGAGAGA GCTCATTTGA TATTAACAAC ATTGTCATCC CAATGTCTGT TGCTGCAACA
    ACTCGCGTAG AGAAACTGCA ATACAAGGAA ATCCTTACTC CCAGCTGGCG GGAGGTTGAT
    CTTCAGTCTC TGAAGGGGAG TCCTGATGAG GAGAATGAGG AGATTGAAGA CCTATCTGAC
    GCAGCTTTCG CCGCCCTGCA TGCCAAATGT GAGGAGATGG AGAGGGCACG GTGGCTGTGG
    ACCACGAGTG TGCCACCCCA GCGGCGGGGC AGCAGGTCCT ACAGGTCATC AGACGGCCGG
    ACAACCCCTC AGCTGGGCAG TGCCAACCCC TCCACCCCCC AGCCTGCCTC CCCTGATGTC
    AGCAGTAGCC ACTCTTTGTC AGAATACTCT CATGGTCAGT CCCCTAGGAG CCCCATTAGC
    CCGGAACTGC ACTCAGCGCC CCTCACCCCT GTGGCTCGGG ACACTCCGCG ACACTTAGCC
    AGTGAGGATA CCCGTTGTTC CACGCCAGAG CTGGGTCTGG ATGAACAGTC TGTCCAGCCC
    TGGGAGCGGC GGACCTTCCC CCTGGCGCAC AGTCCCCAGG CGGAGTGTGA GGACCAGCTG
    GATGCACAGG AGCGAGCAGC CCGCTGCACT CGACGCACCT CAGGCAGCAA GACTGGCCGG
    GAGACAGAGG CGGCACCCAC CTCGCCTCCC ACTGTCCCCC TCAAGAGTCG GCATCTGGTG
    GCAGCAGCCA CAGCTCAGCG CCCAACTCAC AGATGA

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

    CloneID OMb50913
    Clone ID Related Accession (Same CDS sequence) XM_015119942.1 , XM_028836968.1
    Accession Version XM_028836968.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3216bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    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_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GATTGAGTCT
    TTTTCTCAGC CATTGGAAAA CCATGGTCCC CCTATTATTG GTCATGTTTC AGAGTCACTG
    TCTACCAAAT CATGTGGAGC ACTCAGACCT GTCAATGGAG TTATTAACAC TCTTCAGCCT
    GTCTTGGCAG ACCACATTCC AGGTGACAGC TCTGATGCTG AGGAACAATT ACATAAAAAG
    CAACGACTGA ATCTAGTCTC TTCATCATCT GATGGCACCT GTGTGGCAGC CCGGACACGT
    CCTGTACTGA GCTGTAAGAA ACGGAGGCTT GTTCGACCCA ACAGCATTGT TCCTCTTTCC
    AAGAAGGTTC ACCGGAACAG CACAATCCGC CCTGGCTGTG ATGTGAATCC CTCCTGTGCG
    TTGTGTGGTT CAGGCAGCAT CAACACTATG CCTCCCGAAA TTCACTATGA AGCCCCTCTG
    TTGGAACGTC TTTCCCAGTT GGACTCTTGT GTTCACCCTG TTCTAGCATT TCCAGATGAT
    GTTCCCACAA GCCTGCATTT CCAGAGCATG CTGAAATCTC AGTGGCAGAA CAAGCCTTTT
    GACAAAATCA AACCTCCCAA AAAGTTATCG CTTAAGCACA GAGCACCCAT GCCGGGCAGT
    CTGCCAGATC CAGCTCGTAA GGACAGGCAC AAATTGGTCA GCTCCTTCCT AACAACAGCC
    AAGCTGTCCC ATCACCAAAC CCGGCCTGAC AGGACCCACA GGCAGCACTT AGACGATGTG
    GGGGCCGTGC CCATGGTGGA GCGAGTGACA GCGCCAAAAG CAGAGCGCTT GCTCAACCCA
    CCGCCACCCG TGCATGACCC AAACCACAGC AAAATGAGAT TGCGAGACCA TTCATCTGAG
    AGAAGTGAAG TGTTGAAACA TCACACAGAC ATGAGCAGTT CGAGCTACTT GGCAGCCACC
    CACCATCCTC CACACAGTCC CTTGGTGCGA CAGCTCTCCA CCTCCTCAGA CTCCCCTGCA
    CCCGCCAGCT CTAACTCACA GGTTACAGCC AGCACATCGC AGCAGCCAGT TAGGAGGAGA
    AGGGGAGAGA GCTCATTTGA TATTAACAAC ATTGTCATCC CAATGTCTGT TGCTGCAACA
    ACTCGCGTAG AGAAACTGCA ATACAAGGAA ATCCTTACTC CCAGCTGGCG GGAGGTTGAT
    CTTCAGTCTC TGAAGGGGAG TCCTGATGAG GAGAATGAGG AGATTGAAGA CCTATCTGAC
    GCAGCTTTCG CCGCCCTGCA TGCCAAATGT GAGGAGATGG AGAGGGCACG GTGGCTGTGG
    ACCACGAGTG TGCCACCCCA GCGGCGGGGC AGCAGGTCCT ACAGGTCATC AGACGGCCGG
    ACAACCCCTC AGCTGGGCAG TGCCAACCCC TCCACCCCCC AGCCTGCCTC CCCTGATGTC
    AGCAGTAGCC ACTCTTTGTC AGAATACTCT CATGGTCAGT CCCCTAGGAG CCCCATTAGC
    CCGGAACTGC ACTCAGCGCC CCTCACCCCT GTGGCTCGGG ACACTCCGCG ACACTTAGCC
    AGTGAGGATA CCCGTTGTTC CACGCCAGAG CTGGGTCTGG ATGAACAGTC TGTCCAGCCC
    TGGGAGCGGC GGACCTTCCC CCTGGCGCAC AGTCCCCAGG CGGAGTGTGA GGACCAGCTG
    GATGCACAGG AGCGAGCAGC CCGCTGCACT CGACGCACCT CAGGCAGCAA GACTGGCCGG
    GAGACAGAGG CGGCACCCAC CTCGCCTCCC ACTGTCCCCC TCAAGAGTCG GCATCTGGTG
    GCAGCAGCCA CAGCTCAGCG CCCAACTCAC AGATGA

