NCAPD2 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following NCAPD2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NCAPD2 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
OMb42121 XM_001105024.3
Latest version!
Macaca mulatta non-SMC condensin I complex subunit D2 (NCAPD2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb42122 XM_015150892.1
Latest version!
Macaca mulatta non-SMC condensin I complex subunit D2 (NCAPD2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
OMb64092 XM_001105024.4
Latest version!
Macaca mulatta non-SMC condensin I complex subunit D2 (NCAPD2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb64093 XM_015150892.2
Latest version!
Macaca mulatta non-SMC condensin I complex subunit D2 (NCAPD2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OMb42121
    Clone ID Related Accession (Same CDS sequence) XM_001105024.3
    Accession Version XM_001105024.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4200bp)
    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 condensin 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_014805273.1) 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_001105024.2. ##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
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGCTCCCC AAATGTATGA GTTCCATCTG CCATTATCCC CAGAGGAGTT GTTGAAAAGT 
    GGAGGGGTGA ATCAGTATGT TGTGCAAGAG GTACTGTCCA TCAAGCATCT TCCACCACAG
    CTTAGAGCAT TTCAGGCTGC CTTTCGAGCT CAGGGGCCAC TGGCTGTGCT GGAGCACTTT
    GATACCATCT ACAGCATTTT GCATCACTTT CGAAGTATAG ATCCTGACCT CAAAGAAGAT
    ACTCTGGAAT TCCTGATAAA AGTGGTGTCC CGCCACTCCC AGGAGCTTCC AGCTATCCTG
    GATGATACAA CTTTGAGTGG ATCAGATAGA AATGCCCATC TAAACGCCCT CAAAATGAAC
    TGTTATGCTC TGATACGTCT CCTGGAATCC TTTGAGACCA GTCAGACAAA CCTCGTGGAC
    CTGGACCTTG GTGGGAAGGG TAAGAAAGCT CGGACCAAGG CAGCCCATGG CTTTGACTGG
    GAAGAAGAGA GGCAACCAAT TCTTCAGCTT TTGACACAGC TACTTCAGTT GGACATCCGT
    CACCTGTGGA ACCACTCAAT AATTGAAGAA GAATTTGTCA GTTTGGTTAC TGGCTGTTGC
    TACCGCCTTC TGGAGAATCC CACCATTAGT CACCAGAAGA ACCGCTCCAC TCGGGAAGCC
    ATAACACACC TGCTTGGTGT AGCCTTGACC CGTTATAACC ATATGCTCAG TGCTACAGTG
    AAGATCATCC AGATGCTGCA GCACTTTGAA CACCTGGCAC CTGTACTGGT TGCAGCTGTG
    AGTCTATGGG CAACTGACTA TGGAATGAAG AGCATAGTGG GAGAGATTGT AAGAGAGATT
    GGACAAAAGT GTCCCCAAGA GCTGAGTCGA GACCCTTCAG GGACAAAGGG CTTTGCAGCA
    TTCCTGACAG AACTAGCAGA ACGTGTCCCA GCTATCCTGA TGTCCAGCAT GTGCATTTTG
    CTAGATCACC TGGATGGAGA GAATTACATG ATGCGTAATG CTGTGCTAGC AGCCATGGCA
    GAGATGGTGC TGCAGGTTCT CAATGGCGAT CAACTGGAAG CAGCAGCCCG AGACACCAGA
    GACCAATTCT TGGATACTTT ACAAGCCCAT GGCCATGATG TCAACTCCTT TGTGCGGAGC
    CGTGTTTTGC AGCTTTTCAC CCGAATTGTT CAGCAGAAGG CTCTCCCCTT GACACGTTTC
    CAGGCAGTGG TGGCTTTAGC TGTGGGACGT CTGGCAGACA AGTCAGTGCT AGTATGTAAA
    AATGCCATCC AGCTGCTGGC CAGTTTTCTA GCCAATAATC CTTTTTCCTG CAAGCTTAGT
    GATACTGACC TTGCTGGACC ACTACAGAAG GAGACCCAGA AATTACAAGA GATGAGGGCC
    CAGAGGCGAA CTGCAGCATC TTCTGCGGTG CTGGACCCAG AGGAGGAGTG GGAAGCCATG
    CTGCCAGAGT TGAAGTCTAC CCTGCAGCAG CTTCTACAGC TTCCCCAGGG AGAAGAGGAG
    ATTCCTGAGC GAATTGCCAA TACAGAGACG ACTGAAGAGG TGAAAGGACG CATCCATCAA
    CTGCTTGCCA AAGCTAGTTA CAAGCAGGCC ATCAGTCTCA CTCGAGAAGC CACAGGCCAC
    TTCCAGGAGT CCGAACCCTT CAGTCGTATA GACCCAGAGG AGTCAGAGGA GACCAGGCTC
    TTGAATATCT TAGGACTTAT CTTCAAAGGC CCAGCAGCTT CCACACAAGA AAAGAATCCC
    CAGGAGTCTG TAGGAAACAT GGTCACAGGA CAGACTGTCT GTAAAAGTAA GCCCAGTGTG
    TTGGAGCCTG AGGAGTCCAG GGGAAGTGAT GAACTGGTGA AGCAGGAGAT GCTGGTGCAG
    TATCTGCAGG ATGCCTACAG CTTCTCCCGG AAGATTACAG CGGCCATTGG CATTACCAGC
    AAGATGATGT ATGAAAACAC AACTACAGTG GTGCAGGAGG TGATTGAATT CTTTGTGATG
    GTCTTCCAAT TTGGGGTACC CCAGGCCCTG TTTGGGGTGC GCCGTATGCT GCCTCTCATC
    TGGTCTAAGG AGCCTGGTGT CCGGGAAGCT GTGCTTAATG CCTTCCGCCA ACTCTACCTC
    AACCCCAAAG GGGACTCTGC CAGAGCCAAG GCCCAGGCTT TGATTCAGAA TCTCTCTCTG
    CTGCTAGTGG ATGCCTCGGT TGGGACCATT CAGTGTCTTG AGGAAATTCT CTGTGAGTTT
    GTGCGGAACG ATGAGTTGAA ACCAGCAGTG ACCCAGCTGC TGTGGGAGCG GGCCACCGAG
    AAGGTCGCCT GCTGTCCTCT GGAGCGCTGT TCCTCTGTCA TGCTTCTTGG CATGATGGCA
    CGAGGAAAGC CAGAAATTGT GGGAAGCAAT TTAGACACAC TGGTGCGCAT AGGGCTGGAT
    GAGAAGTTTC CACAGGACTA CAGGCTGGCC CAGCAGGTGT GCCATGCCAT TGCCAACATC
    TCTGACAGGA GAAAGCCTTC TCTGGGCAAA CGTCAACCCC CCTTCCGGCT GCCTCAGGAA
    CACAGGTTGT TTGAGCGACT GCGGGAGACG GTCACAAAAG GCTTTGTCCA CCCAGACCCA
    CTGTGGATCC CATTCAAAGA GGTGGCAGTG ACCCTCATTT ACCAACTGGC AGAGGGCCCC
    GAAGTGATCT GTGCCCAGAT ATTGCAGGGC TGTGCAAAAC AGGCCCTGGA GAAGCTAGAA
    GAGAAGAGAA CCAGTCAGGA GGACCTGAGG GAGTCCCCCG CAATGCTCCC CACTTTCCTG
    TTGATGAACC TGCTGTCCCT GGCTGGGGAT GTGGCTCTGC AGCAGCTGGT CCACTTGGAG
    CAGGCAGTGA GTGGAGAGCT CTGTCGGCGC CGAGTTCTCC GGGAAGAACA GGAGCACAAG
    ACCAAAGATC CCAAGGAGAA GAATACAAGC TCTGAGACCA CCATGGAGGA GGAGCTGGGG
    CTGGTTGGGG CAACAGCAGA TGACACAGAG GCGGAACTCA TCCGCGGCAT CTGCGAGATG
    GAACTGTTGG ACGGCAGACA GACACTGGCT GCCTTCGTTC CACTCTTGCT TCAAGTCTGC
    AACAACCCAG GCCTCTATAG CAACCCAGAC CTCTCTGCAG CTGCTTCACT TGCCCTTGGC
    AAGTTCTGCA TGATCAGTGC CACTTTCTGT GACTCCCAGC TTCGTCTTCT GTTCACCATG
    CTGGAAAAGT CCCCACTTCC CATTGTCCGG TCTAACCTCA TGGTTGCCAC TGGGGATCTG
    GCCATCCGCT TTCCCAATCT GGTGGACCCC TGGACTCCTC ATCTGTATGC TCGCCTCCGG
    GACCCTGCTC AGCAAGTGCG GAAAACAGCG GGGCTGGTGA TGACCCACCT GATCCTCAAG
    GACATGGTGA AGGTGAAGGG GCAGGTGAGC GAGATGGCAG TGCTACTCAT CGACCCCGAG
    CCTCAGATTG CTGCCCTGGC CAAGAACTTC TTCAACGAGC TCTCCCACAA GGGCAACGCA
    ATCTATAATC TCCTTCCAGA TATCATCAGC CGCCTGTCAG ACCCCGAGCT GGGGGTGGAG
    GAAGAGCCTT TCCACACCAT CATGAAACAG CTCCTCTCCT ACATCACCAA GGACAAGCAG
    ACAGAGAGCC TGGTGGAAAA GCTGTGTCAG CGGTTCCGCA CAGCCCGAAC TGAGCGGCAG
    CAGCGAGACC TGGCCTACTG TGTGTCACAG CTGCCCCTCA CAGAGCGAGG CCTCCGCAAG
    ATGCTTGACA ATTTTGACTG TTTTGGAGAC AAACTGTCAG ATGAGTCCAT CTTCAGTGCT
    TTTTTGTCAG TTGTGGGCAA GCTGCGACGC TGGGCCAAGC CTGAGGGCAA GGCTGTAATA
    GATGAATTTG AGCAGAAGCT TCGGGCCTGT CATACCAGAG GTTTGGATGG GATCGATGAG
    CTTGAGATTG GCCAGGCAGG TAGCCAGAGA GCCCCAGCAG CCAAGAGACC ATCCACTGTT
    TCTAGGCACC AACCTCTGGC TTCTACAGCC TCAGACAATG ACTTTGTCAC ACCGGAGCCC
    CGCCGTACTA CCCGTCGGCA TCCAAACACC CAGCAGCGAG CTTCCAAAAA GAAACCCAAA
    GTTGTCTTCT CAAGCGATGA GTCCAGTGAG GAAGATCTTT CAGCAGAGAT GACAGAAGAC
    GAGACACCCA AGAAAACAAC CCCCATTCTC AGAGCATCAG CTCGCAGGCG CAGACCCTAG

