ORF » Species Summary » Macaca mulatta » GAPVD1 cDNA ORF clone

GAPVD1 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

The following GAPVD1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the GAPVD1 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
OMb71220 XM_028834838.1
Latest version!		 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OMb48647 XM_015116835.1
Latest version!		 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb48647 XM_015116834.1
Latest version!		 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb48647 XM_015116836.1
Latest version!		 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb48648 XM_015116838.1
Latest version!		 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb48649 XM_015116839.1
Latest version!		 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb48650 XM_015116840.1
Latest version!		 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMb71216 XM_015116835.2
Latest version!		 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb71216 XM_015116836.2
Latest version!		 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb71216 XM_028834835.1
Latest version!		 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb71216 XM_015116834.2
Latest version!		 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb71217 XM_015116838.2
Latest version!		 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb71217 XM_028834836.1
Latest version!		 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb71218 XM_015116839.2
Latest version!		 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMb71219 XM_028834837.1
Latest version!		 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00

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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)
    GAPVD1 ( XM_028834838.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_028690671.1 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OMb71220
    Clone ID Related Accession (Same CDS sequence) XM_028834838.1
    Accession Version XM_028834838.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2271bp)
    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 GTPase-activating protein and VPS9 domain-containing protein 1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041768.1) 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 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
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCTTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGCATA A

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

    RefSeq XP_028690671.1
    CDS233..2503
    Translation

    Target ORF information:

    RefSeq Version XM_028834838.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_028834838.1

    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
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCTTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGCATA A

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

    GAPVD1 ( XM_015116836.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014972322.1 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMb48647
    Clone ID Related Accession (Same CDS sequence) XM_015116836.1 , XM_015116834.1 , XM_015116835.1
    Accession Version XM_015116836.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4383bp)
    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 GTPase-activating protein and VPS9 domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805500.1) 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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACGCAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCCTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGCTCCT ATACCATTTA GAAAGAAAGA AAAACAAGAA 
    AAAGACAAAG ATGATCTGGG GCCTGACAGA TTCTCAACAC TCACAGATGA TCCCAGCCCT 
    AGACTCAGTG CACAAGCTCA GGTCGCTGAG GATATTCTGG ACAAATACAG GAATGCCATT 
    AAACGGACCA GCCCCAGTGA TGGAGCAATG GCAAACTATG AAAGTACAGA GGTTTTGGGT 
    GATGGTGAAA GTGCACATGA TTCTCCCCGT GACGAGGCAC TGCAGAACAT CTCAGCTGAT 
    GATCTCCCAG ACTCTGCGAG CCAAGCAGCC CACCCGCAAG ATTCAGCTTT CTCTTACAGA 
    GATGCGAAAA AGAAACTGAG GCTTGCTCTT TGCTCTGCGG ACTCTGTTGC CTTCCCAGTG 
    CTGACCCACT CAACAAGGAA TGGTTTACCA GACCACACAG ACCCAGAAGA CAATGAAATT 
    GTATGCTTCT TAAAAGTTCA AATAGCTGAA GCAATTAATT TACAAGATAA GAACTTAATG 
    GCTCAACTTC AAGAAACAAT GCGCTGTGTG TGCCGTTTTG ATAATAGGAC TTGTAGGAAA 
    CTGCTGGCTT CTATTGCTGA GGACTACAGA AAAAGAGCCC CATATATTGC TTATCTCACT 
    CGTTGTCGAC AAGGACTACA GACCACACAG GCTCACCTGG AAAGGCTATT GCAAAGGGTT 
    TTGCGAGACA AAGAAGTGGC CAATCGATAC TTTACCACCG TCTGTGTGAG ATTACTGCTT 
    GAGAGCAAAG AAAAGAAGAT CAGGGAATTC ATTCAAGACT TTCAGAAACT CACCGCAGCT 
    GATGATAAAA CTGCTCAGGT AGAAGATTTT CTGCAGTTTC TTTATGGTGC AATGGCCCAG 
    GATGTCATAT GGCAAAACGC AAGTGAAGAA CAGCTTCAAG ATGCACAGCT GGCCATTGAG 
    CGAAGCGTGA TGAACCGGAT TTTCAAGCTT GCCTTCTACC CTAATCAGGA TGGGGACATA 
    CTTCGCGACC AGGTTCTTCA TGAACATATC CAGAGATTAT CTAAAGTAGT GACTGCAAAT 
    CACAGAGCTC TTCAGATACC AGAGGTTTAT CTTCGAGAAG CACCATGGCC ATCTGCACAA 
    TCAGAAATCA GGACAATAAG TGCTTATAAA ACCCCCCGGG ACAAAGTGCA GTGCATCCTG 
    AGAATGTGCT CTACGATTAT GAACCTCCTG AGCCTGGCCA ATGAGGACTC TGTCCCTGGA 
    GCGGATGACT TTGTTCCTGT GTTGGTGTTT GTGTTGATAA AGGCAAATCC ACCCTGTTTG 
    CTGTCTACTG TGCAGTATAT CAGTAGCTTT TATGCTAGCT GTCTGTCTGG AGAGGAGTCC 
    TATTGGTGGA TGCAGTTCAC AGCAGCAGTA GAATTCATTA AAACCATCGA TGACCGAAAA 
    TGA

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

    RefSeq XP_014972322.1
    CDS234..4616
    Translation

    Target ORF information:

    RefSeq Version XM_015116836.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015116836.1

    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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACGCAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCCTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGCTCCT ATACCATTTA GAAAGAAAGA AAAACAAGAA 
    AAAGACAAAG ATGATCTGGG GCCTGACAGA TTCTCAACAC TCACAGATGA TCCCAGCCCT 
    AGACTCAGTG CACAAGCTCA GGTCGCTGAG GATATTCTGG ACAAATACAG GAATGCCATT 
    AAACGGACCA GCCCCAGTGA TGGAGCAATG GCAAACTATG AAAGTACAGA GGTTTTGGGT 
    GATGGTGAAA GTGCACATGA TTCTCCCCGT GACGAGGCAC TGCAGAACAT CTCAGCTGAT 
    GATCTCCCAG ACTCTGCGAG CCAAGCAGCC CACCCGCAAG ATTCAGCTTT CTCTTACAGA 
    GATGCGAAAA AGAAACTGAG GCTTGCTCTT TGCTCTGCGG ACTCTGTTGC CTTCCCAGTG 
    CTGACCCACT CAACAAGGAA TGGTTTACCA GACCACACAG ACCCAGAAGA CAATGAAATT 
    GTATGCTTCT TAAAAGTTCA AATAGCTGAA GCAATTAATT TACAAGATAA GAACTTAATG 
    GCTCAACTTC AAGAAACAAT GCGCTGTGTG TGCCGTTTTG ATAATAGGAC TTGTAGGAAA 
    CTGCTGGCTT CTATTGCTGA GGACTACAGA AAAAGAGCCC CATATATTGC TTATCTCACT 
    CGTTGTCGAC AAGGACTACA GACCACACAG GCTCACCTGG AAAGGCTATT GCAAAGGGTT 
    TTGCGAGACA AAGAAGTGGC CAATCGATAC TTTACCACCG TCTGTGTGAG ATTACTGCTT 
    GAGAGCAAAG AAAAGAAGAT CAGGGAATTC ATTCAAGACT TTCAGAAACT CACCGCAGCT 
    GATGATAAAA CTGCTCAGGT AGAAGATTTT CTGCAGTTTC TTTATGGTGC AATGGCCCAG 
    GATGTCATAT GGCAAAACGC AAGTGAAGAA CAGCTTCAAG ATGCACAGCT GGCCATTGAG 
    CGAAGCGTGA TGAACCGGAT TTTCAAGCTT GCCTTCTACC CTAATCAGGA TGGGGACATA 
    CTTCGCGACC AGGTTCTTCA TGAACATATC CAGAGATTAT CTAAAGTAGT GACTGCAAAT 
    CACAGAGCTC TTCAGATACC AGAGGTTTAT CTTCGAGAAG CACCATGGCC ATCTGCACAA 
    TCAGAAATCA GGACAATAAG TGCTTATAAA ACCCCCCGGG ACAAAGTGCA GTGCATCCTG 
    AGAATGTGCT CTACGATTAT GAACCTCCTG AGCCTGGCCA ATGAGGACTC TGTCCCTGGA 
    GCGGATGACT TTGTTCCTGT GTTGGTGTTT GTGTTGATAA AGGCAAATCC ACCCTGTTTG 
    CTGTCTACTG TGCAGTATAT CAGTAGCTTT TATGCTAGCT GTCTGTCTGG AGAGGAGTCC 
    TATTGGTGGA TGCAGTTCAC AGCAGCAGTA GAATTCATTA AAACCATCGA TGACCGAAAA 
    TGA

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

    GAPVD1 ( XM_015116834.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014972320.1 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMb48647
    Clone ID Related Accession (Same CDS sequence) XM_015116836.1 , XM_015116834.1 , XM_015116835.1
    Accession Version XM_015116834.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4383bp)
    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 GTPase-activating protein and VPS9 domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805500.1) 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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACGCAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCCTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGCTCCT ATACCATTTA GAAAGAAAGA AAAACAAGAA 
    AAAGACAAAG ATGATCTGGG GCCTGACAGA TTCTCAACAC TCACAGATGA TCCCAGCCCT 
    AGACTCAGTG CACAAGCTCA GGTCGCTGAG GATATTCTGG ACAAATACAG GAATGCCATT 
    AAACGGACCA GCCCCAGTGA TGGAGCAATG GCAAACTATG AAAGTACAGA GGTTTTGGGT 
    GATGGTGAAA GTGCACATGA TTCTCCCCGT GACGAGGCAC TGCAGAACAT CTCAGCTGAT 
    GATCTCCCAG ACTCTGCGAG CCAAGCAGCC CACCCGCAAG ATTCAGCTTT CTCTTACAGA 
    GATGCGAAAA AGAAACTGAG GCTTGCTCTT TGCTCTGCGG ACTCTGTTGC CTTCCCAGTG 
    CTGACCCACT CAACAAGGAA TGGTTTACCA GACCACACAG ACCCAGAAGA CAATGAAATT 
    GTATGCTTCT TAAAAGTTCA AATAGCTGAA GCAATTAATT TACAAGATAA GAACTTAATG 
    GCTCAACTTC AAGAAACAAT GCGCTGTGTG TGCCGTTTTG ATAATAGGAC TTGTAGGAAA 
    CTGCTGGCTT CTATTGCTGA GGACTACAGA AAAAGAGCCC CATATATTGC TTATCTCACT 
    CGTTGTCGAC AAGGACTACA GACCACACAG GCTCACCTGG AAAGGCTATT GCAAAGGGTT 
    TTGCGAGACA AAGAAGTGGC CAATCGATAC TTTACCACCG TCTGTGTGAG ATTACTGCTT 
    GAGAGCAAAG AAAAGAAGAT CAGGGAATTC ATTCAAGACT TTCAGAAACT CACCGCAGCT 
    GATGATAAAA CTGCTCAGGT AGAAGATTTT CTGCAGTTTC TTTATGGTGC AATGGCCCAG 
    GATGTCATAT GGCAAAACGC AAGTGAAGAA CAGCTTCAAG ATGCACAGCT GGCCATTGAG 
    CGAAGCGTGA TGAACCGGAT TTTCAAGCTT GCCTTCTACC CTAATCAGGA TGGGGACATA 
    CTTCGCGACC AGGTTCTTCA TGAACATATC CAGAGATTAT CTAAAGTAGT GACTGCAAAT 
    CACAGAGCTC TTCAGATACC AGAGGTTTAT CTTCGAGAAG CACCATGGCC ATCTGCACAA 
    TCAGAAATCA GGACAATAAG TGCTTATAAA ACCCCCCGGG ACAAAGTGCA GTGCATCCTG 
    AGAATGTGCT CTACGATTAT GAACCTCCTG AGCCTGGCCA ATGAGGACTC TGTCCCTGGA 
    GCGGATGACT TTGTTCCTGT GTTGGTGTTT GTGTTGATAA AGGCAAATCC ACCCTGTTTG 
    CTGTCTACTG TGCAGTATAT CAGTAGCTTT TATGCTAGCT GTCTGTCTGG AGAGGAGTCC 
    TATTGGTGGA TGCAGTTCAC AGCAGCAGTA GAATTCATTA AAACCATCGA TGACCGAAAA 
    TGA

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

    RefSeq XP_014972320.1
    CDS199..4581
    Translation

    Target ORF information:

    RefSeq Version XM_015116834.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015116834.1

    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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACGCAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCCTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGCTCCT ATACCATTTA GAAAGAAAGA AAAACAAGAA 
    AAAGACAAAG ATGATCTGGG GCCTGACAGA TTCTCAACAC TCACAGATGA TCCCAGCCCT 
    AGACTCAGTG CACAAGCTCA GGTCGCTGAG GATATTCTGG ACAAATACAG GAATGCCATT 
    AAACGGACCA GCCCCAGTGA TGGAGCAATG GCAAACTATG AAAGTACAGA GGTTTTGGGT 
    GATGGTGAAA GTGCACATGA TTCTCCCCGT GACGAGGCAC TGCAGAACAT CTCAGCTGAT 
    GATCTCCCAG ACTCTGCGAG CCAAGCAGCC CACCCGCAAG ATTCAGCTTT CTCTTACAGA 
    GATGCGAAAA AGAAACTGAG GCTTGCTCTT TGCTCTGCGG ACTCTGTTGC CTTCCCAGTG 
    CTGACCCACT CAACAAGGAA TGGTTTACCA GACCACACAG ACCCAGAAGA CAATGAAATT 
    GTATGCTTCT TAAAAGTTCA AATAGCTGAA GCAATTAATT TACAAGATAA GAACTTAATG 
    GCTCAACTTC AAGAAACAAT GCGCTGTGTG TGCCGTTTTG ATAATAGGAC TTGTAGGAAA 
    CTGCTGGCTT CTATTGCTGA GGACTACAGA AAAAGAGCCC CATATATTGC TTATCTCACT 
    CGTTGTCGAC AAGGACTACA GACCACACAG GCTCACCTGG AAAGGCTATT GCAAAGGGTT 
    TTGCGAGACA AAGAAGTGGC CAATCGATAC TTTACCACCG TCTGTGTGAG ATTACTGCTT 
    GAGAGCAAAG AAAAGAAGAT CAGGGAATTC ATTCAAGACT TTCAGAAACT CACCGCAGCT 
    GATGATAAAA CTGCTCAGGT AGAAGATTTT CTGCAGTTTC TTTATGGTGC AATGGCCCAG 
    GATGTCATAT GGCAAAACGC AAGTGAAGAA CAGCTTCAAG ATGCACAGCT GGCCATTGAG 
    CGAAGCGTGA TGAACCGGAT TTTCAAGCTT GCCTTCTACC CTAATCAGGA TGGGGACATA 
    CTTCGCGACC AGGTTCTTCA TGAACATATC CAGAGATTAT CTAAAGTAGT GACTGCAAAT 
    CACAGAGCTC TTCAGATACC AGAGGTTTAT CTTCGAGAAG CACCATGGCC ATCTGCACAA 
    TCAGAAATCA GGACAATAAG TGCTTATAAA ACCCCCCGGG ACAAAGTGCA GTGCATCCTG 
    AGAATGTGCT CTACGATTAT GAACCTCCTG AGCCTGGCCA ATGAGGACTC TGTCCCTGGA 
    GCGGATGACT TTGTTCCTGT GTTGGTGTTT GTGTTGATAA AGGCAAATCC ACCCTGTTTG 
    CTGTCTACTG TGCAGTATAT CAGTAGCTTT TATGCTAGCT GTCTGTCTGG AGAGGAGTCC 
    TATTGGTGGA TGCAGTTCAC AGCAGCAGTA GAATTCATTA AAACCATCGA TGACCGAAAA 
    TGA

