ARHGAP29 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following ARHGAP29 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ARHGAP29 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
OMb25774 XM_015145380.1
Latest version!
Macaca mulatta Rho GTPase activating protein 29 (ARHGAP29), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMb25774 XM_001102926.3
Latest version!
Macaca mulatta Rho GTPase activating protein 29 (ARHGAP29), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMb25775 XM_015145387.1
Latest version!
Macaca mulatta Rho GTPase activating protein 29 (ARHGAP29), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMb60218 XM_001102926.4
Latest version!
Macaca mulatta Rho GTPase activating protein 29 (ARHGAP29), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb60219 XM_028831394.1
Latest version!
Macaca mulatta Rho GTPase activating protein 29 (ARHGAP29), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMb60220 XM_015145387.2
Latest version!
Macaca mulatta Rho GTPase activating protein 29 (ARHGAP29), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00

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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 OMb25774
    Clone ID Related Accession (Same CDS sequence) XM_001102926.3 , XM_015145380.1
    Accession Version XM_001102926.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3801bp)
    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 rho GTPase-activating protein 29 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804554.1) 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_001102926.2. ##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
    ATGATTGCTC ACAAACAGAA AAAGACAAAG AAAAAACGTG CTTGGGCATC AGGCCAACTC 
    TCTACTGATG TTACAGCTTC TGAAATGGGG CTCAAGTCCT TAAGTTCCAA CTCTATTTTT
    GATCCGGATT ACATCAAGGA GTTGGTGAAT GATATCAGGA AGTTCTCCCA CATGTTACTA
    TATTTGAAAG AAGCCATATT TTCAGACTGT TTTAAAGAAG TTATTCATAT ACGTCTAGAG
    GAACTGCTCC GTGTTTTAAA GTCTATAATG AATAAACATC AGAACCTCAA TTCTGTTGAT
    CTTCAAAATG CTGCAGAAAT GCTCACTGCA AAAGTGAAAG CTGTGAACTT CACAGAAGTT
    AATGAAGAAA ACAAAAACGA TGTCTTCCAG GAAGTGTTTT CTTCTATTGA AACTTTGGCA
    TTTACCTTTG GAAATATCCT TACAAACTTC CTTATGGGAG ATGTAGGCAA TGATTCATTA
    TTGCGACTGC CTGTTTCTCG AGAAACTAAG TCGTTTGAAA ATGTTTCTGT GGAATCAGTG
    GACTCATCCA GTGAAAAAGG AAATTTTTCC CCTTTAGAAC TAGACAATGT GCTGTTAAAG
    AACACTGACT CTATAGAGTT GGCTTTGTCA TATGCTAAAA CTTGGTCAAA ATATACTAAG
    AACATAGTTT CATGGGTTGA AAAAAAGCTT AACTTGGAAT TGGAGTCCAC TAGAAATATG
    GTCAAGTTGG CAGAGGCAAC TAGAACTAAC ATTGGAGTTC AGGAGTTCAT GCCACTGCAG
    TCTCTGTTTA CTAATGCTCT TCTTAATGAT ATAGAGAGCA GTCATCTTTT ACAACAAACA
    ATTGCAGCTC TCCAGGCTAA CAAATTTGTA CAGCCTCTAC TTGGGAGGAA AAATGAAATG
    GAAAAACAAA GGAAAGAAAT AAAAGAACTT TGGAAACAGG AGCAAAATAA AATGCTTGAA
    GCAGAGAATG CTCTCAAAAA GGCAAAATTA TTATGCATGC AACGTCAAGA TGAATATGAG
    AAAGCAAAGT CTTCCATGTT TCGTGCAGAA GAGGAGCATC TGTCTTCAAG TGGTGCATTA
    GCAAAAAACC TCAACAAGCA ACTAGAAAAA AAGCGAAGAT TGGAAGAGGA GGCTCTCCAA
    AAAGTAGAAG AAGCAAGTGA ACTTTACAAA GTTTGTGTGA CAAATGTTGA AGAAAGAAGA
    AATGATCTAG AAAATACCAA AAGAGAAATT TTAACACAAC TCCGGACACT TGTTTTCCAG
    TGTGATCTTA CCCTTAAAGC TGTAACAGTT AACCTCTTCA ACATGCAGCA TCTGCAGGCT
    GCTTCCCTTG CAGACAGTTT ACAGTCTCTC TGTGATAGTG CCAAACTCTA TGACCCAGGC
    CAAGAGTACA GTGAATTTGT CAAGGCCACA AATTCAACTG AAGAAGACAA AGTTGATGGA
    AATGTAAATA AGCATTTAAA TAGTTCCCAA ACTTCTGAAT TTGGACCTGC CAACTCTTTA
    GAGGATGTTG TACGCCTTCC TGACAGTTCT AATAAAATTG AAGAGGACAG ATGCTCTAAC
    AGTGCAGATA TAACAGGTCC TTCCTTTATA AGATCGTGGA CATTTGGGAT GTTTAGTGAC
    TCTGAGAGTA CTGGAGGGAG CAGCGAATCT AGATCTCTGG ATTCAGAATC TATAAGTCCA
    GGAGACTTTC ATCGAAAACT TCCACGAACA CCATCCAGTG GAACTATGTC CTCTGCGGAT
    GATCTAGATG AAAGAGAGCC ATCTTCCCCT TCAGAAACTG GACCCAATTC CCTTGGAACA
    TTTAAGAAAA CATTGATGTC AAAGGCAGCT CTCACACACA AGTTTCGCAA ATTGAGATCC
    CCCACGAAAT GTAGGGATTG TGAAGGCATT GTAGTGTTCC AAGGTGTTGA ATGTGAAGAG
    TGTCTCCTTG TTTGTCATCG AAAGTGTTTG GAAAATTTAG TCATTATTTG CGGTCATCAG
    AAACTTCCAG GAAAAATACA ATTATTTGGA GCAGAATTCA CACAAGTTGC AAAAAAGGAA
    CCAGATGGTA TCCCTTTTAT ACTCAAAATA TGTGCCTCAG AGATTGAAAA TAGAGCTTTG
    TGTCTACAGG GAATTTATCG TGTGTGTGGA AACAAAATAA AGACTGAAAA ACTGTGTCAA
    GCTTTGGAAA ATGGAATGCA CTTGGTAGAC ATTTCAGAAT TTAGTTCACA TGATATCTGT
    GACGTCTTGA AATTATACCT TCGGCAGCTC CCAGAACCAT TTATTTTATT TCGATTGTAC
    AAGGAATTTA TAGACCTTGC AAAAGAGATC CAGCATGTAA ATGAAGAGCA AGAGGCAAAA
    AAGGATAGTC TTGAAGACAA AAAATGGCCA AATATGTGTA TAGAAATAAA CCGAATTCTT
    CTAAAAATCA AAGACCTTCT AAGACAATTG CCAGCATCAA ATTTTAACAG TCTTCATTTC
    CTTATAGTAC ATCTAAAGCG GGTAGTAGAT CATGCAGAAG AAAACAAGAT GAACTCCAAA
    AACTTGGGGG TGATATTTGG ACCAAGTCTC ATCAGGCCAA GGCCCACAAC TGCTCCTATC
    ACCATCTCCT CCCTTGCCGA GTATTCAAAC CAAGCACGCT TGGTGGAGTT CCTCATTACT
    CACTCACAGA AGATCTTCGA TGGGGCCCTA CAGCCGCAAG ATGTCATGTG TAGCACAGGT
    GTTTTTTCAC CTCAGGTTGA TCAAGGCTGT TTTCCAAAGC CTCTGTTATC ACCAGAAGAA
    AGAGACCCTG AACGTTCCAT GAAGTCACTA TTTTTTCCTT CAAAGGAAGA TATCCATACT
    TCAGAGAGTG AAAGCAAAAT TTTTGAACGA GCTACATCAT TTGAGGAGTC AGAACGCAAG
    CAAAATGCGT TAGAAAAATG GGATGCATGT CTCAGTGACA AAGCACAGTT GCTTCTAGAC
    CAGGAGGTTG AATCAGCATC CCAAAAGACA GAAGATGGTA AAACCCCTAA GCCACTTTCT
    CTGAAATCTG ATAGGTCATC AGCAAACTGT GTGGAAAGGC ATACTCCAAG GACCAAGATT
    AGACCTGTAA GTTTGCCTAT AGATAGACTA CTTCTTGCAA GCCCTCCTAA GGAGAGAAAT
    GGTAGAAATA TGGGAAATGT AAATTTAGAC AAGTTTTGCA AGAATCCTGC CTTTGAAGGA
    GTTAATAGAA AAGACACTGC TACTACTGTT TGTTCCAAAT TTAATGGCTT TGACCAGCAA
    ACTCTACAAA AAATTCAGGA CAAACAGTAT GAACAAAACA GTCTAACTGC CAAGACTACA
    ATGATCGTGC CCATTGCACT CCAGGAAAAA GGAGTGACAA CAAGCCTCCA GATTAGTGGG
    GACCATTCTG TCAATGCCAC TCAGCCCAGT AAGCCATACA CAGAGCCAGT CAGGTCAGTG
    AGAGAGGCGT CTGAGAGACG GTCTTCGGAT TCCTACCCTC TCGCTCCTGT CAGAGCACCC
    AGAACACTGC AGCCTCAACA TTGGACAACA TTTTATAAAC CACATGCTCC CGCCATCAGT
    ATCAGGGGGA ATGAGGAGAA GCCAGCTTCA CCTTCAGCAG CAGTGCCTCC TGGCACAGCT
    CACGATCCCC AGGGTCTCAT GGTGAAGTCA AGGCCGGACC CAGACAAAGC ATCAGCTTGT
    CCTGGGCAGG CAACTGGTCA ACCTAAAGAA GACTCTGAGG AGCTTGGCTT GCCTGATGTG
    AATCCAACAT GTCAGAGACC AAAGCTAAAA CGAATGCAAC AGTTTGAAGA CCTCGAAGAT
    GAAATTCCAC AATTTGTATA G

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

    RefSeq XP_001102926.2
    CDS352..4152
    Translation

    Target ORF information:

    RefSeq Version XM_001102926.3
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta Rho GTPase activating protein 29 (ARHGAP29), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001102926.3