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

    RefSeq XP_001105024.1
    CDS489..4688
    Translation

    Target ORF information:

    RefSeq Version XM_001105024.3
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta non-SMC condensin I complex subunit D2 (NCAPD2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001105024.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGCTCCCC AAATGTATGA GTTCCATCTG CCATTATCCC CAGAGGAGTT GTTGAAAAGT 
    GGAGGGGTGA ATCAGTATGT TGTGCAAGAG GTACTGTCCA TCAAGCATCT TCCACCACAG
    CTTAGAGCAT TTCAGGCTGC CTTTCGAGCT CAGGGGCCAC TGGCTGTGCT GGAGCACTTT
    GATACCATCT ACAGCATTTT GCATCACTTT CGAAGTATAG ATCCTGACCT CAAAGAAGAT
    ACTCTGGAAT TCCTGATAAA AGTGGTGTCC CGCCACTCCC AGGAGCTTCC AGCTATCCTG
    GATGATACAA CTTTGAGTGG ATCAGATAGA AATGCCCATC TAAACGCCCT CAAAATGAAC
    TGTTATGCTC TGATACGTCT CCTGGAATCC TTTGAGACCA GTCAGACAAA CCTCGTGGAC
    CTGGACCTTG GTGGGAAGGG TAAGAAAGCT CGGACCAAGG CAGCCCATGG CTTTGACTGG
    GAAGAAGAGA GGCAACCAAT TCTTCAGCTT TTGACACAGC TACTTCAGTT GGACATCCGT
    CACCTGTGGA ACCACTCAAT AATTGAAGAA GAATTTGTCA GTTTGGTTAC TGGCTGTTGC
    TACCGCCTTC TGGAGAATCC CACCATTAGT CACCAGAAGA ACCGCTCCAC TCGGGAAGCC
    ATAACACACC TGCTTGGTGT AGCCTTGACC CGTTATAACC ATATGCTCAG TGCTACAGTG
    AAGATCATCC AGATGCTGCA GCACTTTGAA CACCTGGCAC CTGTACTGGT TGCAGCTGTG
    AGTCTATGGG CAACTGACTA TGGAATGAAG AGCATAGTGG GAGAGATTGT AAGAGAGATT
    GGACAAAAGT GTCCCCAAGA GCTGAGTCGA GACCCTTCAG GGACAAAGGG CTTTGCAGCA
    TTCCTGACAG AACTAGCAGA ACGTGTCCCA GCTATCCTGA TGTCCAGCAT GTGCATTTTG
    CTAGATCACC TGGATGGAGA GAATTACATG ATGCGTAATG CTGTGCTAGC AGCCATGGCA
    GAGATGGTGC TGCAGGTTCT CAATGGCGAT CAACTGGAAG CAGCAGCCCG AGACACCAGA
    GACCAATTCT TGGATACTTT ACAAGCCCAT GGCCATGATG TCAACTCCTT TGTGCGGAGC
    CGTGTTTTGC AGCTTTTCAC CCGAATTGTT CAGCAGAAGG CTCTCCCCTT GACACGTTTC
    CAGGCAGTGG TGGCTTTAGC TGTGGGACGT CTGGCAGACA AGTCAGTGCT AGTATGTAAA
    AATGCCATCC AGCTGCTGGC CAGTTTTCTA GCCAATAATC CTTTTTCCTG CAAGCTTAGT
    GATACTGACC TTGCTGGACC ACTACAGAAG GAGACCCAGA AATTACAAGA GATGAGGGCC
    CAGAGGCGAA CTGCAGCATC TTCTGCGGTG CTGGACCCAG AGGAGGAGTG GGAAGCCATG
    CTGCCAGAGT TGAAGTCTAC CCTGCAGCAG CTTCTACAGC TTCCCCAGGG AGAAGAGGAG
    ATTCCTGAGC GAATTGCCAA TACAGAGACG ACTGAAGAGG TGAAAGGACG CATCCATCAA
    CTGCTTGCCA AAGCTAGTTA CAAGCAGGCC ATCAGTCTCA CTCGAGAAGC CACAGGCCAC
    TTCCAGGAGT CCGAACCCTT CAGTCGTATA GACCCAGAGG AGTCAGAGGA GACCAGGCTC
    TTGAATATCT TAGGACTTAT CTTCAAAGGC CCAGCAGCTT CCACACAAGA AAAGAATCCC
    CAGGAGTCTG TAGGAAACAT GGTCACAGGA CAGACTGTCT GTAAAAGTAA GCCCAGTGTG
    TTGGAGCCTG AGGAGTCCAG GGGAAGTGAT GAACTGGTGA AGCAGGAGAT GCTGGTGCAG
    TATCTGCAGG ATGCCTACAG CTTCTCCCGG AAGATTACAG CGGCCATTGG CATTACCAGC
    AAGATGATGT ATGAAAACAC AACTACAGTG GTGCAGGAGG TGATTGAATT CTTTGTGATG
    GTCTTCCAAT TTGGGGTACC CCAGGCCCTG TTTGGGGTGC GCCGTATGCT GCCTCTCATC
    TGGTCTAAGG AGCCTGGTGT CCGGGAAGCT GTGCTTAATG CCTTCCGCCA ACTCTACCTC
    AACCCCAAAG GGGACTCTGC CAGAGCCAAG GCCCAGGCTT TGATTCAGAA TCTCTCTCTG
    CTGCTAGTGG ATGCCTCGGT TGGGACCATT CAGTGTCTTG AGGAAATTCT CTGTGAGTTT
    GTGCGGAACG ATGAGTTGAA ACCAGCAGTG ACCCAGCTGC TGTGGGAGCG GGCCACCGAG
    AAGGTCGCCT GCTGTCCTCT GGAGCGCTGT TCCTCTGTCA TGCTTCTTGG CATGATGGCA
    CGAGGAAAGC CAGAAATTGT GGGAAGCAAT TTAGACACAC TGGTGCGCAT AGGGCTGGAT
    GAGAAGTTTC CACAGGACTA CAGGCTGGCC CAGCAGGTGT GCCATGCCAT TGCCAACATC
    TCTGACAGGA GAAAGCCTTC TCTGGGCAAA CGTCAACCCC CCTTCCGGCT GCCTCAGGAA
    CACAGGTTGT TTGAGCGACT GCGGGAGACG GTCACAAAAG GCTTTGTCCA CCCAGACCCA
    CTGTGGATCC CATTCAAAGA GGTGGCAGTG ACCCTCATTT ACCAACTGGC AGAGGGCCCC
    GAAGTGATCT GTGCCCAGAT ATTGCAGGGC TGTGCAAAAC AGGCCCTGGA GAAGCTAGAA
    GAGAAGAGAA CCAGTCAGGA GGACCTGAGG GAGTCCCCCG CAATGCTCCC CACTTTCCTG
    TTGATGAACC TGCTGTCCCT GGCTGGGGAT GTGGCTCTGC AGCAGCTGGT CCACTTGGAG
    CAGGCAGTGA GTGGAGAGCT CTGTCGGCGC CGAGTTCTCC GGGAAGAACA GGAGCACAAG
    ACCAAAGATC CCAAGGAGAA GAATACAAGC TCTGAGACCA CCATGGAGGA GGAGCTGGGG
    CTGGTTGGGG CAACAGCAGA TGACACAGAG GCGGAACTCA TCCGCGGCAT CTGCGAGATG
    GAACTGTTGG ACGGCAGACA GACACTGGCT GCCTTCGTTC CACTCTTGCT TCAAGTCTGC
    AACAACCCAG GCCTCTATAG CAACCCAGAC CTCTCTGCAG CTGCTTCACT TGCCCTTGGC
    AAGTTCTGCA TGATCAGTGC CACTTTCTGT GACTCCCAGC TTCGTCTTCT GTTCACCATG
    CTGGAAAAGT CCCCACTTCC CATTGTCCGG TCTAACCTCA TGGTTGCCAC TGGGGATCTG
    GCCATCCGCT TTCCCAATCT GGTGGACCCC TGGACTCCTC ATCTGTATGC TCGCCTCCGG
    GACCCTGCTC AGCAAGTGCG GAAAACAGCG GGGCTGGTGA TGACCCACCT GATCCTCAAG
    GACATGGTGA AGGTGAAGGG GCAGGTGAGC GAGATGGCAG TGCTACTCAT CGACCCCGAG
    CCTCAGATTG CTGCCCTGGC CAAGAACTTC TTCAACGAGC TCTCCCACAA GGGCAACGCA
    ATCTATAATC TCCTTCCAGA TATCATCAGC CGCCTGTCAG ACCCCGAGCT GGGGGTGGAG
    GAAGAGCCTT TCCACACCAT CATGAAACAG CTCCTCTCCT ACATCACCAA GGACAAGCAG
    ACAGAGAGCC TGGTGGAAAA GCTGTGTCAG CGGTTCCGCA CAGCCCGAAC TGAGCGGCAG
    CAGCGAGACC TGGCCTACTG TGTGTCACAG CTGCCCCTCA CAGAGCGAGG CCTCCGCAAG
    ATGCTTGACA ATTTTGACTG TTTTGGAGAC AAACTGTCAG ATGAGTCCAT CTTCAGTGCT
    TTTTTGTCAG TTGTGGGCAA GCTGCGACGC TGGGCCAAGC CTGAGGGCAA GGCTGTAATA
    GATGAATTTG AGCAGAAGCT TCGGGCCTGT CATACCAGAG GTTTGGATGG GATCGATGAG
    CTTGAGATTG GCCAGGCAGG TAGCCAGAGA GCCCCAGCAG CCAAGAGACC ATCCACTGTT
    TCTAGGCACC AACCTCTGGC TTCTACAGCC TCAGACAATG ACTTTGTCAC ACCGGAGCCC
    CGCCGTACTA CCCGTCGGCA TCCAAACACC CAGCAGCGAG CTTCCAAAAA GAAACCCAAA
    GTTGTCTTCT CAAGCGATGA GTCCAGTGAG GAAGATCTTT CAGCAGAGAT GACAGAAGAC
    GAGACACCCA AGAAAACAAC CCCCATTCTC AGAGCATCAG CTCGCAGGCG CAGACCCTAG