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

    GAPVD1 ( XM_015116835.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014972321.1 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMb48647
    Clone ID Related Accession (Same CDS sequence) XM_015116836.1 , XM_015116834.1 , XM_015116835.1
    Accession Version XM_015116835.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4383bp)
    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 GTPase-activating protein and VPS9 domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805500.1) 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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACGCAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCCTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGCTCCT ATACCATTTA GAAAGAAAGA AAAACAAGAA 
    AAAGACAAAG ATGATCTGGG GCCTGACAGA TTCTCAACAC TCACAGATGA TCCCAGCCCT 
    AGACTCAGTG CACAAGCTCA GGTCGCTGAG GATATTCTGG ACAAATACAG GAATGCCATT 
    AAACGGACCA GCCCCAGTGA TGGAGCAATG GCAAACTATG AAAGTACAGA GGTTTTGGGT 
    GATGGTGAAA GTGCACATGA TTCTCCCCGT GACGAGGCAC TGCAGAACAT CTCAGCTGAT 
    GATCTCCCAG ACTCTGCGAG CCAAGCAGCC CACCCGCAAG ATTCAGCTTT CTCTTACAGA 
    GATGCGAAAA AGAAACTGAG GCTTGCTCTT TGCTCTGCGG ACTCTGTTGC CTTCCCAGTG 
    CTGACCCACT CAACAAGGAA TGGTTTACCA GACCACACAG ACCCAGAAGA CAATGAAATT 
    GTATGCTTCT TAAAAGTTCA AATAGCTGAA GCAATTAATT TACAAGATAA GAACTTAATG 
    GCTCAACTTC AAGAAACAAT GCGCTGTGTG TGCCGTTTTG ATAATAGGAC TTGTAGGAAA 
    CTGCTGGCTT CTATTGCTGA GGACTACAGA AAAAGAGCCC CATATATTGC TTATCTCACT 
    CGTTGTCGAC AAGGACTACA GACCACACAG GCTCACCTGG AAAGGCTATT GCAAAGGGTT 
    TTGCGAGACA AAGAAGTGGC CAATCGATAC TTTACCACCG TCTGTGTGAG ATTACTGCTT 
    GAGAGCAAAG AAAAGAAGAT CAGGGAATTC ATTCAAGACT TTCAGAAACT CACCGCAGCT 
    GATGATAAAA CTGCTCAGGT AGAAGATTTT CTGCAGTTTC TTTATGGTGC AATGGCCCAG 
    GATGTCATAT GGCAAAACGC AAGTGAAGAA CAGCTTCAAG ATGCACAGCT GGCCATTGAG 
    CGAAGCGTGA TGAACCGGAT TTTCAAGCTT GCCTTCTACC CTAATCAGGA TGGGGACATA 
    CTTCGCGACC AGGTTCTTCA TGAACATATC CAGAGATTAT CTAAAGTAGT GACTGCAAAT 
    CACAGAGCTC TTCAGATACC AGAGGTTTAT CTTCGAGAAG CACCATGGCC ATCTGCACAA 
    TCAGAAATCA GGACAATAAG TGCTTATAAA ACCCCCCGGG ACAAAGTGCA GTGCATCCTG 
    AGAATGTGCT CTACGATTAT GAACCTCCTG AGCCTGGCCA ATGAGGACTC TGTCCCTGGA 
    GCGGATGACT TTGTTCCTGT GTTGGTGTTT GTGTTGATAA AGGCAAATCC ACCCTGTTTG 
    CTGTCTACTG TGCAGTATAT CAGTAGCTTT TATGCTAGCT GTCTGTCTGG AGAGGAGTCC 
    TATTGGTGGA TGCAGTTCAC AGCAGCAGTA GAATTCATTA AAACCATCGA TGACCGAAAA 
    TGA

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

    RefSeq XP_014972321.1
    CDS150..4532
    Translation

    Target ORF information:

    RefSeq Version XM_015116835.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015116835.1

    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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACGCAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCCTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGCTCCT ATACCATTTA GAAAGAAAGA AAAACAAGAA 
    AAAGACAAAG ATGATCTGGG GCCTGACAGA TTCTCAACAC TCACAGATGA TCCCAGCCCT 
    AGACTCAGTG CACAAGCTCA GGTCGCTGAG GATATTCTGG ACAAATACAG GAATGCCATT 
    AAACGGACCA GCCCCAGTGA TGGAGCAATG GCAAACTATG AAAGTACAGA GGTTTTGGGT 
    GATGGTGAAA GTGCACATGA TTCTCCCCGT GACGAGGCAC TGCAGAACAT CTCAGCTGAT 
    GATCTCCCAG ACTCTGCGAG CCAAGCAGCC CACCCGCAAG ATTCAGCTTT CTCTTACAGA 
    GATGCGAAAA AGAAACTGAG GCTTGCTCTT TGCTCTGCGG ACTCTGTTGC CTTCCCAGTG 
    CTGACCCACT CAACAAGGAA TGGTTTACCA GACCACACAG ACCCAGAAGA CAATGAAATT 
    GTATGCTTCT TAAAAGTTCA AATAGCTGAA GCAATTAATT TACAAGATAA GAACTTAATG 
    GCTCAACTTC AAGAAACAAT GCGCTGTGTG TGCCGTTTTG ATAATAGGAC TTGTAGGAAA 
    CTGCTGGCTT CTATTGCTGA GGACTACAGA AAAAGAGCCC CATATATTGC TTATCTCACT 
    CGTTGTCGAC AAGGACTACA GACCACACAG GCTCACCTGG AAAGGCTATT GCAAAGGGTT 
    TTGCGAGACA AAGAAGTGGC CAATCGATAC TTTACCACCG TCTGTGTGAG ATTACTGCTT 
    GAGAGCAAAG AAAAGAAGAT CAGGGAATTC ATTCAAGACT TTCAGAAACT CACCGCAGCT 
    GATGATAAAA CTGCTCAGGT AGAAGATTTT CTGCAGTTTC TTTATGGTGC AATGGCCCAG 
    GATGTCATAT GGCAAAACGC AAGTGAAGAA CAGCTTCAAG ATGCACAGCT GGCCATTGAG 
    CGAAGCGTGA TGAACCGGAT TTTCAAGCTT GCCTTCTACC CTAATCAGGA TGGGGACATA 
    CTTCGCGACC AGGTTCTTCA TGAACATATC CAGAGATTAT CTAAAGTAGT GACTGCAAAT 
    CACAGAGCTC TTCAGATACC AGAGGTTTAT CTTCGAGAAG CACCATGGCC ATCTGCACAA 
    TCAGAAATCA GGACAATAAG TGCTTATAAA ACCCCCCGGG ACAAAGTGCA GTGCATCCTG 
    AGAATGTGCT CTACGATTAT GAACCTCCTG AGCCTGGCCA ATGAGGACTC TGTCCCTGGA 
    GCGGATGACT TTGTTCCTGT GTTGGTGTTT GTGTTGATAA AGGCAAATCC ACCCTGTTTG 
    CTGTCTACTG TGCAGTATAT CAGTAGCTTT TATGCTAGCT GTCTGTCTGG AGAGGAGTCC 
    TATTGGTGGA TGCAGTTCAC AGCAGCAGTA GAATTCATTA AAACCATCGA TGACCGAAAA 
    TGA

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

    GAPVD1 ( XM_015116838.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014972324.1 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMb48648
    Clone ID Related Accession (Same CDS sequence) XM_015116838.1
    Accession Version XM_015116838.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4320bp)
    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 GTPase-activating protein and VPS9 domain-containing protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805500.1) 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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACGCAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TCCTTCAAAT 
    CGCTCCAATT CAGTGTCCTC CCTAGACCTG GAAGGAGAGT CTGTGTCAGA ACTTGGAGCA 
    GGACCTTCTG GCAGTAATGG AGTTGAAGCT CTACAGCTGT TAGAACATGA GCAAGCTACA 
    ACACAGGATA ACCTTGATGA TAAGCTAAGG AAGTTTGAAA TTCGTGACAT GATGGGATTA 
    ACAGATGATA GGGACATATC AGAAACAGTG AGTGAGACCT GGAGTACAGA CGTCTTGGGG 
    AGTGACTTTG ACCCTAATAT TGATGAAGAT CGCTTGCAAG AAATTGCAGG TGCTGCAGCA 
    GAGAACATGT TAGGCAGTTT GCTGTGCCTC CCAGGTTCAG GGTCAGTGCT TCTTGACCCC 
    TGCACTGGTT CTACCATATC AGAGACAACA AGTGAAGCTT GGAGTGTAGA GGTATTGCCA 
    AGTGACTCAG AGGCCCCAGA CCTAAAGCAG GAGGAGCGTC TACAAGAACT GGAGAGCTGT 
    TCTGGACTGG GTAGCACATC TGATGATACG GATGTCAGGG AGGTCAGTTC CCGCCCCAGC 
    ACACCAGGCC TCAGTGTTGT GTCCGGCATA AGTGCAACCT CTGAGGATAT TCCCAATAAG 
    ATTGAAGACT TGAGATCTGA GTGCAGCTCT GATTTTGGGG GTAAAGATTC TGTCACTAGT 
    CCAGACATGG ATGAAATAAC TCATGGTGCC CACCAGCTGA CCTCTCCTCC TTCTCAGTCA 
    GAGTCTCTGC TGGCCATGTT TGATCCACTG TCTTCACATG AAGGGGCTTC TGCTGTGGTA 
    AGGCCAAAGG TTCACTATGC TAGGCCATCG CATCCACCAC CAGATCCCCC AATCCTGGAA 
    GGAGCTGTGG GAGGAAATGA GGCCAGGTTG CCAAACTTTG GTTCCCATGT GTTAACTCCA 
    GCTGAATTGG AGGCATTCAA GCAAAGGCAT TCTTACCCTG AGAGACTAGT TCGAAGCAGG 
    AGCTCTGATA TAGTATCTTC TGTGCGGAGA CCCATGAGTG ACCCCAGCTG GAACCGGCGT 
    CCAGGAAATG AAGAGCGAGA ACTCCCTCCA GCTGCAGTCA TTGGTGCTAC TTCTTTGGTG 
    GCTGCACCTC ATTCATCATC TTCATCCCCG AGTAAGGACT CCTCAAGAGG AGAGACTGAA 
    GAACGCAAAG ATAGCGATGA TGAGAAATCA GACAGAAACA GACCTTGGTG GAGAAAACGT 
    TTTGTTTCAG CCATGCCTAA AGCTCCTATA CCATTTAGAA AGAAAGAAAA ACAAGAAAAA 
    GACAAAGATG ATCTGGGGCC TGACAGATTC TCAACACTCA CAGATGATCC CAGCCCTAGA 
    CTCAGTGCAC AAGCTCAGGT CGCTGAGGAT ATTCTGGACA AATACAGGAA TGCCATTAAA 
    CGGACCAGCC CCAGTGATGG AGCAATGGCA AACTATGAAA GTACAGAGGT TTTGGGTGAT 
    GGTGAAAGTG CACATGATTC TCCCCGTGAC GAGGCACTGC AGAACATCTC AGCTGATGAT 
    CTCCCAGACT CTGCGAGCCA AGCAGCCCAC CCGCAAGATT CAGCTTTCTC TTACAGAGAT 
    GCGAAAAAGA AACTGAGGCT TGCTCTTTGC TCTGCGGACT CTGTTGCCTT CCCAGTGCTG 
    ACCCACTCAA CAAGGAATGG TTTACCAGAC CACACAGACC CAGAAGACAA TGAAATTGTA 
    TGCTTCTTAA AAGTTCAAAT AGCTGAAGCA ATTAATTTAC AAGATAAGAA CTTAATGGCT 
    CAACTTCAAG AAACAATGCG CTGTGTGTGC CGTTTTGATA ATAGGACTTG TAGGAAACTG 
    CTGGCTTCTA TTGCTGAGGA CTACAGAAAA AGAGCCCCAT ATATTGCTTA TCTCACTCGT 
    TGTCGACAAG GACTACAGAC CACACAGGCT CACCTGGAAA GGCTATTGCA AAGGGTTTTG 
    CGAGACAAAG AAGTGGCCAA TCGATACTTT ACCACCGTCT GTGTGAGATT ACTGCTTGAG 
    AGCAAAGAAA AGAAGATCAG GGAATTCATT CAAGACTTTC AGAAACTCAC CGCAGCTGAT 
    GATAAAACTG CTCAGGTAGA AGATTTTCTG CAGTTTCTTT ATGGTGCAAT GGCCCAGGAT 
    GTCATATGGC AAAACGCAAG TGAAGAACAG CTTCAAGATG CACAGCTGGC CATTGAGCGA 
    AGCGTGATGA ACCGGATTTT CAAGCTTGCC TTCTACCCTA ATCAGGATGG GGACATACTT 
    CGCGACCAGG TTCTTCATGA ACATATCCAG AGATTATCTA AAGTAGTGAC TGCAAATCAC 
    AGAGCTCTTC AGATACCAGA GGTTTATCTT CGAGAAGCAC CATGGCCATC TGCACAATCA 
    GAAATCAGGA CAATAAGTGC TTATAAAACC CCCCGGGACA AAGTGCAGTG CATCCTGAGA 
    ATGTGCTCTA CGATTATGAA CCTCCTGAGC CTGGCCAATG AGGACTCTGT CCCTGGAGCG 
    GATGACTTTG TTCCTGTGTT GGTGTTTGTG TTGATAAAGG CAAATCCACC CTGTTTGCTG 
    TCTACTGTGC AGTATATCAG TAGCTTTTAT GCTAGCTGTC TGTCTGGAGA GGAGTCCTAT 
    TGGTGGATGC AGTTCACAGC AGCAGTAGAA TTCATTAAAA CCATCGATGA CCGAAAATGA

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

    RefSeq XP_014972324.1
    CDS199..4518
    Translation

    Target ORF information:

    RefSeq Version XM_015116838.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015116838.1

    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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACGCAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TCCTTCAAAT 
    CGCTCCAATT CAGTGTCCTC CCTAGACCTG GAAGGAGAGT CTGTGTCAGA ACTTGGAGCA 
    GGACCTTCTG GCAGTAATGG AGTTGAAGCT CTACAGCTGT TAGAACATGA GCAAGCTACA 
    ACACAGGATA ACCTTGATGA TAAGCTAAGG AAGTTTGAAA TTCGTGACAT GATGGGATTA 
    ACAGATGATA GGGACATATC AGAAACAGTG AGTGAGACCT GGAGTACAGA CGTCTTGGGG 
    AGTGACTTTG ACCCTAATAT TGATGAAGAT CGCTTGCAAG AAATTGCAGG TGCTGCAGCA 
    GAGAACATGT TAGGCAGTTT GCTGTGCCTC CCAGGTTCAG GGTCAGTGCT TCTTGACCCC 
    TGCACTGGTT CTACCATATC AGAGACAACA AGTGAAGCTT GGAGTGTAGA GGTATTGCCA 
    AGTGACTCAG AGGCCCCAGA CCTAAAGCAG GAGGAGCGTC TACAAGAACT GGAGAGCTGT 
    TCTGGACTGG GTAGCACATC TGATGATACG GATGTCAGGG AGGTCAGTTC CCGCCCCAGC 
    ACACCAGGCC TCAGTGTTGT GTCCGGCATA AGTGCAACCT CTGAGGATAT TCCCAATAAG 
    ATTGAAGACT TGAGATCTGA GTGCAGCTCT GATTTTGGGG GTAAAGATTC TGTCACTAGT 
    CCAGACATGG ATGAAATAAC TCATGGTGCC CACCAGCTGA CCTCTCCTCC TTCTCAGTCA 
    GAGTCTCTGC TGGCCATGTT TGATCCACTG TCTTCACATG AAGGGGCTTC TGCTGTGGTA 
    AGGCCAAAGG TTCACTATGC TAGGCCATCG CATCCACCAC CAGATCCCCC AATCCTGGAA 
    GGAGCTGTGG GAGGAAATGA GGCCAGGTTG CCAAACTTTG GTTCCCATGT GTTAACTCCA 
    GCTGAATTGG AGGCATTCAA GCAAAGGCAT TCTTACCCTG AGAGACTAGT TCGAAGCAGG 
    AGCTCTGATA TAGTATCTTC TGTGCGGAGA CCCATGAGTG ACCCCAGCTG GAACCGGCGT 
    CCAGGAAATG AAGAGCGAGA ACTCCCTCCA GCTGCAGTCA TTGGTGCTAC TTCTTTGGTG 
    GCTGCACCTC ATTCATCATC TTCATCCCCG AGTAAGGACT CCTCAAGAGG AGAGACTGAA 
    GAACGCAAAG ATAGCGATGA TGAGAAATCA GACAGAAACA GACCTTGGTG GAGAAAACGT 
    TTTGTTTCAG CCATGCCTAA AGCTCCTATA CCATTTAGAA AGAAAGAAAA ACAAGAAAAA 
    GACAAAGATG ATCTGGGGCC TGACAGATTC TCAACACTCA CAGATGATCC CAGCCCTAGA 
    CTCAGTGCAC AAGCTCAGGT CGCTGAGGAT ATTCTGGACA AATACAGGAA TGCCATTAAA 
    CGGACCAGCC CCAGTGATGG AGCAATGGCA AACTATGAAA GTACAGAGGT TTTGGGTGAT 
    GGTGAAAGTG CACATGATTC TCCCCGTGAC GAGGCACTGC AGAACATCTC AGCTGATGAT 
    CTCCCAGACT CTGCGAGCCA AGCAGCCCAC CCGCAAGATT CAGCTTTCTC TTACAGAGAT 
    GCGAAAAAGA AACTGAGGCT TGCTCTTTGC TCTGCGGACT CTGTTGCCTT CCCAGTGCTG 
    ACCCACTCAA CAAGGAATGG TTTACCAGAC CACACAGACC CAGAAGACAA TGAAATTGTA 
    TGCTTCTTAA AAGTTCAAAT AGCTGAAGCA ATTAATTTAC AAGATAAGAA CTTAATGGCT 
    CAACTTCAAG AAACAATGCG CTGTGTGTGC CGTTTTGATA ATAGGACTTG TAGGAAACTG 
    CTGGCTTCTA TTGCTGAGGA CTACAGAAAA AGAGCCCCAT ATATTGCTTA TCTCACTCGT 
    TGTCGACAAG GACTACAGAC CACACAGGCT CACCTGGAAA GGCTATTGCA AAGGGTTTTG 
    CGAGACAAAG AAGTGGCCAA TCGATACTTT ACCACCGTCT GTGTGAGATT ACTGCTTGAG 
    AGCAAAGAAA AGAAGATCAG GGAATTCATT CAAGACTTTC AGAAACTCAC CGCAGCTGAT 
    GATAAAACTG CTCAGGTAGA AGATTTTCTG CAGTTTCTTT ATGGTGCAAT GGCCCAGGAT 
    GTCATATGGC AAAACGCAAG TGAAGAACAG CTTCAAGATG CACAGCTGGC CATTGAGCGA 
    AGCGTGATGA ACCGGATTTT CAAGCTTGCC TTCTACCCTA ATCAGGATGG GGACATACTT 
    CGCGACCAGG TTCTTCATGA ACATATCCAG AGATTATCTA AAGTAGTGAC TGCAAATCAC 
    AGAGCTCTTC AGATACCAGA GGTTTATCTT CGAGAAGCAC CATGGCCATC TGCACAATCA 
    GAAATCAGGA CAATAAGTGC TTATAAAACC CCCCGGGACA AAGTGCAGTG CATCCTGAGA 
    ATGTGCTCTA CGATTATGAA CCTCCTGAGC CTGGCCAATG AGGACTCTGT CCCTGGAGCG 
    GATGACTTTG TTCCTGTGTT GGTGTTTGTG TTGATAAAGG CAAATCCACC CTGTTTGCTG 
    TCTACTGTGC AGTATATCAG TAGCTTTTAT GCTAGCTGTC TGTCTGGAGA GGAGTCCTAT 
    TGGTGGATGC AGTTCACAGC AGCAGTAGAA TTCATTAAAA CCATCGATGA CCGAAAATGA

