ORF » Species Summary » Castor canadensis » Arhgap29 cDNA ORF clone

Arhgap29 cDNA ORF clone, Castor canadensis(American beaver)

The following Arhgap29 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Arhgap29 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OCa281086 XM_020163939.1
Latest version!		 Castor canadensis Rho GTPase activating protein 29 (Arhgap29), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OCa281086 XM_020163938.1
Latest version!		 Castor canadensis Rho GTPase activating protein 29 (Arhgap29), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OCa281086 XM_020163940.1
Latest version!		 Castor canadensis Rho GTPase activating protein 29 (Arhgap29), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OCa281087 XM_020163941.1
Latest version!		 Castor canadensis Rho GTPase activating protein 29 (Arhgap29), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00

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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)
    Arhgap29 ( XM_020163938.1 ) cDNA ORF clone, Castor canadensis(American beaver) -> XP_020019527.1 Castor canadensis Rho GTPase activating protein 29 (Arhgap29), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OCa281086
    Clone ID Related Accession (Same CDS sequence) XM_020163938.1 , XM_020163940.1 , XM_020163939.1
    Accession Version XM_020163938.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3768bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-02-14
    Organism Castor canadensis(American beaver)
    Product rho GTPase-activating protein 29 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017870508.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Castor canadensis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.3 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
    ATGATTGCTC ATAAACAGAA AAAAGCAAAG AACAAACGTG TTTGGATACC AGCCCAGCTC 
    TCTGCGGATG CTACAGCTTC TGAAATGGGG CTCAAGTCCG TAAGTTCCAG CTCCATTTTT 
    GATCCGGATT ACATCAAGGA GTTGGTGAAT GATATCAGGA AGTTCTCCCA TGTGTTACTA 
    TATTTGAAAG AAGCTATTCT TTCAGATTGT TTTAAAGAAG TCATTCATAT ACGTCTGGAC 
    GAACTTCTTC GTGTTTTAAA ATCTGTCATG CATAAGCATC AGAACCTCAA TTCTGCTGAC 
    CTTCAGAATG CTGCCGAAGT GCTGACTGCA AAAGTGAAAG CTGTGAATTT TACGGAAGTT 
    AATGAAGAGA ACAAAAACCA TCTATTTCAA GAAGTGTTTT CTTCCATTGA AGCTTTGGCA 
    GTTACCTTTG GAAATATCCT TACAAGCTTC CTTATGGGAG ATGTAGGCAA TGATGCCTTG 
    TTACGACTGC CTGTTTCTCG GGAAAGTAAG TCTTTTGAAA ACATTTCTGT GGACTCAGTG 
    GACTCACCCT TTGAGAAAGG AAGTTTTTCT CCGATAGAGC TCGATGGTGT GCTGTTAAAG 
    AGAACGGGCT GCATAGAGCT GGCTCTGTCG TATGCTAAGA CATGGTCAAA ATACACCAAG 
    AGCATCGTGT CTTGGGTGGA GAAGAAGCTC AACTTGGAGT TGGAGTCCAC TAGAAATATT 
    GTCAAATTGG CAGAGGCAAC TAGAGCGAGC ATTGGACTAC AGGAGTTCAT GCCGCTCCAG 
    TCTCTGTTTA CCAGTGCCCT TCTTAGTGAC ATAGACAGCA GTCACCTCTT ACAGCAAACA 
    ATTGCCGCCC TCCAGGCCAA CAAGTTTGTG CAGCCTCTAC TTGGAAGGAG AAATGAGATG 
    GAAAAACGAA GGAAAGAAAT CAAGGAGCTT TGGAAACAGG AACAAAATAA AATGCTCGAG 
    ACAGAGGCAG CTCTCAAGAA GGCAAAGTTG CTGTGCGTGC AACGCCAGGA TGAGTATGAG 
    AGAGCACGGG CGTCCACGGT GCGTTCGGAA GAGGAGCACC TGTGCGCGAA TGGTGCGCTA 
    GTGAGAACTC TGAGCAAGCA GCTGGAGAAG AGGCGGAGGC TGGAAGAGGA GGCTCTTCAG 
    AAAGTAGAAG AAGCAAATGA ACTCTATAAA GTTTGTGTAA CGAATGTTGA AGAAAGGCGA 
    AATGATCTAG AAAATACCAA AAGAGAAATT TTAACACAAC TTCGGACCCT CGTTTTCCAG 
    TGTGATCTTA CACTTAAAGC TGTAACAGTT AACCTCTTCC AGATGCAGCA CCTGCAGGCC 
    GCCTCTCTTG CAAACAGTTT ACACTCTCTC TGTGACAGTG CCAAGCTCTA TGACCCAGGC 
    CAAGAATACA GGGAATTTGT CAAGGCTACA AATTCCAGCG AAGAAGACAA AGTTGATGGG 
    AATGTCAGCA AGCGATTGAC ACACAGTCCC CAGACATCGA GATACGGACC TGCCGACTCC 
    TTAGAGGACG TGGTGCGCCT TCCTGACACT TGCAATAAAA TGGAAGAGGA CAGGTGCTCC 
    AACAGTGCAG ACGTCACAGG TCCTTCTTTT GTAAGGTCAT GGACATTTGG GGTACTCAGT 
    GACTCGGAGA GCACCGGGGG AAGCAGCGAG TCCAGGTCTC TGGATTCTGA GTCTATAAGT 
    CCAGGAGACT TTCATCGGAA ACTTCCACGA ACTCCATCCA GCGGAACCAT GTCTTCTGCA 
    GATGATCTGG ATGAAAGAGA GCCACCCTCC CCTTCAGAAG CTGGACCCAG CTCCCTTGGA 
    GCATTCAGGA AGACATTGAT GTCAAAGGCA GCTGCCACTC ACAAGTTCCG CAAACTAAGG 
    TCCCCCACAA AATGCAGGGA CTGCGACGGC ATTGTGGTGT TCCAGGGTGT TGAGTGCGAG 
    GAGTGTCTCC TTGTTTGTCA TCGAAAGTGT TTGGAGAATT TAGTCATCAT TTGTGGTCAT 
    CAGAAACTTC TTGGAAAAAT ACACTTATTT GGAGCAGAAT TCACACAAGT TGCAAAAAAG 
    GAACCAGATG GCATTCCTTT TGTACTCAAA ATGTGTGCTT CCGAAATTGA GAATAGAGCC 
    TTGTGTCTCC AGGGAATTTA TCGTGTTTGT GGAAACAAAA TAAAAACTGA AAAGCTGTGT 
    CAAGCTTTGG AAAATGGAAT GCACTTGGTG GATATATCAG AGTTTAGTTC ACATGACATC 
    TGCGATGTCT TAAAACTGTA CCTTCGACAG CTCCCAGAAC CATTTATTTT ATTCCGATTA 
    TACAAGGAAT TTATAGACCT TGCAAAAGAG ATCCAGCATG TAAATGAAGA GCAAGAGACA 
    AAAAAGGATA GCCCTGAGGA CAAAAAACAT CCAAGTACAA GCATAGAAAT TCACCGGATT 
    CTTCTAAGGA GCAAGGACCT TCTAAGACAG CTGCCAGCAC CCAACTTCAA CAGTCTTCAT 
    TACCTCATTG TCCACCTCCG GCGGGTAGTA GACCATTCCG AAGAAAACAA GATGAACTCC 
    AAGAACTTGG GGGTGATATT TGGACCAAGT CTCATCAGGC CCAGGCCCAC AGCGGCTCCT 
    GTCACCATCT CCTCCCTGGC CGAGTATTCG AACCAGGCAC GACTGGTAGA GTTCCTCATC 
    ACTCACTCAC AGAAGATCTT CGATGGGTCC CTACAGCCAC AGGACCTGTC TAGTTCAGGT 
    GCCAGCACCA TTCAGGCTGA GCAAGGCTGT CTTCCAAGAC CTCTGCTATC ACCAGATGAA 
    AGAGACTCTG AACATTCTGT GGCGACACTC TTTTTTTCTT CAAAGGAAGA TATTCATACC 
    GCAGATAGTG AAAGCAAAAT TTTTGAACCA ACTACATCAT TTGAGGAAGT AGAACGTAAG 
    CAGAATGCCT TGGGAAAATG TGATGCCTGT CTTGTTGACA ACAAAAAGCG TTTGTTTCGA 
    GACCAAGAGC TTGAATCAGC ATCGCAAAGG AAGGAAGATG TTTGTAAAAG CCCCAAGCTG 
    TTTATTCTAA AACCCGATGG TGTAACAAGC AGCGTGCAGA GGCACCCTGC AAGGACCAAG 
    ACCCGGCCCA TCAGCCTGCC TGTGGACAGA CTGCTTCTTG CAAGCTGTCC CCTTGAGAGA 
    AACAGCAGAA ATACGGGACA CGTAAATGCG GACAAGTTTG CTAAGAATCC TGCCTGCGAA 
    GGACTTAGGA AAGACACCCC TGCCACTTTG TGTTCCAGAT TCAATGGCGT GGACCAGCTA 
    GTGCTGCAGA ACACATGGGA CAAGCAGCAT GACCAAAACA GTGTAACTGC CAAGGCTGCA 
    GGGACTGGGA TAGGAGTCGG CACAGGCATC AAGATGAGTG GGGACCCTGC CAGCAGTGCC 
    AGCCAATCCA GCCAGCCACA CACAGAACCA GCCAGGGCTG CGAGGGAGGC GGCAGAGAGA 
    CGGTCCTCGG ACTCCTACCC TCTCGCTCCT GTCCGAGCAC CGAGGACACT GCAGCCCCAG 
    CACTGGACAA CGTTTTATAA GCCACGTGCT CCCACCAGCA GCATCAGAGG GAGTGAGGAG 
    AAACCGGCCT CGCCCTCCGC CACGCTGCCC AGTCCCCAGG GCCAGTTGAC GAAGTCACTT 
    CCTGACTCAG AGGATACGTC TGCTTGTGCT GTGCAGCCGA GTAGTCAGCC TAGAGAGAAG 
    CCTGAGGAGC AGGGCTTGCC CGAGGTGAGC CCAGCGTGCC AGAGGCCAAG GTTAAAGCGG 
    ATGCAGCAGT TCGAAGACTC TGAGGATGAG ACACCACAAT TCGTGTAG