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

    RefSeq XP_028692801.1
    CDS761..3976
    Translation

    Target ORF information:

    RefSeq Version XM_028836968.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028836968.1

    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
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GATTGAGTCT
    TTTTCTCAGC CATTGGAAAA CCATGGTCCC CCTATTATTG GTCATGTTTC AGAGTCACTG
    TCTACCAAAT CATGTGGAGC ACTCAGACCT GTCAATGGAG TTATTAACAC TCTTCAGCCT
    GTCTTGGCAG ACCACATTCC AGGTGACAGC TCTGATGCTG AGGAACAATT ACATAAAAAG
    CAACGACTGA ATCTAGTCTC TTCATCATCT GATGGCACCT GTGTGGCAGC CCGGACACGT
    CCTGTACTGA GCTGTAAGAA ACGGAGGCTT GTTCGACCCA ACAGCATTGT TCCTCTTTCC
    AAGAAGGTTC ACCGGAACAG CACAATCCGC CCTGGCTGTG ATGTGAATCC CTCCTGTGCG
    TTGTGTGGTT CAGGCAGCAT CAACACTATG CCTCCCGAAA TTCACTATGA AGCCCCTCTG
    TTGGAACGTC TTTCCCAGTT GGACTCTTGT GTTCACCCTG TTCTAGCATT TCCAGATGAT
    GTTCCCACAA GCCTGCATTT CCAGAGCATG CTGAAATCTC AGTGGCAGAA CAAGCCTTTT
    GACAAAATCA AACCTCCCAA AAAGTTATCG CTTAAGCACA GAGCACCCAT GCCGGGCAGT
    CTGCCAGATC CAGCTCGTAA GGACAGGCAC AAATTGGTCA GCTCCTTCCT AACAACAGCC
    AAGCTGTCCC ATCACCAAAC CCGGCCTGAC AGGACCCACA GGCAGCACTT AGACGATGTG
    GGGGCCGTGC CCATGGTGGA GCGAGTGACA GCGCCAAAAG CAGAGCGCTT GCTCAACCCA
    CCGCCACCCG TGCATGACCC AAACCACAGC AAAATGAGAT TGCGAGACCA TTCATCTGAG
    AGAAGTGAAG TGTTGAAACA TCACACAGAC ATGAGCAGTT CGAGCTACTT GGCAGCCACC
    CACCATCCTC CACACAGTCC CTTGGTGCGA CAGCTCTCCA CCTCCTCAGA CTCCCCTGCA
    CCCGCCAGCT CTAACTCACA GGTTACAGCC AGCACATCGC AGCAGCCAGT TAGGAGGAGA
    AGGGGAGAGA GCTCATTTGA TATTAACAAC ATTGTCATCC CAATGTCTGT TGCTGCAACA
    ACTCGCGTAG AGAAACTGCA ATACAAGGAA ATCCTTACTC CCAGCTGGCG GGAGGTTGAT
    CTTCAGTCTC TGAAGGGGAG TCCTGATGAG GAGAATGAGG AGATTGAAGA CCTATCTGAC
    GCAGCTTTCG CCGCCCTGCA TGCCAAATGT GAGGAGATGG AGAGGGCACG GTGGCTGTGG
    ACCACGAGTG TGCCACCCCA GCGGCGGGGC AGCAGGTCCT ACAGGTCATC AGACGGCCGG
    ACAACCCCTC AGCTGGGCAG TGCCAACCCC TCCACCCCCC AGCCTGCCTC CCCTGATGTC
    AGCAGTAGCC ACTCTTTGTC AGAATACTCT CATGGTCAGT CCCCTAGGAG CCCCATTAGC
    CCGGAACTGC ACTCAGCGCC CCTCACCCCT GTGGCTCGGG ACACTCCGCG ACACTTAGCC
    AGTGAGGATA CCCGTTGTTC CACGCCAGAG CTGGGTCTGG ATGAACAGTC TGTCCAGCCC
    TGGGAGCGGC GGACCTTCCC CCTGGCGCAC AGTCCCCAGG CGGAGTGTGA GGACCAGCTG
    GATGCACAGG AGCGAGCAGC CCGCTGCACT CGACGCACCT CAGGCAGCAA GACTGGCCGG
    GAGACAGAGG CGGCACCCAC CTCGCCTCCC ACTGTCCCCC TCAAGAGTCG GCATCTGGTG
    GCAGCAGCCA CAGCTCAGCG CCCAACTCAC AGATGA