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

    GAPVD1 ( XM_015116839.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014972325.1 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OMb48649
    Clone ID Related Accession (Same CDS sequence) XM_015116839.1
    Accession Version XM_015116839.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4302bp)
    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 GTPase-activating protein and VPS9 domain-containing protein 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805500.1) 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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACGCAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCCTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGATGAT CCCAGCCCTA GACTCAGTGC ACAAGCTCAG 
    GTCGCTGAGG ATATTCTGGA CAAATACAGG AATGCCATTA AACGGACCAG CCCCAGTGAT 
    GGAGCAATGG CAAACTATGA AAGTACAGAG GTTTTGGGTG ATGGTGAAAG TGCACATGAT 
    TCTCCCCGTG ACGAGGCACT GCAGAACATC TCAGCTGATG ATCTCCCAGA CTCTGCGAGC 
    CAAGCAGCCC ACCCGCAAGA TTCAGCTTTC TCTTACAGAG ATGCGAAAAA GAAACTGAGG 
    CTTGCTCTTT GCTCTGCGGA CTCTGTTGCC TTCCCAGTGC TGACCCACTC AACAAGGAAT 
    GGTTTACCAG ACCACACAGA CCCAGAAGAC AATGAAATTG TATGCTTCTT AAAAGTTCAA 
    ATAGCTGAAG CAATTAATTT ACAAGATAAG AACTTAATGG CTCAACTTCA AGAAACAATG 
    CGCTGTGTGT GCCGTTTTGA TAATAGGACT TGTAGGAAAC TGCTGGCTTC TATTGCTGAG 
    GACTACAGAA AAAGAGCCCC ATATATTGCT TATCTCACTC GTTGTCGACA AGGACTACAG 
    ACCACACAGG CTCACCTGGA AAGGCTATTG CAAAGGGTTT TGCGAGACAA AGAAGTGGCC 
    AATCGATACT TTACCACCGT CTGTGTGAGA TTACTGCTTG AGAGCAAAGA AAAGAAGATC 
    AGGGAATTCA TTCAAGACTT TCAGAAACTC ACCGCAGCTG ATGATAAAAC TGCTCAGGTA 
    GAAGATTTTC TGCAGTTTCT TTATGGTGCA ATGGCCCAGG ATGTCATATG GCAAAACGCA 
    AGTGAAGAAC AGCTTCAAGA TGCACAGCTG GCCATTGAGC GAAGCGTGAT GAACCGGATT 
    TTCAAGCTTG CCTTCTACCC TAATCAGGAT GGGGACATAC TTCGCGACCA GGTTCTTCAT 
    GAACATATCC AGAGATTATC TAAAGTAGTG ACTGCAAATC ACAGAGCTCT TCAGATACCA 
    GAGGTTTATC TTCGAGAAGC ACCATGGCCA TCTGCACAAT CAGAAATCAG GACAATAAGT 
    GCTTATAAAA CCCCCCGGGA CAAAGTGCAG TGCATCCTGA GAATGTGCTC TACGATTATG 
    AACCTCCTGA GCCTGGCCAA TGAGGACTCT GTCCCTGGAG CGGATGACTT TGTTCCTGTG 
    TTGGTGTTTG TGTTGATAAA GGCAAATCCA CCCTGTTTGC TGTCTACTGT GCAGTATATC 
    AGTAGCTTTT ATGCTAGCTG TCTGTCTGGA GAGGAGTCCT ATTGGTGGAT GCAGTTCACA 
    GCAGCAGTAG AATTCATTAA AACCATCGAT GACCGAAAAT GA

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

    RefSeq XP_014972325.1
    CDS199..4500
    Translation

    Target ORF information:

    RefSeq Version XM_015116839.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015116839.1

    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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACGCAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCCTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGATGAT CCCAGCCCTA GACTCAGTGC ACAAGCTCAG 
    GTCGCTGAGG ATATTCTGGA CAAATACAGG AATGCCATTA AACGGACCAG CCCCAGTGAT 
    GGAGCAATGG CAAACTATGA AAGTACAGAG GTTTTGGGTG ATGGTGAAAG TGCACATGAT 
    TCTCCCCGTG ACGAGGCACT GCAGAACATC TCAGCTGATG ATCTCCCAGA CTCTGCGAGC 
    CAAGCAGCCC ACCCGCAAGA TTCAGCTTTC TCTTACAGAG ATGCGAAAAA GAAACTGAGG 
    CTTGCTCTTT GCTCTGCGGA CTCTGTTGCC TTCCCAGTGC TGACCCACTC AACAAGGAAT 
    GGTTTACCAG ACCACACAGA CCCAGAAGAC AATGAAATTG TATGCTTCTT AAAAGTTCAA 
    ATAGCTGAAG CAATTAATTT ACAAGATAAG AACTTAATGG CTCAACTTCA AGAAACAATG 
    CGCTGTGTGT GCCGTTTTGA TAATAGGACT TGTAGGAAAC TGCTGGCTTC TATTGCTGAG 
    GACTACAGAA AAAGAGCCCC ATATATTGCT TATCTCACTC GTTGTCGACA AGGACTACAG 
    ACCACACAGG CTCACCTGGA AAGGCTATTG CAAAGGGTTT TGCGAGACAA AGAAGTGGCC 
    AATCGATACT TTACCACCGT CTGTGTGAGA TTACTGCTTG AGAGCAAAGA AAAGAAGATC 
    AGGGAATTCA TTCAAGACTT TCAGAAACTC ACCGCAGCTG ATGATAAAAC TGCTCAGGTA 
    GAAGATTTTC TGCAGTTTCT TTATGGTGCA ATGGCCCAGG ATGTCATATG GCAAAACGCA 
    AGTGAAGAAC AGCTTCAAGA TGCACAGCTG GCCATTGAGC GAAGCGTGAT GAACCGGATT 
    TTCAAGCTTG CCTTCTACCC TAATCAGGAT GGGGACATAC TTCGCGACCA GGTTCTTCAT 
    GAACATATCC AGAGATTATC TAAAGTAGTG ACTGCAAATC ACAGAGCTCT TCAGATACCA 
    GAGGTTTATC TTCGAGAAGC ACCATGGCCA TCTGCACAAT CAGAAATCAG GACAATAAGT 
    GCTTATAAAA CCCCCCGGGA CAAAGTGCAG TGCATCCTGA GAATGTGCTC TACGATTATG 
    AACCTCCTGA GCCTGGCCAA TGAGGACTCT GTCCCTGGAG CGGATGACTT TGTTCCTGTG 
    TTGGTGTTTG TGTTGATAAA GGCAAATCCA CCCTGTTTGC TGTCTACTGT GCAGTATATC 
    AGTAGCTTTT ATGCTAGCTG TCTGTCTGGA GAGGAGTCCT ATTGGTGGAT GCAGTTCACA 
    GCAGCAGTAG AATTCATTAA AACCATCGAT GACCGAAAAT GA

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

    GAPVD1 ( XM_015116840.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014972326.1 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OMb48650
    Clone ID Related Accession (Same CDS sequence) XM_015116840.1
    Accession Version XM_015116840.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4239bp)
    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 GTPase-activating protein and VPS9 domain-containing protein 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014805500.1) 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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACGCAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TCCTTCAAAT 
    CGCTCCAATT CAGTGTCCTC CCTAGACCTG GAAGGAGAGT CTGTGTCAGA ACTTGGAGCA 
    GGACCTTCTG GCAGTAATGG AGTTGAAGCT CTACAGCTGT TAGAACATGA GCAAGCTACA 
    ACACAGGATA ACCTTGATGA TAAGCTAAGG AAGTTTGAAA TTCGTGACAT GATGGGATTA 
    ACAGATGATA GGGACATATC AGAAACAGTG AGTGAGACCT GGAGTACAGA CGTCTTGGGG 
    AGTGACTTTG ACCCTAATAT TGATGAAGAT CGCTTGCAAG AAATTGCAGG TGCTGCAGCA 
    GAGAACATGT TAGGCAGTTT GCTGTGCCTC CCAGGTTCAG GGTCAGTGCT TCTTGACCCC 
    TGCACTGGTT CTACCATATC AGAGACAACA AGTGAAGCTT GGAGTGTAGA GGTATTGCCA 
    AGTGACTCAG AGGCCCCAGA CCTAAAGCAG GAGGAGCGTC TACAAGAACT GGAGAGCTGT 
    TCTGGACTGG GTAGCACATC TGATGATACG GATGTCAGGG AGGTCAGTTC CCGCCCCAGC 
    ACACCAGGCC TCAGTGTTGT GTCCGGCATA AGTGCAACCT CTGAGGATAT TCCCAATAAG 
    ATTGAAGACT TGAGATCTGA GTGCAGCTCT GATTTTGGGG GTAAAGATTC TGTCACTAGT 
    CCAGACATGG ATGAAATAAC TCATGGTGCC CACCAGCTGA CCTCTCCTCC TTCTCAGTCA 
    GAGTCTCTGC TGGCCATGTT TGATCCACTG TCTTCACATG AAGGGGCTTC TGCTGTGGTA 
    AGGCCAAAGG TTCACTATGC TAGGCCATCG CATCCACCAC CAGATCCCCC AATCCTGGAA 
    GGAGCTGTGG GAGGAAATGA GGCCAGGTTG CCAAACTTTG GTTCCCATGT GTTAACTCCA 
    GCTGAATTGG AGGCATTCAA GCAAAGGCAT TCTTACCCTG AGAGACTAGT TCGAAGCAGG 
    AGCTCTGATA TAGTATCTTC TGTGCGGAGA CCCATGAGTG ACCCCAGCTG GAACCGGCGT 
    CCAGGAAATG AAGAGCGAGA ACTCCCTCCA GCTGCAGTCA TTGGTGCTAC TTCTTTGGTG 
    GCTGCACCTC ATTCATCATC TTCATCCCCG AGTAAGGACT CCTCAAGAGG AGAGACTGAA 
    GAACGCAAAG ATAGCGATGA TGAGAAATCA GACAGAAACA GACCTTGGTG GAGAAAACGT 
    TTTGTTTCAG CCATGCCTAA AGATGATCCC AGCCCTAGAC TCAGTGCACA AGCTCAGGTC 
    GCTGAGGATA TTCTGGACAA ATACAGGAAT GCCATTAAAC GGACCAGCCC CAGTGATGGA 
    GCAATGGCAA ACTATGAAAG TACAGAGGTT TTGGGTGATG GTGAAAGTGC ACATGATTCT 
    CCCCGTGACG AGGCACTGCA GAACATCTCA GCTGATGATC TCCCAGACTC TGCGAGCCAA 
    GCAGCCCACC CGCAAGATTC AGCTTTCTCT TACAGAGATG CGAAAAAGAA ACTGAGGCTT 
    GCTCTTTGCT CTGCGGACTC TGTTGCCTTC CCAGTGCTGA CCCACTCAAC AAGGAATGGT 
    TTACCAGACC ACACAGACCC AGAAGACAAT GAAATTGTAT GCTTCTTAAA AGTTCAAATA 
    GCTGAAGCAA TTAATTTACA AGATAAGAAC TTAATGGCTC AACTTCAAGA AACAATGCGC 
    TGTGTGTGCC GTTTTGATAA TAGGACTTGT AGGAAACTGC TGGCTTCTAT TGCTGAGGAC 
    TACAGAAAAA GAGCCCCATA TATTGCTTAT CTCACTCGTT GTCGACAAGG ACTACAGACC 
    ACACAGGCTC ACCTGGAAAG GCTATTGCAA AGGGTTTTGC GAGACAAAGA AGTGGCCAAT 
    CGATACTTTA CCACCGTCTG TGTGAGATTA CTGCTTGAGA GCAAAGAAAA GAAGATCAGG 
    GAATTCATTC AAGACTTTCA GAAACTCACC GCAGCTGATG ATAAAACTGC TCAGGTAGAA 
    GATTTTCTGC AGTTTCTTTA TGGTGCAATG GCCCAGGATG TCATATGGCA AAACGCAAGT 
    GAAGAACAGC TTCAAGATGC ACAGCTGGCC ATTGAGCGAA GCGTGATGAA CCGGATTTTC 
    AAGCTTGCCT TCTACCCTAA TCAGGATGGG GACATACTTC GCGACCAGGT TCTTCATGAA 
    CATATCCAGA GATTATCTAA AGTAGTGACT GCAAATCACA GAGCTCTTCA GATACCAGAG 
    GTTTATCTTC GAGAAGCACC ATGGCCATCT GCACAATCAG AAATCAGGAC AATAAGTGCT 
    TATAAAACCC CCCGGGACAA AGTGCAGTGC ATCCTGAGAA TGTGCTCTAC GATTATGAAC 
    CTCCTGAGCC TGGCCAATGA GGACTCTGTC CCTGGAGCGG ATGACTTTGT TCCTGTGTTG 
    GTGTTTGTGT TGATAAAGGC AAATCCACCC TGTTTGCTGT CTACTGTGCA GTATATCAGT 
    AGCTTTTATG CTAGCTGTCT GTCTGGAGAG GAGTCCTATT GGTGGATGCA GTTCACAGCA 
    GCAGTAGAAT TCATTAAAAC CATCGATGAC CGAAAATGA

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

    RefSeq XP_014972326.1
    CDS199..4437
    Translation

    Target ORF information:

    RefSeq Version XM_015116840.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015116840.1

