ORF » Species Summary » Pteropus vampyrus » ARHGAP33 cDNA ORF clone

ARHGAP33 cDNA ORF clone, Pteropus vampyrus(large flying fox)

The following ARHGAP33 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ARHGAP33 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
OPt62376 XM_011381807.1
Latest version!		 Pteropus vampyrus Rho GTPase activating protein 33 (ARHGAP33), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OPt62377 XM_011381808.2
Latest version!		 Pteropus vampyrus Rho GTPase activating protein 33 (ARHGAP33), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
View Old Accession Versions >>
OPt62377 XM_011381808.1 Pteropus vampyrus Rho GTPase activating protein 33 (ARHGAP33), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
Hide Old Accession Versions >>

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** 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)
    ARHGAP33 ( XM_011381807.1 ) cDNA ORF clone, Pteropus vampyrus(large flying fox) -> XP_011380109.1 Pteropus vampyrus Rho GTPase activating protein 33 (ARHGAP33), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OPt62376
    Clone ID Related Accession (Same CDS sequence) XM_011381807.1
    Accession Version XM_011381807.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3879bp)
    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 1424534400000
    Organism Pteropus vampyrus(large flying fox)
    Product rho GTPase-activating protein 33 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_011889233.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pteropus vampyrus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
    ATGGTGGCTC GAAGCACTGA CAGCCTGGAC GGCCCAGGGG AGGGCTCAGT GCAACCCCTG 
    CCCACCACAG GGGGGCCCAG TGTGAAGGGG AAGTCTGGGA AGAGGCTCTC TGCTCCTCGA 
    GGTCCCTTCC CCCGGCTGGC TGACTGTGCC CATTTCCACT ATGAGAATGT TGACTTTGGC 
    CACATTCAGC TCCTACTATC TCCAGGGCGT GAAGGCCCCG GCTTCTCTGG GGAGAATGAG 
    CTCGTGTTTG GAGTACAGGT GACCTGTCAG GGCCGTTCCT GGCCAGTTCT CCGCAGTTAT 
    GATGACTTCC GTACCCTGGA TGCCCACCTT CACCGGTGCA TATTTGACCG GAGGTTTTCC 
    TGCCTCCCAG AACTTCCCCC ACCCCCAGAG GGTGCCAGGG CTGCCCAGAT GCTGGTGCCG 
    CTGCTGCTGC AATACCTGGA GACCCTGTCA GGACTGGTGG ACAGTAACCT CAACTGCGGG 
    CCTGTGCTCA CCTGGATGGA GCTGGACAAC CATGGCCGGC GGCTGCTCCT CAGTGAAGAG 
    GCCTCCCTCA ATATCCCTGC AGTGGCCGCT GCCCACGTGG TGAAACGGTA CACAGCCCAG 
    GCACCAGATG AGCTATCCTT CGAGGTGGGA GACATTGTCT CAGTTATCGA CATGCCGCCC 
    ACAGAGGATC GGAGCTGGTG GCGGGGCAAG AGAGGCTTCC AGGTCGGTTT CTTCCCCAGT 
    GAGTGTGTGG AGCTATTCAC AGAGCGGCCT GGTCCAGGAT TCAAGGGGGA TGCTGATGGT 
    CCCCCATGTG GTGTCCCAAC TCCCCAGGGT ATCTCTTCTC TGACCTCAGC TGTGCCCCGG 
    CCACGTGGGA AGCTGGCTGG CCTCCTGCGT ACCTTCATGC GCTCCCGCCC TTCTCGGCAG 
    CGGCTGCGAC AGCGGGGCAT CCTGCGGCAG AGGGTGTTCG GCTGTGACCT TGGAGAGCAC 
    CTCAGTAACT CAGGCCAGGA TGTGCCCCAG GTGCTTCGCT GCTGCTCTGA GTTTATTGAG 
    GCCCATGGGG TGGTGGATGG AATCTACCGG CTCTCAGGCG TGTCATCCAA TATCCAGAGG 
    CTACGGCATG AGTTTGACAG TGAGAGGATC CCTGAACTGT CTGGCCCAGC CTTCCTGCAG 
    GACATCCACA GTGTGTCCTC CCTCTGCAAG CTCTACTTCC GAGAGCTGCC CAACCCTTTG 
    CTCACATATC AGCTCTACGG GAAGTTTAGC GAGGCCATGT CAGTGCCTGG AGAAGAAGAA 
    CGCCTGGTGC GCATCCATGA TGTCATCCAG CAGCTGCCCC CGCCACACTA CAGGACCCTG 