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

    RefSeq XP_020019527.1
    CDS60..3827
    Translation

    Target ORF information:

    RefSeq Version XM_020163938.1
    Organism Castor canadensis(American beaver)
    Definition Castor canadensis Rho GTPase activating protein 29 (Arhgap29), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_020163938.1

    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
    ATGATTGCTC ATAAACAGAA AAAAGCAAAG AACAAACGTG TTTGGATACC AGCCCAGCTC 
    TCTGCGGATG CTACAGCTTC TGAAATGGGG CTCAAGTCCG TAAGTTCCAG CTCCATTTTT 
    GATCCGGATT ACATCAAGGA GTTGGTGAAT GATATCAGGA AGTTCTCCCA TGTGTTACTA 
    TATTTGAAAG AAGCTATTCT TTCAGATTGT TTTAAAGAAG TCATTCATAT ACGTCTGGAC 
    GAACTTCTTC GTGTTTTAAA ATCTGTCATG CATAAGCATC AGAACCTCAA TTCTGCTGAC 
    CTTCAGAATG CTGCCGAAGT GCTGACTGCA AAAGTGAAAG CTGTGAATTT TACGGAAGTT 
    AATGAAGAGA ACAAAAACCA TCTATTTCAA GAAGTGTTTT CTTCCATTGA AGCTTTGGCA 
    GTTACCTTTG GAAATATCCT TACAAGCTTC CTTATGGGAG ATGTAGGCAA TGATGCCTTG 
    TTACGACTGC CTGTTTCTCG GGAAAGTAAG TCTTTTGAAA ACATTTCTGT GGACTCAGTG 
    GACTCACCCT TTGAGAAAGG AAGTTTTTCT CCGATAGAGC TCGATGGTGT GCTGTTAAAG 
    AGAACGGGCT GCATAGAGCT GGCTCTGTCG TATGCTAAGA CATGGTCAAA ATACACCAAG 
    AGCATCGTGT CTTGGGTGGA GAAGAAGCTC AACTTGGAGT TGGAGTCCAC TAGAAATATT 
    GTCAAATTGG CAGAGGCAAC TAGAGCGAGC ATTGGACTAC AGGAGTTCAT GCCGCTCCAG 
    TCTCTGTTTA CCAGTGCCCT TCTTAGTGAC ATAGACAGCA GTCACCTCTT ACAGCAAACA 
    ATTGCCGCCC TCCAGGCCAA CAAGTTTGTG CAGCCTCTAC TTGGAAGGAG AAATGAGATG 
    GAAAAACGAA GGAAAGAAAT CAAGGAGCTT TGGAAACAGG AACAAAATAA AATGCTCGAG 
    ACAGAGGCAG CTCTCAAGAA GGCAAAGTTG CTGTGCGTGC AACGCCAGGA TGAGTATGAG 
    AGAGCACGGG CGTCCACGGT GCGTTCGGAA GAGGAGCACC TGTGCGCGAA TGGTGCGCTA 
    GTGAGAACTC TGAGCAAGCA GCTGGAGAAG AGGCGGAGGC TGGAAGAGGA GGCTCTTCAG 
    AAAGTAGAAG AAGCAAATGA ACTCTATAAA GTTTGTGTAA CGAATGTTGA AGAAAGGCGA 
    AATGATCTAG AAAATACCAA AAGAGAAATT TTAACACAAC TTCGGACCCT CGTTTTCCAG 
    TGTGATCTTA CACTTAAAGC TGTAACAGTT AACCTCTTCC AGATGCAGCA CCTGCAGGCC 
    GCCTCTCTTG CAAACAGTTT ACACTCTCTC TGTGACAGTG CCAAGCTCTA TGACCCAGGC 
    CAAGAATACA GGGAATTTGT CAAGGCTACA AATTCCAGCG AAGAAGACAA AGTTGATGGG 
    AATGTCAGCA AGCGATTGAC ACACAGTCCC CAGACATCGA GATACGGACC TGCCGACTCC 
    TTAGAGGACG TGGTGCGCCT TCCTGACACT TGCAATAAAA TGGAAGAGGA CAGGTGCTCC 
    AACAGTGCAG ACGTCACAGG TCCTTCTTTT GTAAGGTCAT GGACATTTGG GGTACTCAGT 
    GACTCGGAGA GCACCGGGGG AAGCAGCGAG TCCAGGTCTC TGGATTCTGA GTCTATAAGT 
    CCAGGAGACT TTCATCGGAA ACTTCCACGA ACTCCATCCA GCGGAACCAT GTCTTCTGCA 
    GATGATCTGG ATGAAAGAGA GCCACCCTCC CCTTCAGAAG CTGGACCCAG CTCCCTTGGA 
    GCATTCAGGA AGACATTGAT GTCAAAGGCA GCTGCCACTC ACAAGTTCCG CAAACTAAGG 
    TCCCCCACAA AATGCAGGGA CTGCGACGGC ATTGTGGTGT TCCAGGGTGT TGAGTGCGAG 
    GAGTGTCTCC TTGTTTGTCA TCGAAAGTGT TTGGAGAATT TAGTCATCAT TTGTGGTCAT 
    CAGAAACTTC TTGGAAAAAT ACACTTATTT GGAGCAGAAT TCACACAAGT TGCAAAAAAG 
    GAACCAGATG GCATTCCTTT TGTACTCAAA ATGTGTGCTT CCGAAATTGA GAATAGAGCC 
    TTGTGTCTCC AGGGAATTTA TCGTGTTTGT GGAAACAAAA TAAAAACTGA AAAGCTGTGT 
    CAAGCTTTGG AAAATGGAAT GCACTTGGTG GATATATCAG AGTTTAGTTC ACATGACATC 
    TGCGATGTCT TAAAACTGTA CCTTCGACAG CTCCCAGAAC CATTTATTTT ATTCCGATTA 
    TACAAGGAAT TTATAGACCT TGCAAAAGAG ATCCAGCATG TAAATGAAGA GCAAGAGACA 
    AAAAAGGATA GCCCTGAGGA CAAAAAACAT CCAAGTACAA GCATAGAAAT TCACCGGATT 
    CTTCTAAGGA GCAAGGACCT TCTAAGACAG CTGCCAGCAC CCAACTTCAA CAGTCTTCAT 
    TACCTCATTG TCCACCTCCG GCGGGTAGTA GACCATTCCG AAGAAAACAA GATGAACTCC 
    AAGAACTTGG GGGTGATATT TGGACCAAGT CTCATCAGGC CCAGGCCCAC AGCGGCTCCT 
    GTCACCATCT CCTCCCTGGC CGAGTATTCG AACCAGGCAC GACTGGTAGA GTTCCTCATC 
    ACTCACTCAC AGAAGATCTT CGATGGGTCC CTACAGCCAC AGGACCTGTC TAGTTCAGGT 
    GCCAGCACCA TTCAGGCTGA GCAAGGCTGT CTTCCAAGAC CTCTGCTATC ACCAGATGAA 
    AGAGACTCTG AACATTCTGT GGCGACACTC TTTTTTTCTT CAAAGGAAGA TATTCATACC 
    GCAGATAGTG AAAGCAAAAT TTTTGAACCA ACTACATCAT TTGAGGAAGT AGAACGTAAG 
    CAGAATGCCT TGGGAAAATG TGATGCCTGT CTTGTTGACA ACAAAAAGCG TTTGTTTCGA 
    GACCAAGAGC TTGAATCAGC ATCGCAAAGG AAGGAAGATG TTTGTAAAAG CCCCAAGCTG 
    TTTATTCTAA AACCCGATGG TGTAACAAGC AGCGTGCAGA GGCACCCTGC AAGGACCAAG 
    ACCCGGCCCA TCAGCCTGCC TGTGGACAGA CTGCTTCTTG CAAGCTGTCC CCTTGAGAGA 
    AACAGCAGAA ATACGGGACA CGTAAATGCG GACAAGTTTG CTAAGAATCC TGCCTGCGAA 
    GGACTTAGGA AAGACACCCC TGCCACTTTG TGTTCCAGAT TCAATGGCGT GGACCAGCTA 
    GTGCTGCAGA ACACATGGGA CAAGCAGCAT GACCAAAACA GTGTAACTGC CAAGGCTGCA 
    GGGACTGGGA TAGGAGTCGG CACAGGCATC AAGATGAGTG GGGACCCTGC CAGCAGTGCC 
    AGCCAATCCA GCCAGCCACA CACAGAACCA GCCAGGGCTG CGAGGGAGGC GGCAGAGAGA 
    CGGTCCTCGG ACTCCTACCC TCTCGCTCCT GTCCGAGCAC CGAGGACACT GCAGCCCCAG 
    CACTGGACAA CGTTTTATAA GCCACGTGCT CCCACCAGCA GCATCAGAGG GAGTGAGGAG 
    AAACCGGCCT CGCCCTCCGC CACGCTGCCC AGTCCCCAGG GCCAGTTGAC GAAGTCACTT 
    CCTGACTCAG AGGATACGTC TGCTTGTGCT GTGCAGCCGA GTAGTCAGCC TAGAGAGAAG 
    CCTGAGGAGC AGGGCTTGCC CGAGGTGAGC CCAGCGTGCC AGAGGCCAAG GTTAAAGCGG 
    ATGCAGCAGT TCGAAGACTC TGAGGATGAG ACACCACAAT TCGTGTAG