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

    CloneID OMb42122
    Clone ID Related Accession (Same CDS sequence) XM_015150892.1
    Accession Version XM_015150892.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3468bp)
    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 condensin 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_014805273.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
    3361
    3421
    ATGCTGCAGC ACTTTGAACA CCTGGCACCT GTACTGGTTG CAGCTGTGAG TCTATGGGCA 
    ACTGACTATG GAATGAAGAG CATAGTGGGA GAGATTGTAA GAGAGATTGG ACAAAAGTGT
    CCCCAAGAGC TGAGTCGAGA CCCTTCAGGG ACAAAGGGCT TTGCAGCATT CCTGACAGAA
    CTAGCAGAAC GTGTCCCAGC TATCCTGATG TCCAGCATGT GCATTTTGCT AGATCACCTG
    GATGGAGAGA ATTACATGAT GCGTAATGCT GTGCTAGCAG CCATGGCAGA GATGGTGCTG
    CAGGTTCTCA ATGGCGATCA ACTGGAAGCA GCAGCCCGAG ACACCAGAGA CCAATTCTTG
    GATACTTTAC AAGCCCATGG CCATGATGTC AACTCCTTTG TGCGGAGCCG TGTTTTGCAG
    CTTTTCACCC GAATTGTTCA GCAGAAGGCT CTCCCCTTGA CACGTTTCCA GGCAGTGGTG
    GCTTTAGCTG TGGGACGTCT GGCAGACAAG TCAGTGCTAG TATGTAAAAA TGCCATCCAG
    CTGCTGGCCA GTTTTCTAGC CAATAATCCT TTTTCCTGCA AGCTTAGTGA TACTGACCTT
    GCTGGACCAC TACAGAAGGA GACCCAGAAA TTACAAGAGA TGAGGGCCCA GAGGCGAACT
    GCAGCATCTT CTGCGGTGCT GGACCCAGAG GAGGAGTGGG AAGCCATGCT GCCAGAGTTG
    AAGTCTACCC TGCAGCAGCT TCTACAGCTT CCCCAGGGAG AAGAGGAGAT TCCTGAGCGA
    ATTGCCAATA CAGAGACGAC TGAAGAGGTG AAAGGACGCA TCCATCAACT GCTTGCCAAA
    GCTAGTTACA AGCAGGCCAT CAGTCTCACT CGAGAAGCCA CAGGCCACTT CCAGGAGTCC
    GAACCCTTCA GTCGTATAGA CCCAGAGGAG TCAGAGGAGA CCAGGCTCTT GAATATCTTA
    GGACTTATCT TCAAAGGCCC AGCAGCTTCC ACACAAGAAA AGAATCCCCA GGAGTCTGTA
    GGAAACATGG TCACAGGACA GACTGTCTGT AAAAGTAAGC CCAGTGTGTT GGAGCCTGAG
    GAGTCCAGGG GAAGTGATGA ACTGGTGAAG CAGGAGATGC TGGTGCAGTA TCTGCAGGAT
    GCCTACAGCT TCTCCCGGAA GATTACAGCG GCCATTGGCA TTACCAGCAA GATGATGTAT
    GAAAACACAA CTACAGTGGT GCAGGAGGTG ATTGAATTCT TTGTGATGGT CTTCCAATTT
    GGGGTACCCC AGGCCCTGTT TGGGGTGCGC CGTATGCTGC CTCTCATCTG GTCTAAGGAG
    CCTGGTGTCC GGGAAGCTGT GCTTAATGCC TTCCGCCAAC TCTACCTCAA CCCCAAAGGG
    GACTCTGCCA GAGCCAAGGC CCAGGCTTTG ATTCAGAATC TCTCTCTGCT GCTAGTGGAT
    GCCTCGGTTG GGACCATTCA GTGTCTTGAG GAAATTCTCT GTGAGTTTGT GCGGAACGAT
    GAGTTGAAAC CAGCAGTGAC CCAGCTGCTG TGGGAGCGGG CCACCGAGAA GGTCGCCTGC
    TGTCCTCTGG AGCGCTGTTC CTCTGTCATG CTTCTTGGCA TGATGGCACG AGGAAAGCCA
    GAAATTGTGG GAAGCAATTT AGACACACTG GTGCGCATAG GGCTGGATGA GAAGTTTCCA
    CAGGACTACA GGCTGGCCCA GCAGGTGTGC CATGCCATTG CCAACATCTC TGACAGGAGA
    AAGCCTTCTC TGGGCAAACG TCAACCCCCC TTCCGGCTGC CTCAGGAACA CAGGTTGTTT
    GAGCGACTGC GGGAGACGGT CACAAAAGGC TTTGTCCACC CAGACCCACT GTGGATCCCA
    TTCAAAGAGG TGGCAGTGAC CCTCATTTAC CAACTGGCAG AGGGCCCCGA AGTGATCTGT
    GCCCAGATAT TGCAGGGCTG TGCAAAACAG GCCCTGGAGA AGCTAGAAGA GAAGAGAACC
    AGTCAGGAGG ACCTGAGGGA GTCCCCCGCA ATGCTCCCCA CTTTCCTGTT GATGAACCTG
    CTGTCCCTGG CTGGGGATGT GGCTCTGCAG CAGCTGGTCC ACTTGGAGCA GGCAGTGAGT
    GGAGAGCTCT GTCGGCGCCG AGTTCTCCGG GAAGAACAGG AGCACAAGAC CAAAGATCCC
    AAGGAGAAGA ATACAAGCTC TGAGACCACC ATGGAGGAGG AGCTGGGGCT GGTTGGGGCA
    ACAGCAGATG ACACAGAGGC GGAACTCATC CGCGGCATCT GCGAGATGGA ACTGTTGGAC
    GGCAGACAGA CACTGGCTGC CTTCGTTCCA CTCTTGCTTC AAGTCTGCAA CAACCCAGGC
    CTCTATAGCA ACCCAGACCT CTCTGCAGCT GCTTCACTTG CCCTTGGCAA GTTCTGCATG
    ATCAGTGCCA CTTTCTGTGA CTCCCAGCTT CGTCTTCTGT TCACCATGCT GGAAAAGTCC
    CCACTTCCCA TTGTCCGGTC TAACCTCATG GTTGCCACTG GGGATCTGGC CATCCGCTTT
    CCCAATCTGG TGGACCCCTG GACTCCTCAT CTGTATGCTC GCCTCCGGGA CCCTGCTCAG
    CAAGTGCGGA AAACAGCGGG GCTGGTGATG ACCCACCTGA TCCTCAAGGA CATGGTGAAG
    GTGAAGGGGC AGGTGAGCGA GATGGCAGTG CTACTCATCG ACCCCGAGCC TCAGATTGCT
    GCCCTGGCCA AGAACTTCTT CAACGAGCTC TCCCACAAGG GCAACGCAAT CTATAATCTC
    CTTCCAGATA TCATCAGCCG CCTGTCAGAC CCCGAGCTGG GGGTGGAGGA AGAGCCTTTC
    CACACCATCA TGAAACAGCT CCTCTCCTAC ATCACCAAGG ACAAGCAGAC AGAGAGCCTG
    GTGGAAAAGC TGTGTCAGCG GTTCCGCACA GCCCGAACTG AGCGGCAGCA GCGAGACCTG
    GCCTACTGTG TGTCACAGCT GCCCCTCACA GAGCGAGGCC TCCGCAAGAT GCTTGACAAT
    TTTGACTGTT TTGGAGACAA ACTGTCAGAT GAGTCCATCT TCAGTGCTTT TTTGTCAGTT
    GTGGGCAAGC TGCGACGCTG GGCCAAGCCT GAGGGCAAGG CTGTAATAGA TGAATTTGAG
    CAGAAGCTTC GGGCCTGTCA TACCAGAGGT TTGGATGGGA TCGATGAGCT TGAGATTGGC
    CAGGCAGGTA GCCAGAGAGC CCCAGCAGCC AAGAGACCAT CCACTGTTTC TAGGCACCAA
    CCTCTGGCTT CTACAGCCTC AGACAATGAC TTTGTCACAC CGGAGCCCCG CCGTACTACC
    CGTCGGCATC CAAACACCCA GCAGCGAGCT TCCAAAAAGA AACCCAAAGT TGTCTTCTCA
    AGCGATGAGT CCAGTGAGGA AGATCTTTCA GCAGAGATGA CAGAAGACGA GACACCCAAG
    AAAACAACCC CCATTCTCAG AGCATCAGCT CGCAGGCGCA GACCCTAG