    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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACGCAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TCCTTCAAAT 
    CGCTCCAATT CAGTGTCCTC CCTAGACCTG GAAGGAGAGT CTGTGTCAGA ACTTGGAGCA 
    GGACCTTCTG GCAGTAATGG AGTTGAAGCT CTACAGCTGT TAGAACATGA GCAAGCTACA 
    ACACAGGATA ACCTTGATGA TAAGCTAAGG AAGTTTGAAA TTCGTGACAT GATGGGATTA 
    ACAGATGATA GGGACATATC AGAAACAGTG AGTGAGACCT GGAGTACAGA CGTCTTGGGG 
    AGTGACTTTG ACCCTAATAT TGATGAAGAT CGCTTGCAAG AAATTGCAGG TGCTGCAGCA 
    GAGAACATGT TAGGCAGTTT GCTGTGCCTC CCAGGTTCAG GGTCAGTGCT TCTTGACCCC 
    TGCACTGGTT CTACCATATC AGAGACAACA AGTGAAGCTT GGAGTGTAGA GGTATTGCCA 
    AGTGACTCAG AGGCCCCAGA CCTAAAGCAG GAGGAGCGTC TACAAGAACT GGAGAGCTGT 
    TCTGGACTGG GTAGCACATC TGATGATACG GATGTCAGGG AGGTCAGTTC CCGCCCCAGC 
    ACACCAGGCC TCAGTGTTGT GTCCGGCATA AGTGCAACCT CTGAGGATAT TCCCAATAAG 
    ATTGAAGACT TGAGATCTGA GTGCAGCTCT GATTTTGGGG GTAAAGATTC TGTCACTAGT 
    CCAGACATGG ATGAAATAAC TCATGGTGCC CACCAGCTGA CCTCTCCTCC TTCTCAGTCA 
    GAGTCTCTGC TGGCCATGTT TGATCCACTG TCTTCACATG AAGGGGCTTC TGCTGTGGTA 
    AGGCCAAAGG TTCACTATGC TAGGCCATCG CATCCACCAC CAGATCCCCC AATCCTGGAA 
    GGAGCTGTGG GAGGAAATGA GGCCAGGTTG CCAAACTTTG GTTCCCATGT GTTAACTCCA 
    GCTGAATTGG AGGCATTCAA GCAAAGGCAT TCTTACCCTG AGAGACTAGT TCGAAGCAGG 
    AGCTCTGATA TAGTATCTTC TGTGCGGAGA CCCATGAGTG ACCCCAGCTG GAACCGGCGT 
    CCAGGAAATG AAGAGCGAGA ACTCCCTCCA GCTGCAGTCA TTGGTGCTAC TTCTTTGGTG 
    GCTGCACCTC ATTCATCATC TTCATCCCCG AGTAAGGACT CCTCAAGAGG AGAGACTGAA 
    GAACGCAAAG ATAGCGATGA TGAGAAATCA GACAGAAACA GACCTTGGTG GAGAAAACGT 
    TTTGTTTCAG CCATGCCTAA AGATGATCCC AGCCCTAGAC TCAGTGCACA AGCTCAGGTC 
    GCTGAGGATA TTCTGGACAA ATACAGGAAT GCCATTAAAC GGACCAGCCC CAGTGATGGA 
    GCAATGGCAA ACTATGAAAG TACAGAGGTT TTGGGTGATG GTGAAAGTGC ACATGATTCT 
    CCCCGTGACG AGGCACTGCA GAACATCTCA GCTGATGATC TCCCAGACTC TGCGAGCCAA 
    GCAGCCCACC CGCAAGATTC AGCTTTCTCT TACAGAGATG CGAAAAAGAA ACTGAGGCTT 
    GCTCTTTGCT CTGCGGACTC TGTTGCCTTC CCAGTGCTGA CCCACTCAAC AAGGAATGGT 
    TTACCAGACC ACACAGACCC AGAAGACAAT GAAATTGTAT GCTTCTTAAA AGTTCAAATA 
    GCTGAAGCAA TTAATTTACA AGATAAGAAC TTAATGGCTC AACTTCAAGA AACAATGCGC 
    TGTGTGTGCC GTTTTGATAA TAGGACTTGT AGGAAACTGC TGGCTTCTAT TGCTGAGGAC 
    TACAGAAAAA GAGCCCCATA TATTGCTTAT CTCACTCGTT GTCGACAAGG ACTACAGACC 
    ACACAGGCTC ACCTGGAAAG GCTATTGCAA AGGGTTTTGC GAGACAAAGA AGTGGCCAAT 
    CGATACTTTA CCACCGTCTG TGTGAGATTA CTGCTTGAGA GCAAAGAAAA GAAGATCAGG 
    GAATTCATTC AAGACTTTCA GAAACTCACC GCAGCTGATG ATAAAACTGC TCAGGTAGAA 
    GATTTTCTGC AGTTTCTTTA TGGTGCAATG GCCCAGGATG TCATATGGCA AAACGCAAGT 
    GAAGAACAGC TTCAAGATGC ACAGCTGGCC ATTGAGCGAA GCGTGATGAA CCGGATTTTC 
    AAGCTTGCCT TCTACCCTAA TCAGGATGGG GACATACTTC GCGACCAGGT TCTTCATGAA 
    CATATCCAGA GATTATCTAA AGTAGTGACT GCAAATCACA GAGCTCTTCA GATACCAGAG 
    GTTTATCTTC GAGAAGCACC ATGGCCATCT GCACAATCAG AAATCAGGAC AATAAGTGCT 
    TATAAAACCC CCCGGGACAA AGTGCAGTGC ATCCTGAGAA TGTGCTCTAC GATTATGAAC 
    CTCCTGAGCC TGGCCAATGA GGACTCTGTC CCTGGAGCGG ATGACTTTGT TCCTGTGTTG 
    GTGTTTGTGT TGATAAAGGC AAATCCACCC TGTTTGCTGT CTACTGTGCA GTATATCAGT 
    AGCTTTTATG CTAGCTGTCT GTCTGGAGAG GAGTCCTATT GGTGGATGCA GTTCACAGCA 
    GCAGTAGAAT TCATTAAAAC CATCGATGAC CGAAAATGA

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

    GAPVD1 ( XM_015116835.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014972321.1 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMb71216
    Clone ID Related Accession (Same CDS sequence) XM_015116835.2 , XM_015116836.2 , XM_015116834.2 , XM_028834835.1
    Accession Version XM_015116835.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4383bp)
    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 GTPase-activating protein and VPS9 domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041768.1) 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_015116835.1. ##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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCTTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGCTCCT ATACCATTTA GAAAGAAAGA AAAACAAGAA 
    AAAGACAAAG ATGATCTGGG GCCTGACAGA TTCTCAACAC TCACAGATGA TCCCAGCCCT 
    AGACTCAGTG CACAAGCTCA GGTCGCTGAG GATATTCTGG ACAAATACAG GAATGCCATT 
    AAACGGACCA GCCCCAGTGA TGGAGCAATG GCAAACTATG AAAGTACAGA GGTTTTGGGT 
    GATGGTGAAA GTGCACATGA TTCTCCCCGT GACGAGGCAC TGCAGAACAT CTCAGCTGAT 
    GATCTCCCAG ACTCTGCGAG CCAAGCAGCC CACCCGCAAG ATTCAGCTTT CTCTTACAGA 
    GATGCGAAAA AGAAACTGAG GCTTGCTCTT TGCTCTGCGG ACTCTGTTGC CTTCCCAGTG 
    CTGACCCACT CAACAAGGAA TGGTTTACCA GACCACACAG ACCCAGAAGA CAATGAAATT 
    GTATGCTTCT TAAAAGTTCA AATAGCTGAA GCAATTAATT TACAAGATAA GAACTTAATG 
    GCTCAACTTC AAGAAACAAT GCGCTGTGTG TGCCGTTTTG ATAATAGGAC TTGTAGGAAA 
    CTGCTGGCTT CTATTGCTGA GGACTACAGA AAAAGAGCCC CATATATTGC TTATCTCACT 
    CGTTGTCGAC AAGGACTACA GACCACACAG GCTCACCTGG AAAGGCTATT GCAAAGGGTT 
    TTGCGAGACA AAGAAGTGGC CAATCGATAC TTTACCACCG TCTGTGTGAG ATTACTGCTT 
    GAGAGCAAAG AAAAGAAGAT CAGGGAATTC ATTCAAGACT TTCAGAAACT CACCGCAGCT 
    GATGATAAAA CTGCTCAGGT AGAAGATTTT CTGCAGTTTC TTTATGGTGC AATGGCCCAG 
    GATGTCATAT GGCAAAACGC AAGTGAAGAA CAGCTTCAAG ATGCACAGCT GGCCATTGAG 
    CGAAGCGTGA TGAACCGGAT TTTCAAGCTT GCCTTCTACC CTAATCAGGA TGGGGACATA 
    CTTCGCGACC AGGTTCTTCA TGAACATATC CAGAGATTAT CTAAAGTAGT GACTGCAAAT 
    CACAGAGCTC TTCAGATACC AGAGGTTTAT CTTCGAGAAG CACCATGGCC ATCTGCACAA 
    TCAGAAATCA GGACAATAAG TGCTTATAAA ACCCCCCGGG ACAAAGTGCA GTGCATCCTG 
    AGAATGTGCT CTACGATTAT GAACCTCCTG AGCCTGGCCA ATGAGGACTC TGTCCCTGGA 
    GCGGATGACT TTGTTCCTGT GTTGGTGTTT GTGTTGATAA AGGCAAATCC ACCCTGTTTG 
    CTGTCTACTG TGCAGTATAT CAGTAGCTTT TATGCTAGCT GTCTGTCTGG AGAGGAGTCC 
    TATTGGTGGA TGCAGTTCAC AGCAGCAGTA GAATTCATTA AAACCATCGA TGACCGAAAA 
    TGA

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

    RefSeq XP_014972321.1
    CDS145..4527
    Translation

    Target ORF information:

    RefSeq Version XM_015116835.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015116835.2

    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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCTTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGCTCCT ATACCATTTA GAAAGAAAGA AAAACAAGAA 
    AAAGACAAAG ATGATCTGGG GCCTGACAGA TTCTCAACAC TCACAGATGA TCCCAGCCCT 
    AGACTCAGTG CACAAGCTCA GGTCGCTGAG GATATTCTGG ACAAATACAG GAATGCCATT 
    AAACGGACCA GCCCCAGTGA TGGAGCAATG GCAAACTATG AAAGTACAGA GGTTTTGGGT 
    GATGGTGAAA GTGCACATGA TTCTCCCCGT GACGAGGCAC TGCAGAACAT CTCAGCTGAT 
    GATCTCCCAG ACTCTGCGAG CCAAGCAGCC CACCCGCAAG ATTCAGCTTT CTCTTACAGA 
    GATGCGAAAA AGAAACTGAG GCTTGCTCTT TGCTCTGCGG ACTCTGTTGC CTTCCCAGTG 
    CTGACCCACT CAACAAGGAA TGGTTTACCA GACCACACAG ACCCAGAAGA CAATGAAATT 
    GTATGCTTCT TAAAAGTTCA AATAGCTGAA GCAATTAATT TACAAGATAA GAACTTAATG 
    GCTCAACTTC AAGAAACAAT GCGCTGTGTG TGCCGTTTTG ATAATAGGAC TTGTAGGAAA 
    CTGCTGGCTT CTATTGCTGA GGACTACAGA AAAAGAGCCC CATATATTGC TTATCTCACT 
    CGTTGTCGAC AAGGACTACA GACCACACAG GCTCACCTGG AAAGGCTATT GCAAAGGGTT 
    TTGCGAGACA AAGAAGTGGC CAATCGATAC TTTACCACCG TCTGTGTGAG ATTACTGCTT 
    GAGAGCAAAG AAAAGAAGAT CAGGGAATTC ATTCAAGACT TTCAGAAACT CACCGCAGCT 
    GATGATAAAA CTGCTCAGGT AGAAGATTTT CTGCAGTTTC TTTATGGTGC AATGGCCCAG 
    GATGTCATAT GGCAAAACGC AAGTGAAGAA CAGCTTCAAG ATGCACAGCT GGCCATTGAG 
    CGAAGCGTGA TGAACCGGAT TTTCAAGCTT GCCTTCTACC CTAATCAGGA TGGGGACATA 
    CTTCGCGACC AGGTTCTTCA TGAACATATC CAGAGATTAT CTAAAGTAGT GACTGCAAAT 
    CACAGAGCTC TTCAGATACC AGAGGTTTAT CTTCGAGAAG CACCATGGCC ATCTGCACAA 
    TCAGAAATCA GGACAATAAG TGCTTATAAA ACCCCCCGGG ACAAAGTGCA GTGCATCCTG 
    AGAATGTGCT CTACGATTAT GAACCTCCTG AGCCTGGCCA ATGAGGACTC TGTCCCTGGA 
    GCGGATGACT TTGTTCCTGT GTTGGTGTTT GTGTTGATAA AGGCAAATCC ACCCTGTTTG 
    CTGTCTACTG TGCAGTATAT CAGTAGCTTT TATGCTAGCT GTCTGTCTGG AGAGGAGTCC 
    TATTGGTGGA TGCAGTTCAC AGCAGCAGTA GAATTCATTA AAACCATCGA TGACCGAAAA 
    TGA

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

    GAPVD1 ( XM_015116836.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014972322.1 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMb71216
    Clone ID Related Accession (Same CDS sequence) XM_015116835.2 , XM_015116836.2 , XM_015116834.2 , XM_028834835.1
    Accession Version XM_015116836.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4383bp)
    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 GTPase-activating protein and VPS9 domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041768.1) 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_015116836.1. ##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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCTTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGCTCCT ATACCATTTA GAAAGAAAGA AAAACAAGAA 
    AAAGACAAAG ATGATCTGGG GCCTGACAGA TTCTCAACAC TCACAGATGA TCCCAGCCCT 
    AGACTCAGTG CACAAGCTCA GGTCGCTGAG GATATTCTGG ACAAATACAG GAATGCCATT 
    AAACGGACCA GCCCCAGTGA TGGAGCAATG GCAAACTATG AAAGTACAGA GGTTTTGGGT 
    GATGGTGAAA GTGCACATGA TTCTCCCCGT GACGAGGCAC TGCAGAACAT CTCAGCTGAT 
    GATCTCCCAG ACTCTGCGAG CCAAGCAGCC CACCCGCAAG ATTCAGCTTT CTCTTACAGA 
    GATGCGAAAA AGAAACTGAG GCTTGCTCTT TGCTCTGCGG ACTCTGTTGC CTTCCCAGTG 
    CTGACCCACT CAACAAGGAA TGGTTTACCA GACCACACAG ACCCAGAAGA CAATGAAATT 
    GTATGCTTCT TAAAAGTTCA AATAGCTGAA GCAATTAATT TACAAGATAA GAACTTAATG 
    GCTCAACTTC AAGAAACAAT GCGCTGTGTG TGCCGTTTTG ATAATAGGAC TTGTAGGAAA 
    CTGCTGGCTT CTATTGCTGA GGACTACAGA AAAAGAGCCC CATATATTGC TTATCTCACT 
    CGTTGTCGAC AAGGACTACA GACCACACAG GCTCACCTGG AAAGGCTATT GCAAAGGGTT 
    TTGCGAGACA AAGAAGTGGC CAATCGATAC TTTACCACCG TCTGTGTGAG ATTACTGCTT 
    GAGAGCAAAG AAAAGAAGAT CAGGGAATTC ATTCAAGACT TTCAGAAACT CACCGCAGCT 
    GATGATAAAA CTGCTCAGGT AGAAGATTTT CTGCAGTTTC TTTATGGTGC AATGGCCCAG 
    GATGTCATAT GGCAAAACGC AAGTGAAGAA CAGCTTCAAG ATGCACAGCT GGCCATTGAG 
    CGAAGCGTGA TGAACCGGAT TTTCAAGCTT GCCTTCTACC CTAATCAGGA TGGGGACATA 
    CTTCGCGACC AGGTTCTTCA TGAACATATC CAGAGATTAT CTAAAGTAGT GACTGCAAAT 
    CACAGAGCTC TTCAGATACC AGAGGTTTAT CTTCGAGAAG CACCATGGCC ATCTGCACAA 
    TCAGAAATCA GGACAATAAG TGCTTATAAA ACCCCCCGGG ACAAAGTGCA GTGCATCCTG 
    AGAATGTGCT CTACGATTAT GAACCTCCTG AGCCTGGCCA ATGAGGACTC TGTCCCTGGA 
    GCGGATGACT TTGTTCCTGT GTTGGTGTTT GTGTTGATAA AGGCAAATCC ACCCTGTTTG 
    CTGTCTACTG TGCAGTATAT CAGTAGCTTT TATGCTAGCT GTCTGTCTGG AGAGGAGTCC 
    TATTGGTGGA TGCAGTTCAC AGCAGCAGTA GAATTCATTA AAACCATCGA TGACCGAAAA 
    TGA

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

    RefSeq XP_014972322.1
    CDS248..4630
    Translation

    Target ORF information:

    RefSeq Version XM_015116836.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015116836.2

    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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCTTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGCTCCT ATACCATTTA GAAAGAAAGA AAAACAAGAA 
    AAAGACAAAG ATGATCTGGG GCCTGACAGA TTCTCAACAC TCACAGATGA TCCCAGCCCT 
    AGACTCAGTG CACAAGCTCA GGTCGCTGAG GATATTCTGG ACAAATACAG GAATGCCATT 
    AAACGGACCA GCCCCAGTGA TGGAGCAATG GCAAACTATG AAAGTACAGA GGTTTTGGGT 
    GATGGTGAAA GTGCACATGA TTCTCCCCGT GACGAGGCAC TGCAGAACAT CTCAGCTGAT 
    GATCTCCCAG ACTCTGCGAG CCAAGCAGCC CACCCGCAAG ATTCAGCTTT CTCTTACAGA 
    GATGCGAAAA AGAAACTGAG GCTTGCTCTT TGCTCTGCGG ACTCTGTTGC CTTCCCAGTG 
    CTGACCCACT CAACAAGGAA TGGTTTACCA GACCACACAG ACCCAGAAGA CAATGAAATT 
    GTATGCTTCT TAAAAGTTCA AATAGCTGAA GCAATTAATT TACAAGATAA GAACTTAATG 
    GCTCAACTTC AAGAAACAAT GCGCTGTGTG TGCCGTTTTG ATAATAGGAC TTGTAGGAAA 
    CTGCTGGCTT CTATTGCTGA GGACTACAGA AAAAGAGCCC CATATATTGC TTATCTCACT 
    CGTTGTCGAC AAGGACTACA GACCACACAG GCTCACCTGG AAAGGCTATT GCAAAGGGTT 
    TTGCGAGACA AAGAAGTGGC CAATCGATAC TTTACCACCG TCTGTGTGAG ATTACTGCTT 
    GAGAGCAAAG AAAAGAAGAT CAGGGAATTC ATTCAAGACT TTCAGAAACT CACCGCAGCT 
    GATGATAAAA CTGCTCAGGT AGAAGATTTT CTGCAGTTTC TTTATGGTGC AATGGCCCAG 
    GATGTCATAT GGCAAAACGC AAGTGAAGAA CAGCTTCAAG ATGCACAGCT GGCCATTGAG 
    CGAAGCGTGA TGAACCGGAT TTTCAAGCTT GCCTTCTACC CTAATCAGGA TGGGGACATA 
    CTTCGCGACC AGGTTCTTCA TGAACATATC CAGAGATTAT CTAAAGTAGT GACTGCAAAT 
    CACAGAGCTC TTCAGATACC AGAGGTTTAT CTTCGAGAAG CACCATGGCC ATCTGCACAA 
    TCAGAAATCA GGACAATAAG TGCTTATAAA ACCCCCCGGG ACAAAGTGCA GTGCATCCTG 
    AGAATGTGCT CTACGATTAT GAACCTCCTG AGCCTGGCCA ATGAGGACTC TGTCCCTGGA 
    GCGGATGACT TTGTTCCTGT GTTGGTGTTT GTGTTGATAA AGGCAAATCC ACCCTGTTTG 
    CTGTCTACTG TGCAGTATAT CAGTAGCTTT TATGCTAGCT GTCTGTCTGG AGAGGAGTCC 
    TATTGGTGGA TGCAGTTCAC AGCAGCAGTA GAATTCATTA AAACCATCGA TGACCGAAAA 
    TGA