    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
    ATGATTGCTC ACAAACAGAA AAAGACAAAG AAAAAACGTG CTTGGGCATC AGGCCAACTC 
    TCTACTGATG TTACAGCTTC TGAAATGGGG CTCAAGTCCT TAAGTTCCAA CTCTATTTTT
    GATCCGGATT ACATCAAGGA GTTGGTGAAT GATATCAGGA AGTTCTCCCA CATGTTACTA
    TATTTGAAAG AAGCCATATT TTCAGACTGT TTTAAAGAAG TTATTCATAT ACGTCTAGAG
    GAACTGCTCC GTGTTTTAAA GTCTATAATG AATAAACATC AGAACCTCAA TTCTGTTGAT
    CTTCAAAATG CTGCAGAAAT GCTCACTGCA AAAGTGAAAG CTGTGAACTT CACAGAAGTT
    AATGAAGAAA ACAAAAACGA TGTCTTCCAG GAAGTGTTTT CTTCTATTGA AACTTTGGCA
    TTTACCTTTG GAAATATCCT TACAAACTTC CTTATGGGAG ATGTAGGCAA TGATTCATTA
    TTGCGACTGC CTGTTTCTCG AGAAACTAAG TCGTTTGAAA ATGTTTCTGT GGAATCAGTG
    GACTCATCCA GTGAAAAAGG AAATTTTTCC CCTTTAGAAC TAGACAATGT GCTGTTAAAG
    AACACTGACT CTATAGAGTT GGCTTTGTCA TATGCTAAAA CTTGGTCAAA ATATACTAAG
    AACATAGTTT CATGGGTTGA AAAAAAGCTT AACTTGGAAT TGGAGTCCAC TAGAAATATG
    GTCAAGTTGG CAGAGGCAAC TAGAACTAAC ATTGGAGTTC AGGAGTTCAT GCCACTGCAG
    TCTCTGTTTA CTAATGCTCT TCTTAATGAT ATAGAGAGCA GTCATCTTTT ACAACAAACA
    ATTGCAGCTC TCCAGGCTAA CAAATTTGTA CAGCCTCTAC TTGGGAGGAA AAATGAAATG
    GAAAAACAAA GGAAAGAAAT AAAAGAACTT TGGAAACAGG AGCAAAATAA AATGCTTGAA
    GCAGAGAATG CTCTCAAAAA GGCAAAATTA TTATGCATGC AACGTCAAGA TGAATATGAG
    AAAGCAAAGT CTTCCATGTT TCGTGCAGAA GAGGAGCATC TGTCTTCAAG TGGTGCATTA
    GCAAAAAACC TCAACAAGCA ACTAGAAAAA AAGCGAAGAT TGGAAGAGGA GGCTCTCCAA
    AAAGTAGAAG AAGCAAGTGA ACTTTACAAA GTTTGTGTGA CAAATGTTGA AGAAAGAAGA
    AATGATCTAG AAAATACCAA AAGAGAAATT TTAACACAAC TCCGGACACT TGTTTTCCAG
    TGTGATCTTA CCCTTAAAGC TGTAACAGTT AACCTCTTCA ACATGCAGCA TCTGCAGGCT
    GCTTCCCTTG CAGACAGTTT ACAGTCTCTC TGTGATAGTG CCAAACTCTA TGACCCAGGC
    CAAGAGTACA GTGAATTTGT CAAGGCCACA AATTCAACTG AAGAAGACAA AGTTGATGGA
    AATGTAAATA AGCATTTAAA TAGTTCCCAA ACTTCTGAAT TTGGACCTGC CAACTCTTTA
    GAGGATGTTG TACGCCTTCC TGACAGTTCT AATAAAATTG AAGAGGACAG ATGCTCTAAC
    AGTGCAGATA TAACAGGTCC TTCCTTTATA AGATCGTGGA CATTTGGGAT GTTTAGTGAC
    TCTGAGAGTA CTGGAGGGAG CAGCGAATCT AGATCTCTGG ATTCAGAATC TATAAGTCCA
    GGAGACTTTC ATCGAAAACT TCCACGAACA CCATCCAGTG GAACTATGTC CTCTGCGGAT
    GATCTAGATG AAAGAGAGCC ATCTTCCCCT TCAGAAACTG GACCCAATTC CCTTGGAACA
    TTTAAGAAAA CATTGATGTC AAAGGCAGCT CTCACACACA AGTTTCGCAA ATTGAGATCC
    CCCACGAAAT GTAGGGATTG TGAAGGCATT GTAGTGTTCC AAGGTGTTGA ATGTGAAGAG
    TGTCTCCTTG TTTGTCATCG AAAGTGTTTG GAAAATTTAG TCATTATTTG CGGTCATCAG
    AAACTTCCAG GAAAAATACA ATTATTTGGA GCAGAATTCA CACAAGTTGC AAAAAAGGAA
    CCAGATGGTA TCCCTTTTAT ACTCAAAATA TGTGCCTCAG AGATTGAAAA TAGAGCTTTG
    TGTCTACAGG GAATTTATCG TGTGTGTGGA AACAAAATAA AGACTGAAAA ACTGTGTCAA
    GCTTTGGAAA ATGGAATGCA CTTGGTAGAC ATTTCAGAAT TTAGTTCACA TGATATCTGT
    GACGTCTTGA AATTATACCT TCGGCAGCTC CCAGAACCAT TTATTTTATT TCGATTGTAC
    AAGGAATTTA TAGACCTTGC AAAAGAGATC CAGCATGTAA ATGAAGAGCA AGAGGCAAAA
    AAGGATAGTC TTGAAGACAA AAAATGGCCA AATATGTGTA TAGAAATAAA CCGAATTCTT
    CTAAAAATCA AAGACCTTCT AAGACAATTG CCAGCATCAA ATTTTAACAG TCTTCATTTC
    CTTATAGTAC ATCTAAAGCG GGTAGTAGAT CATGCAGAAG AAAACAAGAT GAACTCCAAA
    AACTTGGGGG TGATATTTGG ACCAAGTCTC ATCAGGCCAA GGCCCACAAC TGCTCCTATC
    ACCATCTCCT CCCTTGCCGA GTATTCAAAC CAAGCACGCT TGGTGGAGTT CCTCATTACT
    CACTCACAGA AGATCTTCGA TGGGGCCCTA CAGCCGCAAG ATGTCATGTG TAGCACAGGT
    GTTTTTTCAC CTCAGGTTGA TCAAGGCTGT TTTCCAAAGC CTCTGTTATC ACCAGAAGAA
    AGAGACCCTG AACGTTCCAT GAAGTCACTA TTTTTTCCTT CAAAGGAAGA TATCCATACT
    TCAGAGAGTG AAAGCAAAAT TTTTGAACGA GCTACATCAT TTGAGGAGTC AGAACGCAAG
    CAAAATGCGT TAGAAAAATG GGATGCATGT CTCAGTGACA AAGCACAGTT GCTTCTAGAC
    CAGGAGGTTG AATCAGCATC CCAAAAGACA GAAGATGGTA AAACCCCTAA GCCACTTTCT
    CTGAAATCTG ATAGGTCATC AGCAAACTGT GTGGAAAGGC ATACTCCAAG GACCAAGATT
    AGACCTGTAA GTTTGCCTAT AGATAGACTA CTTCTTGCAA GCCCTCCTAA GGAGAGAAAT
    GGTAGAAATA TGGGAAATGT AAATTTAGAC AAGTTTTGCA AGAATCCTGC CTTTGAAGGA
    GTTAATAGAA AAGACACTGC TACTACTGTT TGTTCCAAAT TTAATGGCTT TGACCAGCAA
    ACTCTACAAA AAATTCAGGA CAAACAGTAT GAACAAAACA GTCTAACTGC CAAGACTACA
    ATGATCGTGC CCATTGCACT CCAGGAAAAA GGAGTGACAA CAAGCCTCCA GATTAGTGGG
    GACCATTCTG TCAATGCCAC TCAGCCCAGT AAGCCATACA CAGAGCCAGT CAGGTCAGTG
    AGAGAGGCGT CTGAGAGACG GTCTTCGGAT TCCTACCCTC TCGCTCCTGT CAGAGCACCC
    AGAACACTGC AGCCTCAACA TTGGACAACA TTTTATAAAC CACATGCTCC CGCCATCAGT
    ATCAGGGGGA ATGAGGAGAA GCCAGCTTCA CCTTCAGCAG CAGTGCCTCC TGGCACAGCT
    CACGATCCCC AGGGTCTCAT GGTGAAGTCA AGGCCGGACC CAGACAAAGC ATCAGCTTGT
    CCTGGGCAGG CAACTGGTCA ACCTAAAGAA GACTCTGAGG AGCTTGGCTT GCCTGATGTG
    AATCCAACAT GTCAGAGACC AAAGCTAAAA CGAATGCAAC AGTTTGAAGA CCTCGAAGAT
    GAAATTCCAC AATTTGTATA G

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

    CloneID OMb25774
    Clone ID Related Accession (Same CDS sequence) XM_001102926.3 , XM_015145380.1
    Accession Version XM_015145380.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3801bp)
    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 rho GTPase-activating protein 29 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804554.1) 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
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGATTGCTC ACAAACAGAA AAAGACAAAG AAAAAACGTG CTTGGGCATC AGGCCAACTC 
    TCTACTGATG TTACAGCTTC TGAAATGGGG CTCAAGTCCT TAAGTTCCAA CTCTATTTTT
    GATCCGGATT ACATCAAGGA GTTGGTGAAT GATATCAGGA AGTTCTCCCA CATGTTACTA
    TATTTGAAAG AAGCCATATT TTCAGACTGT TTTAAAGAAG TTATTCATAT ACGTCTAGAG
    GAACTGCTCC GTGTTTTAAA GTCTATAATG AATAAACATC AGAACCTCAA TTCTGTTGAT
    CTTCAAAATG CTGCAGAAAT GCTCACTGCA AAAGTGAAAG CTGTGAACTT CACAGAAGTT
    AATGAAGAAA ACAAAAACGA TGTCTTCCAG GAAGTGTTTT CTTCTATTGA AACTTTGGCA
    TTTACCTTTG GAAATATCCT TACAAACTTC CTTATGGGAG ATGTAGGCAA TGATTCATTA
    TTGCGACTGC CTGTTTCTCG AGAAACTAAG TCGTTTGAAA ATGTTTCTGT GGAATCAGTG
    GACTCATCCA GTGAAAAAGG AAATTTTTCC CCTTTAGAAC TAGACAATGT GCTGTTAAAG
    AACACTGACT CTATAGAGTT GGCTTTGTCA TATGCTAAAA CTTGGTCAAA ATATACTAAG
    AACATAGTTT CATGGGTTGA AAAAAAGCTT AACTTGGAAT TGGAGTCCAC TAGAAATATG
    GTCAAGTTGG CAGAGGCAAC TAGAACTAAC ATTGGAGTTC AGGAGTTCAT GCCACTGCAG
    TCTCTGTTTA CTAATGCTCT TCTTAATGAT ATAGAGAGCA GTCATCTTTT ACAACAAACA
    ATTGCAGCTC TCCAGGCTAA CAAATTTGTA CAGCCTCTAC TTGGGAGGAA AAATGAAATG
    GAAAAACAAA GGAAAGAAAT AAAAGAACTT TGGAAACAGG AGCAAAATAA AATGCTTGAA
    GCAGAGAATG CTCTCAAAAA GGCAAAATTA TTATGCATGC AACGTCAAGA TGAATATGAG
    AAAGCAAAGT CTTCCATGTT TCGTGCAGAA GAGGAGCATC TGTCTTCAAG TGGTGCATTA
    GCAAAAAACC TCAACAAGCA ACTAGAAAAA AAGCGAAGAT TGGAAGAGGA GGCTCTCCAA
    AAAGTAGAAG AAGCAAGTGA ACTTTACAAA GTTTGTGTGA CAAATGTTGA AGAAAGAAGA
    AATGATCTAG AAAATACCAA AAGAGAAATT TTAACACAAC TCCGGACACT TGTTTTCCAG
    TGTGATCTTA CCCTTAAAGC TGTAACAGTT AACCTCTTCA ACATGCAGCA TCTGCAGGCT
    GCTTCCCTTG CAGACAGTTT ACAGTCTCTC TGTGATAGTG CCAAACTCTA TGACCCAGGC
    CAAGAGTACA GTGAATTTGT CAAGGCCACA AATTCAACTG AAGAAGACAA AGTTGATGGA
    AATGTAAATA AGCATTTAAA TAGTTCCCAA ACTTCTGAAT TTGGACCTGC CAACTCTTTA
    GAGGATGTTG TACGCCTTCC TGACAGTTCT AATAAAATTG AAGAGGACAG ATGCTCTAAC
    AGTGCAGATA TAACAGGTCC TTCCTTTATA AGATCGTGGA CATTTGGGAT GTTTAGTGAC
    TCTGAGAGTA CTGGAGGGAG CAGCGAATCT AGATCTCTGG ATTCAGAATC TATAAGTCCA
    GGAGACTTTC ATCGAAAACT TCCACGAACA CCATCCAGTG GAACTATGTC CTCTGCGGAT
    GATCTAGATG AAAGAGAGCC ATCTTCCCCT TCAGAAACTG GACCCAATTC CCTTGGAACA
    TTTAAGAAAA CATTGATGTC AAAGGCAGCT CTCACACACA AGTTTCGCAA ATTGAGATCC
    CCCACGAAAT GTAGGGATTG TGAAGGCATT GTAGTGTTCC AAGGTGTTGA ATGTGAAGAG
    TGTCTCCTTG TTTGTCATCG AAAGTGTTTG GAAAATTTAG TCATTATTTG CGGTCATCAG
    AAACTTCCAG GAAAAATACA ATTATTTGGA GCAGAATTCA CACAAGTTGC AAAAAAGGAA
    CCAGATGGTA TCCCTTTTAT ACTCAAAATA TGTGCCTCAG AGATTGAAAA TAGAGCTTTG
    TGTCTACAGG GAATTTATCG TGTGTGTGGA AACAAAATAA AGACTGAAAA ACTGTGTCAA
    GCTTTGGAAA ATGGAATGCA CTTGGTAGAC ATTTCAGAAT TTAGTTCACA TGATATCTGT
    GACGTCTTGA AATTATACCT TCGGCAGCTC CCAGAACCAT TTATTTTATT TCGATTGTAC
    AAGGAATTTA TAGACCTTGC AAAAGAGATC CAGCATGTAA ATGAAGAGCA AGAGGCAAAA
    AAGGATAGTC TTGAAGACAA AAAATGGCCA AATATGTGTA TAGAAATAAA CCGAATTCTT
    CTAAAAATCA AAGACCTTCT AAGACAATTG CCAGCATCAA ATTTTAACAG TCTTCATTTC
    CTTATAGTAC ATCTAAAGCG GGTAGTAGAT CATGCAGAAG AAAACAAGAT GAACTCCAAA
    AACTTGGGGG TGATATTTGG ACCAAGTCTC ATCAGGCCAA GGCCCACAAC TGCTCCTATC
    ACCATCTCCT CCCTTGCCGA GTATTCAAAC CAAGCACGCT TGGTGGAGTT CCTCATTACT
    CACTCACAGA AGATCTTCGA TGGGGCCCTA CAGCCGCAAG ATGTCATGTG TAGCACAGGT
    GTTTTTTCAC CTCAGGTTGA TCAAGGCTGT TTTCCAAAGC CTCTGTTATC ACCAGAAGAA
    AGAGACCCTG AACGTTCCAT GAAGTCACTA TTTTTTCCTT CAAAGGAAGA TATCCATACT
    TCAGAGAGTG AAAGCAAAAT TTTTGAACGA GCTACATCAT TTGAGGAGTC AGAACGCAAG
    CAAAATGCGT TAGAAAAATG GGATGCATGT CTCAGTGACA AAGCACAGTT GCTTCTAGAC
    CAGGAGGTTG AATCAGCATC CCAAAAGACA GAAGATGGTA AAACCCCTAA GCCACTTTCT
    CTGAAATCTG ATAGGTCATC AGCAAACTGT GTGGAAAGGC ATACTCCAAG GACCAAGATT
    AGACCTGTAA GTTTGCCTAT AGATAGACTA CTTCTTGCAA GCCCTCCTAA GGAGAGAAAT
    GGTAGAAATA TGGGAAATGT AAATTTAGAC AAGTTTTGCA AGAATCCTGC CTTTGAAGGA
    GTTAATAGAA AAGACACTGC TACTACTGTT TGTTCCAAAT TTAATGGCTT TGACCAGCAA
    ACTCTACAAA AAATTCAGGA CAAACAGTAT GAACAAAACA GTCTAACTGC CAAGACTACA
    ATGATCGTGC CCATTGCACT CCAGGAAAAA GGAGTGACAA CAAGCCTCCA GATTAGTGGG
    GACCATTCTG TCAATGCCAC TCAGCCCAGT AAGCCATACA CAGAGCCAGT CAGGTCAGTG
    AGAGAGGCGT CTGAGAGACG GTCTTCGGAT TCCTACCCTC TCGCTCCTGT CAGAGCACCC
    AGAACACTGC AGCCTCAACA TTGGACAACA TTTTATAAAC CACATGCTCC CGCCATCAGT
    ATCAGGGGGA ATGAGGAGAA GCCAGCTTCA CCTTCAGCAG CAGTGCCTCC TGGCACAGCT
    CACGATCCCC AGGGTCTCAT GGTGAAGTCA AGGCCGGACC CAGACAAAGC ATCAGCTTGT
    CCTGGGCAGG CAACTGGTCA ACCTAAAGAA GACTCTGAGG AGCTTGGCTT GCCTGATGTG
    AATCCAACAT GTCAGAGACC AAAGCTAAAA CGAATGCAAC AGTTTGAAGA CCTCGAAGAT
    GAAATTCCAC AATTTGTATA G