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

    RefSeq XP_015006378.1
    CDS126..3593
    Translation

    Target ORF information:

    RefSeq Version XM_015150892.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta non-SMC condensin I complex subunit D2 (NCAPD2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015150892.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGCTGCAGC ACTTTGAACA CCTGGCACCT GTACTGGTTG CAGCTGTGAG TCTATGGGCA 
    ACTGACTATG GAATGAAGAG CATAGTGGGA GAGATTGTAA GAGAGATTGG ACAAAAGTGT
    CCCCAAGAGC TGAGTCGAGA CCCTTCAGGG ACAAAGGGCT TTGCAGCATT CCTGACAGAA
    CTAGCAGAAC GTGTCCCAGC TATCCTGATG TCCAGCATGT GCATTTTGCT AGATCACCTG
    GATGGAGAGA ATTACATGAT GCGTAATGCT GTGCTAGCAG CCATGGCAGA GATGGTGCTG
    CAGGTTCTCA ATGGCGATCA ACTGGAAGCA GCAGCCCGAG ACACCAGAGA CCAATTCTTG
    GATACTTTAC AAGCCCATGG CCATGATGTC AACTCCTTTG TGCGGAGCCG TGTTTTGCAG
    CTTTTCACCC GAATTGTTCA GCAGAAGGCT CTCCCCTTGA CACGTTTCCA GGCAGTGGTG
    GCTTTAGCTG TGGGACGTCT GGCAGACAAG TCAGTGCTAG TATGTAAAAA TGCCATCCAG
    CTGCTGGCCA GTTTTCTAGC CAATAATCCT TTTTCCTGCA AGCTTAGTGA TACTGACCTT
    GCTGGACCAC TACAGAAGGA GACCCAGAAA TTACAAGAGA TGAGGGCCCA GAGGCGAACT
    GCAGCATCTT CTGCGGTGCT GGACCCAGAG GAGGAGTGGG AAGCCATGCT GCCAGAGTTG
    AAGTCTACCC TGCAGCAGCT TCTACAGCTT CCCCAGGGAG AAGAGGAGAT TCCTGAGCGA
    ATTGCCAATA CAGAGACGAC TGAAGAGGTG AAAGGACGCA TCCATCAACT GCTTGCCAAA
    GCTAGTTACA AGCAGGCCAT CAGTCTCACT CGAGAAGCCA CAGGCCACTT CCAGGAGTCC
    GAACCCTTCA GTCGTATAGA CCCAGAGGAG TCAGAGGAGA CCAGGCTCTT GAATATCTTA
    GGACTTATCT TCAAAGGCCC AGCAGCTTCC ACACAAGAAA AGAATCCCCA GGAGTCTGTA
    GGAAACATGG TCACAGGACA GACTGTCTGT AAAAGTAAGC CCAGTGTGTT GGAGCCTGAG
    GAGTCCAGGG GAAGTGATGA ACTGGTGAAG CAGGAGATGC TGGTGCAGTA TCTGCAGGAT
    GCCTACAGCT TCTCCCGGAA GATTACAGCG GCCATTGGCA TTACCAGCAA GATGATGTAT
    GAAAACACAA CTACAGTGGT GCAGGAGGTG ATTGAATTCT TTGTGATGGT CTTCCAATTT
    GGGGTACCCC AGGCCCTGTT TGGGGTGCGC CGTATGCTGC CTCTCATCTG GTCTAAGGAG
    CCTGGTGTCC GGGAAGCTGT GCTTAATGCC TTCCGCCAAC TCTACCTCAA CCCCAAAGGG
    GACTCTGCCA GAGCCAAGGC CCAGGCTTTG ATTCAGAATC TCTCTCTGCT GCTAGTGGAT
    GCCTCGGTTG GGACCATTCA GTGTCTTGAG GAAATTCTCT GTGAGTTTGT GCGGAACGAT
    GAGTTGAAAC CAGCAGTGAC CCAGCTGCTG TGGGAGCGGG CCACCGAGAA GGTCGCCTGC
    TGTCCTCTGG AGCGCTGTTC CTCTGTCATG CTTCTTGGCA TGATGGCACG AGGAAAGCCA
    GAAATTGTGG GAAGCAATTT AGACACACTG GTGCGCATAG GGCTGGATGA GAAGTTTCCA
    CAGGACTACA GGCTGGCCCA GCAGGTGTGC CATGCCATTG CCAACATCTC TGACAGGAGA
    AAGCCTTCTC TGGGCAAACG TCAACCCCCC TTCCGGCTGC CTCAGGAACA CAGGTTGTTT
    GAGCGACTGC GGGAGACGGT CACAAAAGGC TTTGTCCACC CAGACCCACT GTGGATCCCA
    TTCAAAGAGG TGGCAGTGAC CCTCATTTAC CAACTGGCAG AGGGCCCCGA AGTGATCTGT
    GCCCAGATAT TGCAGGGCTG TGCAAAACAG GCCCTGGAGA AGCTAGAAGA GAAGAGAACC
    AGTCAGGAGG ACCTGAGGGA GTCCCCCGCA ATGCTCCCCA CTTTCCTGTT GATGAACCTG
    CTGTCCCTGG CTGGGGATGT GGCTCTGCAG CAGCTGGTCC ACTTGGAGCA GGCAGTGAGT
    GGAGAGCTCT GTCGGCGCCG AGTTCTCCGG GAAGAACAGG AGCACAAGAC CAAAGATCCC
    AAGGAGAAGA ATACAAGCTC TGAGACCACC ATGGAGGAGG AGCTGGGGCT GGTTGGGGCA
    ACAGCAGATG ACACAGAGGC GGAACTCATC CGCGGCATCT GCGAGATGGA ACTGTTGGAC
    GGCAGACAGA CACTGGCTGC CTTCGTTCCA CTCTTGCTTC AAGTCTGCAA CAACCCAGGC
    CTCTATAGCA ACCCAGACCT CTCTGCAGCT GCTTCACTTG CCCTTGGCAA GTTCTGCATG
    ATCAGTGCCA CTTTCTGTGA CTCCCAGCTT CGTCTTCTGT TCACCATGCT GGAAAAGTCC
    CCACTTCCCA TTGTCCGGTC TAACCTCATG GTTGCCACTG GGGATCTGGC CATCCGCTTT
    CCCAATCTGG TGGACCCCTG GACTCCTCAT CTGTATGCTC GCCTCCGGGA CCCTGCTCAG
    CAAGTGCGGA AAACAGCGGG GCTGGTGATG ACCCACCTGA TCCTCAAGGA CATGGTGAAG
    GTGAAGGGGC AGGTGAGCGA GATGGCAGTG CTACTCATCG ACCCCGAGCC TCAGATTGCT
    GCCCTGGCCA AGAACTTCTT CAACGAGCTC TCCCACAAGG GCAACGCAAT CTATAATCTC
    CTTCCAGATA TCATCAGCCG CCTGTCAGAC CCCGAGCTGG GGGTGGAGGA AGAGCCTTTC
    CACACCATCA TGAAACAGCT CCTCTCCTAC ATCACCAAGG ACAAGCAGAC AGAGAGCCTG
    GTGGAAAAGC TGTGTCAGCG GTTCCGCACA GCCCGAACTG AGCGGCAGCA GCGAGACCTG
    GCCTACTGTG TGTCACAGCT GCCCCTCACA GAGCGAGGCC TCCGCAAGAT GCTTGACAAT
    TTTGACTGTT TTGGAGACAA ACTGTCAGAT GAGTCCATCT TCAGTGCTTT TTTGTCAGTT
    GTGGGCAAGC TGCGACGCTG GGCCAAGCCT GAGGGCAAGG CTGTAATAGA TGAATTTGAG
    CAGAAGCTTC GGGCCTGTCA TACCAGAGGT TTGGATGGGA TCGATGAGCT TGAGATTGGC
    CAGGCAGGTA GCCAGAGAGC CCCAGCAGCC AAGAGACCAT CCACTGTTTC TAGGCACCAA
    CCTCTGGCTT CTACAGCCTC AGACAATGAC TTTGTCACAC CGGAGCCCCG CCGTACTACC
    CGTCGGCATC CAAACACCCA GCAGCGAGCT TCCAAAAAGA AACCCAAAGT TGTCTTCTCA
    AGCGATGAGT CCAGTGAGGA AGATCTTTCA GCAGAGATGA CAGAAGACGA GACACCCAAG
    AAAACAACCC CCATTCTCAG AGCATCAGCT CGCAGGCGCA GACCCTAG