    GAATATCTGC TGAGGCACTT GGCCCGCATG GCGAGACACA GTGCCAACAC CAGCATGCAT 
    GCCCGCAACC TGGCCATTGT CTGGGCGCCC AACCTGCTAC GGTCTATGGA GCTGGAATCG 
    GTGGGGCTGG GTGGGGCAGC GGCCTTCCGG GAGGTTCGAG TGCAGTCGGT GGTGGTGGAA 
    TTCCTGCTCA CGCATGTGGA TGTCCTGTTC AGTGACACCT TCGCCTCTGC TGGCCTTGAC 
    CCTGCAGCCC CACCTAGACT CCCTGCCCTG CCCCGGACCC CAGCCCAATC AGGATTCAGC 
    ACATCGGAGG GCCCACTGGC CCGAGGCCGC TGCCTCCTTC CCAGGCCCAA GTCCCTTGCG 
    GGCAGCGGCC CCTCTACTCG CCTGCTGACA CTGGAGGAAG CTCAGGCTCG CACCCAGGGC 
    CGGCTGGGGA CACCCACTGA CTCTACAGTT CCCAAGGCCT CAGCCTCACC TGCAGAAAGG 
    AGGAAAGGGG AAAGAGGCGA GAAACAGCGG AAGTCAGGGG GTAGCAGCTG GAAGACCTTC 
    TTTGCACTGG GCCGGGGCCC CAGCATCCCC CGAAAGAAGC CTCTTCCCTG GCTGGGGAGC 
    ACACGCGCTC CACCACAGCC TTCAGGGAGC CGACCTGACA CAGTCACACT AAGATCTGCC 
    AAGAGTGAAG AGTCTCTGTC ATCGCAGGCC AGTGGTGCTG GCCTCCAGAG GCTGCACAGG 
    CTACGGCGAC CCCACTCCAG CAGTGATGCT TTCCCAGTGG GCCCGGCACC TGCTGGCTCC 
    TGCGAAAGCC TGTCCTCGTC CTCTTCCTCT GAGTCCTCTG AGTCCTCTGA GTCCTCTGAG 
    TCCTCTGAGT CCTCAGCAGC CGGGCTGGGG GCACTCTCCG GTTCCCCTTC GCACCGAACT 
    TCAGCCTGGC TAGATGATGG TGATGAGCTG GACTTCAGCC CACCCCACTG CCTGGAGGGG 
    CTCCGGGGGC TTGACTTTGA TCCCCTTACC TTTCGCTGCA GCAGCCCCAC CCCAGGGGAC 
    CCTGCACCTC CTGCCAGCCC GGCCCCCCCG GCCCCTGCTT CTGCCTTCCC ACCCAGGGTA 
    ACCCCCCAGG CCCTCTCTCC CTGTGGGCCC ACCAGCCCTG CCTCACCCAC TGCCCTGGAC 
    ATCTCAGAGC CCTTGGCTGT AACAGTGCCA CCTGCTGTCT TGGAGCTGCT AGGGGCTGGG 
    GGAACACCTG CCTCAGCCAC CCCAAAGCCA GCCCCCAGCC CAGGCCTGCG CCCCCATCTC 
    ATTCCCCTGC TGCTGCATGG AGCTGAAGCC CAGCTAAGTG ACACCTGCCA ACAGGAAATC 
    TGCAATAAGC TGGCACTACC TGGTCCTCAG GGAGCCCAAG GCCAGCATGG ACCTGGTATG 
    GATTCGCCAC TGCTGCCCCC ACCCCTGTCT CTCCTGCGCC CTGGGGGTGC TCCACCTCCA 
    CCCCCCAAGA ACCCAGCACG CCTCATGGCC CTGGCCCTGG CTGAGCAGGC TCAGCAGGTG 
    GCCCAGAGAC AGAACCAACA GGAGCATGGG AGCACCCCAT CTGCTCCCCA CTCCCCTTTC 
    TGCCGCTCAC TGTCCTTGGA GGTGGGCAGT AAGCCCCCGG GGACCTCAGG GAGTGGGCCA 
    CCCACCCACT CCCTAGCCCA CCCAGGTGCC TGGGCTCCAG GACCCCCACC CTCCCTACCA 
    AGGCAACAAA GTGATGGGAG CCTGGTGAGG AGCCAGCGGC CCACAGGGAT CTCAAGGAGG 
    GGACGCAGAG GCCCTGCCCA GGTTCCTGCT TCTGTGAGAA CCCCCGGCTG CTTCTCCTCA 
    GCCCCCCGGG AGTGCCTGCC ACCCTTTCTT GGGGTCCCCA AATCAGGCTT GTACCCTCTG 
    GCCTCCCCAT CCTTCCAGCC CAGCTCCCCA GCTCCAGTCT GGAGGAGCTC CTTGGGTCCT 
    CCTGCACCAC TTGACAGGGG AGAGAACCTA TACTATGAAA TAGAGGCAGG TGAGGGGTCC 
    CCCTACTCTG GCCCCACCCA GTCCTGGAGT CCCTTTCGCT CCATGCCCCC AGATAGGCTC 
    AATGCCTCAT ATGGCATGCT TGGCCAATCG CCACCACTCC ACAGGTCCCC CAACTTCCTG 
    CTCAGCTACC CACCACCCCC CTCCTGCTTT CCCCATAACC ACCTGGGCTA TTCGGCCCCT 
    CAGCACCCCA CCCGGCGCCC CACCCGGCCT GAGCCCCTCT ATGTCAACCT AGCCCTAGGT 
    CCCAGGGGTC CCTCACCTGC CTCTTCTAGC TCCTCCTCCC CTCCTGCGCA CCCCCGTAGC 
    CATTCAGATC CTGGTCCCCC AGCCCCCCAC ATACCCCAGA AACAGCGGGC CCCCTGGGGC 
    CCCCACACCC CTCACAGGGT GCCTGGGCCC TGGGGCCCTC CCGAGCCTCT CCTGTTCTAC 
    CGGGCAGCCC CACCAGCCTA TGGCAGAGGG GGCGAGCACC ACCGAGGGTC CTTGTACAGG 
    AATGGGGGAC AAGGAAGGGA AGGGGCTGGT CCCCCACCCC CCTACCCCAC TCCCAGCTGG 
    TCCCTCCACC CTGAGGGCCA AACTCGAAGC TACTGCTGA

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

    RefSeq XP_011380109.1
    CDS103..3981
    Translation

    Target ORF information:

    RefSeq Version XM_011381807.1
    Organism Pteropus vampyrus(large flying fox)
    Definition Pteropus vampyrus Rho GTPase activating protein 33 (ARHGAP33), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011381807.1

    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
    ATGGTGGCTC GAAGCACTGA CAGCCTGGAC GGCCCAGGGG AGGGCTCAGT GCAACCCCTG 
    CCCACCACAG GGGGGCCCAG TGTGAAGGGG AAGTCTGGGA AGAGGCTCTC TGCTCCTCGA 
    GGTCCCTTCC CCCGGCTGGC TGACTGTGCC CATTTCCACT ATGAGAATGT TGACTTTGGC 
    CACATTCAGC TCCTACTATC TCCAGGGCGT GAAGGCCCCG GCTTCTCTGG GGAGAATGAG 
    CTCGTGTTTG GAGTACAGGT GACCTGTCAG GGCCGTTCCT GGCCAGTTCT CCGCAGTTAT 
    GATGACTTCC GTACCCTGGA TGCCCACCTT CACCGGTGCA TATTTGACCG GAGGTTTTCC 
    TGCCTCCCAG AACTTCCCCC ACCCCCAGAG GGTGCCAGGG CTGCCCAGAT GCTGGTGCCG 
    CTGCTGCTGC AATACCTGGA GACCCTGTCA GGACTGGTGG ACAGTAACCT CAACTGCGGG 
    CCTGTGCTCA CCTGGATGGA GCTGGACAAC CATGGCCGGC GGCTGCTCCT CAGTGAAGAG 
    GCCTCCCTCA ATATCCCTGC AGTGGCCGCT GCCCACGTGG TGAAACGGTA CACAGCCCAG 
    GCACCAGATG AGCTATCCTT CGAGGTGGGA GACATTGTCT CAGTTATCGA CATGCCGCCC 
    ACAGAGGATC GGAGCTGGTG GCGGGGCAAG AGAGGCTTCC AGGTCGGTTT CTTCCCCAGT 
    GAGTGTGTGG AGCTATTCAC AGAGCGGCCT GGTCCAGGAT TCAAGGGGGA TGCTGATGGT 
    CCCCCATGTG GTGTCCCAAC TCCCCAGGGT ATCTCTTCTC TGACCTCAGC TGTGCCCCGG 
    CCACGTGGGA AGCTGGCTGG CCTCCTGCGT ACCTTCATGC GCTCCCGCCC TTCTCGGCAG 
    CGGCTGCGAC AGCGGGGCAT CCTGCGGCAG AGGGTGTTCG GCTGTGACCT TGGAGAGCAC 
    CTCAGTAACT CAGGCCAGGA TGTGCCCCAG GTGCTTCGCT GCTGCTCTGA GTTTATTGAG 
    GCCCATGGGG TGGTGGATGG AATCTACCGG CTCTCAGGCG TGTCATCCAA TATCCAGAGG 
    CTACGGCATG AGTTTGACAG TGAGAGGATC CCTGAACTGT CTGGCCCAGC CTTCCTGCAG 
    GACATCCACA GTGTGTCCTC CCTCTGCAAG CTCTACTTCC GAGAGCTGCC CAACCCTTTG 
    CTCACATATC AGCTCTACGG GAAGTTTAGC GAGGCCATGT CAGTGCCTGG AGAAGAAGAA 
    CGCCTGGTGC GCATCCATGA TGTCATCCAG CAGCTGCCCC CGCCACACTA CAGGACCCTG 
    GAATATCTGC TGAGGCACTT GGCCCGCATG GCGAGACACA GTGCCAACAC CAGCATGCAT 
    GCCCGCAACC TGGCCATTGT CTGGGCGCCC AACCTGCTAC GGTCTATGGA GCTGGAATCG 
    GTGGGGCTGG GTGGGGCAGC GGCCTTCCGG GAGGTTCGAG TGCAGTCGGT GGTGGTGGAA 
    TTCCTGCTCA CGCATGTGGA TGTCCTGTTC AGTGACACCT TCGCCTCTGC TGGCCTTGAC 
    CCTGCAGCCC CACCTAGACT CCCTGCCCTG CCCCGGACCC CAGCCCAATC AGGATTCAGC 
    ACATCGGAGG GCCCACTGGC CCGAGGCCGC TGCCTCCTTC CCAGGCCCAA GTCCCTTGCG 
    GGCAGCGGCC CCTCTACTCG CCTGCTGACA CTGGAGGAAG CTCAGGCTCG CACCCAGGGC 
    CGGCTGGGGA CACCCACTGA CTCTACAGTT CCCAAGGCCT CAGCCTCACC TGCAGAAAGG 