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

    RefSeq XP_015000866.1
    CDS1412..5212
    Translation

    Target ORF information:

    RefSeq Version XM_015145380.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta Rho GTPase activating protein 29 (ARHGAP29), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015145380.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGATTGCTC ACAAACAGAA AAAGACAAAG AAAAAACGTG CTTGGGCATC AGGCCAACTC 
    TCTACTGATG TTACAGCTTC TGAAATGGGG CTCAAGTCCT TAAGTTCCAA CTCTATTTTT
    GATCCGGATT ACATCAAGGA GTTGGTGAAT GATATCAGGA AGTTCTCCCA CATGTTACTA
    TATTTGAAAG AAGCCATATT TTCAGACTGT TTTAAAGAAG TTATTCATAT ACGTCTAGAG
    GAACTGCTCC GTGTTTTAAA GTCTATAATG AATAAACATC AGAACCTCAA TTCTGTTGAT
    CTTCAAAATG CTGCAGAAAT GCTCACTGCA AAAGTGAAAG CTGTGAACTT CACAGAAGTT
    AATGAAGAAA ACAAAAACGA TGTCTTCCAG GAAGTGTTTT CTTCTATTGA AACTTTGGCA
    TTTACCTTTG GAAATATCCT TACAAACTTC CTTATGGGAG ATGTAGGCAA TGATTCATTA
    TTGCGACTGC CTGTTTCTCG AGAAACTAAG TCGTTTGAAA ATGTTTCTGT GGAATCAGTG
    GACTCATCCA GTGAAAAAGG AAATTTTTCC CCTTTAGAAC TAGACAATGT GCTGTTAAAG
    AACACTGACT CTATAGAGTT GGCTTTGTCA TATGCTAAAA CTTGGTCAAA ATATACTAAG
    AACATAGTTT CATGGGTTGA AAAAAAGCTT AACTTGGAAT TGGAGTCCAC TAGAAATATG
    GTCAAGTTGG CAGAGGCAAC TAGAACTAAC ATTGGAGTTC AGGAGTTCAT GCCACTGCAG
    TCTCTGTTTA CTAATGCTCT TCTTAATGAT ATAGAGAGCA GTCATCTTTT ACAACAAACA
    ATTGCAGCTC TCCAGGCTAA CAAATTTGTA CAGCCTCTAC TTGGGAGGAA AAATGAAATG
    GAAAAACAAA GGAAAGAAAT AAAAGAACTT TGGAAACAGG AGCAAAATAA AATGCTTGAA
    GCAGAGAATG CTCTCAAAAA GGCAAAATTA TTATGCATGC AACGTCAAGA TGAATATGAG
    AAAGCAAAGT CTTCCATGTT TCGTGCAGAA GAGGAGCATC TGTCTTCAAG TGGTGCATTA
    GCAAAAAACC TCAACAAGCA ACTAGAAAAA AAGCGAAGAT TGGAAGAGGA GGCTCTCCAA
    AAAGTAGAAG AAGCAAGTGA ACTTTACAAA GTTTGTGTGA CAAATGTTGA AGAAAGAAGA
    AATGATCTAG AAAATACCAA AAGAGAAATT TTAACACAAC TCCGGACACT TGTTTTCCAG
    TGTGATCTTA CCCTTAAAGC TGTAACAGTT AACCTCTTCA ACATGCAGCA TCTGCAGGCT
    GCTTCCCTTG CAGACAGTTT ACAGTCTCTC TGTGATAGTG CCAAACTCTA TGACCCAGGC
    CAAGAGTACA GTGAATTTGT CAAGGCCACA AATTCAACTG AAGAAGACAA AGTTGATGGA
    AATGTAAATA AGCATTTAAA TAGTTCCCAA ACTTCTGAAT TTGGACCTGC CAACTCTTTA
    GAGGATGTTG TACGCCTTCC TGACAGTTCT AATAAAATTG AAGAGGACAG ATGCTCTAAC
    AGTGCAGATA TAACAGGTCC TTCCTTTATA AGATCGTGGA CATTTGGGAT GTTTAGTGAC
    TCTGAGAGTA CTGGAGGGAG CAGCGAATCT AGATCTCTGG ATTCAGAATC TATAAGTCCA
    GGAGACTTTC ATCGAAAACT TCCACGAACA CCATCCAGTG GAACTATGTC CTCTGCGGAT
    GATCTAGATG AAAGAGAGCC ATCTTCCCCT TCAGAAACTG GACCCAATTC CCTTGGAACA
    TTTAAGAAAA CATTGATGTC AAAGGCAGCT CTCACACACA AGTTTCGCAA ATTGAGATCC
    CCCACGAAAT GTAGGGATTG TGAAGGCATT GTAGTGTTCC AAGGTGTTGA ATGTGAAGAG
    TGTCTCCTTG TTTGTCATCG AAAGTGTTTG GAAAATTTAG TCATTATTTG CGGTCATCAG
    AAACTTCCAG GAAAAATACA ATTATTTGGA GCAGAATTCA CACAAGTTGC AAAAAAGGAA
    CCAGATGGTA TCCCTTTTAT ACTCAAAATA TGTGCCTCAG AGATTGAAAA TAGAGCTTTG
    TGTCTACAGG GAATTTATCG TGTGTGTGGA AACAAAATAA AGACTGAAAA ACTGTGTCAA
    GCTTTGGAAA ATGGAATGCA CTTGGTAGAC ATTTCAGAAT TTAGTTCACA TGATATCTGT
    GACGTCTTGA AATTATACCT TCGGCAGCTC CCAGAACCAT TTATTTTATT TCGATTGTAC
    AAGGAATTTA TAGACCTTGC AAAAGAGATC CAGCATGTAA ATGAAGAGCA AGAGGCAAAA
    AAGGATAGTC TTGAAGACAA AAAATGGCCA AATATGTGTA TAGAAATAAA CCGAATTCTT
    CTAAAAATCA AAGACCTTCT AAGACAATTG CCAGCATCAA ATTTTAACAG TCTTCATTTC
    CTTATAGTAC ATCTAAAGCG GGTAGTAGAT CATGCAGAAG AAAACAAGAT GAACTCCAAA
    AACTTGGGGG TGATATTTGG ACCAAGTCTC ATCAGGCCAA GGCCCACAAC TGCTCCTATC
    ACCATCTCCT CCCTTGCCGA GTATTCAAAC CAAGCACGCT TGGTGGAGTT CCTCATTACT
    CACTCACAGA AGATCTTCGA TGGGGCCCTA CAGCCGCAAG ATGTCATGTG TAGCACAGGT
    GTTTTTTCAC CTCAGGTTGA TCAAGGCTGT TTTCCAAAGC CTCTGTTATC ACCAGAAGAA
    AGAGACCCTG AACGTTCCAT GAAGTCACTA TTTTTTCCTT CAAAGGAAGA TATCCATACT
    TCAGAGAGTG AAAGCAAAAT TTTTGAACGA GCTACATCAT TTGAGGAGTC AGAACGCAAG
    CAAAATGCGT TAGAAAAATG GGATGCATGT CTCAGTGACA AAGCACAGTT GCTTCTAGAC
    CAGGAGGTTG AATCAGCATC CCAAAAGACA GAAGATGGTA AAACCCCTAA GCCACTTTCT
    CTGAAATCTG ATAGGTCATC AGCAAACTGT GTGGAAAGGC ATACTCCAAG GACCAAGATT
    AGACCTGTAA GTTTGCCTAT AGATAGACTA CTTCTTGCAA GCCCTCCTAA GGAGAGAAAT
    GGTAGAAATA TGGGAAATGT AAATTTAGAC AAGTTTTGCA AGAATCCTGC CTTTGAAGGA
    GTTAATAGAA AAGACACTGC TACTACTGTT TGTTCCAAAT TTAATGGCTT TGACCAGCAA
    ACTCTACAAA AAATTCAGGA CAAACAGTAT GAACAAAACA GTCTAACTGC CAAGACTACA
    ATGATCGTGC CCATTGCACT CCAGGAAAAA GGAGTGACAA CAAGCCTCCA GATTAGTGGG
    GACCATTCTG TCAATGCCAC TCAGCCCAGT AAGCCATACA CAGAGCCAGT CAGGTCAGTG
    AGAGAGGCGT CTGAGAGACG GTCTTCGGAT TCCTACCCTC TCGCTCCTGT CAGAGCACCC
    AGAACACTGC AGCCTCAACA TTGGACAACA TTTTATAAAC CACATGCTCC CGCCATCAGT
    ATCAGGGGGA ATGAGGAGAA GCCAGCTTCA CCTTCAGCAG CAGTGCCTCC TGGCACAGCT
    CACGATCCCC AGGGTCTCAT GGTGAAGTCA AGGCCGGACC CAGACAAAGC ATCAGCTTGT
    CCTGGGCAGG CAACTGGTCA ACCTAAAGAA GACTCTGAGG AGCTTGGCTT GCCTGATGTG
    AATCCAACAT GTCAGAGACC AAAGCTAAAA CGAATGCAAC AGTTTGAAGA CCTCGAAGAT
    GAAATTCCAC AATTTGTATA G