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

    CloneID OMb50914
    Clone ID Related Accession (Same CDS sequence) XM_015119943.1 , XM_028836969.1
    Accession Version XM_015119943.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3129bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product KAT8 regulatory NSL complex subunit 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805577.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCATGTTGAA ACATCACACA
    GACATGAGCA GTTCGAGCTA CTTGGCAGCC ACCCACCATC CTCCACACAG TCCCTTGGTG
    CGACAGCTCT CCACCTCCTC AGACTCCCCT GCACCCGCCA GCTCTAACTC ACAGGTTACA
    GCCAGCACAT CGCAGCAGCC AGTTAGGAGG AGAAGGGGAG AGAGCTCATT TGATATTAAC
    AACATTGTCA TCCCAATGTC TGTTGCTGCA ACAACTCGCG TAGAGAAACT GCAATACAAG
    GAAATCCTTA CTCCCAGCTG GCGGGAGGTT GATCTTCAGT CTCTGAAGGG GAGTCCTGAT
    GAGGAGAATG AGGAGATTGA AGACCTATCT GACGCAGCTT TCGCCGCCCT GCATGCCAAA
    TGTGAGGAGA TGGAGAGGGC ACGGTGGCTG TGGACCACGA GTGTGCCACC CCAGCGGCGG
    GGCAGCAGGT CCTACAGGTC ATCAGACGGC CGGACAACCC CTCAGCTGGG CAGTGCCAAC
    CCCTCCACCC CCCAGCCTGC CTCCCCTGAT GTCAGCAGTA GCCACTCTTT GTCAGAATAC
    TCTCATGGTC AGTCCCCTAG GAGCCCCATT AGCCCGGAAC TGCACTCAGC GCCCCTCACC
    CCTGTGGCTC GGGACACTCC GCGACACTTA GCCAGTGAGG ATACCCGTTG TTCCACGCCA
    GAGCTGGGTC TGGATGAACA GTCTGTCCAG CCCTGGGAGC GGCGGACCTT CCCCCTGGCG
    CACAGTCCCC AGGCGGAGTG TGAGGACCAG CTGGATGCAC AGGAGCGAGC AGCCCGCTGC
    ACTCGACGCA CCTCAGGCAG CAAGACTGGC CGGGAGACAG AGGCGGCACC CACCTCGCCT
    CCCACTGTCC CCCTCAAGAG TCGGCATCTG GTGGCAGCAG CCACAGCTCA GCGCCCAACT
    CACAGATGA

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

    RefSeq XP_014975429.1
    CDS233..3361
    Translation

    Target ORF information:

    RefSeq Version XM_015119943.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015119943.1

    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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCATGTTGAA ACATCACACA
    GACATGAGCA GTTCGAGCTA CTTGGCAGCC ACCCACCATC CTCCACACAG TCCCTTGGTG
    CGACAGCTCT CCACCTCCTC AGACTCCCCT GCACCCGCCA GCTCTAACTC ACAGGTTACA
    GCCAGCACAT CGCAGCAGCC AGTTAGGAGG AGAAGGGGAG AGAGCTCATT TGATATTAAC
    AACATTGTCA TCCCAATGTC TGTTGCTGCA ACAACTCGCG TAGAGAAACT GCAATACAAG
    GAAATCCTTA CTCCCAGCTG GCGGGAGGTT GATCTTCAGT CTCTGAAGGG GAGTCCTGAT
    GAGGAGAATG AGGAGATTGA AGACCTATCT GACGCAGCTT TCGCCGCCCT GCATGCCAAA
    TGTGAGGAGA TGGAGAGGGC ACGGTGGCTG TGGACCACGA GTGTGCCACC CCAGCGGCGG
    GGCAGCAGGT CCTACAGGTC ATCAGACGGC CGGACAACCC CTCAGCTGGG CAGTGCCAAC
    CCCTCCACCC CCCAGCCTGC CTCCCCTGAT GTCAGCAGTA GCCACTCTTT GTCAGAATAC
    TCTCATGGTC AGTCCCCTAG GAGCCCCATT AGCCCGGAAC TGCACTCAGC GCCCCTCACC
    CCTGTGGCTC GGGACACTCC GCGACACTTA GCCAGTGAGG ATACCCGTTG TTCCACGCCA
    GAGCTGGGTC TGGATGAACA GTCTGTCCAG CCCTGGGAGC GGCGGACCTT CCCCCTGGCG
    CACAGTCCCC AGGCGGAGTG TGAGGACCAG CTGGATGCAC AGGAGCGAGC AGCCCGCTGC
    ACTCGACGCA CCTCAGGCAG CAAGACTGGC CGGGAGACAG AGGCGGCACC CACCTCGCCT
    CCCACTGTCC CCCTCAAGAG TCGGCATCTG GTGGCAGCAG CCACAGCTCA GCGCCCAACT
    CACAGATGA

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

    CloneID OMb50914
    Clone ID Related Accession (Same CDS sequence) XM_015119943.1 , XM_028836969.1
    Accession Version XM_028836969.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3129bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product KAT8 regulatory NSL complex subunit 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCATGTTGAA ACATCACACA
    GACATGAGCA GTTCGAGCTA CTTGGCAGCC ACCCACCATC CTCCACACAG TCCCTTGGTG
    CGACAGCTCT CCACCTCCTC AGACTCCCCT GCACCCGCCA GCTCTAACTC ACAGGTTACA
    GCCAGCACAT CGCAGCAGCC AGTTAGGAGG AGAAGGGGAG AGAGCTCATT TGATATTAAC
    AACATTGTCA TCCCAATGTC TGTTGCTGCA ACAACTCGCG TAGAGAAACT GCAATACAAG
    GAAATCCTTA CTCCCAGCTG GCGGGAGGTT GATCTTCAGT CTCTGAAGGG GAGTCCTGAT
    GAGGAGAATG AGGAGATTGA AGACCTATCT GACGCAGCTT TCGCCGCCCT GCATGCCAAA
    TGTGAGGAGA TGGAGAGGGC ACGGTGGCTG TGGACCACGA GTGTGCCACC CCAGCGGCGG
    GGCAGCAGGT CCTACAGGTC ATCAGACGGC CGGACAACCC CTCAGCTGGG CAGTGCCAAC
    CCCTCCACCC CCCAGCCTGC CTCCCCTGAT GTCAGCAGTA GCCACTCTTT GTCAGAATAC
    TCTCATGGTC AGTCCCCTAG GAGCCCCATT AGCCCGGAAC TGCACTCAGC GCCCCTCACC
    CCTGTGGCTC GGGACACTCC GCGACACTTA GCCAGTGAGG ATACCCGTTG TTCCACGCCA
    GAGCTGGGTC TGGATGAACA GTCTGTCCAG CCCTGGGAGC GGCGGACCTT CCCCCTGGCG
    CACAGTCCCC AGGCGGAGTG TGAGGACCAG CTGGATGCAC AGGAGCGAGC AGCCCGCTGC
    ACTCGACGCA CCTCAGGCAG CAAGACTGGC CGGGAGACAG AGGCGGCACC CACCTCGCCT
    CCCACTGTCC CCCTCAAGAG TCGGCATCTG GTGGCAGCAG CCACAGCTCA GCGCCCAACT
    CACAGATGA