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

    GAPVD1 ( XM_015116834.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014972320.1 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMb71216
    Clone ID Related Accession (Same CDS sequence) XM_015116835.2 , XM_015116836.2 , XM_015116834.2 , XM_028834835.1
    Accession Version XM_015116834.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4383bp)
    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 GTPase-activating protein and VPS9 domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041768.1) 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_015116834.1. ##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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCTTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGCTCCT ATACCATTTA GAAAGAAAGA AAAACAAGAA 
    AAAGACAAAG ATGATCTGGG GCCTGACAGA TTCTCAACAC TCACAGATGA TCCCAGCCCT 
    AGACTCAGTG CACAAGCTCA GGTCGCTGAG GATATTCTGG ACAAATACAG GAATGCCATT 
    AAACGGACCA GCCCCAGTGA TGGAGCAATG GCAAACTATG AAAGTACAGA GGTTTTGGGT 
    GATGGTGAAA GTGCACATGA TTCTCCCCGT GACGAGGCAC TGCAGAACAT CTCAGCTGAT 
    GATCTCCCAG ACTCTGCGAG CCAAGCAGCC CACCCGCAAG ATTCAGCTTT CTCTTACAGA 
    GATGCGAAAA AGAAACTGAG GCTTGCTCTT TGCTCTGCGG ACTCTGTTGC CTTCCCAGTG 
    CTGACCCACT CAACAAGGAA TGGTTTACCA GACCACACAG ACCCAGAAGA CAATGAAATT 
    GTATGCTTCT TAAAAGTTCA AATAGCTGAA GCAATTAATT TACAAGATAA GAACTTAATG 
    GCTCAACTTC AAGAAACAAT GCGCTGTGTG TGCCGTTTTG ATAATAGGAC TTGTAGGAAA 
    CTGCTGGCTT CTATTGCTGA GGACTACAGA AAAAGAGCCC CATATATTGC TTATCTCACT 
    CGTTGTCGAC AAGGACTACA GACCACACAG GCTCACCTGG AAAGGCTATT GCAAAGGGTT 
    TTGCGAGACA AAGAAGTGGC CAATCGATAC TTTACCACCG TCTGTGTGAG ATTACTGCTT 
    GAGAGCAAAG AAAAGAAGAT CAGGGAATTC ATTCAAGACT TTCAGAAACT CACCGCAGCT 
    GATGATAAAA CTGCTCAGGT AGAAGATTTT CTGCAGTTTC TTTATGGTGC AATGGCCCAG 
    GATGTCATAT GGCAAAACGC AAGTGAAGAA CAGCTTCAAG ATGCACAGCT GGCCATTGAG 
    CGAAGCGTGA TGAACCGGAT TTTCAAGCTT GCCTTCTACC CTAATCAGGA TGGGGACATA 
    CTTCGCGACC AGGTTCTTCA TGAACATATC CAGAGATTAT CTAAAGTAGT GACTGCAAAT 
    CACAGAGCTC TTCAGATACC AGAGGTTTAT CTTCGAGAAG CACCATGGCC ATCTGCACAA 
    TCAGAAATCA GGACAATAAG TGCTTATAAA ACCCCCCGGG ACAAAGTGCA GTGCATCCTG 
    AGAATGTGCT CTACGATTAT GAACCTCCTG AGCCTGGCCA ATGAGGACTC TGTCCCTGGA 
    GCGGATGACT TTGTTCCTGT GTTGGTGTTT GTGTTGATAA AGGCAAATCC ACCCTGTTTG 
    CTGTCTACTG TGCAGTATAT CAGTAGCTTT TATGCTAGCT GTCTGTCTGG AGAGGAGTCC 
    TATTGGTGGA TGCAGTTCAC AGCAGCAGTA GAATTCATTA AAACCATCGA TGACCGAAAA 
    TGA

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

    RefSeq XP_014972320.1
    CDS199..4581
    Translation

    Target ORF information:

    RefSeq Version XM_015116834.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015116834.2

    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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCTTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGCTCCT ATACCATTTA GAAAGAAAGA AAAACAAGAA 
    AAAGACAAAG ATGATCTGGG GCCTGACAGA TTCTCAACAC TCACAGATGA TCCCAGCCCT 
    AGACTCAGTG CACAAGCTCA GGTCGCTGAG GATATTCTGG ACAAATACAG GAATGCCATT 
    AAACGGACCA GCCCCAGTGA TGGAGCAATG GCAAACTATG AAAGTACAGA GGTTTTGGGT 
    GATGGTGAAA GTGCACATGA TTCTCCCCGT GACGAGGCAC TGCAGAACAT CTCAGCTGAT 
    GATCTCCCAG ACTCTGCGAG CCAAGCAGCC CACCCGCAAG ATTCAGCTTT CTCTTACAGA 
    GATGCGAAAA AGAAACTGAG GCTTGCTCTT TGCTCTGCGG ACTCTGTTGC CTTCCCAGTG 
    CTGACCCACT CAACAAGGAA TGGTTTACCA GACCACACAG ACCCAGAAGA CAATGAAATT 
    GTATGCTTCT TAAAAGTTCA AATAGCTGAA GCAATTAATT TACAAGATAA GAACTTAATG 
    GCTCAACTTC AAGAAACAAT GCGCTGTGTG TGCCGTTTTG ATAATAGGAC TTGTAGGAAA 
    CTGCTGGCTT CTATTGCTGA GGACTACAGA AAAAGAGCCC CATATATTGC TTATCTCACT 
    CGTTGTCGAC AAGGACTACA GACCACACAG GCTCACCTGG AAAGGCTATT GCAAAGGGTT 
    TTGCGAGACA AAGAAGTGGC CAATCGATAC TTTACCACCG TCTGTGTGAG ATTACTGCTT 
    GAGAGCAAAG AAAAGAAGAT CAGGGAATTC ATTCAAGACT TTCAGAAACT CACCGCAGCT 
    GATGATAAAA CTGCTCAGGT AGAAGATTTT CTGCAGTTTC TTTATGGTGC AATGGCCCAG 
    GATGTCATAT GGCAAAACGC AAGTGAAGAA CAGCTTCAAG ATGCACAGCT GGCCATTGAG 
    CGAAGCGTGA TGAACCGGAT TTTCAAGCTT GCCTTCTACC CTAATCAGGA TGGGGACATA 
    CTTCGCGACC AGGTTCTTCA TGAACATATC CAGAGATTAT CTAAAGTAGT GACTGCAAAT 
    CACAGAGCTC TTCAGATACC AGAGGTTTAT CTTCGAGAAG CACCATGGCC ATCTGCACAA 
    TCAGAAATCA GGACAATAAG TGCTTATAAA ACCCCCCGGG ACAAAGTGCA GTGCATCCTG 
    AGAATGTGCT CTACGATTAT GAACCTCCTG AGCCTGGCCA ATGAGGACTC TGTCCCTGGA 
    GCGGATGACT TTGTTCCTGT GTTGGTGTTT GTGTTGATAA AGGCAAATCC ACCCTGTTTG 
    CTGTCTACTG TGCAGTATAT CAGTAGCTTT TATGCTAGCT GTCTGTCTGG AGAGGAGTCC 
    TATTGGTGGA TGCAGTTCAC AGCAGCAGTA GAATTCATTA AAACCATCGA TGACCGAAAA 
    TGA

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

    GAPVD1 ( XM_028834835.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_028690668.1 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMb71216
    Clone ID Related Accession (Same CDS sequence) XM_015116835.2 , XM_015116836.2 , XM_015116834.2 , XM_028834835.1
    Accession Version XM_028834835.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4383bp)
    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 GTPase-activating protein and VPS9 domain-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041768.1) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCTTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGCTCCT ATACCATTTA GAAAGAAAGA AAAACAAGAA 
    AAAGACAAAG ATGATCTGGG GCCTGACAGA TTCTCAACAC TCACAGATGA TCCCAGCCCT 
    AGACTCAGTG CACAAGCTCA GGTCGCTGAG GATATTCTGG ACAAATACAG GAATGCCATT 
    AAACGGACCA GCCCCAGTGA TGGAGCAATG GCAAACTATG AAAGTACAGA GGTTTTGGGT 
    GATGGTGAAA GTGCACATGA TTCTCCCCGT GACGAGGCAC TGCAGAACAT CTCAGCTGAT 
    GATCTCCCAG ACTCTGCGAG CCAAGCAGCC CACCCGCAAG ATTCAGCTTT CTCTTACAGA 
    GATGCGAAAA AGAAACTGAG GCTTGCTCTT TGCTCTGCGG ACTCTGTTGC CTTCCCAGTG 
    CTGACCCACT CAACAAGGAA TGGTTTACCA GACCACACAG ACCCAGAAGA CAATGAAATT 
    GTATGCTTCT TAAAAGTTCA AATAGCTGAA GCAATTAATT TACAAGATAA GAACTTAATG 
    GCTCAACTTC AAGAAACAAT GCGCTGTGTG TGCCGTTTTG ATAATAGGAC TTGTAGGAAA 
    CTGCTGGCTT CTATTGCTGA GGACTACAGA AAAAGAGCCC CATATATTGC TTATCTCACT 
    CGTTGTCGAC AAGGACTACA GACCACACAG GCTCACCTGG AAAGGCTATT GCAAAGGGTT 
    TTGCGAGACA AAGAAGTGGC CAATCGATAC TTTACCACCG TCTGTGTGAG ATTACTGCTT 
    GAGAGCAAAG AAAAGAAGAT CAGGGAATTC ATTCAAGACT TTCAGAAACT CACCGCAGCT 
    GATGATAAAA CTGCTCAGGT AGAAGATTTT CTGCAGTTTC TTTATGGTGC AATGGCCCAG 
    GATGTCATAT GGCAAAACGC AAGTGAAGAA CAGCTTCAAG ATGCACAGCT GGCCATTGAG 
    CGAAGCGTGA TGAACCGGAT TTTCAAGCTT GCCTTCTACC CTAATCAGGA TGGGGACATA 
    CTTCGCGACC AGGTTCTTCA TGAACATATC CAGAGATTAT CTAAAGTAGT GACTGCAAAT 
    CACAGAGCTC TTCAGATACC AGAGGTTTAT CTTCGAGAAG CACCATGGCC ATCTGCACAA 
    TCAGAAATCA GGACAATAAG TGCTTATAAA ACCCCCCGGG ACAAAGTGCA GTGCATCCTG 
    AGAATGTGCT CTACGATTAT GAACCTCCTG AGCCTGGCCA ATGAGGACTC TGTCCCTGGA 
    GCGGATGACT TTGTTCCTGT GTTGGTGTTT GTGTTGATAA AGGCAAATCC ACCCTGTTTG 
    CTGTCTACTG TGCAGTATAT CAGTAGCTTT TATGCTAGCT GTCTGTCTGG AGAGGAGTCC 
    TATTGGTGGA TGCAGTTCAC AGCAGCAGTA GAATTCATTA AAACCATCGA TGACCGAAAA 
    TGA

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

    RefSeq XP_028690668.1
    CDS356..4738
    Translation

    Target ORF information:

    RefSeq Version XM_028834835.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_028834835.1

    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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCTTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGCTCCT ATACCATTTA GAAAGAAAGA AAAACAAGAA 
    AAAGACAAAG ATGATCTGGG GCCTGACAGA TTCTCAACAC TCACAGATGA TCCCAGCCCT 
    AGACTCAGTG CACAAGCTCA GGTCGCTGAG GATATTCTGG ACAAATACAG GAATGCCATT 
    AAACGGACCA GCCCCAGTGA TGGAGCAATG GCAAACTATG AAAGTACAGA GGTTTTGGGT 
    GATGGTGAAA GTGCACATGA TTCTCCCCGT GACGAGGCAC TGCAGAACAT CTCAGCTGAT 
    GATCTCCCAG ACTCTGCGAG CCAAGCAGCC CACCCGCAAG ATTCAGCTTT CTCTTACAGA 
    GATGCGAAAA AGAAACTGAG GCTTGCTCTT TGCTCTGCGG ACTCTGTTGC CTTCCCAGTG 
    CTGACCCACT CAACAAGGAA TGGTTTACCA GACCACACAG ACCCAGAAGA CAATGAAATT 
    GTATGCTTCT TAAAAGTTCA AATAGCTGAA GCAATTAATT TACAAGATAA GAACTTAATG 
    GCTCAACTTC AAGAAACAAT GCGCTGTGTG TGCCGTTTTG ATAATAGGAC TTGTAGGAAA 
    CTGCTGGCTT CTATTGCTGA GGACTACAGA AAAAGAGCCC CATATATTGC TTATCTCACT 
    CGTTGTCGAC AAGGACTACA GACCACACAG GCTCACCTGG AAAGGCTATT GCAAAGGGTT 
    TTGCGAGACA AAGAAGTGGC CAATCGATAC TTTACCACCG TCTGTGTGAG ATTACTGCTT 
    GAGAGCAAAG AAAAGAAGAT CAGGGAATTC ATTCAAGACT TTCAGAAACT CACCGCAGCT 
    GATGATAAAA CTGCTCAGGT AGAAGATTTT CTGCAGTTTC TTTATGGTGC AATGGCCCAG 
    GATGTCATAT GGCAAAACGC AAGTGAAGAA CAGCTTCAAG ATGCACAGCT GGCCATTGAG 
    CGAAGCGTGA TGAACCGGAT TTTCAAGCTT GCCTTCTACC CTAATCAGGA TGGGGACATA 
    CTTCGCGACC AGGTTCTTCA TGAACATATC CAGAGATTAT CTAAAGTAGT GACTGCAAAT 
    CACAGAGCTC TTCAGATACC AGAGGTTTAT CTTCGAGAAG CACCATGGCC ATCTGCACAA 
    TCAGAAATCA GGACAATAAG TGCTTATAAA ACCCCCCGGG ACAAAGTGCA GTGCATCCTG 
    AGAATGTGCT CTACGATTAT GAACCTCCTG AGCCTGGCCA ATGAGGACTC TGTCCCTGGA 
    GCGGATGACT TTGTTCCTGT GTTGGTGTTT GTGTTGATAA AGGCAAATCC ACCCTGTTTG 
    CTGTCTACTG TGCAGTATAT CAGTAGCTTT TATGCTAGCT GTCTGTCTGG AGAGGAGTCC 
    TATTGGTGGA TGCAGTTCAC AGCAGCAGTA GAATTCATTA AAACCATCGA TGACCGAAAA 
    TGA