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

    CloneID OMb25775
    Clone ID Related Accession (Same CDS sequence) XM_015145387.1
    Accession Version XM_015145387.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3534bp)
    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 rho GTPase-activating protein 29 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804554.1) 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
    3481
    ATGAATAAAC ATCAGAACCT CAATTCTGTT GATCTTCAAA ATGCTGCAGA AATGCTCACT 
    GCAAAAGTGA AAGCTGTGAA CTTCACAGAA GTTAATGAAG AAAACAAAAA CGATGTCTTC
    CAGGAAGTGT TTTCTTCTAT TGAAACTTTG GCATTTACCT TTGGAAATAT CCTTACAAAC
    TTCCTTATGG GAGATGTAGG CAATGATTCA TTATTGCGAC TGCCTGTTTC TCGAGAAACT
    AAGTCGTTTG AAAATGTTTC TGTGGAATCA GTGGACTCAT CCAGTGAAAA AGGAAATTTT
    TCCCCTTTAG AACTAGACAA TGTGCTGTTA AAGAACACTG ACTCTATAGA GTTGGCTTTG
    TCATATGCTA AAACTTGGTC AAAATATACT AAGAACATAG TTTCATGGGT TGAAAAAAAG
    CTTAACTTGG AATTGGAGTC CACTAGAAAT ATGGTCAAGT TGGCAGAGGC AACTAGAACT
    AACATTGGAG TTCAGGAGTT CATGCCACTG CAGTCTCTGT TTACTAATGC TCTTCTTAAT
    GATATAGAGA GCAGTCATCT TTTACAACAA ACAATTGCAG CTCTCCAGGC TAACAAATTT
    GTACAGCCTC TACTTGGGAG GAAAAATGAA ATGGAAAAAC AAAGGAAAGA AATAAAAGAA
    CTTTGGAAAC AGGAGCAAAA TAAAATGCTT GAAGCAGAGA ATGCTCTCAA AAAGGCAAAA
    TTATTATGCA TGCAACGTCA AGATGAATAT GAGAAAGCAA AGTCTTCCAT GTTTCGTGCA
    GAAGAGGAGC ATCTGTCTTC AAGTGGTGCA TTAGCAAAAA ACCTCAACAA GCAACTAGAA
    AAAAAGCGAA GATTGGAAGA GGAGGCTCTC CAAAAAGTAG AAGAAGCAAG TGAACTTTAC
    AAAGTTTGTG TGACAAATGT TGAAGAAAGA AGAAATGATC TAGAAAATAC CAAAAGAGAA
    ATTTTAACAC AACTCCGGAC ACTTGTTTTC CAGTGTGATC TTACCCTTAA AGCTGTAACA
    GTTAACCTCT TCAACATGCA GCATCTGCAG GCTGCTTCCC TTGCAGACAG TTTACAGTCT
    CTCTGTGATA GTGCCAAACT CTATGACCCA GGCCAAGAGT ACAGTGAATT TGTCAAGGCC
    ACAAATTCAA CTGAAGAAGA CAAAGTTGAT GGAAATGTAA ATAAGCATTT AAATAGTTCC
    CAAACTTCTG AATTTGGACC TGCCAACTCT TTAGAGGATG TTGTACGCCT TCCTGACAGT
    TCTAATAAAA TTGAAGAGGA CAGATGCTCT AACAGTGCAG ATATAACAGG TCCTTCCTTT
    ATAAGATCGT GGACATTTGG GATGTTTAGT GACTCTGAGA GTACTGGAGG GAGCAGCGAA
    TCTAGATCTC TGGATTCAGA ATCTATAAGT CCAGGAGACT TTCATCGAAA ACTTCCACGA
    ACACCATCCA GTGGAACTAT GTCCTCTGCG GATGATCTAG ATGAAAGAGA GCCATCTTCC
    CCTTCAGAAA CTGGACCCAA TTCCCTTGGA ACATTTAAGA AAACATTGAT GTCAAAGGCA
    GCTCTCACAC ACAAGTTTCG CAAATTGAGA TCCCCCACGA AATGTAGGGA TTGTGAAGGC
    ATTGTAGTGT TCCAAGGTGT TGAATGTGAA GAGTGTCTCC TTGTTTGTCA TCGAAAGTGT
    TTGGAAAATT TAGTCATTAT TTGCGGTCAT CAGAAACTTC CAGGAAAAAT ACAATTATTT
    GGAGCAGAAT TCACACAAGT TGCAAAAAAG GAACCAGATG GTATCCCTTT TATACTCAAA
    ATATGTGCCT CAGAGATTGA AAATAGAGCT TTGTGTCTAC AGGGAATTTA TCGTGTGTGT
    GGAAACAAAA TAAAGACTGA AAAACTGTGT CAAGCTTTGG AAAATGGAAT GCACTTGGTA
    GACATTTCAG AATTTAGTTC ACATGATATC TGTGACGTCT TGAAATTATA CCTTCGGCAG
    CTCCCAGAAC CATTTATTTT ATTTCGATTG TACAAGGAAT TTATAGACCT TGCAAAAGAG
    ATCCAGCATG TAAATGAAGA GCAAGAGGCA AAAAAGGATA GTCTTGAAGA CAAAAAATGG
    CCAAATATGT GTATAGAAAT AAACCGAATT CTTCTAAAAA TCAAAGACCT TCTAAGACAA
    TTGCCAGCAT CAAATTTTAA CAGTCTTCAT TTCCTTATAG TACATCTAAA GCGGGTAGTA
    GATCATGCAG AAGAAAACAA GATGAACTCC AAAAACTTGG GGGTGATATT TGGACCAAGT
    CTCATCAGGC CAAGGCCCAC AACTGCTCCT ATCACCATCT CCTCCCTTGC CGAGTATTCA
    AACCAAGCAC GCTTGGTGGA GTTCCTCATT ACTCACTCAC AGAAGATCTT CGATGGGGCC
    CTACAGCCGC AAGATGTCAT GTGTAGCACA GGTGTTTTTT CACCTCAGGT TGATCAAGGC
    TGTTTTCCAA AGCCTCTGTT ATCACCAGAA GAAAGAGACC CTGAACGTTC CATGAAGTCA
    CTATTTTTTC CTTCAAAGGA AGATATCCAT ACTTCAGAGA GTGAAAGCAA AATTTTTGAA
    CGAGCTACAT CATTTGAGGA GTCAGAACGC AAGCAAAATG CGTTAGAAAA ATGGGATGCA
    TGTCTCAGTG ACAAAGCACA GTTGCTTCTA GACCAGGAGG TTGAATCAGC ATCCCAAAAG
    ACAGAAGATG GTAAAACCCC TAAGCCACTT TCTCTGAAAT CTGATAGGTC ATCAGCAAAC
    TGTGTGGAAA GGCATACTCC AAGGACCAAG ATTAGACCTG TAAGTTTGCC TATAGATAGA
    CTACTTCTTG CAAGCCCTCC TAAGGAGAGA AATGGTAGAA ATATGGGAAA TGTAAATTTA
    GACAAGTTTT GCAAGAATCC TGCCTTTGAA GGAGTTAATA GAAAAGACAC TGCTACTACT
    GTTTGTTCCA AATTTAATGG CTTTGACCAG CAAACTCTAC AAAAAATTCA GGACAAACAG
    TATGAACAAA ACAGTCTAAC TGCCAAGACT ACAATGATCG TGCCCATTGC ACTCCAGGAA
    AAAGGAGTGA CAACAAGCCT CCAGATTAGT GGGGACCATT CTGTCAATGC CACTCAGCCC
    AGTAAGCCAT ACACAGAGCC AGTCAGGTCA GTGAGAGAGG CGTCTGAGAG ACGGTCTTCG
    GATTCCTACC CTCTCGCTCC TGTCAGAGCA CCCAGAACAC TGCAGCCTCA ACATTGGACA
    ACATTTTATA AACCACATGC TCCCGCCATC AGTATCAGGG GGAATGAGGA GAAGCCAGCT
    TCACCTTCAG CAGCAGTGCC TCCTGGCACA GCTCACGATC CCCAGGGTCT CATGGTGAAG
    TCAAGGCCGG ACCCAGACAA AGCATCAGCT TGTCCTGGGC AGGCAACTGG TCAACCTAAA
    GAAGACTCTG AGGAGCTTGG CTTGCCTGAT GTGAATCCAA CATGTCAGAG ACCAAAGCTA
    AAACGAATGC AACAGTTTGA AGACCTCGAA GATGAAATTC CACAATTTGT ATAG

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

    RefSeq XP_015000873.1
    CDS262..3795
    Translation

    Target ORF information:

    RefSeq Version XM_015145387.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta Rho GTPase activating protein 29 (ARHGAP29), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015145387.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGAATAAAC ATCAGAACCT CAATTCTGTT GATCTTCAAA ATGCTGCAGA AATGCTCACT 
    GCAAAAGTGA AAGCTGTGAA CTTCACAGAA GTTAATGAAG AAAACAAAAA CGATGTCTTC
    CAGGAAGTGT TTTCTTCTAT TGAAACTTTG GCATTTACCT TTGGAAATAT CCTTACAAAC
    TTCCTTATGG GAGATGTAGG CAATGATTCA TTATTGCGAC TGCCTGTTTC TCGAGAAACT
    AAGTCGTTTG AAAATGTTTC TGTGGAATCA GTGGACTCAT CCAGTGAAAA AGGAAATTTT
    TCCCCTTTAG AACTAGACAA TGTGCTGTTA AAGAACACTG ACTCTATAGA GTTGGCTTTG
    TCATATGCTA AAACTTGGTC AAAATATACT AAGAACATAG TTTCATGGGT TGAAAAAAAG
    CTTAACTTGG AATTGGAGTC CACTAGAAAT ATGGTCAAGT TGGCAGAGGC AACTAGAACT
    AACATTGGAG TTCAGGAGTT CATGCCACTG CAGTCTCTGT TTACTAATGC TCTTCTTAAT
    GATATAGAGA GCAGTCATCT TTTACAACAA ACAATTGCAG CTCTCCAGGC TAACAAATTT
    GTACAGCCTC TACTTGGGAG GAAAAATGAA ATGGAAAAAC AAAGGAAAGA AATAAAAGAA
    CTTTGGAAAC AGGAGCAAAA TAAAATGCTT GAAGCAGAGA ATGCTCTCAA AAAGGCAAAA
    TTATTATGCA TGCAACGTCA AGATGAATAT GAGAAAGCAA AGTCTTCCAT GTTTCGTGCA
    GAAGAGGAGC ATCTGTCTTC AAGTGGTGCA TTAGCAAAAA ACCTCAACAA GCAACTAGAA
    AAAAAGCGAA GATTGGAAGA GGAGGCTCTC CAAAAAGTAG AAGAAGCAAG TGAACTTTAC
    AAAGTTTGTG TGACAAATGT TGAAGAAAGA AGAAATGATC TAGAAAATAC CAAAAGAGAA
    ATTTTAACAC AACTCCGGAC ACTTGTTTTC CAGTGTGATC TTACCCTTAA AGCTGTAACA
    GTTAACCTCT TCAACATGCA GCATCTGCAG GCTGCTTCCC TTGCAGACAG TTTACAGTCT
    CTCTGTGATA GTGCCAAACT CTATGACCCA GGCCAAGAGT ACAGTGAATT TGTCAAGGCC
    ACAAATTCAA CTGAAGAAGA CAAAGTTGAT GGAAATGTAA ATAAGCATTT AAATAGTTCC
    CAAACTTCTG AATTTGGACC TGCCAACTCT TTAGAGGATG TTGTACGCCT TCCTGACAGT
    TCTAATAAAA TTGAAGAGGA CAGATGCTCT AACAGTGCAG ATATAACAGG TCCTTCCTTT
    ATAAGATCGT GGACATTTGG GATGTTTAGT GACTCTGAGA GTACTGGAGG GAGCAGCGAA
    TCTAGATCTC TGGATTCAGA ATCTATAAGT CCAGGAGACT TTCATCGAAA ACTTCCACGA
    ACACCATCCA GTGGAACTAT GTCCTCTGCG GATGATCTAG ATGAAAGAGA GCCATCTTCC
    CCTTCAGAAA CTGGACCCAA TTCCCTTGGA ACATTTAAGA AAACATTGAT GTCAAAGGCA
    GCTCTCACAC ACAAGTTTCG CAAATTGAGA TCCCCCACGA AATGTAGGGA TTGTGAAGGC
    ATTGTAGTGT TCCAAGGTGT TGAATGTGAA GAGTGTCTCC TTGTTTGTCA TCGAAAGTGT
    TTGGAAAATT TAGTCATTAT TTGCGGTCAT CAGAAACTTC CAGGAAAAAT ACAATTATTT
    GGAGCAGAAT TCACACAAGT TGCAAAAAAG GAACCAGATG GTATCCCTTT TATACTCAAA
    ATATGTGCCT CAGAGATTGA AAATAGAGCT TTGTGTCTAC AGGGAATTTA TCGTGTGTGT
    GGAAACAAAA TAAAGACTGA AAAACTGTGT CAAGCTTTGG AAAATGGAAT GCACTTGGTA
    GACATTTCAG AATTTAGTTC ACATGATATC TGTGACGTCT TGAAATTATA CCTTCGGCAG
    CTCCCAGAAC CATTTATTTT ATTTCGATTG TACAAGGAAT TTATAGACCT TGCAAAAGAG
    ATCCAGCATG TAAATGAAGA GCAAGAGGCA AAAAAGGATA GTCTTGAAGA CAAAAAATGG
    CCAAATATGT GTATAGAAAT AAACCGAATT CTTCTAAAAA TCAAAGACCT TCTAAGACAA
    TTGCCAGCAT CAAATTTTAA CAGTCTTCAT TTCCTTATAG TACATCTAAA GCGGGTAGTA
    GATCATGCAG AAGAAAACAA GATGAACTCC AAAAACTTGG GGGTGATATT TGGACCAAGT
    CTCATCAGGC CAAGGCCCAC AACTGCTCCT ATCACCATCT CCTCCCTTGC CGAGTATTCA
    AACCAAGCAC GCTTGGTGGA GTTCCTCATT ACTCACTCAC AGAAGATCTT CGATGGGGCC
    CTACAGCCGC AAGATGTCAT GTGTAGCACA GGTGTTTTTT CACCTCAGGT TGATCAAGGC
    TGTTTTCCAA AGCCTCTGTT ATCACCAGAA GAAAGAGACC CTGAACGTTC CATGAAGTCA
    CTATTTTTTC CTTCAAAGGA AGATATCCAT ACTTCAGAGA GTGAAAGCAA AATTTTTGAA
    CGAGCTACAT CATTTGAGGA GTCAGAACGC AAGCAAAATG CGTTAGAAAA ATGGGATGCA
    TGTCTCAGTG ACAAAGCACA GTTGCTTCTA GACCAGGAGG TTGAATCAGC ATCCCAAAAG
    ACAGAAGATG GTAAAACCCC TAAGCCACTT TCTCTGAAAT CTGATAGGTC ATCAGCAAAC
    TGTGTGGAAA GGCATACTCC AAGGACCAAG ATTAGACCTG TAAGTTTGCC TATAGATAGA
    CTACTTCTTG CAAGCCCTCC TAAGGAGAGA AATGGTAGAA ATATGGGAAA TGTAAATTTA
    GACAAGTTTT GCAAGAATCC TGCCTTTGAA GGAGTTAATA GAAAAGACAC TGCTACTACT
    GTTTGTTCCA AATTTAATGG CTTTGACCAG CAAACTCTAC AAAAAATTCA GGACAAACAG
    TATGAACAAA ACAGTCTAAC TGCCAAGACT ACAATGATCG TGCCCATTGC ACTCCAGGAA
    AAAGGAGTGA CAACAAGCCT CCAGATTAGT GGGGACCATT CTGTCAATGC CACTCAGCCC
    AGTAAGCCAT ACACAGAGCC AGTCAGGTCA GTGAGAGAGG CGTCTGAGAG ACGGTCTTCG
    GATTCCTACC CTCTCGCTCC TGTCAGAGCA CCCAGAACAC TGCAGCCTCA ACATTGGACA
    ACATTTTATA AACCACATGC TCCCGCCATC AGTATCAGGG GGAATGAGGA GAAGCCAGCT
    TCACCTTCAG CAGCAGTGCC TCCTGGCACA GCTCACGATC CCCAGGGTCT CATGGTGAAG
    TCAAGGCCGG ACCCAGACAA AGCATCAGCT TGTCCTGGGC AGGCAACTGG TCAACCTAAA
    GAAGACTCTG AGGAGCTTGG CTTGCCTGAT GTGAATCCAA CATGTCAGAG ACCAAAGCTA
    AAACGAATGC AACAGTTTGA AGACCTCGAA GATGAAATTC CACAATTTGT ATAG