    AGGAAAGGGG AAAGAGGCGA GAAACAGCGG AAGTCAGGGG GTAGCAGCTG GAAGACCTTC 
    TTTGCACTGG GCCGGGGCCC CAGCATCCCC CGAAAGAAGC CTCTTCCCTG GCTGGGGAGC 
    ACACGCGCTC CACCACAGCC TTCAGGGAGC CGACCTGACA CAGTCACACT AAGATCTGCC 
    AAGAGTGAAG AGTCTCTGTC ATCGCAGGCC AGTGGTGCTG GCCTCCAGAG GCTGCACAGG 
    CTACGGCGAC CCCACTCCAG CAGTGATGCT TTCCCAGTGG GCCCGGCACC TGCTGGCTCC 
    TGCGAAAGCC TGTCCTCGTC CTCTTCCTCT GAGTCCTCTG AGTCCTCTGA GTCCTCTGAG 
    TCCTCTGAGT CCTCAGCAGC CGGGCTGGGG GCACTCTCCG GTTCCCCTTC GCACCGAACT 
    TCAGCCTGGC TAGATGATGG TGATGAGCTG GACTTCAGCC CACCCCACTG CCTGGAGGGG 
    CTCCGGGGGC TTGACTTTGA TCCCCTTACC TTTCGCTGCA GCAGCCCCAC CCCAGGGGAC 
    CCTGCACCTC CTGCCAGCCC GGCCCCCCCG GCCCCTGCTT CTGCCTTCCC ACCCAGGGTA 
    ACCCCCCAGG CCCTCTCTCC CTGTGGGCCC ACCAGCCCTG CCTCACCCAC TGCCCTGGAC 
    ATCTCAGAGC CCTTGGCTGT AACAGTGCCA CCTGCTGTCT TGGAGCTGCT AGGGGCTGGG 
    GGAACACCTG CCTCAGCCAC CCCAAAGCCA GCCCCCAGCC CAGGCCTGCG CCCCCATCTC 
    ATTCCCCTGC TGCTGCATGG AGCTGAAGCC CAGCTAAGTG ACACCTGCCA ACAGGAAATC 
    TGCAATAAGC TGGCACTACC TGGTCCTCAG GGAGCCCAAG GCCAGCATGG ACCTGGTATG 
    GATTCGCCAC TGCTGCCCCC ACCCCTGTCT CTCCTGCGCC CTGGGGGTGC TCCACCTCCA 
    CCCCCCAAGA ACCCAGCACG CCTCATGGCC CTGGCCCTGG CTGAGCAGGC TCAGCAGGTG 
    GCCCAGAGAC AGAACCAACA GGAGCATGGG AGCACCCCAT CTGCTCCCCA CTCCCCTTTC 
    TGCCGCTCAC TGTCCTTGGA GGTGGGCAGT AAGCCCCCGG GGACCTCAGG GAGTGGGCCA 
    CCCACCCACT CCCTAGCCCA CCCAGGTGCC TGGGCTCCAG GACCCCCACC CTCCCTACCA 
    AGGCAACAAA GTGATGGGAG CCTGGTGAGG AGCCAGCGGC CCACAGGGAT CTCAAGGAGG 
    GGACGCAGAG GCCCTGCCCA GGTTCCTGCT TCTGTGAGAA CCCCCGGCTG CTTCTCCTCA 
    GCCCCCCGGG AGTGCCTGCC ACCCTTTCTT GGGGTCCCCA AATCAGGCTT GTACCCTCTG 
    GCCTCCCCAT CCTTCCAGCC CAGCTCCCCA GCTCCAGTCT GGAGGAGCTC CTTGGGTCCT 
    CCTGCACCAC TTGACAGGGG AGAGAACCTA TACTATGAAA TAGAGGCAGG TGAGGGGTCC 
    CCCTACTCTG GCCCCACCCA GTCCTGGAGT CCCTTTCGCT CCATGCCCCC AGATAGGCTC 
    AATGCCTCAT ATGGCATGCT TGGCCAATCG CCACCACTCC ACAGGTCCCC CAACTTCCTG 
    CTCAGCTACC CACCACCCCC CTCCTGCTTT CCCCATAACC ACCTGGGCTA TTCGGCCCCT 
    CAGCACCCCA CCCGGCGCCC CACCCGGCCT GAGCCCCTCT ATGTCAACCT AGCCCTAGGT 
    CCCAGGGGTC CCTCACCTGC CTCTTCTAGC TCCTCCTCCC CTCCTGCGCA CCCCCGTAGC 
    CATTCAGATC CTGGTCCCCC AGCCCCCCAC ATACCCCAGA AACAGCGGGC CCCCTGGGGC 
    CCCCACACCC CTCACAGGGT GCCTGGGCCC TGGGGCCCTC CCGAGCCTCT CCTGTTCTAC 
    CGGGCAGCCC CACCAGCCTA TGGCAGAGGG GGCGAGCACC ACCGAGGGTC CTTGTACAGG 
    AATGGGGGAC AAGGAAGGGA AGGGGCTGGT CCCCCACCCC CCTACCCCAC TCCCAGCTGG 
    TCCCTCCACC CTGAGGGCCA AACTCGAAGC TACTGCTGA