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

    GAPVD1 ( XM_015116838.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014972324.1 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OMb71217
    Clone ID Related Accession (Same CDS sequence) XM_015116838.2 , XM_028834836.1
    Accession Version XM_015116838.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4320bp)
    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 GTPase-activating protein and VPS9 domain-containing protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041768.1) 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_015116838.1. ##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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TCCTTCAAAT 
    CGCTCCAATT CAGTGTCCTC CCTAGACCTG GAAGGAGAGT CTGTGTCAGA ACTTGGAGCA 
    GGACCTTCTG GCAGTAATGG AGTTGAAGCT CTACAGCTGT TAGAACATGA GCAAGCTACA 
    ACACAGGATA ACCTTGATGA TAAGCTAAGG AAGTTTGAAA TTCGTGACAT GATGGGATTA 
    ACAGATGATA GGGACATATC AGAAACAGTG AGTGAGACCT GGAGTACAGA CGTCTTGGGG 
    AGTGACTTTG ACCCTAATAT TGATGAAGAT CGCTTGCAAG AAATTGCAGG TGCTGCAGCA 
    GAGAACATGT TAGGCAGTTT GCTGTGCCTC CCAGGTTCAG GGTCAGTGCT TCTTGACCCT 
    TGCACTGGTT CTACCATATC AGAGACAACA AGTGAAGCTT GGAGTGTAGA GGTATTGCCA 
    AGTGACTCAG AGGCCCCAGA CCTAAAGCAG GAGGAGCGTC TACAAGAACT GGAGAGCTGT 
    TCTGGACTGG GTAGCACATC TGATGATACG GATGTCAGGG AGGTCAGTTC CCGCCCCAGC 
    ACACCAGGCC TCAGTGTTGT GTCCGGCATA AGTGCAACCT CTGAGGATAT TCCCAATAAG 
    ATTGAAGACT TGAGATCTGA GTGCAGCTCT GATTTTGGGG GTAAAGATTC TGTCACTAGT 
    CCAGACATGG ATGAAATAAC TCATGGTGCC CACCAGCTGA CCTCTCCTCC TTCTCAGTCA 
    GAGTCTCTGC TGGCCATGTT TGATCCACTG TCTTCACATG AAGGGGCTTC TGCTGTGGTA 
    AGGCCAAAGG TTCACTATGC TAGGCCATCG CATCCACCAC CAGATCCCCC AATCCTGGAA 
    GGAGCTGTGG GAGGAAATGA GGCCAGGTTG CCAAACTTTG GTTCCCATGT GTTAACTCCA 
    GCTGAATTGG AGGCATTCAA GCAAAGGCAT TCTTACCCTG AGAGACTAGT TCGAAGCAGG 
    AGCTCTGATA TAGTATCTTC TGTGCGGAGA CCCATGAGTG ACCCCAGCTG GAACCGGCGT 
    CCAGGAAATG AAGAGCGAGA ACTCCCTCCA GCTGCAGTCA TTGGTGCTAC TTCTTTGGTG 
    GCTGCACCTC ATTCATCATC TTCATCCCCG AGTAAGGACT CCTCAAGAGG AGAGACTGAA 
    GAACGCAAAG ATAGCGATGA TGAGAAATCA GACAGAAACA GACCTTGGTG GAGAAAACGT 
    TTTGTTTCAG CCATGCCTAA AGCTCCTATA CCATTTAGAA AGAAAGAAAA ACAAGAAAAA 
    GACAAAGATG ATCTGGGGCC TGACAGATTC TCAACACTCA CAGATGATCC CAGCCCTAGA 
    CTCAGTGCAC AAGCTCAGGT CGCTGAGGAT ATTCTGGACA AATACAGGAA TGCCATTAAA 
    CGGACCAGCC CCAGTGATGG AGCAATGGCA AACTATGAAA GTACAGAGGT TTTGGGTGAT 
    GGTGAAAGTG CACATGATTC TCCCCGTGAC GAGGCACTGC AGAACATCTC AGCTGATGAT 
    CTCCCAGACT CTGCGAGCCA AGCAGCCCAC CCGCAAGATT CAGCTTTCTC TTACAGAGAT 
    GCGAAAAAGA AACTGAGGCT TGCTCTTTGC TCTGCGGACT CTGTTGCCTT CCCAGTGCTG 
    ACCCACTCAA CAAGGAATGG TTTACCAGAC CACACAGACC CAGAAGACAA TGAAATTGTA 
    TGCTTCTTAA AAGTTCAAAT AGCTGAAGCA ATTAATTTAC AAGATAAGAA CTTAATGGCT 
    CAACTTCAAG AAACAATGCG CTGTGTGTGC CGTTTTGATA ATAGGACTTG TAGGAAACTG 
    CTGGCTTCTA TTGCTGAGGA CTACAGAAAA AGAGCCCCAT ATATTGCTTA TCTCACTCGT 
    TGTCGACAAG GACTACAGAC CACACAGGCT CACCTGGAAA GGCTATTGCA AAGGGTTTTG 
    CGAGACAAAG AAGTGGCCAA TCGATACTTT ACCACCGTCT GTGTGAGATT ACTGCTTGAG 
    AGCAAAGAAA AGAAGATCAG GGAATTCATT CAAGACTTTC AGAAACTCAC CGCAGCTGAT 
    GATAAAACTG CTCAGGTAGA AGATTTTCTG CAGTTTCTTT ATGGTGCAAT GGCCCAGGAT 
    GTCATATGGC AAAACGCAAG TGAAGAACAG CTTCAAGATG CACAGCTGGC CATTGAGCGA 
    AGCGTGATGA ACCGGATTTT CAAGCTTGCC TTCTACCCTA ATCAGGATGG GGACATACTT 
    CGCGACCAGG TTCTTCATGA ACATATCCAG AGATTATCTA AAGTAGTGAC TGCAAATCAC 
    AGAGCTCTTC AGATACCAGA GGTTTATCTT CGAGAAGCAC CATGGCCATC TGCACAATCA 
    GAAATCAGGA CAATAAGTGC TTATAAAACC CCCCGGGACA AAGTGCAGTG CATCCTGAGA 
    ATGTGCTCTA CGATTATGAA CCTCCTGAGC CTGGCCAATG AGGACTCTGT CCCTGGAGCG 
    GATGACTTTG TTCCTGTGTT GGTGTTTGTG TTGATAAAGG CAAATCCACC CTGTTTGCTG 
    TCTACTGTGC AGTATATCAG TAGCTTTTAT GCTAGCTGTC TGTCTGGAGA GGAGTCCTAT 
    TGGTGGATGC AGTTCACAGC AGCAGTAGAA TTCATTAAAA CCATCGATGA CCGAAAATGA

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

    RefSeq XP_014972324.1
    CDS199..4518
    Translation

    Target ORF information:

    RefSeq Version XM_015116838.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015116838.2

    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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TCCTTCAAAT 
    CGCTCCAATT CAGTGTCCTC CCTAGACCTG GAAGGAGAGT CTGTGTCAGA ACTTGGAGCA 
    GGACCTTCTG GCAGTAATGG AGTTGAAGCT CTACAGCTGT TAGAACATGA GCAAGCTACA 
    ACACAGGATA ACCTTGATGA TAAGCTAAGG AAGTTTGAAA TTCGTGACAT GATGGGATTA 
    ACAGATGATA GGGACATATC AGAAACAGTG AGTGAGACCT GGAGTACAGA CGTCTTGGGG 
    AGTGACTTTG ACCCTAATAT TGATGAAGAT CGCTTGCAAG AAATTGCAGG TGCTGCAGCA 
    GAGAACATGT TAGGCAGTTT GCTGTGCCTC CCAGGTTCAG GGTCAGTGCT TCTTGACCCT 
    TGCACTGGTT CTACCATATC AGAGACAACA AGTGAAGCTT GGAGTGTAGA GGTATTGCCA 
    AGTGACTCAG AGGCCCCAGA CCTAAAGCAG GAGGAGCGTC TACAAGAACT GGAGAGCTGT 
    TCTGGACTGG GTAGCACATC TGATGATACG GATGTCAGGG AGGTCAGTTC CCGCCCCAGC 
    ACACCAGGCC TCAGTGTTGT GTCCGGCATA AGTGCAACCT CTGAGGATAT TCCCAATAAG 
    ATTGAAGACT TGAGATCTGA GTGCAGCTCT GATTTTGGGG GTAAAGATTC TGTCACTAGT 
    CCAGACATGG ATGAAATAAC TCATGGTGCC CACCAGCTGA CCTCTCCTCC TTCTCAGTCA 
    GAGTCTCTGC TGGCCATGTT TGATCCACTG TCTTCACATG AAGGGGCTTC TGCTGTGGTA 
    AGGCCAAAGG TTCACTATGC TAGGCCATCG CATCCACCAC CAGATCCCCC AATCCTGGAA 
    GGAGCTGTGG GAGGAAATGA GGCCAGGTTG CCAAACTTTG GTTCCCATGT GTTAACTCCA 
    GCTGAATTGG AGGCATTCAA GCAAAGGCAT TCTTACCCTG AGAGACTAGT TCGAAGCAGG 
    AGCTCTGATA TAGTATCTTC TGTGCGGAGA CCCATGAGTG ACCCCAGCTG GAACCGGCGT 
    CCAGGAAATG AAGAGCGAGA ACTCCCTCCA GCTGCAGTCA TTGGTGCTAC TTCTTTGGTG 
    GCTGCACCTC ATTCATCATC TTCATCCCCG AGTAAGGACT CCTCAAGAGG AGAGACTGAA 
    GAACGCAAAG ATAGCGATGA TGAGAAATCA GACAGAAACA GACCTTGGTG GAGAAAACGT 
    TTTGTTTCAG CCATGCCTAA AGCTCCTATA CCATTTAGAA AGAAAGAAAA ACAAGAAAAA 
    GACAAAGATG ATCTGGGGCC TGACAGATTC TCAACACTCA CAGATGATCC CAGCCCTAGA 
    CTCAGTGCAC AAGCTCAGGT CGCTGAGGAT ATTCTGGACA AATACAGGAA TGCCATTAAA 
    CGGACCAGCC CCAGTGATGG AGCAATGGCA AACTATGAAA GTACAGAGGT TTTGGGTGAT 
    GGTGAAAGTG CACATGATTC TCCCCGTGAC GAGGCACTGC AGAACATCTC AGCTGATGAT 
    CTCCCAGACT CTGCGAGCCA AGCAGCCCAC CCGCAAGATT CAGCTTTCTC TTACAGAGAT 
    GCGAAAAAGA AACTGAGGCT TGCTCTTTGC TCTGCGGACT CTGTTGCCTT CCCAGTGCTG 
    ACCCACTCAA CAAGGAATGG TTTACCAGAC CACACAGACC CAGAAGACAA TGAAATTGTA 
    TGCTTCTTAA AAGTTCAAAT AGCTGAAGCA ATTAATTTAC AAGATAAGAA CTTAATGGCT 
    CAACTTCAAG AAACAATGCG CTGTGTGTGC CGTTTTGATA ATAGGACTTG TAGGAAACTG 
    CTGGCTTCTA TTGCTGAGGA CTACAGAAAA AGAGCCCCAT ATATTGCTTA TCTCACTCGT 
    TGTCGACAAG GACTACAGAC CACACAGGCT CACCTGGAAA GGCTATTGCA AAGGGTTTTG 
    CGAGACAAAG AAGTGGCCAA TCGATACTTT ACCACCGTCT GTGTGAGATT ACTGCTTGAG 
    AGCAAAGAAA AGAAGATCAG GGAATTCATT CAAGACTTTC AGAAACTCAC CGCAGCTGAT 
    GATAAAACTG CTCAGGTAGA AGATTTTCTG CAGTTTCTTT ATGGTGCAAT GGCCCAGGAT 
    GTCATATGGC AAAACGCAAG TGAAGAACAG CTTCAAGATG CACAGCTGGC CATTGAGCGA 
    AGCGTGATGA ACCGGATTTT CAAGCTTGCC TTCTACCCTA ATCAGGATGG GGACATACTT 
    CGCGACCAGG TTCTTCATGA ACATATCCAG AGATTATCTA AAGTAGTGAC TGCAAATCAC 
    AGAGCTCTTC AGATACCAGA GGTTTATCTT CGAGAAGCAC CATGGCCATC TGCACAATCA 
    GAAATCAGGA CAATAAGTGC TTATAAAACC CCCCGGGACA AAGTGCAGTG CATCCTGAGA 
    ATGTGCTCTA CGATTATGAA CCTCCTGAGC CTGGCCAATG AGGACTCTGT CCCTGGAGCG 
    GATGACTTTG TTCCTGTGTT GGTGTTTGTG TTGATAAAGG CAAATCCACC CTGTTTGCTG 
    TCTACTGTGC AGTATATCAG TAGCTTTTAT GCTAGCTGTC TGTCTGGAGA GGAGTCCTAT 
    TGGTGGATGC AGTTCACAGC AGCAGTAGAA TTCATTAAAA CCATCGATGA CCGAAAATGA

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

    GAPVD1 ( XM_028834836.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_028690669.1 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OMb71217
    Clone ID Related Accession (Same CDS sequence) XM_015116838.2 , XM_028834836.1
    Accession Version XM_028834836.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4320bp)
    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 GTPase-activating protein and VPS9 domain-containing protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041768.1) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TCCTTCAAAT 
    CGCTCCAATT CAGTGTCCTC CCTAGACCTG GAAGGAGAGT CTGTGTCAGA ACTTGGAGCA 
    GGACCTTCTG GCAGTAATGG AGTTGAAGCT CTACAGCTGT TAGAACATGA GCAAGCTACA 
    ACACAGGATA ACCTTGATGA TAAGCTAAGG AAGTTTGAAA TTCGTGACAT GATGGGATTA 
    ACAGATGATA GGGACATATC AGAAACAGTG AGTGAGACCT GGAGTACAGA CGTCTTGGGG 
    AGTGACTTTG ACCCTAATAT TGATGAAGAT CGCTTGCAAG AAATTGCAGG TGCTGCAGCA 
    GAGAACATGT TAGGCAGTTT GCTGTGCCTC CCAGGTTCAG GGTCAGTGCT TCTTGACCCT 
    TGCACTGGTT CTACCATATC AGAGACAACA AGTGAAGCTT GGAGTGTAGA GGTATTGCCA 
    AGTGACTCAG AGGCCCCAGA CCTAAAGCAG GAGGAGCGTC TACAAGAACT GGAGAGCTGT 
    TCTGGACTGG GTAGCACATC TGATGATACG GATGTCAGGG AGGTCAGTTC CCGCCCCAGC 
    ACACCAGGCC TCAGTGTTGT GTCCGGCATA AGTGCAACCT CTGAGGATAT TCCCAATAAG 
    ATTGAAGACT TGAGATCTGA GTGCAGCTCT GATTTTGGGG GTAAAGATTC TGTCACTAGT 
    CCAGACATGG ATGAAATAAC TCATGGTGCC CACCAGCTGA CCTCTCCTCC TTCTCAGTCA 
    GAGTCTCTGC TGGCCATGTT TGATCCACTG TCTTCACATG AAGGGGCTTC TGCTGTGGTA 
    AGGCCAAAGG TTCACTATGC TAGGCCATCG CATCCACCAC CAGATCCCCC AATCCTGGAA 
    GGAGCTGTGG GAGGAAATGA GGCCAGGTTG CCAAACTTTG GTTCCCATGT GTTAACTCCA 
    GCTGAATTGG AGGCATTCAA GCAAAGGCAT TCTTACCCTG AGAGACTAGT TCGAAGCAGG 
    AGCTCTGATA TAGTATCTTC TGTGCGGAGA CCCATGAGTG ACCCCAGCTG GAACCGGCGT 
    CCAGGAAATG AAGAGCGAGA ACTCCCTCCA GCTGCAGTCA TTGGTGCTAC TTCTTTGGTG 
    GCTGCACCTC ATTCATCATC TTCATCCCCG AGTAAGGACT CCTCAAGAGG AGAGACTGAA 
    GAACGCAAAG ATAGCGATGA TGAGAAATCA GACAGAAACA GACCTTGGTG GAGAAAACGT 
    TTTGTTTCAG CCATGCCTAA AGCTCCTATA CCATTTAGAA AGAAAGAAAA ACAAGAAAAA 
    GACAAAGATG ATCTGGGGCC TGACAGATTC TCAACACTCA CAGATGATCC CAGCCCTAGA 
    CTCAGTGCAC AAGCTCAGGT CGCTGAGGAT ATTCTGGACA AATACAGGAA TGCCATTAAA 
    CGGACCAGCC CCAGTGATGG AGCAATGGCA AACTATGAAA GTACAGAGGT TTTGGGTGAT 
    GGTGAAAGTG CACATGATTC TCCCCGTGAC GAGGCACTGC AGAACATCTC AGCTGATGAT 
    CTCCCAGACT CTGCGAGCCA AGCAGCCCAC CCGCAAGATT CAGCTTTCTC TTACAGAGAT 
    GCGAAAAAGA AACTGAGGCT TGCTCTTTGC TCTGCGGACT CTGTTGCCTT CCCAGTGCTG 
    ACCCACTCAA CAAGGAATGG TTTACCAGAC CACACAGACC CAGAAGACAA TGAAATTGTA 
    TGCTTCTTAA AAGTTCAAAT AGCTGAAGCA ATTAATTTAC AAGATAAGAA CTTAATGGCT 
    CAACTTCAAG AAACAATGCG CTGTGTGTGC CGTTTTGATA ATAGGACTTG TAGGAAACTG 
    CTGGCTTCTA TTGCTGAGGA CTACAGAAAA AGAGCCCCAT ATATTGCTTA TCTCACTCGT 
    TGTCGACAAG GACTACAGAC CACACAGGCT CACCTGGAAA GGCTATTGCA AAGGGTTTTG 
    CGAGACAAAG AAGTGGCCAA TCGATACTTT ACCACCGTCT GTGTGAGATT ACTGCTTGAG 
    AGCAAAGAAA AGAAGATCAG GGAATTCATT CAAGACTTTC AGAAACTCAC CGCAGCTGAT 
    GATAAAACTG CTCAGGTAGA AGATTTTCTG CAGTTTCTTT ATGGTGCAAT GGCCCAGGAT 
    GTCATATGGC AAAACGCAAG TGAAGAACAG CTTCAAGATG CACAGCTGGC CATTGAGCGA 
    AGCGTGATGA ACCGGATTTT CAAGCTTGCC TTCTACCCTA ATCAGGATGG GGACATACTT 
    CGCGACCAGG TTCTTCATGA ACATATCCAG AGATTATCTA AAGTAGTGAC TGCAAATCAC 
    AGAGCTCTTC AGATACCAGA GGTTTATCTT CGAGAAGCAC CATGGCCATC TGCACAATCA 
    GAAATCAGGA CAATAAGTGC TTATAAAACC CCCCGGGACA AAGTGCAGTG CATCCTGAGA 
    ATGTGCTCTA CGATTATGAA CCTCCTGAGC CTGGCCAATG AGGACTCTGT CCCTGGAGCG 
    GATGACTTTG TTCCTGTGTT GGTGTTTGTG TTGATAAAGG CAAATCCACC CTGTTTGCTG 
    TCTACTGTGC AGTATATCAG TAGCTTTTAT GCTAGCTGTC TGTCTGGAGA GGAGTCCTAT 
    TGGTGGATGC AGTTCACAGC AGCAGTAGAA TTCATTAAAA CCATCGATGA CCGAAAATGA