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

    Arhgap29 ( XM_020163940.1 ) cDNA ORF clone, Castor canadensis(American beaver) -> XP_020019529.1 Castor canadensis Rho GTPase activating protein 29 (Arhgap29), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OCa281086
    Clone ID Related Accession (Same CDS sequence) XM_020163938.1 , XM_020163940.1 , XM_020163939.1
    Accession Version XM_020163940.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3768bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-02-14
    Organism Castor canadensis(American beaver)
    Product rho GTPase-activating protein 29 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017870508.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Castor canadensis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.3 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
    ATGATTGCTC ATAAACAGAA AAAAGCAAAG AACAAACGTG TTTGGATACC AGCCCAGCTC 
    TCTGCGGATG CTACAGCTTC TGAAATGGGG CTCAAGTCCG TAAGTTCCAG CTCCATTTTT 
    GATCCGGATT ACATCAAGGA GTTGGTGAAT GATATCAGGA AGTTCTCCCA TGTGTTACTA 
    TATTTGAAAG AAGCTATTCT TTCAGATTGT TTTAAAGAAG TCATTCATAT ACGTCTGGAC 
    GAACTTCTTC GTGTTTTAAA ATCTGTCATG CATAAGCATC AGAACCTCAA TTCTGCTGAC 
    CTTCAGAATG CTGCCGAAGT GCTGACTGCA AAAGTGAAAG CTGTGAATTT TACGGAAGTT 
    AATGAAGAGA ACAAAAACCA TCTATTTCAA GAAGTGTTTT CTTCCATTGA AGCTTTGGCA 
    GTTACCTTTG GAAATATCCT TACAAGCTTC CTTATGGGAG ATGTAGGCAA TGATGCCTTG 
    TTACGACTGC CTGTTTCTCG GGAAAGTAAG TCTTTTGAAA ACATTTCTGT GGACTCAGTG 
    GACTCACCCT TTGAGAAAGG AAGTTTTTCT CCGATAGAGC TCGATGGTGT GCTGTTAAAG 
    AGAACGGGCT GCATAGAGCT GGCTCTGTCG TATGCTAAGA CATGGTCAAA ATACACCAAG 
    AGCATCGTGT CTTGGGTGGA GAAGAAGCTC AACTTGGAGT TGGAGTCCAC TAGAAATATT 
    GTCAAATTGG CAGAGGCAAC TAGAGCGAGC ATTGGACTAC AGGAGTTCAT GCCGCTCCAG 
    TCTCTGTTTA CCAGTGCCCT TCTTAGTGAC ATAGACAGCA GTCACCTCTT ACAGCAAACA 
    ATTGCCGCCC TCCAGGCCAA CAAGTTTGTG CAGCCTCTAC TTGGAAGGAG AAATGAGATG 
    GAAAAACGAA GGAAAGAAAT CAAGGAGCTT TGGAAACAGG AACAAAATAA AATGCTCGAG 
    ACAGAGGCAG CTCTCAAGAA GGCAAAGTTG CTGTGCGTGC AACGCCAGGA TGAGTATGAG 
    AGAGCACGGG CGTCCACGGT GCGTTCGGAA GAGGAGCACC TGTGCGCGAA TGGTGCGCTA 
    GTGAGAACTC TGAGCAAGCA GCTGGAGAAG AGGCGGAGGC TGGAAGAGGA GGCTCTTCAG 
    AAAGTAGAAG AAGCAAATGA ACTCTATAAA GTTTGTGTAA CGAATGTTGA AGAAAGGCGA 
    AATGATCTAG AAAATACCAA AAGAGAAATT TTAACACAAC TTCGGACCCT CGTTTTCCAG 
    TGTGATCTTA CACTTAAAGC TGTAACAGTT AACCTCTTCC AGATGCAGCA CCTGCAGGCC 
    GCCTCTCTTG CAAACAGTTT ACACTCTCTC TGTGACAGTG CCAAGCTCTA TGACCCAGGC 
    CAAGAATACA GGGAATTTGT CAAGGCTACA AATTCCAGCG AAGAAGACAA AGTTGATGGG 
    AATGTCAGCA AGCGATTGAC ACACAGTCCC CAGACATCGA GATACGGACC TGCCGACTCC 
    TTAGAGGACG TGGTGCGCCT TCCTGACACT TGCAATAAAA TGGAAGAGGA CAGGTGCTCC 
    AACAGTGCAG ACGTCACAGG TCCTTCTTTT GTAAGGTCAT GGACATTTGG GGTACTCAGT 
    GACTCGGAGA GCACCGGGGG AAGCAGCGAG TCCAGGTCTC TGGATTCTGA GTCTATAAGT 
    CCAGGAGACT TTCATCGGAA ACTTCCACGA ACTCCATCCA GCGGAACCAT GTCTTCTGCA 
    GATGATCTGG ATGAAAGAGA GCCACCCTCC CCTTCAGAAG CTGGACCCAG CTCCCTTGGA 
    GCATTCAGGA AGACATTGAT GTCAAAGGCA GCTGCCACTC ACAAGTTCCG CAAACTAAGG 
    TCCCCCACAA AATGCAGGGA CTGCGACGGC ATTGTGGTGT TCCAGGGTGT TGAGTGCGAG 
    GAGTGTCTCC TTGTTTGTCA TCGAAAGTGT TTGGAGAATT TAGTCATCAT TTGTGGTCAT 
    CAGAAACTTC TTGGAAAAAT ACACTTATTT GGAGCAGAAT TCACACAAGT TGCAAAAAAG 
    GAACCAGATG GCATTCCTTT TGTACTCAAA ATGTGTGCTT CCGAAATTGA GAATAGAGCC 
    TTGTGTCTCC AGGGAATTTA TCGTGTTTGT GGAAACAAAA TAAAAACTGA AAAGCTGTGT 
    CAAGCTTTGG AAAATGGAAT GCACTTGGTG GATATATCAG AGTTTAGTTC ACATGACATC 
    TGCGATGTCT TAAAACTGTA CCTTCGACAG CTCCCAGAAC CATTTATTTT ATTCCGATTA 
    TACAAGGAAT TTATAGACCT TGCAAAAGAG ATCCAGCATG TAAATGAAGA GCAAGAGACA 
    AAAAAGGATA GCCCTGAGGA CAAAAAACAT CCAAGTACAA GCATAGAAAT TCACCGGATT 
    CTTCTAAGGA GCAAGGACCT TCTAAGACAG CTGCCAGCAC CCAACTTCAA CAGTCTTCAT 
    TACCTCATTG TCCACCTCCG GCGGGTAGTA GACCATTCCG AAGAAAACAA GATGAACTCC 
    AAGAACTTGG GGGTGATATT TGGACCAAGT CTCATCAGGC CCAGGCCCAC AGCGGCTCCT 
    GTCACCATCT CCTCCCTGGC CGAGTATTCG AACCAGGCAC GACTGGTAGA GTTCCTCATC 
    ACTCACTCAC AGAAGATCTT CGATGGGTCC CTACAGCCAC AGGACCTGTC TAGTTCAGGT 
    GCCAGCACCA TTCAGGCTGA GCAAGGCTGT CTTCCAAGAC CTCTGCTATC ACCAGATGAA 
    AGAGACTCTG AACATTCTGT GGCGACACTC TTTTTTTCTT CAAAGGAAGA TATTCATACC 
    GCAGATAGTG AAAGCAAAAT TTTTGAACCA ACTACATCAT TTGAGGAAGT AGAACGTAAG 
    CAGAATGCCT TGGGAAAATG TGATGCCTGT CTTGTTGACA ACAAAAAGCG TTTGTTTCGA 
    GACCAAGAGC TTGAATCAGC ATCGCAAAGG AAGGAAGATG TTTGTAAAAG CCCCAAGCTG 
    TTTATTCTAA AACCCGATGG TGTAACAAGC AGCGTGCAGA GGCACCCTGC AAGGACCAAG 
    ACCCGGCCCA TCAGCCTGCC TGTGGACAGA CTGCTTCTTG CAAGCTGTCC CCTTGAGAGA 
    AACAGCAGAA ATACGGGACA CGTAAATGCG GACAAGTTTG CTAAGAATCC TGCCTGCGAA 
    GGACTTAGGA AAGACACCCC TGCCACTTTG TGTTCCAGAT TCAATGGCGT GGACCAGCTA 
    GTGCTGCAGA ACACATGGGA CAAGCAGCAT GACCAAAACA GTGTAACTGC CAAGGCTGCA 
    GGGACTGGGA TAGGAGTCGG CACAGGCATC AAGATGAGTG GGGACCCTGC CAGCAGTGCC 
    AGCCAATCCA GCCAGCCACA CACAGAACCA GCCAGGGCTG CGAGGGAGGC GGCAGAGAGA 
    CGGTCCTCGG ACTCCTACCC TCTCGCTCCT GTCCGAGCAC CGAGGACACT GCAGCCCCAG 
    CACTGGACAA CGTTTTATAA GCCACGTGCT CCCACCAGCA GCATCAGAGG GAGTGAGGAG 
    AAACCGGCCT CGCCCTCCGC CACGCTGCCC AGTCCCCAGG GCCAGTTGAC GAAGTCACTT 
    CCTGACTCAG AGGATACGTC TGCTTGTGCT GTGCAGCCGA GTAGTCAGCC TAGAGAGAAG 
    CCTGAGGAGC AGGGCTTGCC CGAGGTGAGC CCAGCGTGCC AGAGGCCAAG GTTAAAGCGG 
    ATGCAGCAGT TCGAAGACTC TGAGGATGAG ACACCACAAT TCGTGTAG