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

    ARHGAP33 ( XM_011381808.1 ) cDNA ORF clone, Pteropus vampyrus(large flying fox) -> XP_011380110.1 Pteropus vampyrus Rho GTPase activating protein 33 (ARHGAP33), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OPt62377
    Clone ID Related Accession (Same CDS sequence) XM_011381808.1 , XM_011381808.2
    Accession Version XM_011381808.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3801bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1424534400000
    Organism Pteropus vampyrus(large flying fox)
    Product rho GTPase-activating protein 33 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_011889233.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pteropus vampyrus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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
    ATGGTGGCTC GAAGCACTGA CAGCCTGGAC GGCCCAGGGG AGGGCTCAGT GCAACCCCTG 
    CCCACCACAG GGGGGCCCAG TGTGAAGGGG AAGTCTGGGA AGAGGCTCTC TGCTCCTCGA 
    GGTCCCTTCC CCCGGCTGGC TGACTGTGCC CATTTCCACT ATGAGAATGT TGACTTTGGC 
    CACATTCAGC TCCTACTATC TCCAGGGCGT GAAGGCCCCG GCTTCTCTGG GGAGAATGAG 
    CTCGTGTTTG GAGTACAGGT GACCTGTCAG GGCCGTTCCT GGCCAGTTCT CCGCAGTTAT 
    GATGACTTCC GTACCCTGGA TGCCCACCTT CACCGGTGCA TATTTGACCG GAGGTTTTCC 
    TGCCTCCCAG AACTTCCCCC ACCCCCAGAG GGTGCCAGGG CTGCCCAGAT GCTGGTGCCG 
    CTGCTGCTGC AATACCTGGA GACCCTGTCA GGACTGGTGG ACAGTAACCT CAACTGCGGG 
    CCTGTGCTCA CCTGGATGGA GCTGGACAAC CATGGCCGGC GGCTGCTCCT CAGTGAAGAG 
    GCCTCCCTCA ATATCCCTGC AGTGGCCGCT GCCCACGTGG TGAAACGGTA CACAGCCCAG 
    GCACCAGATG AGCTATCCTT CGAGGTGGGA GACATTGTCT CAGTTATCGA CATGCCGCCC 
    ACAGAGGATC GGAGCTGGTG GCGGGGCAAG AGAGGCTTCC AGGTCGGTTT CTTCCCCAGT 
    GAGTGTGTGG AGCTATTCAC AGAGCGGCCT GGTCCAGGAT TCAAGGGGGA TGCTGATGGT 
    CCCCCATGTG GTGTCCCAAC TCCCCAGGGT ATCTCTTCTC TGACCTCAGC TGTGCCCCGG 
    CCACGTGGGA AGCTGGCTGG CCTCCTGCGT ACCTTCATGC GCTCCCGCCC TTCTCGGCAG 
    CGGCTGCGAC AGCGGGGCAT CCTGCGGCAG AGGGTGTTCG GCTGTGACCT TGGAGAGCAC 
    CTCAGTAACT CAGGCCAGGA TGTGCCCCAG GTGCTTCGCT GCTGCTCTGA GTTTATTGAG 
    GCCCATGGGG TGGTGGATGG AATCTACCGG CTCTCAGGCG TGTCATCCAA TATCCAGAGG 
    CTACGGCATG AGTTTGACAG TGAGAGGATC CCTGAACTGT CTGGCCCAGC CTTCCTGCAG 
    GACATCCACA GTGTGTCCTC CCTCTGCAAG CTCTACTTCC GAGAGCTGCC CAACCCTTTG 
    CTCACATATC AGCTCTACGG GAAGTTTAGC GAGGCCATGT CAGTGCCTGG AGAAGAAGAA 
    CGCCTGGTGC GCATCCATGA TGTCATCCAG CAGCTGCCCC CGCCACACTA CAGGACCCTG 
    GAATATCTGC TGAGGCACTT GGCCCGCATG GCGAGACACA GTGCCAACAC CAGCATGCAT 
    GCCCGCAACC TGGCCATTGT CTGGGCGCCC AACCTGCTAC GGTCTATGGA GCTGGAATCG 
    GTGGGGCTGG GTGGGGCAGC GGCCTTCCGG GAGGTTCGAG TGCAGTCGGT GGTGGTGGAA 
    TTCCTGCTCA CGCATGTGGA TGTCCTGTTC AGTGACACCT TCGCCTCTGC TGGCCTTGAC 