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

    CloneID OMb60218
    Clone ID Related Accession (Same CDS sequence) XM_001102926.4
    Accession Version XM_001102926.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3801bp)
    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 rho GTPase-activating protein 29 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) 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_001102926.3. ##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
    ATGATTGCTC ACAAACAGAA AAAGACAAAG AAAAAACGTG CTTGGGCATC AGGCCAACTC 
    TCTACTGATG TTACAGCTTC TGAAATGGGG CTCAAGTCCT TAAGTTCCAA CTCTATTTTT
    GATCCGGATT ACATCAAGGA GTTGGTGAAT GATATCAGGA AGTTCTCCCA CATGTTACTA
    TATTTGAAAG AAGCCATATT TTCAGACTGT TTTAAAGAAG TTATTCATAT ACGTCTAGAG
    GAACTGCTCC GTGTTTTAAA GTCTATAATG AATAAACATC AGAACCTCAA TTCTGTTGAT
    CTTCAAAATG CTGCAGAAAT GCTCACTGCA AAAGTGAAAG CTGTGAACTT CACAGAAGTT
    AATGAAGAAA ACAAAAACGA TGTCTTCCAG GAAGTGTTTT CTTCTATTGA AACTTTGGCA
    TTTACCTTTG GAAATATCCT TACAAACTTC CTTATGGGAG ATGTAGGCAA TGATTCATTA
    TTGCGACTGC CTGTTTCTCG AGAAACTAAG TCGTTTGAAA ATGTTTCTGT GGAATCAGTG
    GACTCATCCA GTGAAAAAGG AAATTTTTCC CCTTTAGAAC TAGACAATGT GCTGTTAAAG
    AACACTGACT CTATAGAGTT GGCTTTGTCA TATGCTAAAA CTTGGTCAAA ATATACTAAG
    AACATAGTTT CATGGGTTGA AAAAAAGCTT AACTTGGAAT TGGAGTCCAC TAGAAATATG
    GTCAAGTTGG CAGAGGCAAC TAGAACTAAC ATTGGAATTC AGGAGTTCAT GCCACTGCAG
    TCTCTGTTTA CTAATGCTCT TCTTAATGAT ATAGAGAGCA GTCATCTTTT ACAACAAACA
    ATTGCAGCTC TCCAGGCTAA CAAATTTGTA CAGCCTCTAC TTGGGAGGAA AAATGAAATG
    GAAAAACAAA GGAAAGAAAT AAAAGAACTT TGGAAACAGG AGCAAAATAA AATGCTTGAA
    GCAGAGAATG CTCTCAAAAA GGCAAAATTA TTATGCATGC AACGTCAAGA TGAATATGAG
    AAAGCAAAGT CTTCCATGTT TCGTGCAGAA GAGGAGCATC TGTCTTCAAG TGGTGCATTA
    GCAAAAAACC TCAACAAGCA ACTAGAAAAA AAGCGAAGAT TGGAAGAGGA GGCTCTCCAA
    AAAGTAGAAG AAGCAAGTGA ACTTTACAAA GTTTGTGTGA CAAATGTTGA AGAAAGAAGA
    AATGATCTAG AAAATACCAA AAGAGAAATT TTAACACAAC TCCGGACACT TGTTTTCCAG
    TGTGATCTTA CCCTTAAAGC TGTAACAGTT AACCTCTTCA ACATGCAGCA TCTGCAGGCT
    GCTTCCCTTG CAGACAGTTT ACAGTCTCTC TGTGATAGTG CCAAACTCTA TGACCCAGGC
    CAAGAGTACA GTGAATTTGT CAAGGCCACA AATTCAACTG AAGAAGACAA AGTTGATGGA
    AATGTAAATA AGCATTTAAA TAGTTCCCAA ACTTCTGAAT TTGGACCTGC CAACTCTTTA
    GAGGATGTTG TACGCCTTCC TGACAGTTCT AATAAAATTG AAGAGGACAG ATGCTCTAAC
    AGTGCAGATA TAACAGGTCC TTCCTTTATA AGATCGTGGA CATTTGGGAT GTTTAGTGAC
    TCTGAGAGTA CTGGAGGGAG CAGCGAATCT AGATCTCTGG ATTCAGAATC TATAAGTCCA
    GGAGACTTTC ATCGAAAACT TCCACGAACA CCATCCAGTG GAACTATGTC CTCTGCGGAT
    GATCTAGATG AAAGAGAGCC ATCTTCCCCT TCAGAAACTG GACCCAATTC CCTTGGAACA
    TTTAAGAAAA CATTGATGTC AAAGGCAGCT CTCACACACA AGTTTCGCAA ATTGAGATCC
    CCCACGAAAT GTAGGGATTG TGAAGGCATT GTAGTGTTCC AAGGTGTTGA ATGTGAAGAG
    TGTCTCCTTG TTTGTCATCG AAAGTGTTTG GAAAATTTAG TCATTATTTG CGGTCATCAG
    AAACTTCCAG GAAAAATACA ATTATTTGGA GCAGAATTCA CACAAGTTGC AAAAAAGGAA
    CCAGATGGTA TCCCTTTTAT ACTCAAAATA TGTGCCTCAG AGATTGAAAA TAGAGCTTTG
    TGTCTACAGG GAATTTATCG TGTGTGTGGA AACAAAATAA AGACTGAAAA ACTGTGTCAA
    GCTTTGGAAA ATGGAATGCA CTTGGTAGAC ATTTCAGAAT TTAGTTCACA TGATATCTGT
    GACGTCTTGA AATTATACCT TCGGCAGCTC CCAGAACCAT TTATTTTATT TCGATTGTAC
    AAGGAATTTA TAGACCTTGC AAAAGAGATC CAGCATGTAA ATGAAGAGCA AGAGGCAAAA
    AAGGATAGTC TTGAAGACAA AAAATGGCCA AATATGTGTA TAGAAATAAA CCGAATTCTT
    CTAAAAATCA AAGACCTTCT AAGACAATTG CCAGCATCAA ATTTTAACAG TCTTCATTTC
    CTTATAGTAC ATCTAAAGCG GGTAGTAGAT CATGCAGAAG AAAACAAGAT GAACTCCAAA
    AACTTGGGGG TGATATTTGG ACCAAGTCTC ATCAGGCCAA GGCCCACAAC TGCTCCTATC
    ACCATCTCCT CCCTTGCCGA GTATTCAAAC CAAGCACGCT TGGTGGAGTT CCTCATTACT
    CACTCACAGA AGATCTTCGA TGGGGCCCTA CAGCCGCAAG ATGTCATGTG TAGCACAGGT
    GTTTTTTCAC CTCAGGTTGA TCAAGGCTGT TTTCCAAAGC CTCTGTTATC ACCAGAAGAA
    AGAGACCCTG AACGTTCCAT GAAGTCACTA TTTTTTCCTT CAAAGGAAGA TATCCATACT
    TCAGAGAGTG AAAGCAAAAT TTTTGAACGA CCTACATCAT TTGAGGAGTC AGAACGCAAG
    CAAAATGCGT TAGAAAAATG GGATGCATGT CTCAGTGACA AAGCACAGTT GCTTCTAGAC
    CAGGAGGTTG AATCAGCATC CCAAAAGACA GAAGATGGTA AAACCCCTAA GCCACTTTCT
    CTGAAATCTG ATAGGTCATC AACAAACTGT GTGGAGAGGC ATACTCCAAG GACCAAGATT
    AGACCTGTAA GTTTGCCTAT AGATAGACTA CTTCTTGCAA GCCCTCCTAA GGAGAGAAAT
    GGTAGAAATA TGGGAAATGT AAATTTAGAC AAGTTTTGCA AGAATCCTGC CTTTGAAGGA
    GTTAATAGAA AAGACACTGC TACTACTGTT TGTTCCAAAT TTAATGGCTT TGACCAGCAA
    ACTCTACAAA AAATTCAGGA CAAACAGTAT GAACAAAACA GTCTAACTGC CAAGACTACA
    ATGATCGTGC CCAGTGCACT CCAGGAAAAA GGAGTGACAA CAAGCCTCCA GATTAGTGGG
    GACCATTCTG TCAATGCCAC TCAGCCCAGT AAGCCATACA CAGAGCCAGT CAGGTCAGTG
    AGAGAGGCGT CTGAGAGACG GTCTTCGGAT TCCTACCCTC TCGCTCCTGT CAGAGCACCC
    AGAACACTGC AGCCTCAACA TTGGACAACA TTTTATAAAC CACATGCTCC CGCCATCAGT
    ATCAGGGGGA ATGAGGAGAA GCCAGCTTCA CCCTCAGCAG CAGTGCCTCC TGGCACAGCT
    CACGATCCCC AGGGTCTCAT GGTGAAGTCA AGGCCGGACC CAGACAAAGC ATCAGCTTGT
    CCTGGGCAGG CAACTGGTCA ACCTAAAGAA GACTCTGAGG AGCTTGGCTT GCCTGATGTG
    AATCCAACAT GTCAGAGACC AAAGCTAAAA CGAATGCAAC AGTTTGAAGA CCTCGAAGAT
    GAAATTCCAC AATTTGTGTA G

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

    RefSeq XP_001102926.3
    CDS346..4146
    Translation

    Target ORF information:

    RefSeq Version XM_001102926.4
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta Rho GTPase activating protein 29 (ARHGAP29), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_001102926.4