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

    RefSeq XP_020019529.1
    CDS83..3850
    Translation

    Target ORF information:

    RefSeq Version XM_020163940.1
    Organism Castor canadensis(American beaver)
    Definition Castor canadensis Rho GTPase activating protein 29 (Arhgap29), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_020163940.1

    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
    ATGATTGCTC ATAAACAGAA AAAAGCAAAG AACAAACGTG TTTGGATACC AGCCCAGCTC 
    TCTGCGGATG CTACAGCTTC TGAAATGGGG CTCAAGTCCG TAAGTTCCAG CTCCATTTTT 
    GATCCGGATT ACATCAAGGA GTTGGTGAAT GATATCAGGA AGTTCTCCCA TGTGTTACTA 
    TATTTGAAAG AAGCTATTCT TTCAGATTGT TTTAAAGAAG TCATTCATAT ACGTCTGGAC 
    GAACTTCTTC GTGTTTTAAA ATCTGTCATG CATAAGCATC AGAACCTCAA TTCTGCTGAC 
    CTTCAGAATG CTGCCGAAGT GCTGACTGCA AAAGTGAAAG CTGTGAATTT TACGGAAGTT 
    AATGAAGAGA ACAAAAACCA TCTATTTCAA GAAGTGTTTT CTTCCATTGA AGCTTTGGCA 
    GTTACCTTTG GAAATATCCT TACAAGCTTC CTTATGGGAG ATGTAGGCAA TGATGCCTTG 
    TTACGACTGC CTGTTTCTCG GGAAAGTAAG TCTTTTGAAA ACATTTCTGT GGACTCAGTG 
    GACTCACCCT TTGAGAAAGG AAGTTTTTCT CCGATAGAGC TCGATGGTGT GCTGTTAAAG 
    AGAACGGGCT GCATAGAGCT GGCTCTGTCG TATGCTAAGA CATGGTCAAA ATACACCAAG 
    AGCATCGTGT CTTGGGTGGA GAAGAAGCTC AACTTGGAGT TGGAGTCCAC TAGAAATATT 
    GTCAAATTGG CAGAGGCAAC TAGAGCGAGC ATTGGACTAC AGGAGTTCAT GCCGCTCCAG 
    TCTCTGTTTA CCAGTGCCCT TCTTAGTGAC ATAGACAGCA GTCACCTCTT ACAGCAAACA 
    ATTGCCGCCC TCCAGGCCAA CAAGTTTGTG CAGCCTCTAC TTGGAAGGAG AAATGAGATG 
    GAAAAACGAA GGAAAGAAAT CAAGGAGCTT TGGAAACAGG AACAAAATAA AATGCTCGAG 
    ACAGAGGCAG CTCTCAAGAA GGCAAAGTTG CTGTGCGTGC AACGCCAGGA TGAGTATGAG 
    AGAGCACGGG CGTCCACGGT GCGTTCGGAA GAGGAGCACC TGTGCGCGAA TGGTGCGCTA 
    GTGAGAACTC TGAGCAAGCA GCTGGAGAAG AGGCGGAGGC TGGAAGAGGA GGCTCTTCAG 
    AAAGTAGAAG AAGCAAATGA ACTCTATAAA GTTTGTGTAA CGAATGTTGA AGAAAGGCGA 
    AATGATCTAG AAAATACCAA AAGAGAAATT TTAACACAAC TTCGGACCCT CGTTTTCCAG 
    TGTGATCTTA CACTTAAAGC TGTAACAGTT AACCTCTTCC AGATGCAGCA CCTGCAGGCC 
    GCCTCTCTTG CAAACAGTTT ACACTCTCTC TGTGACAGTG CCAAGCTCTA TGACCCAGGC 
    CAAGAATACA GGGAATTTGT CAAGGCTACA AATTCCAGCG AAGAAGACAA AGTTGATGGG 
    AATGTCAGCA AGCGATTGAC ACACAGTCCC CAGACATCGA GATACGGACC TGCCGACTCC 
    TTAGAGGACG TGGTGCGCCT TCCTGACACT TGCAATAAAA TGGAAGAGGA CAGGTGCTCC 
    AACAGTGCAG ACGTCACAGG TCCTTCTTTT GTAAGGTCAT GGACATTTGG GGTACTCAGT 
    GACTCGGAGA GCACCGGGGG AAGCAGCGAG TCCAGGTCTC TGGATTCTGA GTCTATAAGT 
    CCAGGAGACT TTCATCGGAA ACTTCCACGA ACTCCATCCA GCGGAACCAT GTCTTCTGCA 
    GATGATCTGG ATGAAAGAGA GCCACCCTCC CCTTCAGAAG CTGGACCCAG CTCCCTTGGA 
    GCATTCAGGA AGACATTGAT GTCAAAGGCA GCTGCCACTC ACAAGTTCCG CAAACTAAGG 
    TCCCCCACAA AATGCAGGGA CTGCGACGGC ATTGTGGTGT TCCAGGGTGT TGAGTGCGAG 
    GAGTGTCTCC TTGTTTGTCA TCGAAAGTGT TTGGAGAATT TAGTCATCAT TTGTGGTCAT 
    CAGAAACTTC TTGGAAAAAT ACACTTATTT GGAGCAGAAT TCACACAAGT TGCAAAAAAG 
    GAACCAGATG GCATTCCTTT TGTACTCAAA ATGTGTGCTT CCGAAATTGA GAATAGAGCC 
    TTGTGTCTCC AGGGAATTTA TCGTGTTTGT GGAAACAAAA TAAAAACTGA AAAGCTGTGT 
    CAAGCTTTGG AAAATGGAAT GCACTTGGTG GATATATCAG AGTTTAGTTC ACATGACATC 
    TGCGATGTCT TAAAACTGTA CCTTCGACAG CTCCCAGAAC CATTTATTTT ATTCCGATTA 
    TACAAGGAAT TTATAGACCT TGCAAAAGAG ATCCAGCATG TAAATGAAGA GCAAGAGACA 
    AAAAAGGATA GCCCTGAGGA CAAAAAACAT CCAAGTACAA GCATAGAAAT TCACCGGATT 
    CTTCTAAGGA GCAAGGACCT TCTAAGACAG CTGCCAGCAC CCAACTTCAA CAGTCTTCAT 
    TACCTCATTG TCCACCTCCG GCGGGTAGTA GACCATTCCG AAGAAAACAA GATGAACTCC 
    AAGAACTTGG GGGTGATATT TGGACCAAGT CTCATCAGGC CCAGGCCCAC AGCGGCTCCT 
    GTCACCATCT CCTCCCTGGC CGAGTATTCG AACCAGGCAC GACTGGTAGA GTTCCTCATC 
    ACTCACTCAC AGAAGATCTT CGATGGGTCC CTACAGCCAC AGGACCTGTC TAGTTCAGGT 
    GCCAGCACCA TTCAGGCTGA GCAAGGCTGT CTTCCAAGAC CTCTGCTATC ACCAGATGAA 
    AGAGACTCTG AACATTCTGT GGCGACACTC TTTTTTTCTT CAAAGGAAGA TATTCATACC 
    GCAGATAGTG AAAGCAAAAT TTTTGAACCA ACTACATCAT TTGAGGAAGT AGAACGTAAG 
    CAGAATGCCT TGGGAAAATG TGATGCCTGT CTTGTTGACA ACAAAAAGCG TTTGTTTCGA 
    GACCAAGAGC TTGAATCAGC ATCGCAAAGG AAGGAAGATG TTTGTAAAAG CCCCAAGCTG 
    TTTATTCTAA AACCCGATGG TGTAACAAGC AGCGTGCAGA GGCACCCTGC AAGGACCAAG 
    ACCCGGCCCA TCAGCCTGCC TGTGGACAGA CTGCTTCTTG CAAGCTGTCC CCTTGAGAGA 
    AACAGCAGAA ATACGGGACA CGTAAATGCG GACAAGTTTG CTAAGAATCC TGCCTGCGAA 
    GGACTTAGGA AAGACACCCC TGCCACTTTG TGTTCCAGAT TCAATGGCGT GGACCAGCTA 
    GTGCTGCAGA ACACATGGGA CAAGCAGCAT GACCAAAACA GTGTAACTGC CAAGGCTGCA 
    GGGACTGGGA TAGGAGTCGG CACAGGCATC AAGATGAGTG GGGACCCTGC CAGCAGTGCC 
    AGCCAATCCA GCCAGCCACA CACAGAACCA GCCAGGGCTG CGAGGGAGGC GGCAGAGAGA 
    CGGTCCTCGG ACTCCTACCC TCTCGCTCCT GTCCGAGCAC CGAGGACACT GCAGCCCCAG 
    CACTGGACAA CGTTTTATAA GCCACGTGCT CCCACCAGCA GCATCAGAGG GAGTGAGGAG 
    AAACCGGCCT CGCCCTCCGC CACGCTGCCC AGTCCCCAGG GCCAGTTGAC GAAGTCACTT 
    CCTGACTCAG AGGATACGTC TGCTTGTGCT GTGCAGCCGA GTAGTCAGCC TAGAGAGAAG 
    CCTGAGGAGC AGGGCTTGCC CGAGGTGAGC CCAGCGTGCC AGAGGCCAAG GTTAAAGCGG 
    ATGCAGCAGT TCGAAGACTC TGAGGATGAG ACACCACAAT TCGTGTAG