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

    CloneID OMb64092
    Clone ID Related Accession (Same CDS sequence) XM_001105024.4
    Accession Version XM_001105024.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4200bp)
    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 condensin 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_041764.1) 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_001105024.3. ##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
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGCTCCCC AAATGTATGA GTTCCATCTG CCATTATCCC CAGAGGAGTT GTTGAAAAGT 
    GGAGGGGTGA ATCAGTATGT TGTGCAAGAG GTACTGTCCA TCAAACATCT TCCACCACAG
    CTTAGAGCAT TTCAGGCTGC CTTTCGAGCT CAGGGGCCAC TGGCTGTGCT GGAGCACTTT
    GATACCATCT ACAGCATTTT GCATCACTTT CGAAGTATAG ATCCTGACCT CAAAGAAGAT
    ACTCTGGAAT TCCTGATAAA AGTGGTGTCC CGCCACTCCC AGGAGCTTCC AGCTATCCTG
    GATGATACAA CTTTGAGTGG ATCAGATAGA AATGCCCATC TAAACGCCCT CAAAATGAAC
    TGTTATGCTC TGATACGTCT CCTGGAATCC TTTGAGACCA GTCAGACAAA CCTCGTGGAC
    CTGGACCTTG GTGGGAAGGG TAAGAAAGCT CGGACCAAGG CAGCCCATGG CTTTGACTGG
    GAAGAAGAGA GGCAACCAAT TCTTCAGCTT TTGACACAGC TACTTCAGTT GGACATCCGT
    CACCTGTGGA ACCACTCAAT AATTGAAGAA GAATTTGTCA GTTTGGTTAC TGGCTGTTGC
    TACCGCCTTC TGGAGAATCC CACCATTAGT CACCAGAAGA ACCGCTCCAC TCGGGAAGCC
    ATAACACACC TGCTTGGTGT AGCCTTGACC CGTTATAACC ATATGCTCAG TGCTACAGTG
    AAGATCATCC AGATGCTGCA GCACTTTGAA CACCTGGCAC CTGTACTGGT TGCAGCTGTG
    AGTCTATGGG CAACTGACTA TGGAATGAAG AGCATAGTGG GAGAGATTGT AAGAGAGATT
    GGACAAAAGT GTCCCCAAGA GCTGAGTCGA GACCCTTCAG GGACAAAGGG CTTTGCAGCA
    TTCCTGACAG AACTAGCAGA ACGTGTCCCA GCTATCCTGA TGTCCAGCAT GTGCATTTTG
    CTAGATCACC TGGATGGAGA GAATTACATG ATGCGTAATG CTGTGCTAGC AGCCATGGCA
    GAGATGGTGC TGCAGGTTCT CAATGGCGAT CAACTGGAAG CAGCAGCTCG AGACACCAGA
    GACCAATTCT TGGATACTTT ACAAGCCCAT GGCCATGATG TCAACTCCTT TGTGCGGAGC
    CGTGTTTTGC AGCTTTTCAC CCGAATTGTC CAGCAGAAGG CTCTCCCCTT GACACGTTTC
    CAGGCAGTGG TGGCTTTAGC TGTGGGACGT CTGGCAGACA AGTCAGTGCT AGTATGTAAA
    AATGCCATCC AGCTGCTGGC CAGTTTTCTA GCCAATAATC CTTTTTCCTG CAAGCTTAGT
    GATACTGACC TTGCTGGACC ACTGCAGAAG GAGACCCAGA AATTACAAGA GATGAGGGCC
    CAGAGGCGAA CTGCAGCATC TTCTGCGGTG CTGGACCCAG AGGAGGAGTG GGAAGCCATG
    CTGCCAGAGT TGAAGTCTAC CCTGCAGCAG CTTCTACAGC TTCCCCAGGG AGAAGAGGAG
    ATTCCTGAGC GAATTGCCAA TACAGAGACG ACTGAAGAGG TGAAAGGACG CATCCATCAA
    CTGCTTGCCA AAGCTAGTTA CAAGCAGGCC ATCAGTCTCA CTCGAGAAGC CACAGGCCAC
    TTCCAGGAGT CCGAACCCTT CAGTCATATA GACCCAGAGG AGTCAGAGGA GACCAGGCTC
    TTGAATATCT TAGGACTTAT CTTCAAAGGC CCAGCAGCTT CCACACAAGA AAAGAATCCC
    CAGGAGTCTG TAGGAAACAT GGTCACAGGA CAGACTGTCT GTAAAAATAA GCCCAGTGTG
    TTGGAGCCTG AGGAGTCCAG GGGAAGTGAT GAACTGGTGA AGCAGGAGAT GCTGGTGCAG
    TATCTGCAGG ATGCCTACAG CTTCTCCCGG AAGATTACAG CGGCCATTGG CATTACCAGC
    AAGATGATGT ATGAAAACAC AACTACAGTG GTGCAGGAGG TGATTGAATT CTTTGTGATG
    GTCTTCCAAT TTGGGGTACC CCAGGCCCTG TTTGGGGTGC GCCGTATGCT GCCTCTCATC
    TGGTCTAAGG AGCCTGGTGT CCGGGAAGCT GTGCTTAATG CCTTCCGCCA ACTCTACCTC
    AACCCCAAAG GGGACTCTGC CAGAGCCAAG GCCCAGGCTT TGATTCAGAA TCTCTCTCTG
    CTGCTAGTGG ATGCCTCGGT TGGGACCATT CAGTGTCTTG AGGAAATTCT CTGTGAGTTT
    GTGCGGAACG ATGAGTTGAA ACCAGCAGTG ACCCAGCTGC TGTGGGAGCG GGCCACCGAG
    AAGGTCGCCT GCTGTCCTCT GGAGCGCTGT TCCTCTGTCA TGCTTCTTGG CATGATGGCA
    CGAGGAAAGC CAGAAATTGT GGGAAGCAAT TTAGACACAC TGGTGCGCAT AGGGCTGGAT
    GAGAAGTTTC CACAGGACTA CAGGCTGGCC CAGCAGGTGT GCCATGCCAT TGCCAACATC
    TCTGACAGGA GAAAGCCTTC TCTGGGCAAA CGTCAACCCC CCTTCCGGCT GCCTCAGGAA
    CACAGGTTGT TTGAGCGACT GCGGGAGACG GTCACAAAAG GCTTTGTCCA CCCAGACCCA
    CTGTGGATCC CATTCAAAGA GGTGGCAGTG ACCCTCATTT ACCAACTGGC AGAGGGCCCC
    GAAGTGATCT GTGCCCAGAT ATTGCAGGGC TGTGCAAAAC AGGCCCTGGA GAAGCTAGAA
    GAGAAGAGAA CCAGTCAGGA GGACCTGAGG GAGTCCCCCG CAATGCTCCC CACTTTCCTG
    TTGATGAACC TGCTGTCCCT GGCTGGGGAT GTGGCTCTGC AGCAGCTGGT CCACTTGGAG
    CAGGCAGTGA GTGGAGAGCT CTGTCGGCGC CGAGTTCTCC GGGAAGAACA GGAGCACAAG
    ACCAAAGATC CCAAGGAGAA GAATACAAGC TCTGAGACCA CCATGGAGGA GGAGCTGGGG
    CTGGTTGGGG CAACAGCAGA TGACACAGAG GCGGAACTCA TCCGCGGCAT CTGCGAGATG
    GAACTGTTGG ACGGCAGACA GACACTGGCT GCCTTCGTTC CACTCTTGCT TCAAGTCTGC
    AACAACCCAG GCCTCTATAG CAACCCAGAC CTCTCTGCAG CTGCTTCACT TGCCCTTGGC
    AAGTTCTGCA TGATCAGTGC CACTTTCTGT GACTCCCAGC TTCGTCTTCT GTTCACCATG
    CTGGAAAAGT CCCCACTTCC CATTGTCCGG TCTAACCTCA TGGTTGCCAC TGGGGATCTG
    GCCATCCGCT TTCCCAATCT GGTGGACCCC TGGACTCCTC ATCTGTATGC TCGCCTCCGG
    GACCCTGCTC AGCAAGTGCG GAAAACAGCG GGGCTGGTGA TGACCCACCT GATCCTCAAG
    GACATGGTGA AGGTGAAGGG GCAGGTGAGC GAGATGGCAG TGCTACTCAT CGACCCCGAG
    CCTCAGATTG CTGCCCTGGC CAAGAACTTC TTCAACGAGC TCTCCCACAA GGGCAACGCA
    ATCTATAATC TCCTTCCAGA TATCATCAGC CGCCTGTCAG ACCCCGAGCT GGGGGTGGAG
    GAAGAGCCTT TCCACACCAT CATGAAACAG CTCCTCTCCT ACATCACCAA GGACAAGCAG
    ACAGAGAGCC TGGTGGAAAA GCTGTGTCAG CGGTTCCGCA CAGCCCGAAC TGAGCGGCAG
    CAGCGAGACC TGGCCTACTG TGTGTCACAG CTGCCCCTCA CAGAGCGAGG CCTCCGCAAG
    ATGCTTGACA ATTTTGACTG TTTTGGAGAC AAACTGTCAG ATGAGTCCAT CTTCAGTGCT
    TTTTTGTCAG TTGTGGGCAA GCTGCGACGC TGGGCCAAGC CTGAGGGCAA GGCTGTAATA
    GATGAATTTG AGCAGAAGCT TCGGGCCTGT CATACCAGAG GTTTGGATGG GATCGATGAG
    CTTGAGATTG GCCAGGCAGG TAGCCAGAGA GCCCCAGCAG CCAAGAGACC ATCCACTGTT
    TCTAGGCACC AACCTCTGGC TTCTACAGCC TCAGACAATG ACTTTGTCAC ACCGGAGCCC
    CGCCGTACTA CCCGTCGGCA TCCAAACACC CAGCAGCGAG CTTCCAAAAA GAAACCCAAA
    GTTGTCTTCT CAAGCGATGA GTCCAGTGAG GAAGATCTTT CAGCAGAGAT GACAGAAGAC
    GAGACACCCA AGAAAACAAC CCCCATTCTC AGAGCATCAG CTCGCAGGCG CAGACCCTAG