    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
    ATGATTGCTC ACAAACAGAA AAAGACAAAG AAAAAACGTG CTTGGGCATC AGGCCAACTC 
    TCTACTGATG TTACAGCTTC TGAAATGGGG CTCAAGTCCT TAAGTTCCAA CTCTATTTTT
    GATCCGGATT ACATCAAGGA GTTGGTGAAT GATATCAGGA AGTTCTCCCA CATGTTACTA
    TATTTGAAAG AAGCCATATT TTCAGACTGT TTTAAAGAAG TTATTCATAT ACGTCTAGAG
    GAACTGCTCC GTGTTTTAAA GTCTATAATG AATAAACATC AGAACCTCAA TTCTGTTGAT
    CTTCAAAATG CTGCAGAAAT GCTCACTGCA AAAGTGAAAG CTGTGAACTT CACAGAAGTT
    AATGAAGAAA ACAAAAACGA TGTCTTCCAG GAAGTGTTTT CTTCTATTGA AACTTTGGCA
    TTTACCTTTG GAAATATCCT TACAAACTTC CTTATGGGAG ATGTAGGCAA TGATTCATTA
    TTGCGACTGC CTGTTTCTCG AGAAACTAAG TCGTTTGAAA ATGTTTCTGT GGAATCAGTG
    GACTCATCCA GTGAAAAAGG AAATTTTTCC CCTTTAGAAC TAGACAATGT GCTGTTAAAG
    AACACTGACT CTATAGAGTT GGCTTTGTCA TATGCTAAAA CTTGGTCAAA ATATACTAAG
    AACATAGTTT CATGGGTTGA AAAAAAGCTT AACTTGGAAT TGGAGTCCAC TAGAAATATG
    GTCAAGTTGG CAGAGGCAAC TAGAACTAAC ATTGGAATTC AGGAGTTCAT GCCACTGCAG
    TCTCTGTTTA CTAATGCTCT TCTTAATGAT ATAGAGAGCA GTCATCTTTT ACAACAAACA
    ATTGCAGCTC TCCAGGCTAA CAAATTTGTA CAGCCTCTAC TTGGGAGGAA AAATGAAATG
    GAAAAACAAA GGAAAGAAAT AAAAGAACTT TGGAAACAGG AGCAAAATAA AATGCTTGAA
    GCAGAGAATG CTCTCAAAAA GGCAAAATTA TTATGCATGC AACGTCAAGA TGAATATGAG
    AAAGCAAAGT CTTCCATGTT TCGTGCAGAA GAGGAGCATC TGTCTTCAAG TGGTGCATTA
    GCAAAAAACC TCAACAAGCA ACTAGAAAAA AAGCGAAGAT TGGAAGAGGA GGCTCTCCAA
    AAAGTAGAAG AAGCAAGTGA ACTTTACAAA GTTTGTGTGA CAAATGTTGA AGAAAGAAGA
    AATGATCTAG AAAATACCAA AAGAGAAATT TTAACACAAC TCCGGACACT TGTTTTCCAG
    TGTGATCTTA CCCTTAAAGC TGTAACAGTT AACCTCTTCA ACATGCAGCA TCTGCAGGCT
    GCTTCCCTTG CAGACAGTTT ACAGTCTCTC TGTGATAGTG CCAAACTCTA TGACCCAGGC
    CAAGAGTACA GTGAATTTGT CAAGGCCACA AATTCAACTG AAGAAGACAA AGTTGATGGA
    AATGTAAATA AGCATTTAAA TAGTTCCCAA ACTTCTGAAT TTGGACCTGC CAACTCTTTA
    GAGGATGTTG TACGCCTTCC TGACAGTTCT AATAAAATTG AAGAGGACAG ATGCTCTAAC
    AGTGCAGATA TAACAGGTCC TTCCTTTATA AGATCGTGGA CATTTGGGAT GTTTAGTGAC
    TCTGAGAGTA CTGGAGGGAG CAGCGAATCT AGATCTCTGG ATTCAGAATC TATAAGTCCA
    GGAGACTTTC ATCGAAAACT TCCACGAACA CCATCCAGTG GAACTATGTC CTCTGCGGAT
    GATCTAGATG AAAGAGAGCC ATCTTCCCCT TCAGAAACTG GACCCAATTC CCTTGGAACA
    TTTAAGAAAA CATTGATGTC AAAGGCAGCT CTCACACACA AGTTTCGCAA ATTGAGATCC
    CCCACGAAAT GTAGGGATTG TGAAGGCATT GTAGTGTTCC AAGGTGTTGA ATGTGAAGAG
    TGTCTCCTTG TTTGTCATCG AAAGTGTTTG GAAAATTTAG TCATTATTTG CGGTCATCAG
    AAACTTCCAG GAAAAATACA ATTATTTGGA GCAGAATTCA CACAAGTTGC AAAAAAGGAA
    CCAGATGGTA TCCCTTTTAT ACTCAAAATA TGTGCCTCAG AGATTGAAAA TAGAGCTTTG
    TGTCTACAGG GAATTTATCG TGTGTGTGGA AACAAAATAA AGACTGAAAA ACTGTGTCAA
    GCTTTGGAAA ATGGAATGCA CTTGGTAGAC ATTTCAGAAT TTAGTTCACA TGATATCTGT
    GACGTCTTGA AATTATACCT TCGGCAGCTC CCAGAACCAT TTATTTTATT TCGATTGTAC
    AAGGAATTTA TAGACCTTGC AAAAGAGATC CAGCATGTAA ATGAAGAGCA AGAGGCAAAA
    AAGGATAGTC TTGAAGACAA AAAATGGCCA AATATGTGTA TAGAAATAAA CCGAATTCTT
    CTAAAAATCA AAGACCTTCT AAGACAATTG CCAGCATCAA ATTTTAACAG TCTTCATTTC
    CTTATAGTAC ATCTAAAGCG GGTAGTAGAT CATGCAGAAG AAAACAAGAT GAACTCCAAA
    AACTTGGGGG TGATATTTGG ACCAAGTCTC ATCAGGCCAA GGCCCACAAC TGCTCCTATC
    ACCATCTCCT CCCTTGCCGA GTATTCAAAC CAAGCACGCT TGGTGGAGTT CCTCATTACT
    CACTCACAGA AGATCTTCGA TGGGGCCCTA CAGCCGCAAG ATGTCATGTG TAGCACAGGT
    GTTTTTTCAC CTCAGGTTGA TCAAGGCTGT TTTCCAAAGC CTCTGTTATC ACCAGAAGAA
    AGAGACCCTG AACGTTCCAT GAAGTCACTA TTTTTTCCTT CAAAGGAAGA TATCCATACT
    TCAGAGAGTG AAAGCAAAAT TTTTGAACGA CCTACATCAT TTGAGGAGTC AGAACGCAAG
    CAAAATGCGT TAGAAAAATG GGATGCATGT CTCAGTGACA AAGCACAGTT GCTTCTAGAC
    CAGGAGGTTG AATCAGCATC CCAAAAGACA GAAGATGGTA AAACCCCTAA GCCACTTTCT
    CTGAAATCTG ATAGGTCATC AACAAACTGT GTGGAGAGGC ATACTCCAAG GACCAAGATT
    AGACCTGTAA GTTTGCCTAT AGATAGACTA CTTCTTGCAA GCCCTCCTAA GGAGAGAAAT
    GGTAGAAATA TGGGAAATGT AAATTTAGAC AAGTTTTGCA AGAATCCTGC CTTTGAAGGA
    GTTAATAGAA AAGACACTGC TACTACTGTT TGTTCCAAAT TTAATGGCTT TGACCAGCAA
    ACTCTACAAA AAATTCAGGA CAAACAGTAT GAACAAAACA GTCTAACTGC CAAGACTACA
    ATGATCGTGC CCAGTGCACT CCAGGAAAAA GGAGTGACAA CAAGCCTCCA GATTAGTGGG
    GACCATTCTG TCAATGCCAC TCAGCCCAGT AAGCCATACA CAGAGCCAGT CAGGTCAGTG
    AGAGAGGCGT CTGAGAGACG GTCTTCGGAT TCCTACCCTC TCGCTCCTGT CAGAGCACCC
    AGAACACTGC AGCCTCAACA TTGGACAACA TTTTATAAAC CACATGCTCC CGCCATCAGT
    ATCAGGGGGA ATGAGGAGAA GCCAGCTTCA CCCTCAGCAG CAGTGCCTCC TGGCACAGCT
    CACGATCCCC AGGGTCTCAT GGTGAAGTCA AGGCCGGACC CAGACAAAGC ATCAGCTTGT
    CCTGGGCAGG CAACTGGTCA ACCTAAAGAA GACTCTGAGG AGCTTGGCTT GCCTGATGTG
    AATCCAACAT GTCAGAGACC AAAGCTAAAA CGAATGCAAC AGTTTGAAGA CCTCGAAGAT
    GAAATTCCAC AATTTGTGTA G

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

    CloneID OMb60219
    Clone ID Related Accession (Same CDS sequence) XM_028831394.1
    Accession Version XM_028831394.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3609bp)
    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 rho GTPase-activating protein 29 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) 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
    3361
    3421
    3481
    3541
    3601
    ATGGAGCGCC GTGACTGTTT TAAAGAAGTT ATTCATATAC GTCTAGAGGA ACTGCTCCGT 
    GTTTTAAAGT CTATAATGAA TAAACATCAG AACCTCAATT CTGTTGATCT TCAAAATGCT
    GCAGAAATGC TCACTGCAAA AGTGAAAGCT GTGAACTTCA CAGAAGTTAA TGAAGAAAAC
    AAAAACGATG TCTTCCAGGA AGTGTTTTCT TCTATTGAAA CTTTGGCATT TACCTTTGGA
    AATATCCTTA CAAACTTCCT TATGGGAGAT GTAGGCAATG ATTCATTATT GCGACTGCCT
    GTTTCTCGAG AAACTAAGTC GTTTGAAAAT GTTTCTGTGG AATCAGTGGA CTCATCCAGT
    GAAAAAGGAA ATTTTTCCCC TTTAGAACTA GACAATGTGC TGTTAAAGAA CACTGACTCT
    ATAGAGTTGG CTTTGTCATA TGCTAAAACT TGGTCAAAAT ATACTAAGAA CATAGTTTCA
    TGGGTTGAAA AAAAGCTTAA CTTGGAATTG GAGTCCACTA GAAATATGGT CAAGTTGGCA
    GAGGCAACTA GAACTAACAT TGGAATTCAG GAGTTCATGC CACTGCAGTC TCTGTTTACT
    AATGCTCTTC TTAATGATAT AGAGAGCAGT CATCTTTTAC AACAAACAAT TGCAGCTCTC
    CAGGCTAACA AATTTGTACA GCCTCTACTT GGGAGGAAAA ATGAAATGGA AAAACAAAGG
    AAAGAAATAA AAGAACTTTG GAAACAGGAG CAAAATAAAA TGCTTGAAGC AGAGAATGCT
    CTCAAAAAGG CAAAATTATT ATGCATGCAA CGTCAAGATG AATATGAGAA AGCAAAGTCT
    TCCATGTTTC GTGCAGAAGA GGAGCATCTG TCTTCAAGTG GTGCATTAGC AAAAAACCTC
    AACAAGCAAC TAGAAAAAAA GCGAAGATTG GAAGAGGAGG CTCTCCAAAA AGTAGAAGAA
    GCAAGTGAAC TTTACAAAGT TTGTGTGACA AATGTTGAAG AAAGAAGAAA TGATCTAGAA
    AATACCAAAA GAGAAATTTT AACACAACTC CGGACACTTG TTTTCCAGTG TGATCTTACC
    CTTAAAGCTG TAACAGTTAA CCTCTTCAAC ATGCAGCATC TGCAGGCTGC TTCCCTTGCA
    GACAGTTTAC AGTCTCTCTG TGATAGTGCC AAACTCTATG ACCCAGGCCA AGAGTACAGT
    GAATTTGTCA AGGCCACAAA TTCAACTGAA GAAGACAAAG TTGATGGAAA TGTAAATAAG
    CATTTAAATA GTTCCCAAAC TTCTGAATTT GGACCTGCCA ACTCTTTAGA GGATGTTGTA
    CGCCTTCCTG ACAGTTCTAA TAAAATTGAA GAGGACAGAT GCTCTAACAG TGCAGATATA
    ACAGGTCCTT CCTTTATAAG ATCGTGGACA TTTGGGATGT TTAGTGACTC TGAGAGTACT
    GGAGGGAGCA GCGAATCTAG ATCTCTGGAT TCAGAATCTA TAAGTCCAGG AGACTTTCAT
    CGAAAACTTC CACGAACACC ATCCAGTGGA ACTATGTCCT CTGCGGATGA TCTAGATGAA
    AGAGAGCCAT CTTCCCCTTC AGAAACTGGA CCCAATTCCC TTGGAACATT TAAGAAAACA
    TTGATGTCAA AGGCAGCTCT CACACACAAG TTTCGCAAAT TGAGATCCCC CACGAAATGT
    AGGGATTGTG AAGGCATTGT AGTGTTCCAA GGTGTTGAAT GTGAAGAGTG TCTCCTTGTT
    TGTCATCGAA AGTGTTTGGA AAATTTAGTC ATTATTTGCG GTCATCAGAA ACTTCCAGGA
    AAAATACAAT TATTTGGAGC AGAATTCACA CAAGTTGCAA AAAAGGAACC AGATGGTATC
    CCTTTTATAC TCAAAATATG TGCCTCAGAG ATTGAAAATA GAGCTTTGTG TCTACAGGGA
    ATTTATCGTG TGTGTGGAAA CAAAATAAAG ACTGAAAAAC TGTGTCAAGC TTTGGAAAAT
    GGAATGCACT TGGTAGACAT TTCAGAATTT AGTTCACATG ATATCTGTGA CGTCTTGAAA
    TTATACCTTC GGCAGCTCCC AGAACCATTT ATTTTATTTC GATTGTACAA GGAATTTATA
    GACCTTGCAA AAGAGATCCA GCATGTAAAT GAAGAGCAAG AGGCAAAAAA GGATAGTCTT
    GAAGACAAAA AATGGCCAAA TATGTGTATA GAAATAAACC GAATTCTTCT AAAAATCAAA
    GACCTTCTAA GACAATTGCC AGCATCAAAT TTTAACAGTC TTCATTTCCT TATAGTACAT
    CTAAAGCGGG TAGTAGATCA TGCAGAAGAA AACAAGATGA ACTCCAAAAA CTTGGGGGTG
    ATATTTGGAC CAAGTCTCAT CAGGCCAAGG CCCACAACTG CTCCTATCAC CATCTCCTCC
    CTTGCCGAGT ATTCAAACCA AGCACGCTTG GTGGAGTTCC TCATTACTCA CTCACAGAAG
    ATCTTCGATG GGGCCCTACA GCCGCAAGAT GTCATGTGTA GCACAGGTGT TTTTTCACCT
    CAGGTTGATC AAGGCTGTTT TCCAAAGCCT CTGTTATCAC CAGAAGAAAG AGACCCTGAA
    CGTTCCATGA AGTCACTATT TTTTCCTTCA AAGGAAGATA TCCATACTTC AGAGAGTGAA
    AGCAAAATTT TTGAACGACC TACATCATTT GAGGAGTCAG AACGCAAGCA AAATGCGTTA
    GAAAAATGGG ATGCATGTCT CAGTGACAAA GCACAGTTGC TTCTAGACCA GGAGGTTGAA
    TCAGCATCCC AAAAGACAGA AGATGGTAAA ACCCCTAAGC CACTTTCTCT GAAATCTGAT
    AGGTCATCAA CAAACTGTGT GGAGAGGCAT ACTCCAAGGA CCAAGATTAG ACCTGTAAGT
    TTGCCTATAG ATAGACTACT TCTTGCAAGC CCTCCTAAGG AGAGAAATGG TAGAAATATG
    GGAAATGTAA ATTTAGACAA GTTTTGCAAG AATCCTGCCT TTGAAGGAGT TAATAGAAAA
    GACACTGCTA CTACTGTTTG TTCCAAATTT AATGGCTTTG ACCAGCAAAC TCTACAAAAA
    ATTCAGGACA AACAGTATGA ACAAAACAGT CTAACTGCCA AGACTACAAT GATCGTGCCC
    AGTGCACTCC AGGAAAAAGG AGTGACAACA AGCCTCCAGA TTAGTGGGGA CCATTCTGTC
    AATGCCACTC AGCCCAGTAA GCCATACACA GAGCCAGTCA GGTCAGTGAG AGAGGCGTCT
    GAGAGACGGT CTTCGGATTC CTACCCTCTC GCTCCTGTCA GAGCACCCAG AACACTGCAG
    CCTCAACATT GGACAACATT TTATAAACCA CATGCTCCCG CCATCAGTAT CAGGGGGAAT
    GAGGAGAAGC CAGCTTCACC CTCAGCAGCA GTGCCTCCTG GCACAGCTCA CGATCCCCAG
    GGTCTCATGG TGAAGTCAAG GCCGGACCCA GACAAAGCAT CAGCTTGTCC TGGGCAGGCA
    ACTGGTCAAC CTAAAGAAGA CTCTGAGGAG CTTGGCTTGC CTGATGTGAA TCCAACATGT
    CAGAGACCAA AGCTAAAACG AATGCAACAG TTTGAAGACC TCGAAGATGA AATTCCACAA
    TTTGTGTAG