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

    Arhgap29 ( XM_020163939.1 ) cDNA ORF clone, Castor canadensis(American beaver) -> XP_020019528.1 Castor canadensis Rho GTPase activating protein 29 (Arhgap29), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OCa281086
    Clone ID Related Accession (Same CDS sequence) XM_020163938.1 , XM_020163940.1 , XM_020163939.1
    Accession Version XM_020163939.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3768bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-02-14
    Organism Castor canadensis(American beaver)
    Product rho GTPase-activating protein 29 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017870508.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Castor canadensis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.3 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
    ATGATTGCTC ATAAACAGAA AAAAGCAAAG AACAAACGTG TTTGGATACC AGCCCAGCTC 
    TCTGCGGATG CTACAGCTTC TGAAATGGGG CTCAAGTCCG TAAGTTCCAG CTCCATTTTT 
    GATCCGGATT ACATCAAGGA GTTGGTGAAT GATATCAGGA AGTTCTCCCA TGTGTTACTA 
    TATTTGAAAG AAGCTATTCT TTCAGATTGT TTTAAAGAAG TCATTCATAT ACGTCTGGAC 
    GAACTTCTTC GTGTTTTAAA ATCTGTCATG CATAAGCATC AGAACCTCAA TTCTGCTGAC 
    CTTCAGAATG CTGCCGAAGT GCTGACTGCA AAAGTGAAAG CTGTGAATTT TACGGAAGTT 
    AATGAAGAGA ACAAAAACCA TCTATTTCAA GAAGTGTTTT CTTCCATTGA AGCTTTGGCA 
    GTTACCTTTG GAAATATCCT TACAAGCTTC CTTATGGGAG ATGTAGGCAA TGATGCCTTG 
    TTACGACTGC CTGTTTCTCG GGAAAGTAAG TCTTTTGAAA ACATTTCTGT GGACTCAGTG 
    GACTCACCCT TTGAGAAAGG AAGTTTTTCT CCGATAGAGC TCGATGGTGT GCTGTTAAAG 
    AGAACGGGCT GCATAGAGCT GGCTCTGTCG TATGCTAAGA CATGGTCAAA ATACACCAAG 
    AGCATCGTGT CTTGGGTGGA GAAGAAGCTC AACTTGGAGT TGGAGTCCAC TAGAAATATT 
    GTCAAATTGG CAGAGGCAAC TAGAGCGAGC ATTGGACTAC AGGAGTTCAT GCCGCTCCAG 
    TCTCTGTTTA CCAGTGCCCT TCTTAGTGAC ATAGACAGCA GTCACCTCTT ACAGCAAACA 
    ATTGCCGCCC TCCAGGCCAA CAAGTTTGTG CAGCCTCTAC TTGGAAGGAG AAATGAGATG 
    GAAAAACGAA GGAAAGAAAT CAAGGAGCTT TGGAAACAGG AACAAAATAA AATGCTCGAG 
    ACAGAGGCAG CTCTCAAGAA GGCAAAGTTG CTGTGCGTGC AACGCCAGGA TGAGTATGAG 
    AGAGCACGGG CGTCCACGGT GCGTTCGGAA GAGGAGCACC TGTGCGCGAA TGGTGCGCTA 
    GTGAGAACTC TGAGCAAGCA GCTGGAGAAG AGGCGGAGGC TGGAAGAGGA GGCTCTTCAG 
    AAAGTAGAAG AAGCAAATGA ACTCTATAAA GTTTGTGTAA CGAATGTTGA AGAAAGGCGA 
    AATGATCTAG AAAATACCAA AAGAGAAATT TTAACACAAC TTCGGACCCT CGTTTTCCAG 
    TGTGATCTTA CACTTAAAGC TGTAACAGTT AACCTCTTCC AGATGCAGCA CCTGCAGGCC 
    GCCTCTCTTG CAAACAGTTT ACACTCTCTC TGTGACAGTG CCAAGCTCTA TGACCCAGGC 
    CAAGAATACA GGGAATTTGT CAAGGCTACA AATTCCAGCG AAGAAGACAA AGTTGATGGG 
    AATGTCAGCA AGCGATTGAC ACACAGTCCC CAGACATCGA GATACGGACC TGCCGACTCC 
    TTAGAGGACG TGGTGCGCCT TCCTGACACT TGCAATAAAA TGGAAGAGGA CAGGTGCTCC 
    AACAGTGCAG ACGTCACAGG TCCTTCTTTT GTAAGGTCAT GGACATTTGG GGTACTCAGT 
    GACTCGGAGA GCACCGGGGG AAGCAGCGAG TCCAGGTCTC TGGATTCTGA GTCTATAAGT 
    CCAGGAGACT TTCATCGGAA ACTTCCACGA ACTCCATCCA GCGGAACCAT GTCTTCTGCA 
    GATGATCTGG ATGAAAGAGA GCCACCCTCC CCTTCAGAAG CTGGACCCAG CTCCCTTGGA 
    GCATTCAGGA AGACATTGAT GTCAAAGGCA GCTGCCACTC ACAAGTTCCG CAAACTAAGG 
    TCCCCCACAA AATGCAGGGA CTGCGACGGC ATTGTGGTGT TCCAGGGTGT TGAGTGCGAG 
    GAGTGTCTCC TTGTTTGTCA TCGAAAGTGT TTGGAGAATT TAGTCATCAT TTGTGGTCAT 
    CAGAAACTTC TTGGAAAAAT ACACTTATTT GGAGCAGAAT TCACACAAGT TGCAAAAAAG 
    GAACCAGATG GCATTCCTTT TGTACTCAAA ATGTGTGCTT CCGAAATTGA GAATAGAGCC 
    TTGTGTCTCC AGGGAATTTA TCGTGTTTGT GGAAACAAAA TAAAAACTGA AAAGCTGTGT 
    CAAGCTTTGG AAAATGGAAT GCACTTGGTG GATATATCAG AGTTTAGTTC ACATGACATC 
    TGCGATGTCT TAAAACTGTA CCTTCGACAG CTCCCAGAAC CATTTATTTT ATTCCGATTA 
    TACAAGGAAT TTATAGACCT TGCAAAAGAG ATCCAGCATG TAAATGAAGA GCAAGAGACA 
    AAAAAGGATA GCCCTGAGGA CAAAAAACAT CCAAGTACAA GCATAGAAAT TCACCGGATT 
    CTTCTAAGGA GCAAGGACCT TCTAAGACAG CTGCCAGCAC CCAACTTCAA CAGTCTTCAT 
    TACCTCATTG TCCACCTCCG GCGGGTAGTA GACCATTCCG AAGAAAACAA GATGAACTCC 
    AAGAACTTGG GGGTGATATT TGGACCAAGT CTCATCAGGC CCAGGCCCAC AGCGGCTCCT 
    GTCACCATCT CCTCCCTGGC CGAGTATTCG AACCAGGCAC GACTGGTAGA GTTCCTCATC 
    ACTCACTCAC AGAAGATCTT CGATGGGTCC CTACAGCCAC AGGACCTGTC TAGTTCAGGT 
    GCCAGCACCA TTCAGGCTGA GCAAGGCTGT CTTCCAAGAC CTCTGCTATC ACCAGATGAA 
    AGAGACTCTG AACATTCTGT GGCGACACTC TTTTTTTCTT CAAAGGAAGA TATTCATACC 
    GCAGATAGTG AAAGCAAAAT TTTTGAACCA ACTACATCAT TTGAGGAAGT AGAACGTAAG 
    CAGAATGCCT TGGGAAAATG TGATGCCTGT CTTGTTGACA ACAAAAAGCG TTTGTTTCGA 
    GACCAAGAGC TTGAATCAGC ATCGCAAAGG AAGGAAGATG TTTGTAAAAG CCCCAAGCTG 
    TTTATTCTAA AACCCGATGG TGTAACAAGC AGCGTGCAGA GGCACCCTGC AAGGACCAAG 
    ACCCGGCCCA TCAGCCTGCC TGTGGACAGA CTGCTTCTTG CAAGCTGTCC CCTTGAGAGA 
    AACAGCAGAA ATACGGGACA CGTAAATGCG GACAAGTTTG CTAAGAATCC TGCCTGCGAA 
    GGACTTAGGA AAGACACCCC TGCCACTTTG TGTTCCAGAT TCAATGGCGT GGACCAGCTA 
    GTGCTGCAGA ACACATGGGA CAAGCAGCAT GACCAAAACA GTGTAACTGC CAAGGCTGCA 
    GGGACTGGGA TAGGAGTCGG CACAGGCATC AAGATGAGTG GGGACCCTGC CAGCAGTGCC 
    AGCCAATCCA GCCAGCCACA CACAGAACCA GCCAGGGCTG CGAGGGAGGC GGCAGAGAGA 
    CGGTCCTCGG ACTCCTACCC TCTCGCTCCT GTCCGAGCAC CGAGGACACT GCAGCCCCAG 
    CACTGGACAA CGTTTTATAA GCCACGTGCT CCCACCAGCA GCATCAGAGG GAGTGAGGAG 
    AAACCGGCCT CGCCCTCCGC CACGCTGCCC AGTCCCCAGG GCCAGTTGAC GAAGTCACTT 
    CCTGACTCAG AGGATACGTC TGCTTGTGCT GTGCAGCCGA GTAGTCAGCC TAGAGAGAAG 
    CCTGAGGAGC AGGGCTTGCC CGAGGTGAGC CCAGCGTGCC AGAGGCCAAG GTTAAAGCGG 
    ATGCAGCAGT TCGAAGACTC TGAGGATGAG ACACCACAAT TCGTGTAG