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

    RefSeq XP_028690669.1
    CDS248..4567
    Translation

    Target ORF information:

    RefSeq Version XM_028834836.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_028834836.1

    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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TCCTTCAAAT 
    CGCTCCAATT CAGTGTCCTC CCTAGACCTG GAAGGAGAGT CTGTGTCAGA ACTTGGAGCA 
    GGACCTTCTG GCAGTAATGG AGTTGAAGCT CTACAGCTGT TAGAACATGA GCAAGCTACA 
    ACACAGGATA ACCTTGATGA TAAGCTAAGG AAGTTTGAAA TTCGTGACAT GATGGGATTA 
    ACAGATGATA GGGACATATC AGAAACAGTG AGTGAGACCT GGAGTACAGA CGTCTTGGGG 
    AGTGACTTTG ACCCTAATAT TGATGAAGAT CGCTTGCAAG AAATTGCAGG TGCTGCAGCA 
    GAGAACATGT TAGGCAGTTT GCTGTGCCTC CCAGGTTCAG GGTCAGTGCT TCTTGACCCT 
    TGCACTGGTT CTACCATATC AGAGACAACA AGTGAAGCTT GGAGTGTAGA GGTATTGCCA 
    AGTGACTCAG AGGCCCCAGA CCTAAAGCAG GAGGAGCGTC TACAAGAACT GGAGAGCTGT 
    TCTGGACTGG GTAGCACATC TGATGATACG GATGTCAGGG AGGTCAGTTC CCGCCCCAGC 
    ACACCAGGCC TCAGTGTTGT GTCCGGCATA AGTGCAACCT CTGAGGATAT TCCCAATAAG 
    ATTGAAGACT TGAGATCTGA GTGCAGCTCT GATTTTGGGG GTAAAGATTC TGTCACTAGT 
    CCAGACATGG ATGAAATAAC TCATGGTGCC CACCAGCTGA CCTCTCCTCC TTCTCAGTCA 
    GAGTCTCTGC TGGCCATGTT TGATCCACTG TCTTCACATG AAGGGGCTTC TGCTGTGGTA 
    AGGCCAAAGG TTCACTATGC TAGGCCATCG CATCCACCAC CAGATCCCCC AATCCTGGAA 
    GGAGCTGTGG GAGGAAATGA GGCCAGGTTG CCAAACTTTG GTTCCCATGT GTTAACTCCA 
    GCTGAATTGG AGGCATTCAA GCAAAGGCAT TCTTACCCTG AGAGACTAGT TCGAAGCAGG 
    AGCTCTGATA TAGTATCTTC TGTGCGGAGA CCCATGAGTG ACCCCAGCTG GAACCGGCGT 
    CCAGGAAATG AAGAGCGAGA ACTCCCTCCA GCTGCAGTCA TTGGTGCTAC TTCTTTGGTG 
    GCTGCACCTC ATTCATCATC TTCATCCCCG AGTAAGGACT CCTCAAGAGG AGAGACTGAA 
    GAACGCAAAG ATAGCGATGA TGAGAAATCA GACAGAAACA GACCTTGGTG GAGAAAACGT 
    TTTGTTTCAG CCATGCCTAA AGCTCCTATA CCATTTAGAA AGAAAGAAAA ACAAGAAAAA 
    GACAAAGATG ATCTGGGGCC TGACAGATTC TCAACACTCA CAGATGATCC CAGCCCTAGA 
    CTCAGTGCAC AAGCTCAGGT CGCTGAGGAT ATTCTGGACA AATACAGGAA TGCCATTAAA 
    CGGACCAGCC CCAGTGATGG AGCAATGGCA AACTATGAAA GTACAGAGGT TTTGGGTGAT 
    GGTGAAAGTG CACATGATTC TCCCCGTGAC GAGGCACTGC AGAACATCTC AGCTGATGAT 
    CTCCCAGACT CTGCGAGCCA AGCAGCCCAC CCGCAAGATT CAGCTTTCTC TTACAGAGAT 
    GCGAAAAAGA AACTGAGGCT TGCTCTTTGC TCTGCGGACT CTGTTGCCTT CCCAGTGCTG 
    ACCCACTCAA CAAGGAATGG TTTACCAGAC CACACAGACC CAGAAGACAA TGAAATTGTA 
    TGCTTCTTAA AAGTTCAAAT AGCTGAAGCA ATTAATTTAC AAGATAAGAA CTTAATGGCT 
    CAACTTCAAG AAACAATGCG CTGTGTGTGC CGTTTTGATA ATAGGACTTG TAGGAAACTG 
    CTGGCTTCTA TTGCTGAGGA CTACAGAAAA AGAGCCCCAT ATATTGCTTA TCTCACTCGT 
    TGTCGACAAG GACTACAGAC CACACAGGCT CACCTGGAAA GGCTATTGCA AAGGGTTTTG 
    CGAGACAAAG AAGTGGCCAA TCGATACTTT ACCACCGTCT GTGTGAGATT ACTGCTTGAG 
    AGCAAAGAAA AGAAGATCAG GGAATTCATT CAAGACTTTC AGAAACTCAC CGCAGCTGAT 
    GATAAAACTG CTCAGGTAGA AGATTTTCTG CAGTTTCTTT ATGGTGCAAT GGCCCAGGAT 
    GTCATATGGC AAAACGCAAG TGAAGAACAG CTTCAAGATG CACAGCTGGC CATTGAGCGA 
    AGCGTGATGA ACCGGATTTT CAAGCTTGCC TTCTACCCTA ATCAGGATGG GGACATACTT 
    CGCGACCAGG TTCTTCATGA ACATATCCAG AGATTATCTA AAGTAGTGAC TGCAAATCAC 
    AGAGCTCTTC AGATACCAGA GGTTTATCTT CGAGAAGCAC CATGGCCATC TGCACAATCA 
    GAAATCAGGA CAATAAGTGC TTATAAAACC CCCCGGGACA AAGTGCAGTG CATCCTGAGA 
    ATGTGCTCTA CGATTATGAA CCTCCTGAGC CTGGCCAATG AGGACTCTGT CCCTGGAGCG 
    GATGACTTTG TTCCTGTGTT GGTGTTTGTG TTGATAAAGG CAAATCCACC CTGTTTGCTG 
    TCTACTGTGC AGTATATCAG TAGCTTTTAT GCTAGCTGTC TGTCTGGAGA GGAGTCCTAT 
    TGGTGGATGC AGTTCACAGC AGCAGTAGAA TTCATTAAAA CCATCGATGA CCGAAAATGA

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

    GAPVD1 ( XM_015116839.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014972325.1 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OMb71218
    Clone ID Related Accession (Same CDS sequence) XM_015116839.2
    Accession Version XM_015116839.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4302bp)
    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 GTPase-activating protein and VPS9 domain-containing protein 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041768.1) 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_015116839.1. ##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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCTTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGATGAT CCCAGCCCTA GACTCAGTGC ACAAGCTCAG 
    GTCGCTGAGG ATATTCTGGA CAAATACAGG AATGCCATTA AACGGACCAG CCCCAGTGAT 
    GGAGCAATGG CAAACTATGA AAGTACAGAG GTTTTGGGTG ATGGTGAAAG TGCACATGAT 
    TCTCCCCGTG ACGAGGCACT GCAGAACATC TCAGCTGATG ATCTCCCAGA CTCTGCGAGC 
    CAAGCAGCCC ACCCGCAAGA TTCAGCTTTC TCTTACAGAG ATGCGAAAAA GAAACTGAGG 
    CTTGCTCTTT GCTCTGCGGA CTCTGTTGCC TTCCCAGTGC TGACCCACTC AACAAGGAAT 
    GGTTTACCAG ACCACACAGA CCCAGAAGAC AATGAAATTG TATGCTTCTT AAAAGTTCAA 
    ATAGCTGAAG CAATTAATTT ACAAGATAAG AACTTAATGG CTCAACTTCA AGAAACAATG 
    CGCTGTGTGT GCCGTTTTGA TAATAGGACT TGTAGGAAAC TGCTGGCTTC TATTGCTGAG 
    GACTACAGAA AAAGAGCCCC ATATATTGCT TATCTCACTC GTTGTCGACA AGGACTACAG 
    ACCACACAGG CTCACCTGGA AAGGCTATTG CAAAGGGTTT TGCGAGACAA AGAAGTGGCC 
    AATCGATACT TTACCACCGT CTGTGTGAGA TTACTGCTTG AGAGCAAAGA AAAGAAGATC 
    AGGGAATTCA TTCAAGACTT TCAGAAACTC ACCGCAGCTG ATGATAAAAC TGCTCAGGTA 
    GAAGATTTTC TGCAGTTTCT TTATGGTGCA ATGGCCCAGG ATGTCATATG GCAAAACGCA 
    AGTGAAGAAC AGCTTCAAGA TGCACAGCTG GCCATTGAGC GAAGCGTGAT GAACCGGATT 
    TTCAAGCTTG CCTTCTACCC TAATCAGGAT GGGGACATAC TTCGCGACCA GGTTCTTCAT 
    GAACATATCC AGAGATTATC TAAAGTAGTG ACTGCAAATC ACAGAGCTCT TCAGATACCA 
    GAGGTTTATC TTCGAGAAGC ACCATGGCCA TCTGCACAAT CAGAAATCAG GACAATAAGT 
    GCTTATAAAA CCCCCCGGGA CAAAGTGCAG TGCATCCTGA GAATGTGCTC TACGATTATG 
    AACCTCCTGA GCCTGGCCAA TGAGGACTCT GTCCCTGGAG CGGATGACTT TGTTCCTGTG 
    TTGGTGTTTG TGTTGATAAA GGCAAATCCA CCCTGTTTGC TGTCTACTGT GCAGTATATC 
    AGTAGCTTTT ATGCTAGCTG TCTGTCTGGA GAGGAGTCCT ATTGGTGGAT GCAGTTCACA 
    GCAGCAGTAG AATTCATTAA AACCATCGAT GACCGAAAAT GA

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

    RefSeq XP_014972325.1
    CDS199..4500
    Translation

    Target ORF information:

    RefSeq Version XM_015116839.2
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_015116839.2

    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
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TAAACCTGAT 
    AAAACCTTGC GCTTTTCCCT CTGCAGTGAT AATCTGGAAG GAATATCTGA AGGTCCTTCA 
    AATCGCTCCA ATTCAGTGTC CTCCCTAGAC CTGGAAGGAG AGTCTGTGTC AGAACTTGGA 
    GCAGGACCTT CTGGCAGTAA TGGAGTTGAA GCTCTACAGC TGTTAGAACA TGAGCAAGCT 
    ACAACACAGG ATAACCTTGA TGATAAGCTA AGGAAGTTTG AAATTCGTGA CATGATGGGA 
    TTAACAGATG ATAGGGACAT ATCAGAAACA GTGAGTGAGA CCTGGAGTAC AGACGTCTTG 
    GGGAGTGACT TTGACCCTAA TATTGATGAA GATCGCTTGC AAGAAATTGC AGGTGCTGCA 
    GCAGAGAACA TGTTAGGCAG TTTGCTGTGC CTCCCAGGTT CAGGGTCAGT GCTTCTTGAC 
    CCTTGCACTG GTTCTACCAT ATCAGAGACA ACAAGTGAAG CTTGGAGTGT AGAGGTATTG 
    CCAAGTGACT CAGAGGCCCC AGACCTAAAG CAGGAGGAGC GTCTACAAGA ACTGGAGAGC 
    TGTTCTGGAC TGGGTAGCAC ATCTGATGAT ACGGATGTCA GGGAGGTCAG TTCCCGCCCC 
    AGCACACCAG GCCTCAGTGT TGTGTCCGGC ATAAGTGCAA CCTCTGAGGA TATTCCCAAT 
    AAGATTGAAG ACTTGAGATC TGAGTGCAGC TCTGATTTTG GGGGTAAAGA TTCTGTCACT 
    AGTCCAGACA TGGATGAAAT AACTCATGGT GCCCACCAGC TGACCTCTCC TCCTTCTCAG 
    TCAGAGTCTC TGCTGGCCAT GTTTGATCCA CTGTCTTCAC ATGAAGGGGC TTCTGCTGTG 
    GTAAGGCCAA AGGTTCACTA TGCTAGGCCA TCGCATCCAC CACCAGATCC CCCAATCCTG 
    GAAGGAGCTG TGGGAGGAAA TGAGGCCAGG TTGCCAAACT TTGGTTCCCA TGTGTTAACT 
    CCAGCTGAAT TGGAGGCATT CAAGCAAAGG CATTCTTACC CTGAGAGACT AGTTCGAAGC 
    AGGAGCTCTG ATATAGTATC TTCTGTGCGG AGACCCATGA GTGACCCCAG CTGGAACCGG 
    CGTCCAGGAA ATGAAGAGCG AGAACTCCCT CCAGCTGCAG TCATTGGTGC TACTTCTTTG 
    GTGGCTGCAC CTCATTCATC ATCTTCATCC CCGAGTAAGG ACTCCTCAAG AGGAGAGACT 
    GAAGAACGCA AAGATAGCGA TGATGAGAAA TCAGACAGAA ACAGACCTTG GTGGAGAAAA 
    CGTTTTGTTT CAGCCATGCC TAAAGATGAT CCCAGCCCTA GACTCAGTGC ACAAGCTCAG 
    GTCGCTGAGG ATATTCTGGA CAAATACAGG AATGCCATTA AACGGACCAG CCCCAGTGAT 
    GGAGCAATGG CAAACTATGA AAGTACAGAG GTTTTGGGTG ATGGTGAAAG TGCACATGAT 
    TCTCCCCGTG ACGAGGCACT GCAGAACATC TCAGCTGATG ATCTCCCAGA CTCTGCGAGC 
    CAAGCAGCCC ACCCGCAAGA TTCAGCTTTC TCTTACAGAG ATGCGAAAAA GAAACTGAGG 
    CTTGCTCTTT GCTCTGCGGA CTCTGTTGCC TTCCCAGTGC TGACCCACTC AACAAGGAAT 
    GGTTTACCAG ACCACACAGA CCCAGAAGAC AATGAAATTG TATGCTTCTT AAAAGTTCAA 
    ATAGCTGAAG CAATTAATTT ACAAGATAAG AACTTAATGG CTCAACTTCA AGAAACAATG 
    CGCTGTGTGT GCCGTTTTGA TAATAGGACT TGTAGGAAAC TGCTGGCTTC TATTGCTGAG 
    GACTACAGAA AAAGAGCCCC ATATATTGCT TATCTCACTC GTTGTCGACA AGGACTACAG 
    ACCACACAGG CTCACCTGGA AAGGCTATTG CAAAGGGTTT TGCGAGACAA AGAAGTGGCC 
    AATCGATACT TTACCACCGT CTGTGTGAGA TTACTGCTTG AGAGCAAAGA AAAGAAGATC 
    AGGGAATTCA TTCAAGACTT TCAGAAACTC ACCGCAGCTG ATGATAAAAC TGCTCAGGTA 
    GAAGATTTTC TGCAGTTTCT TTATGGTGCA ATGGCCCAGG ATGTCATATG GCAAAACGCA 
    AGTGAAGAAC AGCTTCAAGA TGCACAGCTG GCCATTGAGC GAAGCGTGAT GAACCGGATT 
    TTCAAGCTTG CCTTCTACCC TAATCAGGAT GGGGACATAC TTCGCGACCA GGTTCTTCAT 
    GAACATATCC AGAGATTATC TAAAGTAGTG ACTGCAAATC ACAGAGCTCT TCAGATACCA 
    GAGGTTTATC TTCGAGAAGC ACCATGGCCA TCTGCACAAT CAGAAATCAG GACAATAAGT 
    GCTTATAAAA CCCCCCGGGA CAAAGTGCAG TGCATCCTGA GAATGTGCTC TACGATTATG 
    AACCTCCTGA GCCTGGCCAA TGAGGACTCT GTCCCTGGAG CGGATGACTT TGTTCCTGTG 
    TTGGTGTTTG TGTTGATAAA GGCAAATCCA CCCTGTTTGC TGTCTACTGT GCAGTATATC 
    AGTAGCTTTT ATGCTAGCTG TCTGTCTGGA GAGGAGTCCT ATTGGTGGAT GCAGTTCACA 
    GCAGCAGTAG AATTCATTAA AACCATCGAT GACCGAAAAT GA