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

    RefSeq XP_028692802.1
    CDS761..3889
    Translation

    Target ORF information:

    RefSeq Version XM_028836969.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028836969.1

    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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCATGTTGAA ACATCACACA
    GACATGAGCA GTTCGAGCTA CTTGGCAGCC ACCCACCATC CTCCACACAG TCCCTTGGTG
    CGACAGCTCT CCACCTCCTC AGACTCCCCT GCACCCGCCA GCTCTAACTC ACAGGTTACA
    GCCAGCACAT CGCAGCAGCC AGTTAGGAGG AGAAGGGGAG AGAGCTCATT TGATATTAAC
    AACATTGTCA TCCCAATGTC TGTTGCTGCA ACAACTCGCG TAGAGAAACT GCAATACAAG
    GAAATCCTTA CTCCCAGCTG GCGGGAGGTT GATCTTCAGT CTCTGAAGGG GAGTCCTGAT
    GAGGAGAATG AGGAGATTGA AGACCTATCT GACGCAGCTT TCGCCGCCCT GCATGCCAAA
    TGTGAGGAGA TGGAGAGGGC ACGGTGGCTG TGGACCACGA GTGTGCCACC CCAGCGGCGG
    GGCAGCAGGT CCTACAGGTC ATCAGACGGC CGGACAACCC CTCAGCTGGG CAGTGCCAAC
    CCCTCCACCC CCCAGCCTGC CTCCCCTGAT GTCAGCAGTA GCCACTCTTT GTCAGAATAC
    TCTCATGGTC AGTCCCCTAG GAGCCCCATT AGCCCGGAAC TGCACTCAGC GCCCCTCACC
    CCTGTGGCTC GGGACACTCC GCGACACTTA GCCAGTGAGG ATACCCGTTG TTCCACGCCA
    GAGCTGGGTC TGGATGAACA GTCTGTCCAG CCCTGGGAGC GGCGGACCTT CCCCCTGGCG
    CACAGTCCCC AGGCGGAGTG TGAGGACCAG CTGGATGCAC AGGAGCGAGC AGCCCGCTGC
    ACTCGACGCA CCTCAGGCAG CAAGACTGGC CGGGAGACAG AGGCGGCACC CACCTCGCCT
    CCCACTGTCC CCCTCAAGAG TCGGCATCTG GTGGCAGCAG CCACAGCTCA GCGCCCAACT
    CACAGATGA

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

    CloneID OMb50915
    Clone ID Related Accession (Same CDS sequence) XM_028836970.1 , XM_015119944.1
    Accession Version XM_028836970.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3126bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    Product KAT8 regulatory NSL complex subunit 1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCATGTTGAA ACATCACACA
    GACATGAGCA GTTCGAGCTA CTTGGCAGCC ACCCACCATC CTCCACACAG TCCCTTGGTG
    CGACAGCTCT CCACCTCCTC AGACTCCCCT GCACCCGCCA GCTCTAACTC ACAGGTTACA
    GCCAGCACAT CGCAGCCAGT TAGGAGGAGA AGGGGAGAGA GCTCATTTGA TATTAACAAC
    ATTGTCATCC CAATGTCTGT TGCTGCAACA ACTCGCGTAG AGAAACTGCA ATACAAGGAA
    ATCCTTACTC CCAGCTGGCG GGAGGTTGAT CTTCAGTCTC TGAAGGGGAG TCCTGATGAG
    GAGAATGAGG AGATTGAAGA CCTATCTGAC GCAGCTTTCG CCGCCCTGCA TGCCAAATGT
    GAGGAGATGG AGAGGGCACG GTGGCTGTGG ACCACGAGTG TGCCACCCCA GCGGCGGGGC
    AGCAGGTCCT ACAGGTCATC AGACGGCCGG ACAACCCCTC AGCTGGGCAG TGCCAACCCC
    TCCACCCCCC AGCCTGCCTC CCCTGATGTC AGCAGTAGCC ACTCTTTGTC AGAATACTCT
    CATGGTCAGT CCCCTAGGAG CCCCATTAGC CCGGAACTGC ACTCAGCGCC CCTCACCCCT
    GTGGCTCGGG ACACTCCGCG ACACTTAGCC AGTGAGGATA CCCGTTGTTC CACGCCAGAG
    CTGGGTCTGG ATGAACAGTC TGTCCAGCCC TGGGAGCGGC GGACCTTCCC CCTGGCGCAC
    AGTCCCCAGG CGGAGTGTGA GGACCAGCTG GATGCACAGG AGCGAGCAGC CCGCTGCACT
    CGACGCACCT CAGGCAGCAA GACTGGCCGG GAGACAGAGG CGGCACCCAC CTCGCCTCCC
    ACTGTCCCCC TCAAGAGTCG GCATCTGGTG GCAGCAGCCA CAGCTCAGCG CCCAACTCAC
    AGATGA