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

    RefSeq XP_020019528.1
    CDS140..3907
    Translation

    Target ORF information:

    RefSeq Version XM_020163939.1
    Organism Castor canadensis(American beaver)
    Definition Castor canadensis Rho GTPase activating protein 29 (Arhgap29), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_020163939.1

    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
    ATGATTGCTC ATAAACAGAA AAAAGCAAAG AACAAACGTG TTTGGATACC AGCCCAGCTC 
    TCTGCGGATG CTACAGCTTC TGAAATGGGG CTCAAGTCCG TAAGTTCCAG CTCCATTTTT 
    GATCCGGATT ACATCAAGGA GTTGGTGAAT GATATCAGGA AGTTCTCCCA TGTGTTACTA 
    TATTTGAAAG AAGCTATTCT TTCAGATTGT TTTAAAGAAG TCATTCATAT ACGTCTGGAC 
    GAACTTCTTC GTGTTTTAAA ATCTGTCATG CATAAGCATC AGAACCTCAA TTCTGCTGAC 
    CTTCAGAATG CTGCCGAAGT GCTGACTGCA AAAGTGAAAG CTGTGAATTT TACGGAAGTT 
    AATGAAGAGA ACAAAAACCA TCTATTTCAA GAAGTGTTTT CTTCCATTGA AGCTTTGGCA 
    GTTACCTTTG GAAATATCCT TACAAGCTTC CTTATGGGAG ATGTAGGCAA TGATGCCTTG 
    TTACGACTGC CTGTTTCTCG GGAAAGTAAG TCTTTTGAAA ACATTTCTGT GGACTCAGTG 
    GACTCACCCT TTGAGAAAGG AAGTTTTTCT CCGATAGAGC TCGATGGTGT GCTGTTAAAG 
    AGAACGGGCT GCATAGAGCT GGCTCTGTCG TATGCTAAGA CATGGTCAAA ATACACCAAG 
    AGCATCGTGT CTTGGGTGGA GAAGAAGCTC AACTTGGAGT TGGAGTCCAC TAGAAATATT 
    GTCAAATTGG CAGAGGCAAC TAGAGCGAGC ATTGGACTAC AGGAGTTCAT GCCGCTCCAG 
    TCTCTGTTTA CCAGTGCCCT TCTTAGTGAC ATAGACAGCA GTCACCTCTT ACAGCAAACA 
    ATTGCCGCCC TCCAGGCCAA CAAGTTTGTG CAGCCTCTAC TTGGAAGGAG AAATGAGATG 
    GAAAAACGAA GGAAAGAAAT CAAGGAGCTT TGGAAACAGG AACAAAATAA AATGCTCGAG 
    ACAGAGGCAG CTCTCAAGAA GGCAAAGTTG CTGTGCGTGC AACGCCAGGA TGAGTATGAG 
    AGAGCACGGG CGTCCACGGT GCGTTCGGAA GAGGAGCACC TGTGCGCGAA TGGTGCGCTA 
    GTGAGAACTC TGAGCAAGCA GCTGGAGAAG AGGCGGAGGC TGGAAGAGGA GGCTCTTCAG 
    AAAGTAGAAG AAGCAAATGA ACTCTATAAA GTTTGTGTAA CGAATGTTGA AGAAAGGCGA 
    AATGATCTAG AAAATACCAA AAGAGAAATT TTAACACAAC TTCGGACCCT CGTTTTCCAG 
    TGTGATCTTA CACTTAAAGC TGTAACAGTT AACCTCTTCC AGATGCAGCA CCTGCAGGCC 
    GCCTCTCTTG CAAACAGTTT ACACTCTCTC TGTGACAGTG CCAAGCTCTA TGACCCAGGC 
    CAAGAATACA GGGAATTTGT CAAGGCTACA AATTCCAGCG AAGAAGACAA AGTTGATGGG 
    AATGTCAGCA AGCGATTGAC ACACAGTCCC CAGACATCGA GATACGGACC TGCCGACTCC 
    TTAGAGGACG TGGTGCGCCT TCCTGACACT TGCAATAAAA TGGAAGAGGA CAGGTGCTCC 
    AACAGTGCAG ACGTCACAGG TCCTTCTTTT GTAAGGTCAT GGACATTTGG GGTACTCAGT 
    GACTCGGAGA GCACCGGGGG AAGCAGCGAG TCCAGGTCTC TGGATTCTGA GTCTATAAGT 
    CCAGGAGACT TTCATCGGAA ACTTCCACGA ACTCCATCCA GCGGAACCAT GTCTTCTGCA 
    GATGATCTGG ATGAAAGAGA GCCACCCTCC CCTTCAGAAG CTGGACCCAG CTCCCTTGGA 
    GCATTCAGGA AGACATTGAT GTCAAAGGCA GCTGCCACTC ACAAGTTCCG CAAACTAAGG 
    TCCCCCACAA AATGCAGGGA CTGCGACGGC ATTGTGGTGT TCCAGGGTGT TGAGTGCGAG 
    GAGTGTCTCC TTGTTTGTCA TCGAAAGTGT TTGGAGAATT TAGTCATCAT TTGTGGTCAT 
    CAGAAACTTC TTGGAAAAAT ACACTTATTT GGAGCAGAAT TCACACAAGT TGCAAAAAAG 
    GAACCAGATG GCATTCCTTT TGTACTCAAA ATGTGTGCTT CCGAAATTGA GAATAGAGCC 
    TTGTGTCTCC AGGGAATTTA TCGTGTTTGT GGAAACAAAA TAAAAACTGA AAAGCTGTGT 
    CAAGCTTTGG AAAATGGAAT GCACTTGGTG GATATATCAG AGTTTAGTTC ACATGACATC 
    TGCGATGTCT TAAAACTGTA CCTTCGACAG CTCCCAGAAC CATTTATTTT ATTCCGATTA 
    TACAAGGAAT TTATAGACCT TGCAAAAGAG ATCCAGCATG TAAATGAAGA GCAAGAGACA 
    AAAAAGGATA GCCCTGAGGA CAAAAAACAT CCAAGTACAA GCATAGAAAT TCACCGGATT 
    CTTCTAAGGA GCAAGGACCT TCTAAGACAG CTGCCAGCAC CCAACTTCAA CAGTCTTCAT 
    TACCTCATTG TCCACCTCCG GCGGGTAGTA GACCATTCCG AAGAAAACAA GATGAACTCC 
    AAGAACTTGG GGGTGATATT TGGACCAAGT CTCATCAGGC CCAGGCCCAC AGCGGCTCCT 
    GTCACCATCT CCTCCCTGGC CGAGTATTCG AACCAGGCAC GACTGGTAGA GTTCCTCATC 
    ACTCACTCAC AGAAGATCTT CGATGGGTCC CTACAGCCAC AGGACCTGTC TAGTTCAGGT 
    GCCAGCACCA TTCAGGCTGA GCAAGGCTGT CTTCCAAGAC CTCTGCTATC ACCAGATGAA 
    AGAGACTCTG AACATTCTGT GGCGACACTC TTTTTTTCTT CAAAGGAAGA TATTCATACC 
    GCAGATAGTG AAAGCAAAAT TTTTGAACCA ACTACATCAT TTGAGGAAGT AGAACGTAAG 
    CAGAATGCCT TGGGAAAATG TGATGCCTGT CTTGTTGACA ACAAAAAGCG TTTGTTTCGA 
    GACCAAGAGC TTGAATCAGC ATCGCAAAGG AAGGAAGATG TTTGTAAAAG CCCCAAGCTG 
    TTTATTCTAA AACCCGATGG TGTAACAAGC AGCGTGCAGA GGCACCCTGC AAGGACCAAG 
    ACCCGGCCCA TCAGCCTGCC TGTGGACAGA CTGCTTCTTG CAAGCTGTCC CCTTGAGAGA 
    AACAGCAGAA ATACGGGACA CGTAAATGCG GACAAGTTTG CTAAGAATCC TGCCTGCGAA 
    GGACTTAGGA AAGACACCCC TGCCACTTTG TGTTCCAGAT TCAATGGCGT GGACCAGCTA 
    GTGCTGCAGA ACACATGGGA CAAGCAGCAT GACCAAAACA GTGTAACTGC CAAGGCTGCA 
    GGGACTGGGA TAGGAGTCGG CACAGGCATC AAGATGAGTG GGGACCCTGC CAGCAGTGCC 
    AGCCAATCCA GCCAGCCACA CACAGAACCA GCCAGGGCTG CGAGGGAGGC GGCAGAGAGA 
    CGGTCCTCGG ACTCCTACCC TCTCGCTCCT GTCCGAGCAC CGAGGACACT GCAGCCCCAG 
    CACTGGACAA CGTTTTATAA GCCACGTGCT CCCACCAGCA GCATCAGAGG GAGTGAGGAG 
    AAACCGGCCT CGCCCTCCGC CACGCTGCCC AGTCCCCAGG GCCAGTTGAC GAAGTCACTT 
    CCTGACTCAG AGGATACGTC TGCTTGTGCT GTGCAGCCGA GTAGTCAGCC TAGAGAGAAG 
    CCTGAGGAGC AGGGCTTGCC CGAGGTGAGC CCAGCGTGCC AGAGGCCAAG GTTAAAGCGG 
    ATGCAGCAGT TCGAAGACTC TGAGGATGAG ACACCACAAT TCGTGTAG