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

    RefSeq XP_028687227.1
    CDS307..3915
    Translation

    Target ORF information:

    RefSeq Version XM_028831394.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta Rho GTPase activating protein 29 (ARHGAP29), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_028831394.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGAGCGCC GTGACTGTTT TAAAGAAGTT ATTCATATAC GTCTAGAGGA ACTGCTCCGT 
    GTTTTAAAGT CTATAATGAA TAAACATCAG AACCTCAATT CTGTTGATCT TCAAAATGCT
    GCAGAAATGC TCACTGCAAA AGTGAAAGCT GTGAACTTCA CAGAAGTTAA TGAAGAAAAC
    AAAAACGATG TCTTCCAGGA AGTGTTTTCT TCTATTGAAA CTTTGGCATT TACCTTTGGA
    AATATCCTTA CAAACTTCCT TATGGGAGAT GTAGGCAATG ATTCATTATT GCGACTGCCT
    GTTTCTCGAG AAACTAAGTC GTTTGAAAAT GTTTCTGTGG AATCAGTGGA CTCATCCAGT
    GAAAAAGGAA ATTTTTCCCC TTTAGAACTA GACAATGTGC TGTTAAAGAA CACTGACTCT
    ATAGAGTTGG CTTTGTCATA TGCTAAAACT TGGTCAAAAT ATACTAAGAA CATAGTTTCA
    TGGGTTGAAA AAAAGCTTAA CTTGGAATTG GAGTCCACTA GAAATATGGT CAAGTTGGCA
    GAGGCAACTA GAACTAACAT TGGAATTCAG GAGTTCATGC CACTGCAGTC TCTGTTTACT
    AATGCTCTTC TTAATGATAT AGAGAGCAGT CATCTTTTAC AACAAACAAT TGCAGCTCTC
    CAGGCTAACA AATTTGTACA GCCTCTACTT GGGAGGAAAA ATGAAATGGA AAAACAAAGG
    AAAGAAATAA AAGAACTTTG GAAACAGGAG CAAAATAAAA TGCTTGAAGC AGAGAATGCT
    CTCAAAAAGG CAAAATTATT ATGCATGCAA CGTCAAGATG AATATGAGAA AGCAAAGTCT
    TCCATGTTTC GTGCAGAAGA GGAGCATCTG TCTTCAAGTG GTGCATTAGC AAAAAACCTC
    AACAAGCAAC TAGAAAAAAA GCGAAGATTG GAAGAGGAGG CTCTCCAAAA AGTAGAAGAA
    GCAAGTGAAC TTTACAAAGT TTGTGTGACA AATGTTGAAG AAAGAAGAAA TGATCTAGAA
    AATACCAAAA GAGAAATTTT AACACAACTC CGGACACTTG TTTTCCAGTG TGATCTTACC
    CTTAAAGCTG TAACAGTTAA CCTCTTCAAC ATGCAGCATC TGCAGGCTGC TTCCCTTGCA
    GACAGTTTAC AGTCTCTCTG TGATAGTGCC AAACTCTATG ACCCAGGCCA AGAGTACAGT
    GAATTTGTCA AGGCCACAAA TTCAACTGAA GAAGACAAAG TTGATGGAAA TGTAAATAAG
    CATTTAAATA GTTCCCAAAC TTCTGAATTT GGACCTGCCA ACTCTTTAGA GGATGTTGTA
    CGCCTTCCTG ACAGTTCTAA TAAAATTGAA GAGGACAGAT GCTCTAACAG TGCAGATATA
    ACAGGTCCTT CCTTTATAAG ATCGTGGACA TTTGGGATGT TTAGTGACTC TGAGAGTACT
    GGAGGGAGCA GCGAATCTAG ATCTCTGGAT TCAGAATCTA TAAGTCCAGG AGACTTTCAT
    CGAAAACTTC CACGAACACC ATCCAGTGGA ACTATGTCCT CTGCGGATGA TCTAGATGAA
    AGAGAGCCAT CTTCCCCTTC AGAAACTGGA CCCAATTCCC TTGGAACATT TAAGAAAACA
    TTGATGTCAA AGGCAGCTCT CACACACAAG TTTCGCAAAT TGAGATCCCC CACGAAATGT
    AGGGATTGTG AAGGCATTGT AGTGTTCCAA GGTGTTGAAT GTGAAGAGTG TCTCCTTGTT
    TGTCATCGAA AGTGTTTGGA AAATTTAGTC ATTATTTGCG GTCATCAGAA ACTTCCAGGA
    AAAATACAAT TATTTGGAGC AGAATTCACA CAAGTTGCAA AAAAGGAACC AGATGGTATC
    CCTTTTATAC TCAAAATATG TGCCTCAGAG ATTGAAAATA GAGCTTTGTG TCTACAGGGA
    ATTTATCGTG TGTGTGGAAA CAAAATAAAG ACTGAAAAAC TGTGTCAAGC TTTGGAAAAT
    GGAATGCACT TGGTAGACAT TTCAGAATTT AGTTCACATG ATATCTGTGA CGTCTTGAAA
    TTATACCTTC GGCAGCTCCC AGAACCATTT ATTTTATTTC GATTGTACAA GGAATTTATA
    GACCTTGCAA AAGAGATCCA GCATGTAAAT GAAGAGCAAG AGGCAAAAAA GGATAGTCTT
    GAAGACAAAA AATGGCCAAA TATGTGTATA GAAATAAACC GAATTCTTCT AAAAATCAAA
    GACCTTCTAA GACAATTGCC AGCATCAAAT TTTAACAGTC TTCATTTCCT TATAGTACAT
    CTAAAGCGGG TAGTAGATCA TGCAGAAGAA AACAAGATGA ACTCCAAAAA CTTGGGGGTG
    ATATTTGGAC CAAGTCTCAT CAGGCCAAGG CCCACAACTG CTCCTATCAC CATCTCCTCC
    CTTGCCGAGT ATTCAAACCA AGCACGCTTG GTGGAGTTCC TCATTACTCA CTCACAGAAG
    ATCTTCGATG GGGCCCTACA GCCGCAAGAT GTCATGTGTA GCACAGGTGT TTTTTCACCT
    CAGGTTGATC AAGGCTGTTT TCCAAAGCCT CTGTTATCAC CAGAAGAAAG AGACCCTGAA
    CGTTCCATGA AGTCACTATT TTTTCCTTCA AAGGAAGATA TCCATACTTC AGAGAGTGAA
    AGCAAAATTT TTGAACGACC TACATCATTT GAGGAGTCAG AACGCAAGCA AAATGCGTTA
    GAAAAATGGG ATGCATGTCT CAGTGACAAA GCACAGTTGC TTCTAGACCA GGAGGTTGAA
    TCAGCATCCC AAAAGACAGA AGATGGTAAA ACCCCTAAGC CACTTTCTCT GAAATCTGAT
    AGGTCATCAA CAAACTGTGT GGAGAGGCAT ACTCCAAGGA CCAAGATTAG ACCTGTAAGT
    TTGCCTATAG ATAGACTACT TCTTGCAAGC CCTCCTAAGG AGAGAAATGG TAGAAATATG
    GGAAATGTAA ATTTAGACAA GTTTTGCAAG AATCCTGCCT TTGAAGGAGT TAATAGAAAA
    GACACTGCTA CTACTGTTTG TTCCAAATTT AATGGCTTTG ACCAGCAAAC TCTACAAAAA
    ATTCAGGACA AACAGTATGA ACAAAACAGT CTAACTGCCA AGACTACAAT GATCGTGCCC
    AGTGCACTCC AGGAAAAAGG AGTGACAACA AGCCTCCAGA TTAGTGGGGA CCATTCTGTC
    AATGCCACTC AGCCCAGTAA GCCATACACA GAGCCAGTCA GGTCAGTGAG AGAGGCGTCT
    GAGAGACGGT CTTCGGATTC CTACCCTCTC GCTCCTGTCA GAGCACCCAG AACACTGCAG
    CCTCAACATT GGACAACATT TTATAAACCA CATGCTCCCG CCATCAGTAT CAGGGGGAAT
    GAGGAGAAGC CAGCTTCACC CTCAGCAGCA GTGCCTCCTG GCACAGCTCA CGATCCCCAG
    GGTCTCATGG TGAAGTCAAG GCCGGACCCA GACAAAGCAT CAGCTTGTCC TGGGCAGGCA
    ACTGGTCAAC CTAAAGAAGA CTCTGAGGAG CTTGGCTTGC CTGATGTGAA TCCAACATGT
    CAGAGACCAA AGCTAAAACG AATGCAACAG TTTGAAGACC TCGAAGATGA AATTCCACAA
    TTTGTGTAG