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

    RefSeq XP_028692803.1
    CDS761..3886
    Translation

    Target ORF information:

    RefSeq Version XM_028836970.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028836970.1

    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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCATGTTGAA ACATCACACA
    GACATGAGCA GTTCGAGCTA CTTGGCAGCC ACCCACCATC CTCCACACAG TCCCTTGGTG
    CGACAGCTCT CCACCTCCTC AGACTCCCCT GCACCCGCCA GCTCTAACTC ACAGGTTACA
    GCCAGCACAT CGCAGCCAGT TAGGAGGAGA AGGGGAGAGA GCTCATTTGA TATTAACAAC
    ATTGTCATCC CAATGTCTGT TGCTGCAACA ACTCGCGTAG AGAAACTGCA ATACAAGGAA
    ATCCTTACTC CCAGCTGGCG GGAGGTTGAT CTTCAGTCTC TGAAGGGGAG TCCTGATGAG
    GAGAATGAGG AGATTGAAGA CCTATCTGAC GCAGCTTTCG CCGCCCTGCA TGCCAAATGT
    GAGGAGATGG AGAGGGCACG GTGGCTGTGG ACCACGAGTG TGCCACCCCA GCGGCGGGGC
    AGCAGGTCCT ACAGGTCATC AGACGGCCGG ACAACCCCTC AGCTGGGCAG TGCCAACCCC
    TCCACCCCCC AGCCTGCCTC CCCTGATGTC AGCAGTAGCC ACTCTTTGTC AGAATACTCT
    CATGGTCAGT CCCCTAGGAG CCCCATTAGC CCGGAACTGC ACTCAGCGCC CCTCACCCCT
    GTGGCTCGGG ACACTCCGCG ACACTTAGCC AGTGAGGATA CCCGTTGTTC CACGCCAGAG
    CTGGGTCTGG ATGAACAGTC TGTCCAGCCC TGGGAGCGGC GGACCTTCCC CCTGGCGCAC
    AGTCCCCAGG CGGAGTGTGA GGACCAGCTG GATGCACAGG AGCGAGCAGC CCGCTGCACT
    CGACGCACCT CAGGCAGCAA GACTGGCCGG GAGACAGAGG CGGCACCCAC CTCGCCTCCC
    ACTGTCCCCC TCAAGAGTCG GCATCTGGTG GCAGCAGCCA CAGCTCAGCG CCCAACTCAC
    AGATGA

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

    CloneID OMb50915
    Clone ID Related Accession (Same CDS sequence) XM_028836970.1 , XM_015119944.1
    Accession Version XM_015119944.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3126bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    Product KAT8 regulatory NSL complex subunit 1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805577.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCATGTTGAA ACATCACACA
    GACATGAGCA GTTCGAGCTA CTTGGCAGCC ACCCACCATC CTCCACACAG TCCCTTGGTG
    CGACAGCTCT CCACCTCCTC AGACTCCCCT GCACCCGCCA GCTCTAACTC ACAGGTTACA
    GCCAGCACAT CGCAGCCAGT TAGGAGGAGA AGGGGAGAGA GCTCATTTGA TATTAACAAC
    ATTGTCATCC CAATGTCTGT TGCTGCAACA ACTCGCGTAG AGAAACTGCA ATACAAGGAA
    ATCCTTACTC CCAGCTGGCG GGAGGTTGAT CTTCAGTCTC TGAAGGGGAG TCCTGATGAG
    GAGAATGAGG AGATTGAAGA CCTATCTGAC GCAGCTTTCG CCGCCCTGCA TGCCAAATGT
    GAGGAGATGG AGAGGGCACG GTGGCTGTGG ACCACGAGTG TGCCACCCCA GCGGCGGGGC
    AGCAGGTCCT ACAGGTCATC AGACGGCCGG ACAACCCCTC AGCTGGGCAG TGCCAACCCC
    TCCACCCCCC AGCCTGCCTC CCCTGATGTC AGCAGTAGCC ACTCTTTGTC AGAATACTCT
    CATGGTCAGT CCCCTAGGAG CCCCATTAGC CCGGAACTGC ACTCAGCGCC CCTCACCCCT
    GTGGCTCGGG ACACTCCGCG ACACTTAGCC AGTGAGGATA CCCGTTGTTC CACGCCAGAG
    CTGGGTCTGG ATGAACAGTC TGTCCAGCCC TGGGAGCGGC GGACCTTCCC CCTGGCGCAC
    AGTCCCCAGG CGGAGTGTGA GGACCAGCTG GATGCACAGG AGCGAGCAGC CCGCTGCACT
    CGACGCACCT CAGGCAGCAA GACTGGCCGG GAGACAGAGG CGGCACCCAC CTCGCCTCCC
    ACTGTCCCCC TCAAGAGTCG GCATCTGGTG GCAGCAGCCA CAGCTCAGCG CCCAACTCAC
    AGATGA

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

    RefSeq XP_014975430.1
    CDS233..3358
    Translation

    Target ORF information:

    RefSeq Version XM_015119944.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015119944.1