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

    Arhgap29 ( XM_020163941.1 ) cDNA ORF clone, Castor canadensis(American beaver) -> XP_020019530.1 Castor canadensis Rho GTPase activating protein 29 (Arhgap29), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OCa281087
    Clone ID Related Accession (Same CDS sequence) XM_020163941.1
    Accession Version XM_020163941.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3501bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-02-14
    Organism Castor canadensis(American beaver)
    Product rho GTPase-activating protein 29 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017870508.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Castor canadensis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.3 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
    ATGCATAAGC ATCAGAACCT CAATTCTGCT GACCTTCAGA ATGCTGCCGA AGTGCTGACT 
    GCAAAAGTGA AAGCTGTGAA TTTTACGGAA GTTAATGAAG AGAACAAAAA CCATCTATTT 
    CAAGAAGTGT TTTCTTCCAT TGAAGCTTTG GCAGTTACCT TTGGAAATAT CCTTACAAGC 
    TTCCTTATGG GAGATGTAGG CAATGATGCC TTGTTACGAC TGCCTGTTTC TCGGGAAAGT 
    AAGTCTTTTG AAAACATTTC TGTGGACTCA GTGGACTCAC CCTTTGAGAA AGGAAGTTTT 
    TCTCCGATAG AGCTCGATGG TGTGCTGTTA AAGAGAACGG GCTGCATAGA GCTGGCTCTG 
    TCGTATGCTA AGACATGGTC AAAATACACC AAGAGCATCG TGTCTTGGGT GGAGAAGAAG 
    CTCAACTTGG AGTTGGAGTC CACTAGAAAT ATTGTCAAAT TGGCAGAGGC AACTAGAGCG 
    AGCATTGGAC TACAGGAGTT CATGCCGCTC CAGTCTCTGT TTACCAGTGC CCTTCTTAGT 
    GACATAGACA GCAGTCACCT CTTACAGCAA ACAATTGCCG CCCTCCAGGC CAACAAGTTT 
    GTGCAGCCTC TACTTGGAAG GAGAAATGAG ATGGAAAAAC GAAGGAAAGA AATCAAGGAG 
    CTTTGGAAAC AGGAACAAAA TAAAATGCTC GAGACAGAGG CAGCTCTCAA GAAGGCAAAG 
    TTGCTGTGCG TGCAACGCCA GGATGAGTAT GAGAGAGCAC GGGCGTCCAC GGTGCGTTCG 
    GAAGAGGAGC ACCTGTGCGC GAATGGTGCG CTAGTGAGAA CTCTGAGCAA GCAGCTGGAG 
    AAGAGGCGGA GGCTGGAAGA GGAGGCTCTT CAGAAAGTAG AAGAAGCAAA TGAACTCTAT 
    AAAGTTTGTG TAACGAATGT TGAAGAAAGG CGAAATGATC TAGAAAATAC CAAAAGAGAA 
    ATTTTAACAC AACTTCGGAC CCTCGTTTTC CAGTGTGATC TTACACTTAA AGCTGTAACA 
    GTTAACCTCT TCCAGATGCA GCACCTGCAG GCCGCCTCTC TTGCAAACAG TTTACACTCT 
    CTCTGTGACA GTGCCAAGCT CTATGACCCA GGCCAAGAAT ACAGGGAATT TGTCAAGGCT 
    ACAAATTCCA GCGAAGAAGA CAAAGTTGAT GGGAATGTCA GCAAGCGATT GACACACAGT 
    CCCCAGACAT CGAGATACGG ACCTGCCGAC TCCTTAGAGG ACGTGGTGCG CCTTCCTGAC 
    ACTTGCAATA AAATGGAAGA GGACAGGTGC TCCAACAGTG CAGACGTCAC AGGTCCTTCT 
    TTTGTAAGGT CATGGACATT TGGGGTACTC AGTGACTCGG AGAGCACCGG GGGAAGCAGC 
    GAGTCCAGGT CTCTGGATTC TGAGTCTATA AGTCCAGGAG ACTTTCATCG GAAACTTCCA 
    CGAACTCCAT CCAGCGGAAC CATGTCTTCT GCAGATGATC TGGATGAAAG AGAGCCACCC 
    TCCCCTTCAG AAGCTGGACC CAGCTCCCTT GGAGCATTCA GGAAGACATT GATGTCAAAG 
    GCAGCTGCCA CTCACAAGTT CCGCAAACTA AGGTCCCCCA CAAAATGCAG GGACTGCGAC 
    GGCATTGTGG TGTTCCAGGG TGTTGAGTGC GAGGAGTGTC TCCTTGTTTG TCATCGAAAG 
    TGTTTGGAGA ATTTAGTCAT CATTTGTGGT CATCAGAAAC TTCTTGGAAA AATACACTTA 
    TTTGGAGCAG AATTCACACA AGTTGCAAAA AAGGAACCAG ATGGCATTCC TTTTGTACTC 
    AAAATGTGTG CTTCCGAAAT TGAGAATAGA GCCTTGTGTC TCCAGGGAAT TTATCGTGTT 
    TGTGGAAACA AAATAAAAAC TGAAAAGCTG TGTCAAGCTT TGGAAAATGG AATGCACTTG 
    GTGGATATAT CAGAGTTTAG TTCACATGAC ATCTGCGATG TCTTAAAACT GTACCTTCGA 
    CAGCTCCCAG AACCATTTAT TTTATTCCGA TTATACAAGG AATTTATAGA CCTTGCAAAA 
    GAGATCCAGC ATGTAAATGA AGAGCAAGAG ACAAAAAAGG ATAGCCCTGA GGACAAAAAA 
    CATCCAAGTA CAAGCATAGA AATTCACCGG ATTCTTCTAA GGAGCAAGGA CCTTCTAAGA 
    CAGCTGCCAG CACCCAACTT CAACAGTCTT CATTACCTCA TTGTCCACCT CCGGCGGGTA 
    GTAGACCATT CCGAAGAAAA CAAGATGAAC TCCAAGAACT TGGGGGTGAT ATTTGGACCA 
    AGTCTCATCA GGCCCAGGCC CACAGCGGCT CCTGTCACCA TCTCCTCCCT GGCCGAGTAT 
    TCGAACCAGG CACGACTGGT AGAGTTCCTC ATCACTCACT CACAGAAGAT CTTCGATGGG 
    TCCCTACAGC CACAGGACCT GTCTAGTTCA GGTGCCAGCA CCATTCAGGC TGAGCAAGGC 
    TGTCTTCCAA GACCTCTGCT ATCACCAGAT GAAAGAGACT CTGAACATTC TGTGGCGACA 
    CTCTTTTTTT CTTCAAAGGA AGATATTCAT ACCGCAGATA GTGAAAGCAA AATTTTTGAA 
    CCAACTACAT CATTTGAGGA AGTAGAACGT AAGCAGAATG CCTTGGGAAA ATGTGATGCC 
    TGTCTTGTTG ACAACAAAAA GCGTTTGTTT CGAGACCAAG AGCTTGAATC AGCATCGCAA 
    AGGAAGGAAG ATGTTTGTAA AAGCCCCAAG CTGTTTATTC TAAAACCCGA TGGTGTAACA 
    AGCAGCGTGC AGAGGCACCC TGCAAGGACC AAGACCCGGC CCATCAGCCT GCCTGTGGAC 
    AGACTGCTTC TTGCAAGCTG TCCCCTTGAG AGAAACAGCA GAAATACGGG ACACGTAAAT 
    GCGGACAAGT TTGCTAAGAA TCCTGCCTGC GAAGGACTTA GGAAAGACAC CCCTGCCACT 
    TTGTGTTCCA GATTCAATGG CGTGGACCAG CTAGTGCTGC AGAACACATG GGACAAGCAG 
    CATGACCAAA ACAGTGTAAC TGCCAAGGCT GCAGGGACTG GGATAGGAGT CGGCACAGGC 
    ATCAAGATGA GTGGGGACCC TGCCAGCAGT GCCAGCCAAT CCAGCCAGCC ACACACAGAA 
    CCAGCCAGGG CTGCGAGGGA GGCGGCAGAG AGACGGTCCT CGGACTCCTA CCCTCTCGCT 
    CCTGTCCGAG CACCGAGGAC ACTGCAGCCC CAGCACTGGA CAACGTTTTA TAAGCCACGT 
    GCTCCCACCA GCAGCATCAG AGGGAGTGAG GAGAAACCGG CCTCGCCCTC CGCCACGCTG 
    CCCAGTCCCC AGGGCCAGTT GACGAAGTCA CTTCCTGACT CAGAGGATAC GTCTGCTTGT 
    GCTGTGCAGC CGAGTAGTCA GCCTAGAGAG AAGCCTGAGG AGCAGGGCTT GCCCGAGGTG 
    AGCCCAGCGT GCCAGAGGCC AAGGTTAAAG CGGATGCAGC AGTTCGAAGA CTCTGAGGAT 
    GAGACACCAC AATTCGTGTA G