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

    RefSeq XP_001105024.2
    CDS656..4855
    Translation

    Target ORF information:

    RefSeq Version XM_001105024.4
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta non-SMC condensin I complex subunit D2 (NCAPD2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001105024.4

    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
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGCTCCCC AAATGTATGA GTTCCATCTG CCATTATCCC CAGAGGAGTT GTTGAAAAGT 
    GGAGGGGTGA ATCAGTATGT TGTGCAAGAG GTACTGTCCA TCAAACATCT TCCACCACAG
    CTTAGAGCAT TTCAGGCTGC CTTTCGAGCT CAGGGGCCAC TGGCTGTGCT GGAGCACTTT
    GATACCATCT ACAGCATTTT GCATCACTTT CGAAGTATAG ATCCTGACCT CAAAGAAGAT
    ACTCTGGAAT TCCTGATAAA AGTGGTGTCC CGCCACTCCC AGGAGCTTCC AGCTATCCTG
    GATGATACAA CTTTGAGTGG ATCAGATAGA AATGCCCATC TAAACGCCCT CAAAATGAAC
    TGTTATGCTC TGATACGTCT CCTGGAATCC TTTGAGACCA GTCAGACAAA CCTCGTGGAC
    CTGGACCTTG GTGGGAAGGG TAAGAAAGCT CGGACCAAGG CAGCCCATGG CTTTGACTGG
    GAAGAAGAGA GGCAACCAAT TCTTCAGCTT TTGACACAGC TACTTCAGTT GGACATCCGT
    CACCTGTGGA ACCACTCAAT AATTGAAGAA GAATTTGTCA GTTTGGTTAC TGGCTGTTGC
    TACCGCCTTC TGGAGAATCC CACCATTAGT CACCAGAAGA ACCGCTCCAC TCGGGAAGCC
    ATAACACACC TGCTTGGTGT AGCCTTGACC CGTTATAACC ATATGCTCAG TGCTACAGTG
    AAGATCATCC AGATGCTGCA GCACTTTGAA CACCTGGCAC CTGTACTGGT TGCAGCTGTG
    AGTCTATGGG CAACTGACTA TGGAATGAAG AGCATAGTGG GAGAGATTGT AAGAGAGATT
    GGACAAAAGT GTCCCCAAGA GCTGAGTCGA GACCCTTCAG GGACAAAGGG CTTTGCAGCA
    TTCCTGACAG AACTAGCAGA ACGTGTCCCA GCTATCCTGA TGTCCAGCAT GTGCATTTTG
    CTAGATCACC TGGATGGAGA GAATTACATG ATGCGTAATG CTGTGCTAGC AGCCATGGCA
    GAGATGGTGC TGCAGGTTCT CAATGGCGAT CAACTGGAAG CAGCAGCTCG AGACACCAGA
    GACCAATTCT TGGATACTTT ACAAGCCCAT GGCCATGATG TCAACTCCTT TGTGCGGAGC
    CGTGTTTTGC AGCTTTTCAC CCGAATTGTC CAGCAGAAGG CTCTCCCCTT GACACGTTTC
    CAGGCAGTGG TGGCTTTAGC TGTGGGACGT CTGGCAGACA AGTCAGTGCT AGTATGTAAA
    AATGCCATCC AGCTGCTGGC CAGTTTTCTA GCCAATAATC CTTTTTCCTG CAAGCTTAGT
    GATACTGACC TTGCTGGACC ACTGCAGAAG GAGACCCAGA AATTACAAGA GATGAGGGCC
    CAGAGGCGAA CTGCAGCATC TTCTGCGGTG CTGGACCCAG AGGAGGAGTG GGAAGCCATG
    CTGCCAGAGT TGAAGTCTAC CCTGCAGCAG CTTCTACAGC TTCCCCAGGG AGAAGAGGAG
    ATTCCTGAGC GAATTGCCAA TACAGAGACG ACTGAAGAGG TGAAAGGACG CATCCATCAA
    CTGCTTGCCA AAGCTAGTTA CAAGCAGGCC ATCAGTCTCA CTCGAGAAGC CACAGGCCAC
    TTCCAGGAGT CCGAACCCTT CAGTCATATA GACCCAGAGG AGTCAGAGGA GACCAGGCTC
    TTGAATATCT TAGGACTTAT CTTCAAAGGC CCAGCAGCTT CCACACAAGA AAAGAATCCC
    CAGGAGTCTG TAGGAAACAT GGTCACAGGA CAGACTGTCT GTAAAAATAA GCCCAGTGTG
    TTGGAGCCTG AGGAGTCCAG GGGAAGTGAT GAACTGGTGA AGCAGGAGAT GCTGGTGCAG
    TATCTGCAGG ATGCCTACAG CTTCTCCCGG AAGATTACAG CGGCCATTGG CATTACCAGC
    AAGATGATGT ATGAAAACAC AACTACAGTG GTGCAGGAGG TGATTGAATT CTTTGTGATG
    GTCTTCCAAT TTGGGGTACC CCAGGCCCTG TTTGGGGTGC GCCGTATGCT GCCTCTCATC
    TGGTCTAAGG AGCCTGGTGT CCGGGAAGCT GTGCTTAATG CCTTCCGCCA ACTCTACCTC
    AACCCCAAAG GGGACTCTGC CAGAGCCAAG GCCCAGGCTT TGATTCAGAA TCTCTCTCTG
    CTGCTAGTGG ATGCCTCGGT TGGGACCATT CAGTGTCTTG AGGAAATTCT CTGTGAGTTT
    GTGCGGAACG ATGAGTTGAA ACCAGCAGTG ACCCAGCTGC TGTGGGAGCG GGCCACCGAG
    AAGGTCGCCT GCTGTCCTCT GGAGCGCTGT TCCTCTGTCA TGCTTCTTGG CATGATGGCA
    CGAGGAAAGC CAGAAATTGT GGGAAGCAAT TTAGACACAC TGGTGCGCAT AGGGCTGGAT
    GAGAAGTTTC CACAGGACTA CAGGCTGGCC CAGCAGGTGT GCCATGCCAT TGCCAACATC
    TCTGACAGGA GAAAGCCTTC TCTGGGCAAA CGTCAACCCC CCTTCCGGCT GCCTCAGGAA
    CACAGGTTGT TTGAGCGACT GCGGGAGACG GTCACAAAAG GCTTTGTCCA CCCAGACCCA
    CTGTGGATCC CATTCAAAGA GGTGGCAGTG ACCCTCATTT ACCAACTGGC AGAGGGCCCC
    GAAGTGATCT GTGCCCAGAT ATTGCAGGGC TGTGCAAAAC AGGCCCTGGA GAAGCTAGAA
    GAGAAGAGAA CCAGTCAGGA GGACCTGAGG GAGTCCCCCG CAATGCTCCC CACTTTCCTG
    TTGATGAACC TGCTGTCCCT GGCTGGGGAT GTGGCTCTGC AGCAGCTGGT CCACTTGGAG
    CAGGCAGTGA GTGGAGAGCT CTGTCGGCGC CGAGTTCTCC GGGAAGAACA GGAGCACAAG
    ACCAAAGATC CCAAGGAGAA GAATACAAGC TCTGAGACCA CCATGGAGGA GGAGCTGGGG
    CTGGTTGGGG CAACAGCAGA TGACACAGAG GCGGAACTCA TCCGCGGCAT CTGCGAGATG
    GAACTGTTGG ACGGCAGACA GACACTGGCT GCCTTCGTTC CACTCTTGCT TCAAGTCTGC
    AACAACCCAG GCCTCTATAG CAACCCAGAC CTCTCTGCAG CTGCTTCACT TGCCCTTGGC
    AAGTTCTGCA TGATCAGTGC CACTTTCTGT GACTCCCAGC TTCGTCTTCT GTTCACCATG
    CTGGAAAAGT CCCCACTTCC CATTGTCCGG TCTAACCTCA TGGTTGCCAC TGGGGATCTG
    GCCATCCGCT TTCCCAATCT GGTGGACCCC TGGACTCCTC ATCTGTATGC TCGCCTCCGG
    GACCCTGCTC AGCAAGTGCG GAAAACAGCG GGGCTGGTGA TGACCCACCT GATCCTCAAG
    GACATGGTGA AGGTGAAGGG GCAGGTGAGC GAGATGGCAG TGCTACTCAT CGACCCCGAG
    CCTCAGATTG CTGCCCTGGC CAAGAACTTC TTCAACGAGC TCTCCCACAA GGGCAACGCA
    ATCTATAATC TCCTTCCAGA TATCATCAGC CGCCTGTCAG ACCCCGAGCT GGGGGTGGAG
    GAAGAGCCTT TCCACACCAT CATGAAACAG CTCCTCTCCT ACATCACCAA GGACAAGCAG
    ACAGAGAGCC TGGTGGAAAA GCTGTGTCAG CGGTTCCGCA CAGCCCGAAC TGAGCGGCAG
    CAGCGAGACC TGGCCTACTG TGTGTCACAG CTGCCCCTCA CAGAGCGAGG CCTCCGCAAG
    ATGCTTGACA ATTTTGACTG TTTTGGAGAC AAACTGTCAG ATGAGTCCAT CTTCAGTGCT
    TTTTTGTCAG TTGTGGGCAA GCTGCGACGC TGGGCCAAGC CTGAGGGCAA GGCTGTAATA
    GATGAATTTG AGCAGAAGCT TCGGGCCTGT CATACCAGAG GTTTGGATGG GATCGATGAG
    CTTGAGATTG GCCAGGCAGG TAGCCAGAGA GCCCCAGCAG CCAAGAGACC ATCCACTGTT
    TCTAGGCACC AACCTCTGGC TTCTACAGCC TCAGACAATG ACTTTGTCAC ACCGGAGCCC
    CGCCGTACTA CCCGTCGGCA TCCAAACACC CAGCAGCGAG CTTCCAAAAA GAAACCCAAA
    GTTGTCTTCT CAAGCGATGA GTCCAGTGAG GAAGATCTTT CAGCAGAGAT GACAGAAGAC
    GAGACACCCA AGAAAACAAC CCCCATTCTC AGAGCATCAG CTCGCAGGCG CAGACCCTAG