    CCTGCAGGCC GCTGCCTCCT TCCCAGGCCC AAGTCCCTTG CGGGCAGCGG CCCCTCTACT 
    CGCCTGCTGA CACTGGAGGA AGCTCAGGCT CGCACCCAGG GCCGGCTGGG GACACCCACT 
    GACTCTACAG TTCCCAAGGC CTCAGCCTCA CCTGCAGAAA GGAGGAAAGG GGAAAGAGGC 
    GAGAAACAGC GGAAGTCAGG GGGTAGCAGC TGGAAGACCT TCTTTGCACT GGGCCGGGGC 
    CCCAGCATCC CCCGAAAGAA GCCTCTTCCC TGGCTGGGGA GCACACGCGC TCCACCACAG 
    CCTTCAGGGA GCCGACCTGA CACAGTCACA CTAAGATCTG CCAAGAGTGA AGAGTCTCTG 
    TCATCGCAGG CCAGTGGTGC TGGCCTCCAG AGGCTGCACA GGCTACGGCG ACCCCACTCC 
    AGCAGTGATG CTTTCCCAGT GGGCCCGGCA CCTGCTGGCT CCTGCGAAAG CCTGTCCTCG 
    TCCTCTTCCT CTGAGTCCTC TGAGTCCTCT GAGTCCTCTG AGTCCTCTGA GTCCTCAGCA 
    GCCGGGCTGG GGGCACTCTC CGGTTCCCCT TCGCACCGAA CTTCAGCCTG GCTAGATGAT 
    GGTGATGAGC TGGACTTCAG CCCACCCCAC TGCCTGGAGG GGCTCCGGGG GCTTGACTTT 
    GATCCCCTTA CCTTTCGCTG CAGCAGCCCC ACCCCAGGGG ACCCTGCACC TCCTGCCAGC 
    CCGGCCCCCC CGGCCCCTGC TTCTGCCTTC CCACCCAGGG TAACCCCCCA GGCCCTCTCT 
    CCCTGTGGGC CCACCAGCCC TGCCTCACCC ACTGCCCTGG ACATCTCAGA GCCCTTGGCT 
    GTAACAGTGC CACCTGCTGT CTTGGAGCTG CTAGGGGCTG GGGGAACACC TGCCTCAGCC 
    ACCCCAAAGC CAGCCCCCAG CCCAGGCCTG CGCCCCCATC TCATTCCCCT GCTGCTGCAT 
    GGAGCTGAAG CCCAGCTAAG TGACACCTGC CAACAGGAAA TCTGCAATAA GCTGGCACTA 
    CCTGGTCCTC AGGGAGCCCA AGGCCAGCAT GGACCTGGTA TGGATTCGCC ACTGCTGCCC 
    CCACCCCTGT CTCTCCTGCG CCCTGGGGGT GCTCCACCTC CACCCCCCAA GAACCCAGCA 
    CGCCTCATGG CCCTGGCCCT GGCTGAGCAG GCTCAGCAGG TGGCCCAGAG ACAGAACCAA 
    CAGGAGCATG GGAGCACCCC ATCTGCTCCC CACTCCCCTT TCTGCCGCTC ACTGTCCTTG 
    GAGGTGGGCA GTAAGCCCCC GGGGACCTCA GGGAGTGGGC CACCCACCCA CTCCCTAGCC 
    CACCCAGGTG CCTGGGCTCC AGGACCCCCA CCCTCCCTAC CAAGGCAACA AAGTGATGGG 
    AGCCTGGTGA GGAGCCAGCG GCCCACAGGG ATCTCAAGGA GGGGACGCAG AGGCCCTGCC 
    CAGGTTCCTG CTTCTGTGAG AACCCCCGGC TGCTTCTCCT CAGCCCCCCG GGAGTGCCTG 
    CCACCCTTTC TTGGGGTCCC CAAATCAGGC TTGTACCCTC TGGCCTCCCC ATCCTTCCAG 
    CCCAGCTCCC CAGCTCCAGT CTGGAGGAGC TCCTTGGGTC CTCCTGCACC ACTTGACAGG 
    GGAGAGAACC TATACTATGA AATAGAGGCA GGTGAGGGGT CCCCCTACTC TGGCCCCACC 
    CAGTCCTGGA GTCCCTTTCG CTCCATGCCC CCAGATAGGC TCAATGCCTC ATATGGCATG 
    CTTGGCCAAT CGCCACCACT CCACAGGTCC CCCAACTTCC TGCTCAGCTA CCCACCACCC 
    CCCTCCTGCT TTCCCCATAA CCACCTGGGC TATTCGGCCC CTCAGCACCC CACCCGGCGC 
    CCCACCCGGC CTGAGCCCCT CTATGTCAAC CTAGCCCTAG GTCCCAGGGG TCCCTCACCT 
    GCCTCTTCTA GCTCCTCCTC CCCTCCTGCG CACCCCCGTA GCCATTCAGA TCCTGGTCCC 
    CCAGCCCCCC ACATACCCCA GAAACAGCGG GCCCCCTGGG GCCCCCACAC CCCTCACAGG 
    GTGCCTGGGC CCTGGGGCCC TCCCGAGCCT CTCCTGTTCT ACCGGGCAGC CCCACCAGCC 
    TATGGCAGAG GGGGCGAGCA CCACCGAGGG TCCTTGTACA GGAATGGGGG ACAAGGAAGG 
    GAAGGGGCTG GTCCCCCACC CCCCTACCCC ACTCCCAGCT GGTCCCTCCA CCCTGAGGGC 
    CAAACTCGAA GCTACTGCTG A