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

    RefSeq XP_020019530.1
    CDS175..3675
    Translation

    Target ORF information:

    RefSeq Version XM_020163941.1
    Organism Castor canadensis(American beaver)
    Definition Castor canadensis Rho GTPase activating protein 29 (Arhgap29), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_020163941.1

    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
    ATGCATAAGC ATCAGAACCT CAATTCTGCT GACCTTCAGA ATGCTGCCGA AGTGCTGACT 
    GCAAAAGTGA AAGCTGTGAA TTTTACGGAA GTTAATGAAG AGAACAAAAA CCATCTATTT 
    CAAGAAGTGT TTTCTTCCAT TGAAGCTTTG GCAGTTACCT TTGGAAATAT CCTTACAAGC 
    TTCCTTATGG GAGATGTAGG CAATGATGCC TTGTTACGAC TGCCTGTTTC TCGGGAAAGT 
    AAGTCTTTTG AAAACATTTC TGTGGACTCA GTGGACTCAC CCTTTGAGAA AGGAAGTTTT 
    TCTCCGATAG AGCTCGATGG TGTGCTGTTA AAGAGAACGG GCTGCATAGA GCTGGCTCTG 
    TCGTATGCTA AGACATGGTC AAAATACACC AAGAGCATCG TGTCTTGGGT GGAGAAGAAG 
    CTCAACTTGG AGTTGGAGTC CACTAGAAAT ATTGTCAAAT TGGCAGAGGC AACTAGAGCG 
    AGCATTGGAC TACAGGAGTT CATGCCGCTC CAGTCTCTGT TTACCAGTGC CCTTCTTAGT 
    GACATAGACA GCAGTCACCT CTTACAGCAA ACAATTGCCG CCCTCCAGGC CAACAAGTTT 
    GTGCAGCCTC TACTTGGAAG GAGAAATGAG ATGGAAAAAC GAAGGAAAGA AATCAAGGAG 
    CTTTGGAAAC AGGAACAAAA TAAAATGCTC GAGACAGAGG CAGCTCTCAA GAAGGCAAAG 
    TTGCTGTGCG TGCAACGCCA GGATGAGTAT GAGAGAGCAC GGGCGTCCAC GGTGCGTTCG 
    GAAGAGGAGC ACCTGTGCGC GAATGGTGCG CTAGTGAGAA CTCTGAGCAA GCAGCTGGAG 
    AAGAGGCGGA GGCTGGAAGA GGAGGCTCTT CAGAAAGTAG AAGAAGCAAA TGAACTCTAT 
    AAAGTTTGTG TAACGAATGT TGAAGAAAGG CGAAATGATC TAGAAAATAC CAAAAGAGAA 
    ATTTTAACAC AACTTCGGAC CCTCGTTTTC CAGTGTGATC TTACACTTAA AGCTGTAACA 
    GTTAACCTCT TCCAGATGCA GCACCTGCAG GCCGCCTCTC TTGCAAACAG TTTACACTCT 
    CTCTGTGACA GTGCCAAGCT CTATGACCCA GGCCAAGAAT ACAGGGAATT TGTCAAGGCT 
    ACAAATTCCA GCGAAGAAGA CAAAGTTGAT GGGAATGTCA GCAAGCGATT GACACACAGT 
    CCCCAGACAT CGAGATACGG ACCTGCCGAC TCCTTAGAGG ACGTGGTGCG CCTTCCTGAC 
    ACTTGCAATA AAATGGAAGA GGACAGGTGC TCCAACAGTG CAGACGTCAC AGGTCCTTCT 
    TTTGTAAGGT CATGGACATT TGGGGTACTC AGTGACTCGG AGAGCACCGG GGGAAGCAGC 
    GAGTCCAGGT CTCTGGATTC TGAGTCTATA AGTCCAGGAG ACTTTCATCG GAAACTTCCA 
    CGAACTCCAT CCAGCGGAAC CATGTCTTCT GCAGATGATC TGGATGAAAG AGAGCCACCC 
    TCCCCTTCAG AAGCTGGACC CAGCTCCCTT GGAGCATTCA GGAAGACATT GATGTCAAAG 
    GCAGCTGCCA CTCACAAGTT CCGCAAACTA AGGTCCCCCA CAAAATGCAG GGACTGCGAC 
    GGCATTGTGG TGTTCCAGGG TGTTGAGTGC GAGGAGTGTC TCCTTGTTTG TCATCGAAAG 
    TGTTTGGAGA ATTTAGTCAT CATTTGTGGT CATCAGAAAC TTCTTGGAAA AATACACTTA 
    TTTGGAGCAG AATTCACACA AGTTGCAAAA AAGGAACCAG ATGGCATTCC TTTTGTACTC 
    AAAATGTGTG CTTCCGAAAT TGAGAATAGA GCCTTGTGTC TCCAGGGAAT TTATCGTGTT 
    TGTGGAAACA AAATAAAAAC TGAAAAGCTG TGTCAAGCTT TGGAAAATGG AATGCACTTG 
    GTGGATATAT CAGAGTTTAG TTCACATGAC ATCTGCGATG TCTTAAAACT GTACCTTCGA 
    CAGCTCCCAG AACCATTTAT TTTATTCCGA TTATACAAGG AATTTATAGA CCTTGCAAAA 
    GAGATCCAGC ATGTAAATGA AGAGCAAGAG ACAAAAAAGG ATAGCCCTGA GGACAAAAAA 
    CATCCAAGTA CAAGCATAGA AATTCACCGG ATTCTTCTAA GGAGCAAGGA CCTTCTAAGA 
    CAGCTGCCAG CACCCAACTT CAACAGTCTT CATTACCTCA TTGTCCACCT CCGGCGGGTA 
    GTAGACCATT CCGAAGAAAA CAAGATGAAC TCCAAGAACT TGGGGGTGAT ATTTGGACCA 
    AGTCTCATCA GGCCCAGGCC CACAGCGGCT CCTGTCACCA TCTCCTCCCT GGCCGAGTAT 
    TCGAACCAGG CACGACTGGT AGAGTTCCTC ATCACTCACT CACAGAAGAT CTTCGATGGG 
    TCCCTACAGC CACAGGACCT GTCTAGTTCA GGTGCCAGCA CCATTCAGGC TGAGCAAGGC 
    TGTCTTCCAA GACCTCTGCT ATCACCAGAT GAAAGAGACT CTGAACATTC TGTGGCGACA 
    CTCTTTTTTT CTTCAAAGGA AGATATTCAT ACCGCAGATA GTGAAAGCAA AATTTTTGAA 
    CCAACTACAT CATTTGAGGA AGTAGAACGT AAGCAGAATG CCTTGGGAAA ATGTGATGCC 
    TGTCTTGTTG ACAACAAAAA GCGTTTGTTT CGAGACCAAG AGCTTGAATC AGCATCGCAA 
    AGGAAGGAAG ATGTTTGTAA AAGCCCCAAG CTGTTTATTC TAAAACCCGA TGGTGTAACA 
    AGCAGCGTGC AGAGGCACCC TGCAAGGACC AAGACCCGGC CCATCAGCCT GCCTGTGGAC 
    AGACTGCTTC TTGCAAGCTG TCCCCTTGAG AGAAACAGCA GAAATACGGG ACACGTAAAT 
    GCGGACAAGT TTGCTAAGAA TCCTGCCTGC GAAGGACTTA GGAAAGACAC CCCTGCCACT 
    TTGTGTTCCA GATTCAATGG CGTGGACCAG CTAGTGCTGC AGAACACATG GGACAAGCAG 
    CATGACCAAA ACAGTGTAAC TGCCAAGGCT GCAGGGACTG GGATAGGAGT CGGCACAGGC 
    ATCAAGATGA GTGGGGACCC TGCCAGCAGT GCCAGCCAAT CCAGCCAGCC ACACACAGAA 
    CCAGCCAGGG CTGCGAGGGA GGCGGCAGAG AGACGGTCCT CGGACTCCTA CCCTCTCGCT 
    CCTGTCCGAG CACCGAGGAC ACTGCAGCCC CAGCACTGGA CAACGTTTTA TAAGCCACGT 
    GCTCCCACCA GCAGCATCAG AGGGAGTGAG GAGAAACCGG CCTCGCCCTC CGCCACGCTG 
    CCCAGTCCCC AGGGCCAGTT GACGAAGTCA CTTCCTGACT CAGAGGATAC GTCTGCTTGT 
    GCTGTGCAGC CGAGTAGTCA GCCTAGAGAG AAGCCTGAGG AGCAGGGCTT GCCCGAGGTG 
    AGCCCAGCGT GCCAGAGGCC AAGGTTAAAG CGGATGCAGC AGTTCGAAGA CTCTGAGGAT 
    GAGACACCAC AATTCGTGTA G

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

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