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

    CloneID OMb64093
    Clone ID Related Accession (Same CDS sequence) XM_015150892.2
    Accession Version XM_015150892.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3468bp)
    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 condensin 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_041764.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015150892.1. ##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
    3361
    3421
    ATGCTGCAGC ACTTTGAACA CCTGGCACCT GTACTGGTTG CAGCTGTGAG TCTATGGGCA 
    ACTGACTATG GAATGAAGAG CATAGTGGGA GAGATTGTAA GAGAGATTGG ACAAAAGTGT
    CCCCAAGAGC TGAGTCGAGA CCCTTCAGGG ACAAAGGGCT TTGCAGCATT CCTGACAGAA
    CTAGCAGAAC GTGTCCCAGC TATCCTGATG TCCAGCATGT GCATTTTGCT AGATCACCTG
    GATGGAGAGA ATTACATGAT GCGTAATGCT GTGCTAGCAG CCATGGCAGA GATGGTGCTG
    CAGGTTCTCA ATGGCGATCA ACTGGAAGCA GCAGCTCGAG ACACCAGAGA CCAATTCTTG
    GATACTTTAC AAGCCCATGG CCATGATGTC AACTCCTTTG TGCGGAGCCG TGTTTTGCAG
    CTTTTCACCC GAATTGTCCA GCAGAAGGCT CTCCCCTTGA CACGTTTCCA GGCAGTGGTG
    GCTTTAGCTG TGGGACGTCT GGCAGACAAG TCAGTGCTAG TATGTAAAAA TGCCATCCAG
    CTGCTGGCCA GTTTTCTAGC CAATAATCCT TTTTCCTGCA AGCTTAGTGA TACTGACCTT
    GCTGGACCAC TGCAGAAGGA GACCCAGAAA TTACAAGAGA TGAGGGCCCA GAGGCGAACT
    GCAGCATCTT CTGCGGTGCT GGACCCAGAG GAGGAGTGGG AAGCCATGCT GCCAGAGTTG
    AAGTCTACCC TGCAGCAGCT TCTACAGCTT CCCCAGGGAG AAGAGGAGAT TCCTGAGCGA
    ATTGCCAATA CAGAGACGAC TGAAGAGGTG AAAGGACGCA TCCATCAACT GCTTGCCAAA
    GCTAGTTACA AGCAGGCCAT CAGTCTCACT CGAGAAGCCA CAGGCCACTT CCAGGAGTCC
    GAACCCTTCA GTCATATAGA CCCAGAGGAG TCAGAGGAGA CCAGGCTCTT GAATATCTTA
    GGACTTATCT TCAAAGGCCC AGCAGCTTCC ACACAAGAAA AGAATCCCCA GGAGTCTGTA
    GGAAACATGG TCACAGGACA GACTGTCTGT AAAAATAAGC CCAGTGTGTT GGAGCCTGAG
    GAGTCCAGGG GAAGTGATGA ACTGGTGAAG CAGGAGATGC TGGTGCAGTA TCTGCAGGAT
    GCCTACAGCT TCTCCCGGAA GATTACAGCG GCCATTGGCA TTACCAGCAA GATGATGTAT
    GAAAACACAA CTACAGTGGT GCAGGAGGTG ATTGAATTCT TTGTGATGGT CTTCCAATTT
    GGGGTACCCC AGGCCCTGTT TGGGGTGCGC CGTATGCTGC CTCTCATCTG GTCTAAGGAG
    CCTGGTGTCC GGGAAGCTGT GCTTAATGCC TTCCGCCAAC TCTACCTCAA CCCCAAAGGG
    GACTCTGCCA GAGCCAAGGC CCAGGCTTTG ATTCAGAATC TCTCTCTGCT GCTAGTGGAT
    GCCTCGGTTG GGACCATTCA GTGTCTTGAG GAAATTCTCT GTGAGTTTGT GCGGAACGAT
    GAGTTGAAAC CAGCAGTGAC CCAGCTGCTG TGGGAGCGGG CCACCGAGAA GGTCGCCTGC
    TGTCCTCTGG AGCGCTGTTC CTCTGTCATG CTTCTTGGCA TGATGGCACG AGGAAAGCCA
    GAAATTGTGG GAAGCAATTT AGACACACTG GTGCGCATAG GGCTGGATGA GAAGTTTCCA
    CAGGACTACA GGCTGGCCCA GCAGGTGTGC CATGCCATTG CCAACATCTC TGACAGGAGA
    AAGCCTTCTC TGGGCAAACG TCAACCCCCC TTCCGGCTGC CTCAGGAACA CAGGTTGTTT
    GAGCGACTGC GGGAGACGGT CACAAAAGGC TTTGTCCACC CAGACCCACT GTGGATCCCA
    TTCAAAGAGG TGGCAGTGAC CCTCATTTAC CAACTGGCAG AGGGCCCCGA AGTGATCTGT
    GCCCAGATAT TGCAGGGCTG TGCAAAACAG GCCCTGGAGA AGCTAGAAGA GAAGAGAACC
    AGTCAGGAGG ACCTGAGGGA GTCCCCCGCA ATGCTCCCCA CTTTCCTGTT GATGAACCTG
    CTGTCCCTGG CTGGGGATGT GGCTCTGCAG CAGCTGGTCC ACTTGGAGCA GGCAGTGAGT
    GGAGAGCTCT GTCGGCGCCG AGTTCTCCGG GAAGAACAGG AGCACAAGAC CAAAGATCCC
    AAGGAGAAGA ATACAAGCTC TGAGACCACC ATGGAGGAGG AGCTGGGGCT GGTTGGGGCA
    ACAGCAGATG ACACAGAGGC GGAACTCATC CGCGGCATCT GCGAGATGGA ACTGTTGGAC
    GGCAGACAGA CACTGGCTGC CTTCGTTCCA CTCTTGCTTC AAGTCTGCAA CAACCCAGGC
    CTCTATAGCA ACCCAGACCT CTCTGCAGCT GCTTCACTTG CCCTTGGCAA GTTCTGCATG
    ATCAGTGCCA CTTTCTGTGA CTCCCAGCTT CGTCTTCTGT TCACCATGCT GGAAAAGTCC
    CCACTTCCCA TTGTCCGGTC TAACCTCATG GTTGCCACTG GGGATCTGGC CATCCGCTTT
    CCCAATCTGG TGGACCCCTG GACTCCTCAT CTGTATGCTC GCCTCCGGGA CCCTGCTCAG
    CAAGTGCGGA AAACAGCGGG GCTGGTGATG ACCCACCTGA TCCTCAAGGA CATGGTGAAG
    GTGAAGGGGC AGGTGAGCGA GATGGCAGTG CTACTCATCG ACCCCGAGCC TCAGATTGCT
    GCCCTGGCCA AGAACTTCTT CAACGAGCTC TCCCACAAGG GCAACGCAAT CTATAATCTC
    CTTCCAGATA TCATCAGCCG CCTGTCAGAC CCCGAGCTGG GGGTGGAGGA AGAGCCTTTC
    CACACCATCA TGAAACAGCT CCTCTCCTAC ATCACCAAGG ACAAGCAGAC AGAGAGCCTG
    GTGGAAAAGC TGTGTCAGCG GTTCCGCACA GCCCGAACTG AGCGGCAGCA GCGAGACCTG
    GCCTACTGTG TGTCACAGCT GCCCCTCACA GAGCGAGGCC TCCGCAAGAT GCTTGACAAT
    TTTGACTGTT TTGGAGACAA ACTGTCAGAT GAGTCCATCT TCAGTGCTTT TTTGTCAGTT
    GTGGGCAAGC TGCGACGCTG GGCCAAGCCT GAGGGCAAGG CTGTAATAGA TGAATTTGAG
    CAGAAGCTTC GGGCCTGTCA TACCAGAGGT TTGGATGGGA TCGATGAGCT TGAGATTGGC
    CAGGCAGGTA GCCAGAGAGC CCCAGCAGCC AAGAGACCAT CCACTGTTTC TAGGCACCAA
    CCTCTGGCTT CTACAGCCTC AGACAATGAC TTTGTCACAC CGGAGCCCCG CCGTACTACC
    CGTCGGCATC CAAACACCCA GCAGCGAGCT TCCAAAAAGA AACCCAAAGT TGTCTTCTCA
    AGCGATGAGT CCAGTGAGGA AGATCTTTCA GCAGAGATGA CAGAAGACGA GACACCCAAG
    AAAACAACCC CCATTCTCAG AGCATCAGCT CGCAGGCGCA GACCCTAG