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

    RefSeq XP_011380110.1
    CDS103..3903
    Translation

    Target ORF information:

    RefSeq Version XM_011381808.1
    Organism Pteropus vampyrus(large flying fox)
    Definition Pteropus vampyrus Rho GTPase activating protein 33 (ARHGAP33), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011381808.1

    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
    ATGGTGGCTC GAAGCACTGA CAGCCTGGAC GGCCCAGGGG AGGGCTCAGT GCAACCCCTG 
    CCCACCACAG GGGGGCCCAG TGTGAAGGGG AAGTCTGGGA AGAGGCTCTC TGCTCCTCGA 
    GGTCCCTTCC CCCGGCTGGC TGACTGTGCC CATTTCCACT ATGAGAATGT TGACTTTGGC 
    CACATTCAGC TCCTACTATC TCCAGGGCGT GAAGGCCCCG GCTTCTCTGG GGAGAATGAG 
    CTCGTGTTTG GAGTACAGGT GACCTGTCAG GGCCGTTCCT GGCCAGTTCT CCGCAGTTAT 
    GATGACTTCC GTACCCTGGA TGCCCACCTT CACCGGTGCA TATTTGACCG GAGGTTTTCC 
    TGCCTCCCAG AACTTCCCCC ACCCCCAGAG GGTGCCAGGG CTGCCCAGAT GCTGGTGCCG 
    CTGCTGCTGC AATACCTGGA GACCCTGTCA GGACTGGTGG ACAGTAACCT CAACTGCGGG 
    CCTGTGCTCA CCTGGATGGA GCTGGACAAC CATGGCCGGC GGCTGCTCCT CAGTGAAGAG 
    GCCTCCCTCA ATATCCCTGC AGTGGCCGCT GCCCACGTGG TGAAACGGTA CACAGCCCAG 
    GCACCAGATG AGCTATCCTT CGAGGTGGGA GACATTGTCT CAGTTATCGA CATGCCGCCC 
    ACAGAGGATC GGAGCTGGTG GCGGGGCAAG AGAGGCTTCC AGGTCGGTTT CTTCCCCAGT 
    GAGTGTGTGG AGCTATTCAC AGAGCGGCCT GGTCCAGGAT TCAAGGGGGA TGCTGATGGT 
    CCCCCATGTG GTGTCCCAAC TCCCCAGGGT ATCTCTTCTC TGACCTCAGC TGTGCCCCGG 
    CCACGTGGGA AGCTGGCTGG CCTCCTGCGT ACCTTCATGC GCTCCCGCCC TTCTCGGCAG 
    CGGCTGCGAC AGCGGGGCAT CCTGCGGCAG AGGGTGTTCG GCTGTGACCT TGGAGAGCAC 
    CTCAGTAACT CAGGCCAGGA TGTGCCCCAG GTGCTTCGCT GCTGCTCTGA GTTTATTGAG 
    GCCCATGGGG TGGTGGATGG AATCTACCGG CTCTCAGGCG TGTCATCCAA TATCCAGAGG 
    CTACGGCATG AGTTTGACAG TGAGAGGATC CCTGAACTGT CTGGCCCAGC CTTCCTGCAG 
    GACATCCACA GTGTGTCCTC CCTCTGCAAG CTCTACTTCC GAGAGCTGCC CAACCCTTTG 
    CTCACATATC AGCTCTACGG GAAGTTTAGC GAGGCCATGT CAGTGCCTGG AGAAGAAGAA 
    CGCCTGGTGC GCATCCATGA TGTCATCCAG CAGCTGCCCC CGCCACACTA CAGGACCCTG 
    GAATATCTGC TGAGGCACTT GGCCCGCATG GCGAGACACA GTGCCAACAC CAGCATGCAT 
    GCCCGCAACC TGGCCATTGT CTGGGCGCCC AACCTGCTAC GGTCTATGGA GCTGGAATCG 
    GTGGGGCTGG GTGGGGCAGC GGCCTTCCGG GAGGTTCGAG TGCAGTCGGT GGTGGTGGAA 
    TTCCTGCTCA CGCATGTGGA TGTCCTGTTC AGTGACACCT TCGCCTCTGC TGGCCTTGAC 
    CCTGCAGGCC GCTGCCTCCT TCCCAGGCCC AAGTCCCTTG CGGGCAGCGG CCCCTCTACT 
    CGCCTGCTGA CACTGGAGGA AGCTCAGGCT CGCACCCAGG GCCGGCTGGG GACACCCACT 
    GACTCTACAG TTCCCAAGGC CTCAGCCTCA CCTGCAGAAA GGAGGAAAGG GGAAAGAGGC 
    GAGAAACAGC GGAAGTCAGG GGGTAGCAGC TGGAAGACCT TCTTTGCACT GGGCCGGGGC 
    CCCAGCATCC CCCGAAAGAA GCCTCTTCCC TGGCTGGGGA GCACACGCGC TCCACCACAG 
    CCTTCAGGGA GCCGACCTGA CACAGTCACA CTAAGATCTG CCAAGAGTGA AGAGTCTCTG 
    TCATCGCAGG CCAGTGGTGC TGGCCTCCAG AGGCTGCACA GGCTACGGCG ACCCCACTCC 
    AGCAGTGATG CTTTCCCAGT GGGCCCGGCA CCTGCTGGCT CCTGCGAAAG CCTGTCCTCG 
    TCCTCTTCCT CTGAGTCCTC TGAGTCCTCT GAGTCCTCTG AGTCCTCTGA GTCCTCAGCA 
    GCCGGGCTGG GGGCACTCTC CGGTTCCCCT TCGCACCGAA CTTCAGCCTG GCTAGATGAT 
    GGTGATGAGC TGGACTTCAG CCCACCCCAC TGCCTGGAGG GGCTCCGGGG GCTTGACTTT 
    GATCCCCTTA CCTTTCGCTG CAGCAGCCCC ACCCCAGGGG ACCCTGCACC TCCTGCCAGC 
    CCGGCCCCCC CGGCCCCTGC TTCTGCCTTC CCACCCAGGG TAACCCCCCA GGCCCTCTCT 
    CCCTGTGGGC CCACCAGCCC TGCCTCACCC ACTGCCCTGG ACATCTCAGA GCCCTTGGCT 
    GTAACAGTGC CACCTGCTGT CTTGGAGCTG CTAGGGGCTG GGGGAACACC TGCCTCAGCC 
    ACCCCAAAGC CAGCCCCCAG CCCAGGCCTG CGCCCCCATC TCATTCCCCT GCTGCTGCAT 
    GGAGCTGAAG CCCAGCTAAG TGACACCTGC CAACAGGAAA TCTGCAATAA GCTGGCACTA 
    CCTGGTCCTC AGGGAGCCCA AGGCCAGCAT GGACCTGGTA TGGATTCGCC ACTGCTGCCC 
    CCACCCCTGT CTCTCCTGCG CCCTGGGGGT GCTCCACCTC CACCCCCCAA GAACCCAGCA 
    CGCCTCATGG CCCTGGCCCT GGCTGAGCAG GCTCAGCAGG TGGCCCAGAG ACAGAACCAA 
    CAGGAGCATG GGAGCACCCC ATCTGCTCCC CACTCCCCTT TCTGCCGCTC ACTGTCCTTG 
    GAGGTGGGCA GTAAGCCCCC GGGGACCTCA GGGAGTGGGC CACCCACCCA CTCCCTAGCC 
    CACCCAGGTG CCTGGGCTCC AGGACCCCCA CCCTCCCTAC CAAGGCAACA AAGTGATGGG 
    AGCCTGGTGA GGAGCCAGCG GCCCACAGGG ATCTCAAGGA GGGGACGCAG AGGCCCTGCC 
    CAGGTTCCTG CTTCTGTGAG AACCCCCGGC TGCTTCTCCT CAGCCCCCCG GGAGTGCCTG 
    CCACCCTTTC TTGGGGTCCC CAAATCAGGC TTGTACCCTC TGGCCTCCCC ATCCTTCCAG 
    CCCAGCTCCC CAGCTCCAGT CTGGAGGAGC TCCTTGGGTC CTCCTGCACC ACTTGACAGG 
    GGAGAGAACC TATACTATGA AATAGAGGCA GGTGAGGGGT CCCCCTACTC TGGCCCCACC 
    CAGTCCTGGA GTCCCTTTCG CTCCATGCCC CCAGATAGGC TCAATGCCTC ATATGGCATG 
    CTTGGCCAAT CGCCACCACT CCACAGGTCC CCCAACTTCC TGCTCAGCTA CCCACCACCC 
    CCCTCCTGCT TTCCCCATAA CCACCTGGGC TATTCGGCCC CTCAGCACCC CACCCGGCGC 
    CCCACCCGGC CTGAGCCCCT CTATGTCAAC CTAGCCCTAG GTCCCAGGGG TCCCTCACCT 
    GCCTCTTCTA GCTCCTCCTC CCCTCCTGCG CACCCCCGTA GCCATTCAGA TCCTGGTCCC 
    CCAGCCCCCC ACATACCCCA GAAACAGCGG GCCCCCTGGG GCCCCCACAC CCCTCACAGG 
    GTGCCTGGGC CCTGGGGCCC TCCCGAGCCT CTCCTGTTCT ACCGGGCAGC CCCACCAGCC 
    TATGGCAGAG GGGGCGAGCA CCACCGAGGG TCCTTGTACA GGAATGGGGG ACAAGGAAGG 
    GAAGGGGCTG GTCCCCCACC CCCCTACCCC ACTCCCAGCT GGTCCCTCCA CCCTGAGGGC 
    CAAACTCGAA GCTACTGCTG A