    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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCATGTTGAA ACATCACACA
    GACATGAGCA GTTCGAGCTA CTTGGCAGCC ACCCACCATC CTCCACACAG TCCCTTGGTG
    CGACAGCTCT CCACCTCCTC AGACTCCCCT GCACCCGCCA GCTCTAACTC ACAGGTTACA
    GCCAGCACAT CGCAGCCAGT TAGGAGGAGA AGGGGAGAGA GCTCATTTGA TATTAACAAC
    ATTGTCATCC CAATGTCTGT TGCTGCAACA ACTCGCGTAG AGAAACTGCA ATACAAGGAA
    ATCCTTACTC CCAGCTGGCG GGAGGTTGAT CTTCAGTCTC TGAAGGGGAG TCCTGATGAG
    GAGAATGAGG AGATTGAAGA CCTATCTGAC GCAGCTTTCG CCGCCCTGCA TGCCAAATGT
    GAGGAGATGG AGAGGGCACG GTGGCTGTGG ACCACGAGTG TGCCACCCCA GCGGCGGGGC
    AGCAGGTCCT ACAGGTCATC AGACGGCCGG ACAACCCCTC AGCTGGGCAG TGCCAACCCC
    TCCACCCCCC AGCCTGCCTC CCCTGATGTC AGCAGTAGCC ACTCTTTGTC AGAATACTCT
    CATGGTCAGT CCCCTAGGAG CCCCATTAGC CCGGAACTGC ACTCAGCGCC CCTCACCCCT
    GTGGCTCGGG ACACTCCGCG ACACTTAGCC AGTGAGGATA CCCGTTGTTC CACGCCAGAG
    CTGGGTCTGG ATGAACAGTC TGTCCAGCCC TGGGAGCGGC GGACCTTCCC CCTGGCGCAC
    AGTCCCCAGG CGGAGTGTGA GGACCAGCTG GATGCACAGG AGCGAGCAGC CCGCTGCACT
    CGACGCACCT CAGGCAGCAA GACTGGCCGG GAGACAGAGG CGGCACCCAC CTCGCCTCCC
    ACTGTCCCCC TCAAGAGTCG GCATCTGGTG GCAGCAGCCA CAGCTCAGCG CCCAACTCAC
    AGATGA

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

    CloneID OMb10612
    Clone ID Related Accession (Same CDS sequence) XM_001115933.3 , XM_001115950.3 , XM_015119937.1 , XM_001115950.4 , XM_001115923.3 , XM_001115933.2 , XM_015119938.1 , XM_015119937.2 , XM_015119938.2 , XM_001115923.2 , XM_028836966.1
    Accession Version XM_001115933.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3318bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    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_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_001115933.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    RefSeq XP_001115933.1
    CDS227..3544
    Translation

    Target ORF information:

    RefSeq Version XM_001115933.3
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta 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_001115933.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    CloneID OMb10612
    Clone ID Related Accession (Same CDS sequence) XM_001115933.3 , XM_001115950.3 , XM_015119937.1 , XM_001115950.4 , XM_001115923.3 , XM_001115933.2 , XM_015119938.1 , XM_015119937.2 , XM_015119938.2 , XM_001115923.2 , XM_028836966.1
    Accession Version XM_001115950.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3318bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    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 (NW_014805577.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 21, 2015 this sequence version replaced XM_001115950.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    RefSeq XP_001115950.1
    CDS767..4084
    Translation

    Target ORF information:

    RefSeq Version XM_001115950.3
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta 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_001115950.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    CloneID OMb10612
    Clone ID Related Accession (Same CDS sequence) XM_001115933.3 , XM_001115950.3 , XM_015119937.1 , XM_001115950.4 , XM_001115923.3 , XM_001115933.2 , XM_015119938.1 , XM_015119937.2 , XM_015119938.2 , XM_001115923.2 , XM_028836966.1
    Accession Version XM_015119937.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3318bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    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 (NW_014805577.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    RefSeq XP_014975423.1
    CDS308..3625
    Translation

    Target ORF information:

    RefSeq Version XM_015119937.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta 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_015119937.1

    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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    CloneID OMb10612
    Clone ID Related Accession (Same CDS sequence) XM_001115933.3 , XM_001115950.3 , XM_015119937.1 , XM_001115950.4 , XM_001115923.3 , XM_001115933.2 , XM_015119938.1 , XM_015119937.2 , XM_015119938.2 , XM_001115923.2 , XM_028836966.1
    Accession Version XM_001115950.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3318bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    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_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_001115950.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    RefSeq XP_001115950.1
    CDS761..4078
    Translation

    Target ORF information:

    RefSeq Version XM_001115950.4
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta 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_001115950.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    CloneID OMb10612
    Clone ID Related Accession (Same CDS sequence) XM_001115933.3 , XM_001115950.3 , XM_015119937.1 , XM_001115950.4 , XM_001115923.3 , XM_001115933.2 , XM_015119938.1 , XM_015119937.2 , XM_015119938.2 , XM_001115923.2 , XM_028836966.1
    Accession Version XM_001115923.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3318bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    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_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_001115923.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    RefSeq XP_001115923.1
    CDS508..3825
    Translation

    Target ORF information:

    RefSeq Version XM_001115923.3
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001115923.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    CloneID OMb10612
    Clone ID Related Accession (Same CDS sequence) XM_001115933.3 , XM_001115950.3 , XM_015119937.1 , XM_001115950.4 , XM_001115923.3 , XM_001115933.2 , XM_015119938.1 , XM_015119937.2 , XM_015119938.2 , XM_001115923.2 , XM_028836966.1
    Accession Version XM_001115933.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3318bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    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 (NW_014805577.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 21, 2015 this sequence version replaced XM_001115933.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    RefSeq XP_001115933.1
    CDS233..3550
    Translation