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

    RefSeq XP_015006378.2
    CDS153..3620
    Translation

    Target ORF information:

    RefSeq Version XM_015150892.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta non-SMC condensin I complex subunit D2 (NCAPD2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015150892.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGCTGCAGC ACTTTGAACA CCTGGCACCT GTACTGGTTG CAGCTGTGAG TCTATGGGCA 
    ACTGACTATG GAATGAAGAG CATAGTGGGA GAGATTGTAA GAGAGATTGG ACAAAAGTGT
    CCCCAAGAGC TGAGTCGAGA CCCTTCAGGG ACAAAGGGCT TTGCAGCATT CCTGACAGAA
    CTAGCAGAAC GTGTCCCAGC TATCCTGATG TCCAGCATGT GCATTTTGCT AGATCACCTG
    GATGGAGAGA ATTACATGAT GCGTAATGCT GTGCTAGCAG CCATGGCAGA GATGGTGCTG
    CAGGTTCTCA ATGGCGATCA ACTGGAAGCA GCAGCTCGAG ACACCAGAGA CCAATTCTTG
    GATACTTTAC AAGCCCATGG CCATGATGTC AACTCCTTTG TGCGGAGCCG TGTTTTGCAG
    CTTTTCACCC GAATTGTCCA GCAGAAGGCT CTCCCCTTGA CACGTTTCCA GGCAGTGGTG
    GCTTTAGCTG TGGGACGTCT GGCAGACAAG TCAGTGCTAG TATGTAAAAA TGCCATCCAG
    CTGCTGGCCA GTTTTCTAGC CAATAATCCT TTTTCCTGCA AGCTTAGTGA TACTGACCTT
    GCTGGACCAC TGCAGAAGGA GACCCAGAAA TTACAAGAGA TGAGGGCCCA GAGGCGAACT
    GCAGCATCTT CTGCGGTGCT GGACCCAGAG GAGGAGTGGG AAGCCATGCT GCCAGAGTTG
    AAGTCTACCC TGCAGCAGCT TCTACAGCTT CCCCAGGGAG AAGAGGAGAT TCCTGAGCGA
    ATTGCCAATA CAGAGACGAC TGAAGAGGTG AAAGGACGCA TCCATCAACT GCTTGCCAAA
    GCTAGTTACA AGCAGGCCAT CAGTCTCACT CGAGAAGCCA CAGGCCACTT CCAGGAGTCC
    GAACCCTTCA GTCATATAGA CCCAGAGGAG TCAGAGGAGA CCAGGCTCTT GAATATCTTA
    GGACTTATCT TCAAAGGCCC AGCAGCTTCC ACACAAGAAA AGAATCCCCA GGAGTCTGTA
    GGAAACATGG TCACAGGACA GACTGTCTGT AAAAATAAGC CCAGTGTGTT GGAGCCTGAG
    GAGTCCAGGG GAAGTGATGA ACTGGTGAAG CAGGAGATGC TGGTGCAGTA TCTGCAGGAT
    GCCTACAGCT TCTCCCGGAA GATTACAGCG GCCATTGGCA TTACCAGCAA GATGATGTAT
    GAAAACACAA CTACAGTGGT GCAGGAGGTG ATTGAATTCT TTGTGATGGT CTTCCAATTT
    GGGGTACCCC AGGCCCTGTT TGGGGTGCGC CGTATGCTGC CTCTCATCTG GTCTAAGGAG
    CCTGGTGTCC GGGAAGCTGT GCTTAATGCC TTCCGCCAAC TCTACCTCAA CCCCAAAGGG
    GACTCTGCCA GAGCCAAGGC CCAGGCTTTG ATTCAGAATC TCTCTCTGCT GCTAGTGGAT
    GCCTCGGTTG GGACCATTCA GTGTCTTGAG GAAATTCTCT GTGAGTTTGT GCGGAACGAT
    GAGTTGAAAC CAGCAGTGAC CCAGCTGCTG TGGGAGCGGG CCACCGAGAA GGTCGCCTGC
    TGTCCTCTGG AGCGCTGTTC CTCTGTCATG CTTCTTGGCA TGATGGCACG AGGAAAGCCA
    GAAATTGTGG GAAGCAATTT AGACACACTG GTGCGCATAG GGCTGGATGA GAAGTTTCCA
    CAGGACTACA GGCTGGCCCA GCAGGTGTGC CATGCCATTG CCAACATCTC TGACAGGAGA
    AAGCCTTCTC TGGGCAAACG TCAACCCCCC TTCCGGCTGC CTCAGGAACA CAGGTTGTTT
    GAGCGACTGC GGGAGACGGT CACAAAAGGC TTTGTCCACC CAGACCCACT GTGGATCCCA
    TTCAAAGAGG TGGCAGTGAC CCTCATTTAC CAACTGGCAG AGGGCCCCGA AGTGATCTGT
    GCCCAGATAT TGCAGGGCTG TGCAAAACAG GCCCTGGAGA AGCTAGAAGA GAAGAGAACC
    AGTCAGGAGG ACCTGAGGGA GTCCCCCGCA ATGCTCCCCA CTTTCCTGTT GATGAACCTG
    CTGTCCCTGG CTGGGGATGT GGCTCTGCAG CAGCTGGTCC ACTTGGAGCA GGCAGTGAGT
    GGAGAGCTCT GTCGGCGCCG AGTTCTCCGG GAAGAACAGG AGCACAAGAC CAAAGATCCC
    AAGGAGAAGA ATACAAGCTC TGAGACCACC ATGGAGGAGG AGCTGGGGCT GGTTGGGGCA
    ACAGCAGATG ACACAGAGGC GGAACTCATC CGCGGCATCT GCGAGATGGA ACTGTTGGAC
    GGCAGACAGA CACTGGCTGC CTTCGTTCCA CTCTTGCTTC AAGTCTGCAA CAACCCAGGC
    CTCTATAGCA ACCCAGACCT CTCTGCAGCT GCTTCACTTG CCCTTGGCAA GTTCTGCATG
    ATCAGTGCCA CTTTCTGTGA CTCCCAGCTT CGTCTTCTGT TCACCATGCT GGAAAAGTCC
    CCACTTCCCA TTGTCCGGTC TAACCTCATG GTTGCCACTG GGGATCTGGC CATCCGCTTT
    CCCAATCTGG TGGACCCCTG GACTCCTCAT CTGTATGCTC GCCTCCGGGA CCCTGCTCAG
    CAAGTGCGGA AAACAGCGGG GCTGGTGATG ACCCACCTGA TCCTCAAGGA CATGGTGAAG
    GTGAAGGGGC AGGTGAGCGA GATGGCAGTG CTACTCATCG ACCCCGAGCC TCAGATTGCT
    GCCCTGGCCA AGAACTTCTT CAACGAGCTC TCCCACAAGG GCAACGCAAT CTATAATCTC
    CTTCCAGATA TCATCAGCCG CCTGTCAGAC CCCGAGCTGG GGGTGGAGGA AGAGCCTTTC
    CACACCATCA TGAAACAGCT CCTCTCCTAC ATCACCAAGG ACAAGCAGAC AGAGAGCCTG
    GTGGAAAAGC TGTGTCAGCG GTTCCGCACA GCCCGAACTG AGCGGCAGCA GCGAGACCTG
    GCCTACTGTG TGTCACAGCT GCCCCTCACA GAGCGAGGCC TCCGCAAGAT GCTTGACAAT
    TTTGACTGTT TTGGAGACAA ACTGTCAGAT GAGTCCATCT TCAGTGCTTT TTTGTCAGTT
    GTGGGCAAGC TGCGACGCTG GGCCAAGCCT GAGGGCAAGG CTGTAATAGA TGAATTTGAG
    CAGAAGCTTC GGGCCTGTCA TACCAGAGGT TTGGATGGGA TCGATGAGCT TGAGATTGGC
    CAGGCAGGTA GCCAGAGAGC CCCAGCAGCC AAGAGACCAT CCACTGTTTC TAGGCACCAA
    CCTCTGGCTT CTACAGCCTC AGACAATGAC TTTGTCACAC CGGAGCCCCG CCGTACTACC
    CGTCGGCATC CAAACACCCA GCAGCGAGCT TCCAAAAAGA AACCCAAAGT TGTCTTCTCA
    AGCGATGAGT CCAGTGAGGA AGATCTTTCA GCAGAGATGA CAGAAGACGA GACACCCAAG
    AAAACAACCC CCATTCTCAG AGCATCAGCT CGCAGGCGCA GACCCTAG

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