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

    CloneID OMb60220
    Clone ID Related Accession (Same CDS sequence) XM_015145387.2
    Accession Version XM_015145387.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3534bp)
    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 rho GTPase-activating protein 29 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041754.1) 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_015145387.1. ##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
    3481
    ATGAATAAAC ATCAGAACCT CAATTCTGTT GATCTTCAAA ATGCTGCAGA AATGCTCACT 
    GCAAAAGTGA AAGCTGTGAA CTTCACAGAA GTTAATGAAG AAAACAAAAA CGATGTCTTC
    CAGGAAGTGT TTTCTTCTAT TGAAACTTTG GCATTTACCT TTGGAAATAT CCTTACAAAC
    TTCCTTATGG GAGATGTAGG CAATGATTCA TTATTGCGAC TGCCTGTTTC TCGAGAAACT
    AAGTCGTTTG AAAATGTTTC TGTGGAATCA GTGGACTCAT CCAGTGAAAA AGGAAATTTT
    TCCCCTTTAG AACTAGACAA TGTGCTGTTA AAGAACACTG ACTCTATAGA GTTGGCTTTG
    TCATATGCTA AAACTTGGTC AAAATATACT AAGAACATAG TTTCATGGGT TGAAAAAAAG
    CTTAACTTGG AATTGGAGTC CACTAGAAAT ATGGTCAAGT TGGCAGAGGC AACTAGAACT
    AACATTGGAA TTCAGGAGTT CATGCCACTG CAGTCTCTGT TTACTAATGC TCTTCTTAAT
    GATATAGAGA GCAGTCATCT TTTACAACAA ACAATTGCAG CTCTCCAGGC TAACAAATTT
    GTACAGCCTC TACTTGGGAG GAAAAATGAA ATGGAAAAAC AAAGGAAAGA AATAAAAGAA
    CTTTGGAAAC AGGAGCAAAA TAAAATGCTT GAAGCAGAGA ATGCTCTCAA AAAGGCAAAA
    TTATTATGCA TGCAACGTCA AGATGAATAT GAGAAAGCAA AGTCTTCCAT GTTTCGTGCA
    GAAGAGGAGC ATCTGTCTTC AAGTGGTGCA TTAGCAAAAA ACCTCAACAA GCAACTAGAA
    AAAAAGCGAA GATTGGAAGA GGAGGCTCTC CAAAAAGTAG AAGAAGCAAG TGAACTTTAC
    AAAGTTTGTG TGACAAATGT TGAAGAAAGA AGAAATGATC TAGAAAATAC CAAAAGAGAA
    ATTTTAACAC AACTCCGGAC ACTTGTTTTC CAGTGTGATC TTACCCTTAA AGCTGTAACA
    GTTAACCTCT TCAACATGCA GCATCTGCAG GCTGCTTCCC TTGCAGACAG TTTACAGTCT
    CTCTGTGATA GTGCCAAACT CTATGACCCA GGCCAAGAGT ACAGTGAATT TGTCAAGGCC
    ACAAATTCAA CTGAAGAAGA CAAAGTTGAT GGAAATGTAA ATAAGCATTT AAATAGTTCC
    CAAACTTCTG AATTTGGACC TGCCAACTCT TTAGAGGATG TTGTACGCCT TCCTGACAGT
    TCTAATAAAA TTGAAGAGGA CAGATGCTCT AACAGTGCAG ATATAACAGG TCCTTCCTTT
    ATAAGATCGT GGACATTTGG GATGTTTAGT GACTCTGAGA GTACTGGAGG GAGCAGCGAA
    TCTAGATCTC TGGATTCAGA ATCTATAAGT CCAGGAGACT TTCATCGAAA ACTTCCACGA
    ACACCATCCA GTGGAACTAT GTCCTCTGCG GATGATCTAG ATGAAAGAGA GCCATCTTCC
    CCTTCAGAAA CTGGACCCAA TTCCCTTGGA ACATTTAAGA AAACATTGAT GTCAAAGGCA
    GCTCTCACAC ACAAGTTTCG CAAATTGAGA TCCCCCACGA AATGTAGGGA TTGTGAAGGC
    ATTGTAGTGT TCCAAGGTGT TGAATGTGAA GAGTGTCTCC TTGTTTGTCA TCGAAAGTGT
    TTGGAAAATT TAGTCATTAT TTGCGGTCAT CAGAAACTTC CAGGAAAAAT ACAATTATTT
    GGAGCAGAAT TCACACAAGT TGCAAAAAAG GAACCAGATG GTATCCCTTT TATACTCAAA
    ATATGTGCCT CAGAGATTGA AAATAGAGCT TTGTGTCTAC AGGGAATTTA TCGTGTGTGT
    GGAAACAAAA TAAAGACTGA AAAACTGTGT CAAGCTTTGG AAAATGGAAT GCACTTGGTA
    GACATTTCAG AATTTAGTTC ACATGATATC TGTGACGTCT TGAAATTATA CCTTCGGCAG
    CTCCCAGAAC CATTTATTTT ATTTCGATTG TACAAGGAAT TTATAGACCT TGCAAAAGAG
    ATCCAGCATG TAAATGAAGA GCAAGAGGCA AAAAAGGATA GTCTTGAAGA CAAAAAATGG
    CCAAATATGT GTATAGAAAT AAACCGAATT CTTCTAAAAA TCAAAGACCT TCTAAGACAA
    TTGCCAGCAT CAAATTTTAA CAGTCTTCAT TTCCTTATAG TACATCTAAA GCGGGTAGTA
    GATCATGCAG AAGAAAACAA GATGAACTCC AAAAACTTGG GGGTGATATT TGGACCAAGT
    CTCATCAGGC CAAGGCCCAC AACTGCTCCT ATCACCATCT CCTCCCTTGC CGAGTATTCA
    AACCAAGCAC GCTTGGTGGA GTTCCTCATT ACTCACTCAC AGAAGATCTT CGATGGGGCC
    CTACAGCCGC AAGATGTCAT GTGTAGCACA GGTGTTTTTT CACCTCAGGT TGATCAAGGC
    TGTTTTCCAA AGCCTCTGTT ATCACCAGAA GAAAGAGACC CTGAACGTTC CATGAAGTCA
    CTATTTTTTC CTTCAAAGGA AGATATCCAT ACTTCAGAGA GTGAAAGCAA AATTTTTGAA
    CGACCTACAT CATTTGAGGA GTCAGAACGC AAGCAAAATG CGTTAGAAAA ATGGGATGCA
    TGTCTCAGTG ACAAAGCACA GTTGCTTCTA GACCAGGAGG TTGAATCAGC ATCCCAAAAG
    ACAGAAGATG GTAAAACCCC TAAGCCACTT TCTCTGAAAT CTGATAGGTC ATCAACAAAC
    TGTGTGGAGA GGCATACTCC AAGGACCAAG ATTAGACCTG TAAGTTTGCC TATAGATAGA
    CTACTTCTTG CAAGCCCTCC TAAGGAGAGA AATGGTAGAA ATATGGGAAA TGTAAATTTA
    GACAAGTTTT GCAAGAATCC TGCCTTTGAA GGAGTTAATA GAAAAGACAC TGCTACTACT
    GTTTGTTCCA AATTTAATGG CTTTGACCAG CAAACTCTAC AAAAAATTCA GGACAAACAG
    TATGAACAAA ACAGTCTAAC TGCCAAGACT ACAATGATCG TGCCCAGTGC ACTCCAGGAA
    AAAGGAGTGA CAACAAGCCT CCAGATTAGT GGGGACCATT CTGTCAATGC CACTCAGCCC
    AGTAAGCCAT ACACAGAGCC AGTCAGGTCA GTGAGAGAGG CGTCTGAGAG ACGGTCTTCG
    GATTCCTACC CTCTCGCTCC TGTCAGAGCA CCCAGAACAC TGCAGCCTCA ACATTGGACA
    ACATTTTATA AACCACATGC TCCCGCCATC AGTATCAGGG GGAATGAGGA GAAGCCAGCT
    TCACCCTCAG CAGCAGTGCC TCCTGGCACA GCTCACGATC CCCAGGGTCT CATGGTGAAG
    TCAAGGCCGG ACCCAGACAA AGCATCAGCT TGTCCTGGGC AGGCAACTGG TCAACCTAAA
    GAAGACTCTG AGGAGCTTGG CTTGCCTGAT GTGAATCCAA CATGTCAGAG ACCAAAGCTA
    AAACGAATGC AACAGTTTGA AGACCTCGAA GATGAAATTC CACAATTTGT GTAG

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

    RefSeq XP_015000873.2
    CDS277..3810
    Translation

    Target ORF information:

    RefSeq Version XM_015145387.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta Rho GTPase activating protein 29 (ARHGAP29), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_015145387.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    ATGAATAAAC ATCAGAACCT CAATTCTGTT GATCTTCAAA ATGCTGCAGA AATGCTCACT 
    GCAAAAGTGA AAGCTGTGAA CTTCACAGAA GTTAATGAAG AAAACAAAAA CGATGTCTTC
    CAGGAAGTGT TTTCTTCTAT TGAAACTTTG GCATTTACCT TTGGAAATAT CCTTACAAAC
    TTCCTTATGG GAGATGTAGG CAATGATTCA TTATTGCGAC TGCCTGTTTC TCGAGAAACT
    AAGTCGTTTG AAAATGTTTC TGTGGAATCA GTGGACTCAT CCAGTGAAAA AGGAAATTTT
    TCCCCTTTAG AACTAGACAA TGTGCTGTTA AAGAACACTG ACTCTATAGA GTTGGCTTTG
    TCATATGCTA AAACTTGGTC AAAATATACT AAGAACATAG TTTCATGGGT TGAAAAAAAG
    CTTAACTTGG AATTGGAGTC CACTAGAAAT ATGGTCAAGT TGGCAGAGGC AACTAGAACT
    AACATTGGAA TTCAGGAGTT CATGCCACTG CAGTCTCTGT TTACTAATGC TCTTCTTAAT
    GATATAGAGA GCAGTCATCT TTTACAACAA ACAATTGCAG CTCTCCAGGC TAACAAATTT
    GTACAGCCTC TACTTGGGAG GAAAAATGAA ATGGAAAAAC AAAGGAAAGA AATAAAAGAA
    CTTTGGAAAC AGGAGCAAAA TAAAATGCTT GAAGCAGAGA ATGCTCTCAA AAAGGCAAAA
    TTATTATGCA TGCAACGTCA AGATGAATAT GAGAAAGCAA AGTCTTCCAT GTTTCGTGCA
    GAAGAGGAGC ATCTGTCTTC AAGTGGTGCA TTAGCAAAAA ACCTCAACAA GCAACTAGAA
    AAAAAGCGAA GATTGGAAGA GGAGGCTCTC CAAAAAGTAG AAGAAGCAAG TGAACTTTAC
    AAAGTTTGTG TGACAAATGT TGAAGAAAGA AGAAATGATC TAGAAAATAC CAAAAGAGAA
    ATTTTAACAC AACTCCGGAC ACTTGTTTTC CAGTGTGATC TTACCCTTAA AGCTGTAACA
    GTTAACCTCT TCAACATGCA GCATCTGCAG GCTGCTTCCC TTGCAGACAG TTTACAGTCT
    CTCTGTGATA GTGCCAAACT CTATGACCCA GGCCAAGAGT ACAGTGAATT TGTCAAGGCC
    ACAAATTCAA CTGAAGAAGA CAAAGTTGAT GGAAATGTAA ATAAGCATTT AAATAGTTCC
    CAAACTTCTG AATTTGGACC TGCCAACTCT TTAGAGGATG TTGTACGCCT TCCTGACAGT
    TCTAATAAAA TTGAAGAGGA CAGATGCTCT AACAGTGCAG ATATAACAGG TCCTTCCTTT
    ATAAGATCGT GGACATTTGG GATGTTTAGT GACTCTGAGA GTACTGGAGG GAGCAGCGAA
    TCTAGATCTC TGGATTCAGA ATCTATAAGT CCAGGAGACT TTCATCGAAA ACTTCCACGA
    ACACCATCCA GTGGAACTAT GTCCTCTGCG GATGATCTAG ATGAAAGAGA GCCATCTTCC
    CCTTCAGAAA CTGGACCCAA TTCCCTTGGA ACATTTAAGA AAACATTGAT GTCAAAGGCA
    GCTCTCACAC ACAAGTTTCG CAAATTGAGA TCCCCCACGA AATGTAGGGA TTGTGAAGGC
    ATTGTAGTGT TCCAAGGTGT TGAATGTGAA GAGTGTCTCC TTGTTTGTCA TCGAAAGTGT
    TTGGAAAATT TAGTCATTAT TTGCGGTCAT CAGAAACTTC CAGGAAAAAT ACAATTATTT
    GGAGCAGAAT TCACACAAGT TGCAAAAAAG GAACCAGATG GTATCCCTTT TATACTCAAA
    ATATGTGCCT CAGAGATTGA AAATAGAGCT TTGTGTCTAC AGGGAATTTA TCGTGTGTGT
    GGAAACAAAA TAAAGACTGA AAAACTGTGT CAAGCTTTGG AAAATGGAAT GCACTTGGTA
    GACATTTCAG AATTTAGTTC ACATGATATC TGTGACGTCT TGAAATTATA CCTTCGGCAG
    CTCCCAGAAC CATTTATTTT ATTTCGATTG TACAAGGAAT TTATAGACCT TGCAAAAGAG
    ATCCAGCATG TAAATGAAGA GCAAGAGGCA AAAAAGGATA GTCTTGAAGA CAAAAAATGG
    CCAAATATGT GTATAGAAAT AAACCGAATT CTTCTAAAAA TCAAAGACCT TCTAAGACAA
    TTGCCAGCAT CAAATTTTAA CAGTCTTCAT TTCCTTATAG TACATCTAAA GCGGGTAGTA
    GATCATGCAG AAGAAAACAA GATGAACTCC AAAAACTTGG GGGTGATATT TGGACCAAGT
    CTCATCAGGC CAAGGCCCAC AACTGCTCCT ATCACCATCT CCTCCCTTGC CGAGTATTCA
    AACCAAGCAC GCTTGGTGGA GTTCCTCATT ACTCACTCAC AGAAGATCTT CGATGGGGCC
    CTACAGCCGC AAGATGTCAT GTGTAGCACA GGTGTTTTTT CACCTCAGGT TGATCAAGGC
    TGTTTTCCAA AGCCTCTGTT ATCACCAGAA GAAAGAGACC CTGAACGTTC CATGAAGTCA
    CTATTTTTTC CTTCAAAGGA AGATATCCAT ACTTCAGAGA GTGAAAGCAA AATTTTTGAA
    CGACCTACAT CATTTGAGGA GTCAGAACGC AAGCAAAATG CGTTAGAAAA ATGGGATGCA
    TGTCTCAGTG ACAAAGCACA GTTGCTTCTA GACCAGGAGG TTGAATCAGC ATCCCAAAAG
    ACAGAAGATG GTAAAACCCC TAAGCCACTT TCTCTGAAAT CTGATAGGTC ATCAACAAAC
    TGTGTGGAGA GGCATACTCC AAGGACCAAG ATTAGACCTG TAAGTTTGCC TATAGATAGA
    CTACTTCTTG CAAGCCCTCC TAAGGAGAGA AATGGTAGAA ATATGGGAAA TGTAAATTTA
    GACAAGTTTT GCAAGAATCC TGCCTTTGAA GGAGTTAATA GAAAAGACAC TGCTACTACT
    GTTTGTTCCA AATTTAATGG CTTTGACCAG CAAACTCTAC AAAAAATTCA GGACAAACAG
    TATGAACAAA ACAGTCTAAC TGCCAAGACT ACAATGATCG TGCCCAGTGC ACTCCAGGAA
    AAAGGAGTGA CAACAAGCCT CCAGATTAGT GGGGACCATT CTGTCAATGC CACTCAGCCC
    AGTAAGCCAT ACACAGAGCC AGTCAGGTCA GTGAGAGAGG CGTCTGAGAG ACGGTCTTCG
    GATTCCTACC CTCTCGCTCC TGTCAGAGCA CCCAGAACAC TGCAGCCTCA ACATTGGACA
    ACATTTTATA AACCACATGC TCCCGCCATC AGTATCAGGG GGAATGAGGA GAAGCCAGCT
    TCACCCTCAG CAGCAGTGCC TCCTGGCACA GCTCACGATC CCCAGGGTCT CATGGTGAAG
    TCAAGGCCGG ACCCAGACAA AGCATCAGCT TGTCCTGGGC AGGCAACTGG TCAACCTAAA
    GAAGACTCTG AGGAGCTTGG CTTGCCTGAT GTGAATCCAA CATGTCAGAG ACCAAAGCTA
    AAACGAATGC AACAGTTTGA AGACCTCGAA GATGAAATTC CACAATTTGT GTAG

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