    Target ORF information:

    RefSeq Version XM_001115933.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta 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_001115933.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    CloneID OMb10612
    Clone ID Related Accession (Same CDS sequence) XM_001115933.3 , XM_001115950.3 , XM_015119937.1 , XM_001115950.4 , XM_001115923.3 , XM_001115933.2 , XM_015119938.1 , XM_015119937.2 , XM_015119938.2 , XM_001115923.2 , XM_028836966.1
    Accession Version XM_015119938.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3318bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    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 (NW_014805577.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    RefSeq XP_014975424.1
    CDS321..3638
    Translation

    Target ORF information:

    RefSeq Version XM_015119938.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta 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_015119938.1

    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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    CloneID OMb10612
    Clone ID Related Accession (Same CDS sequence) XM_001115933.3 , XM_001115950.3 , XM_015119937.1 , XM_001115950.4 , XM_001115923.3 , XM_001115933.2 , XM_015119938.1 , XM_015119937.2 , XM_015119938.2 , XM_001115923.2 , XM_028836966.1
    Accession Version XM_015119937.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3318bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    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_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015119937.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    RefSeq XP_014975423.1
    CDS253..3570
    Translation

    Target ORF information:

    RefSeq Version XM_015119937.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta 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_015119937.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    CloneID OMb10612
    Clone ID Related Accession (Same CDS sequence) XM_001115933.3 , XM_001115950.3 , XM_015119937.1 , XM_001115950.4 , XM_001115923.3 , XM_001115933.2 , XM_015119938.1 , XM_015119937.2 , XM_015119938.2 , XM_001115923.2 , XM_028836966.1
    Accession Version XM_015119938.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3318bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    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_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015119938.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    RefSeq XP_014975424.1
    CDS327..3644
    Translation

    Target ORF information:

    RefSeq Version XM_015119938.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta 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_015119938.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    CloneID OMb10612
    Clone ID Related Accession (Same CDS sequence) XM_001115933.3 , XM_001115950.3 , XM_015119937.1 , XM_001115950.4 , XM_001115923.3 , XM_001115933.2 , XM_015119938.1 , XM_015119937.2 , XM_015119938.2 , XM_001115923.2 , XM_028836966.1
    Accession Version XM_001115923.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3318bp)
    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 2015-12-20
    Organism Macaca mulatta(Rhesus monkey)
    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 (NW_014805577.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 21, 2015 this sequence version replaced XM_001115923.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    RefSeq XP_001115923.1
    CDS514..3831
    Translation

    Target ORF information:

    RefSeq Version XM_001115923.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001115923.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    ATGGCTGCGA TGGCGCCCGC TCTCACTGAC GCAGCAGCTG AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    CloneID OMb10612
    Clone ID Related Accession (Same CDS sequence) XM_001115933.3 , XM_001115950.3 , XM_015119937.1 , XM_001115950.4 , XM_001115923.3 , XM_001115933.2 , XM_015119938.1 , XM_015119937.2 , XM_015119938.2 , XM_001115923.2 , XM_028836966.1
    Accession Version XM_028836966.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3318bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-04-25
    Organism Macaca mulatta(Rhesus monkey)
    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_041769.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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

    RefSeq XP_028692799.1
    CDS362..3679
    Translation

    Target ORF information:

    RefSeq Version XM_028836966.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta KAT8 regulatory NSL complex subunit 1 (KANSL1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028836966.1