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

    GAPVD1 ( XM_028834837.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_028690670.1 Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OMb71219
    Clone ID Related Accession (Same CDS sequence) XM_028834837.1
    Accession Version XM_028834837.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4239bp)
    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 GTPase-activating protein and VPS9 domain-containing protein 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041768.1) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TCCTTCAAAT 
    CGCTCCAATT CAGTGTCCTC CCTAGACCTG GAAGGAGAGT CTGTGTCAGA ACTTGGAGCA 
    GGACCTTCTG GCAGTAATGG AGTTGAAGCT CTACAGCTGT TAGAACATGA GCAAGCTACA 
    ACACAGGATA ACCTTGATGA TAAGCTAAGG AAGTTTGAAA TTCGTGACAT GATGGGATTA 
    ACAGATGATA GGGACATATC AGAAACAGTG AGTGAGACCT GGAGTACAGA CGTCTTGGGG 
    AGTGACTTTG ACCCTAATAT TGATGAAGAT CGCTTGCAAG AAATTGCAGG TGCTGCAGCA 
    GAGAACATGT TAGGCAGTTT GCTGTGCCTC CCAGGTTCAG GGTCAGTGCT TCTTGACCCT 
    TGCACTGGTT CTACCATATC AGAGACAACA AGTGAAGCTT GGAGTGTAGA GGTATTGCCA 
    AGTGACTCAG AGGCCCCAGA CCTAAAGCAG GAGGAGCGTC TACAAGAACT GGAGAGCTGT 
    TCTGGACTGG GTAGCACATC TGATGATACG GATGTCAGGG AGGTCAGTTC CCGCCCCAGC 
    ACACCAGGCC TCAGTGTTGT GTCCGGCATA AGTGCAACCT CTGAGGATAT TCCCAATAAG 
    ATTGAAGACT TGAGATCTGA GTGCAGCTCT GATTTTGGGG GTAAAGATTC TGTCACTAGT 
    CCAGACATGG ATGAAATAAC TCATGGTGCC CACCAGCTGA CCTCTCCTCC TTCTCAGTCA 
    GAGTCTCTGC TGGCCATGTT TGATCCACTG TCTTCACATG AAGGGGCTTC TGCTGTGGTA 
    AGGCCAAAGG TTCACTATGC TAGGCCATCG CATCCACCAC CAGATCCCCC AATCCTGGAA 
    GGAGCTGTGG GAGGAAATGA GGCCAGGTTG CCAAACTTTG GTTCCCATGT GTTAACTCCA 
    GCTGAATTGG AGGCATTCAA GCAAAGGCAT TCTTACCCTG AGAGACTAGT TCGAAGCAGG 
    AGCTCTGATA TAGTATCTTC TGTGCGGAGA CCCATGAGTG ACCCCAGCTG GAACCGGCGT 
    CCAGGAAATG AAGAGCGAGA ACTCCCTCCA GCTGCAGTCA TTGGTGCTAC TTCTTTGGTG 
    GCTGCACCTC ATTCATCATC TTCATCCCCG AGTAAGGACT CCTCAAGAGG AGAGACTGAA 
    GAACGCAAAG ATAGCGATGA TGAGAAATCA GACAGAAACA GACCTTGGTG GAGAAAACGT 
    TTTGTTTCAG CCATGCCTAA AGATGATCCC AGCCCTAGAC TCAGTGCACA AGCTCAGGTC 
    GCTGAGGATA TTCTGGACAA ATACAGGAAT GCCATTAAAC GGACCAGCCC CAGTGATGGA 
    GCAATGGCAA ACTATGAAAG TACAGAGGTT TTGGGTGATG GTGAAAGTGC ACATGATTCT 
    CCCCGTGACG AGGCACTGCA GAACATCTCA GCTGATGATC TCCCAGACTC TGCGAGCCAA 
    GCAGCCCACC CGCAAGATTC AGCTTTCTCT TACAGAGATG CGAAAAAGAA ACTGAGGCTT 
    GCTCTTTGCT CTGCGGACTC TGTTGCCTTC CCAGTGCTGA CCCACTCAAC AAGGAATGGT 
    TTACCAGACC ACACAGACCC AGAAGACAAT GAAATTGTAT GCTTCTTAAA AGTTCAAATA 
    GCTGAAGCAA TTAATTTACA AGATAAGAAC TTAATGGCTC AACTTCAAGA AACAATGCGC 
    TGTGTGTGCC GTTTTGATAA TAGGACTTGT AGGAAACTGC TGGCTTCTAT TGCTGAGGAC 
    TACAGAAAAA GAGCCCCATA TATTGCTTAT CTCACTCGTT GTCGACAAGG ACTACAGACC 
    ACACAGGCTC ACCTGGAAAG GCTATTGCAA AGGGTTTTGC GAGACAAAGA AGTGGCCAAT 
    CGATACTTTA CCACCGTCTG TGTGAGATTA CTGCTTGAGA GCAAAGAAAA GAAGATCAGG 
    GAATTCATTC AAGACTTTCA GAAACTCACC GCAGCTGATG ATAAAACTGC TCAGGTAGAA 
    GATTTTCTGC AGTTTCTTTA TGGTGCAATG GCCCAGGATG TCATATGGCA AAACGCAAGT 
    GAAGAACAGC TTCAAGATGC ACAGCTGGCC ATTGAGCGAA GCGTGATGAA CCGGATTTTC 
    AAGCTTGCCT TCTACCCTAA TCAGGATGGG GACATACTTC GCGACCAGGT TCTTCATGAA 
    CATATCCAGA GATTATCTAA AGTAGTGACT GCAAATCACA GAGCTCTTCA GATACCAGAG 
    GTTTATCTTC GAGAAGCACC ATGGCCATCT GCACAATCAG AAATCAGGAC AATAAGTGCT 
    TATAAAACCC CCCGGGACAA AGTGCAGTGC ATCCTGAGAA TGTGCTCTAC GATTATGAAC 
    CTCCTGAGCC TGGCCAATGA GGACTCTGTC CCTGGAGCGG ATGACTTTGT TCCTGTGTTG 
    GTGTTTGTGT TGATAAAGGC AAATCCACCC TGTTTGCTGT CTACTGTGCA GTATATCAGT 
    AGCTTTTATG CTAGCTGTCT GTCTGGAGAG GAGTCCTATT GGTGGATGCA GTTCACAGCA 
    GCAGTAGAAT TCATTAAAAC CATCGATGAC CGAAAATGA

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

    RefSeq XP_028690670.1
    CDS248..4486
    Translation

    Target ORF information:

    RefSeq Version XM_028834837.1
    Organism Macaca mulatta(Rhesus monkey)
    Definition Macaca mulatta GTPase activating protein and VPS9 domains 1 (GAPVD1), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_028834837.1

    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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGGTGAAGC TAGATATTCA TACTCTGGCT CATCACCTCA AGCAGGAACG CTTATATGTA 
    AACTCTGAGA AACAGCTCAT TCAGAGGCTC AATGCAGATG TACTTAAGAC AGCTGAAAAG 
    CTGTATCGTA CAGCATGGAT TGCGAAGCAA CAGAGAATCA ATTTGGATCG GCTTATCATA 
    ACCAGTGCTG AAGCTTCCCC TGCTGAATGT TGCCAACATG CCAAAATTTT GGAAGATACA 
    CAATTTGTTG ATGGGTATAA GCAATTGGGA TTTCAGGAGA CTGCTTATGG AGAATTCTTG 
    AGTCGATTGA GGGAAAATCC TCGTCTTATT GCCTCCTCTT TGGTTGCTGG AGAGAAACTT 
    AATCAGGAGA ACACACAAAG TGTTATTTAC ACAGTTTTTA CGTCCCTGTA TGGCAATTGC 
    ATCATGCAAG AAGATGAAAG CTACCTCCTT CAGGTTTTGC GATACTTGAT TGAATTTGAA 
    CTTAAAGAAA GTGACAACCC TAGGCGACTT TTGAGGAGAG GAACTTGTGC CTTCAGCATC 
    TTATTTAAAC TTTTTTCTGA AGGACTGTTT TCTGCCAAAC TTTTCCTCAC AGCCACTTTA 
    CATGAGCCAA TTATGCAACT CCTTGTTGAA GATGAAGATC ACCTGGAAAC AGATCCAAAC 
    AAGCTAATTG AGAGGTTCTC CCCATCTCAG CAGGAAAAAC TCTTTGGAGA GAAGGGCTCA 
    GACAGATTCA GGCAAAAAGT TCAAGAAATG GTGGAGTCCA ATGAAGCCAA ACTAGTGGCT 
    TTGGTGAACA AATTTATTGG TTATCTCAAA CAGAACACAT ATTGTTTTCC ACATAGTTTA 
    AGGTGGATCG TGTCTCAGAT GTACAAAACC CTCTCCTGTG TAGATAGGCT GGAAGTGGGG 
    GAGGTCAGGG CAATGTGTAC TGATCTCCTG TTGGCCTGCT TCATTTGTCC TGCAGTTGTC 
    AATCCAGAAC AGTATGGAAT AATTTCTGAT GCTCCTATTA ATGAGGTAGC ACGATTTAAT 
    CTGATGCAGG TAGGCCGCCT TTTGCAGCAG TTAGCAATGA CTGGCTCTGA AGAAGGAGAT 
    CCCCGAACAA AGAGCAGCCT TGGAAAATTT GACAAAAGCT GTGTTGCCGC GTTCCTTGAT 
    GTTGTGATTG GGGGCCGTGC AGTGGAGACC CCTCCATTGT CTTCCGTTAA TCTTCTGGAA 
    GGATTGAGCA GAACTGTGGT TTATATAACC TATAGTCAGC TTATTACTCT GGTGAATTTT 
    ATGAAGAGTG TGATGTCTGG AGATCAACTG AGAGAAGATA GAATGGCTCT TGACAATTTA 
    TTGGCAAACC TACCCCCAGC CAAGCCAGGA AAAAGCAGCA GTTTAGAAAT GACTCCCTAC 
    AATACGCCTC AGCTGTCTCC GGCAACCACT CCAGCAAATA AAAAGAATCG ATTACCTATA 
    GCAACTCGGA GCAGAAGCCG CACCAATATG CTAATGGACC TACATATGGA CCATGAAGGA 
    TCATCTCAAG AAACCATCCA GGAGGTGCAA CCAGAAGAGG TGTTGGTCAT TTCCTTAGGG 
    ACAGGTCCCC AGCTTACTCC AGGGATGATG TCAGAAAATG AGGTTCTAAA CATGCATCTT 
    TCGGATGGAG GACAAGGCGA TGTCCCTGTT GATGAAAACA AACTCCATGG TCCTTCAAAT 
    CGCTCCAATT CAGTGTCCTC CCTAGACCTG GAAGGAGAGT CTGTGTCAGA ACTTGGAGCA 
    GGACCTTCTG GCAGTAATGG AGTTGAAGCT CTACAGCTGT TAGAACATGA GCAAGCTACA 
    ACACAGGATA ACCTTGATGA TAAGCTAAGG AAGTTTGAAA TTCGTGACAT GATGGGATTA 
    ACAGATGATA GGGACATATC AGAAACAGTG AGTGAGACCT GGAGTACAGA CGTCTTGGGG 
    AGTGACTTTG ACCCTAATAT TGATGAAGAT CGCTTGCAAG AAATTGCAGG TGCTGCAGCA 
    GAGAACATGT TAGGCAGTTT GCTGTGCCTC CCAGGTTCAG GGTCAGTGCT TCTTGACCCT 
    TGCACTGGTT CTACCATATC AGAGACAACA AGTGAAGCTT GGAGTGTAGA GGTATTGCCA 
    AGTGACTCAG AGGCCCCAGA CCTAAAGCAG GAGGAGCGTC TACAAGAACT GGAGAGCTGT 
    TCTGGACTGG GTAGCACATC TGATGATACG GATGTCAGGG AGGTCAGTTC CCGCCCCAGC 
    ACACCAGGCC TCAGTGTTGT GTCCGGCATA AGTGCAACCT CTGAGGATAT TCCCAATAAG 
    ATTGAAGACT TGAGATCTGA GTGCAGCTCT GATTTTGGGG GTAAAGATTC TGTCACTAGT 
    CCAGACATGG ATGAAATAAC TCATGGTGCC CACCAGCTGA CCTCTCCTCC TTCTCAGTCA 
    GAGTCTCTGC TGGCCATGTT TGATCCACTG TCTTCACATG AAGGGGCTTC TGCTGTGGTA 
    AGGCCAAAGG TTCACTATGC TAGGCCATCG CATCCACCAC CAGATCCCCC AATCCTGGAA 
    GGAGCTGTGG GAGGAAATGA GGCCAGGTTG CCAAACTTTG GTTCCCATGT GTTAACTCCA 
    GCTGAATTGG AGGCATTCAA GCAAAGGCAT TCTTACCCTG AGAGACTAGT TCGAAGCAGG 
    AGCTCTGATA TAGTATCTTC TGTGCGGAGA CCCATGAGTG ACCCCAGCTG GAACCGGCGT 
    CCAGGAAATG AAGAGCGAGA ACTCCCTCCA GCTGCAGTCA TTGGTGCTAC TTCTTTGGTG 
    GCTGCACCTC ATTCATCATC TTCATCCCCG AGTAAGGACT CCTCAAGAGG AGAGACTGAA 
    GAACGCAAAG ATAGCGATGA TGAGAAATCA GACAGAAACA GACCTTGGTG GAGAAAACGT 
    TTTGTTTCAG CCATGCCTAA AGATGATCCC AGCCCTAGAC TCAGTGCACA AGCTCAGGTC 
    GCTGAGGATA TTCTGGACAA ATACAGGAAT GCCATTAAAC GGACCAGCCC CAGTGATGGA 
    GCAATGGCAA ACTATGAAAG TACAGAGGTT TTGGGTGATG GTGAAAGTGC ACATGATTCT 
    CCCCGTGACG AGGCACTGCA GAACATCTCA GCTGATGATC TCCCAGACTC TGCGAGCCAA 
    GCAGCCCACC CGCAAGATTC AGCTTTCTCT TACAGAGATG CGAAAAAGAA ACTGAGGCTT 
    GCTCTTTGCT CTGCGGACTC TGTTGCCTTC CCAGTGCTGA CCCACTCAAC AAGGAATGGT 
    TTACCAGACC ACACAGACCC AGAAGACAAT GAAATTGTAT GCTTCTTAAA AGTTCAAATA 
    GCTGAAGCAA TTAATTTACA AGATAAGAAC TTAATGGCTC AACTTCAAGA AACAATGCGC 
    TGTGTGTGCC GTTTTGATAA TAGGACTTGT AGGAAACTGC TGGCTTCTAT TGCTGAGGAC 
    TACAGAAAAA GAGCCCCATA TATTGCTTAT CTCACTCGTT GTCGACAAGG ACTACAGACC 
    ACACAGGCTC ACCTGGAAAG GCTATTGCAA AGGGTTTTGC GAGACAAAGA AGTGGCCAAT 
    CGATACTTTA CCACCGTCTG TGTGAGATTA CTGCTTGAGA GCAAAGAAAA GAAGATCAGG 
    GAATTCATTC AAGACTTTCA GAAACTCACC GCAGCTGATG ATAAAACTGC TCAGGTAGAA 
    GATTTTCTGC AGTTTCTTTA TGGTGCAATG GCCCAGGATG TCATATGGCA AAACGCAAGT 
    GAAGAACAGC TTCAAGATGC ACAGCTGGCC ATTGAGCGAA GCGTGATGAA CCGGATTTTC 
    AAGCTTGCCT TCTACCCTAA TCAGGATGGG GACATACTTC GCGACCAGGT TCTTCATGAA 
    CATATCCAGA GATTATCTAA AGTAGTGACT GCAAATCACA GAGCTCTTCA GATACCAGAG 
    GTTTATCTTC GAGAAGCACC ATGGCCATCT GCACAATCAG AAATCAGGAC AATAAGTGCT 
    TATAAAACCC CCCGGGACAA AGTGCAGTGC ATCCTGAGAA TGTGCTCTAC GATTATGAAC 
    CTCCTGAGCC TGGCCAATGA GGACTCTGTC CCTGGAGCGG ATGACTTTGT TCCTGTGTTG 
    GTGTTTGTGT TGATAAAGGC AAATCCACCC TGTTTGCTGT CTACTGTGCA GTATATCAGT 
    AGCTTTTATG CTAGCTGTCT GTCTGGAGAG GAGTCCTATT GGTGGATGCA GTTCACAGCA 
    GCAGTAGAAT TCATTAAAAC CATCGATGAC CGAAAATGA

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

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