    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 AAGCACACCA TATCCGGTTC 
    AAACTGGCTC CCCCGTCCTC TACCTTGTCC CCTGGCAGTG CCGAAAATAA CGGCAACGCC
    AACATCCTTA TTGCTGCCAA CGGAACCAAA AGAAAAGCCA TTGCTGCAGA GGATCCCAGC
    CTAGATTTCC GAAATAATTC TACCAAGGAA GACTTGGGAA AGCTGCAACC ACTGGTGGCA
    TCTTATCTCT GCTCTGATGT AACATCTGTT CCCTCAAAGG AGTCTTTGAA GTTGCAAGGG
    GTCTTCAGCA AGCAGACAGT CCTTAAATCT CATCCTCTCT TATCTCAGTC CTATGAACTC
    CGAGCTGAGC TGTTGGGGAG ACAGCCAGTT TTGGAGTTTT CCTTAGAAAA TCTTAGAACC
    ATGAATACGA GTGGTCAAAC AGCTCTGCCA CAAGCACCTG TAAATGGGTT GGCTAAGAAA
    TTGACTAAAA GTTCAACACA TTCTGATCAT GACAATTCCA CTTCCCTCAA TGGGGGAAAA
    CGGGCTCTCA CTTCATCTGC TCTTCATGGG GGTGAAGTGG GAGGATCTGA ATCTGGGGAC
    TTGAAGGGGG GTATGACCAA TTGCACTCTT CCACATAGAA GCCTTGATGT AGAACACACA
    ACTTTATATA GCAATAATAG CACTGCAAAC AAATCTTCTG TCAATTCCAT GGAACAGCCG
    GCACTTCAAG GAAGCAGTAG GTTATCACCT GGTACAGACT CCAGCTCTAA CTTGGGGGGT
    GTCAAATTAG AGGGTAAAAA GTCTCCCCTG TCTTCCATTC TTTTCAGTGC TTTAGATTCT
    GACACAAGGA TAACAGCTTT ACTGCGGCGA CAGGCTGACA TTGAGAGCCG TGCCCGCAGA
    TTACAAAAGC GCTTACAGGT TGTGCAAGCC AAGCAGGTTG AGAGGCATAT ACAACATCAG
    CTGGGTGGAT TTTTGGAGAA GACTTTGAGC AAACTGCCAA ACTTGGAATC CTTGAGACCA
    CGGAGCCAGT TGATGCTGAC TCGAAAGGCT GAAGCTGCCT TGAGAAAAGC TGCCAGTGAG
    ACCACCACTT CAGAGGGACT TAGCAACTTT CTGAAAAGCG ATTCAATTTC AGAAGAGCTG
    GAGAGATTTA CAGCTAGTGG CATAGCCAAC TTGAGGTGCA GTGAACAAGC ATTTGATTCA
    GATGTCACTG ACAGTAGTTC AGGAGGGGAG TCTGATATTG AAGAGGAAGA ACTGACCAGA
    GCTGATCCCG AGCAGCGCCA TGTACCCCTG AGACGCAGGT CAGAATGGAG ATGGGCTGCA
    GACCGGGCAG CTATTGTCAG CCGCTGGAAC TGGCTTCAGG CTCATGTTTC TGACTTGGAA
    TATCGAATTC GTCAGCAAAC AGACATTTAC AAACAGATAC GTGCTAATAA GGGGTTGATA
    GTTCTTGGGG AGGTACCTCC CCCAGAGCAT ACAACAGACT TATTTCTTCC ACTTAGTTCT
    GAGGTGAAGA CAGATCATGG GACTGATAAA TTGATTGAGT CTTTTTCTCA GCCATTGGAA
    AACCATGGTC CCCCTATTAT TGGTCATGTT TCAGAGTCAC TGTCTACCAA ATCATGTGGA
    GCACTCAGAC CTGTCAATGG AGTTATTAAC ACTCTTCAGC CTGTCTTGGC AGACCACATT
    CCAGGTGACA GCTCTGATGC TGAGGAACAA TTACATAAAA AGCAACGACT GAATCTAGTC
    TCTTCATCAT CTGATGGCAC CTGTGTGGCA GCCCGGACAC GTCCTGTACT GAGCTGTAAG
    AAACGGAGGC TTGTTCGACC CAACAGCATT GTTCCTCTTT CCAAGAAGGT TCACCGGAAC
    AGCACAATCC GCCCTGGCTG TGATGTGAAT CCCTCCTGTG CGTTGTGTGG TTCAGGCAGC
    ATCAACACTA TGCCTCCCGA AATTCACTAT GAAGCCCCTC TGTTGGAACG TCTTTCCCAG
    TTGGACTCTT GTGTTCACCC TGTTCTAGCA TTTCCAGATG ATGTTCCCAC AAGCCTGCAT
    TTCCAGAGCA TGCTGAAATC TCAGTGGCAG AACAAGCCTT TTGACAAAAT CAAACCTCCC
    AAAAAGTTAT CGCTTAAGCA CAGAGCACCC ATGCCGGGCA GTCTGCCAGA TCCAGCTCGT
    AAGGACAGGC ACAAATTGGT CAGCTCCTTC CTAACAACAG CCAAGCTGTC CCATCACCAA
    ACCCGGCCTG ACAGGACCCA CAGGCAGCAC TTAGACGATG TGGGGGCCGT GCCCATGGTG
    GAGCGAGTGA CAGCGCCAAA AGCAGAGCGC TTGCTCAACC CACCGCCACC CGTGCATGAC
    CCAAACCACA GCAAAATGAG ATTGCGAGAC CATTCATCTG AGAGAAGTGA AGTGTTGAAA
    CATCACACAG ACATGAGCAG TTCGAGCTAC TTGGCAGCCA CCCACCATCC TCCACACAGT
    CCCTTGGTGC GACAGCTCTC CACCTCCTCA GACTCCCCTG CACCCGCCAG CTCTAACTCA
    CAGGTTACAG CCAGCACATC GCAGCAGCCA GTTAGGAGGA GAAGGGGAGA GAGCTCATTT
    GATATTAACA ACATTGTCAT CCCAATGTCT GTTGCTGCAA CAACTCGCGT AGAGAAACTG
    CAATACAAGG AAATCCTTAC TCCCAGCTGG CGGGAGGTTG ATCTTCAGTC TCTGAAGGGG
    AGTCCTGATG AGGAGAATGA GGAGATTGAA GACCTATCTG ACGCAGCTTT CGCCGCCCTG
    CATGCCAAAT GTGAGGAGAT GGAGAGGGCA CGGTGGCTGT GGACCACGAG TGTGCCACCC
    CAGCGGCGGG GCAGCAGGTC CTACAGGTCA TCAGACGGCC GGACAACCCC TCAGCTGGGC
    AGTGCCAACC CCTCCACCCC CCAGCCTGCC TCCCCTGATG TCAGCAGTAG CCACTCTTTG
    TCAGAATACT CTCATGGTCA GTCCCCTAGG AGCCCCATTA GCCCGGAACT GCACTCAGCG
    CCCCTCACCC CTGTGGCTCG GGACACTCCG CGACACTTAG CCAGTGAGGA TACCCGTTGT
    TCCACGCCAG AGCTGGGTCT GGATGAACAG TCTGTCCAGC CCTGGGAGCG GCGGACCTTC
    CCCCTGGCGC ACAGTCCCCA GGCGGAGTGT GAGGACCAGC TGGATGCACA GGAGCGAGCA
    GCCCGCTGCA CTCGACGCAC CTCAGGCAGC AAGACTGGCC GGGAGACAGA GGCGGCACCC
    ACCTCGCCTC CCACTGTCCC CCTCAAGAGT CGGCATCTGG TGGCAGCAGC CACAGCTCAG
    CGCCCAACTC ACAGATGA

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