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

    ARHGAP33 ( XM_011381808.2 ) cDNA ORF clone, Pteropus vampyrus(large flying fox) -> XP_011380110.1 Pteropus vampyrus Rho GTPase activating protein 33 (ARHGAP33), mRNA.
    Price & Availability↑
    CloneID OPt62377
    Clone ID Related Accession (Same CDS sequence) XM_011381808.1 , XM_011381808.2
    Accession Version XM_011381808.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3801bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1516204800000
    Organism Pteropus vampyrus(large flying fox)
    Product rho GTPase-activating protein 33
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_011889233.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jan 19, 2018 this sequence version replaced XM_011381808.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pteropus vampyrus Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
    ATGGTGGCTC GAAGCACTGA CAGCCTGGAC GGCCCAGGGG AGGGCTCAGT GCAACCCCTG 
    CCCACCACAG GGGGGCCCAG TGTGAAGGGG AAGTCTGGGA AGAGGCTCTC TGCTCCTCGA 
    GGTCCCTTCC CCCGGCTGGC TGACTGTGCC CATTTCCACT ATGAGAATGT TGACTTTGGC 
    CACATTCAGC TCCTACTATC TCCAGGGCGT GAAGGCCCCG GCTTCTCTGG GGAGAATGAG 
    CTCGTGTTTG GAGTACAGGT GACCTGTCAG GGCCGTTCCT GGCCAGTTCT CCGCAGTTAT 
    GATGACTTCC GTACCCTGGA TGCCCACCTT CACCGGTGCA TATTTGACCG GAGGTTTTCC 
    TGCCTCCCAG AACTTCCCCC ACCCCCAGAG GGTGCCAGGG CTGCCCAGAT GCTGGTGCCG 
    CTGCTGCTGC AATACCTGGA GACCCTGTCA GGACTGGTGG ACAGTAACCT CAACTGCGGG 
    CCTGTGCTCA CCTGGATGGA GCTGGACAAC CATGGCCGGC GGCTGCTCCT CAGTGAAGAG 
    GCCTCCCTCA ATATCCCTGC AGTGGCCGCT GCCCACGTGG TGAAACGGTA CACAGCCCAG 
    GCACCAGATG AGCTATCCTT CGAGGTGGGA GACATTGTCT CAGTTATCGA CATGCCGCCC 
    ACAGAGGATC GGAGCTGGTG GCGGGGCAAG AGAGGCTTCC AGGTCGGTTT CTTCCCCAGT 
    GAGTGTGTGG AGCTATTCAC AGAGCGGCCT GGTCCAGGAT TCAAGGGGGA TGCTGATGGT 
    CCCCCATGTG GTGTCCCAAC TCCCCAGGGT ATCTCTTCTC TGACCTCAGC TGTGCCCCGG 
    CCACGTGGGA AGCTGGCTGG CCTCCTGCGT ACCTTCATGC GCTCCCGCCC TTCTCGGCAG 
    CGGCTGCGAC AGCGGGGCAT CCTGCGGCAG AGGGTGTTCG GCTGTGACCT TGGAGAGCAC 
    CTCAGTAACT CAGGCCAGGA TGTGCCCCAG GTGCTTCGCT GCTGCTCTGA GTTTATTGAG 
    GCCCATGGGG TGGTGGATGG AATCTACCGG CTCTCAGGCG TGTCATCCAA TATCCAGAGG 
    CTACGGCATG AGTTTGACAG TGAGAGGATC CCTGAACTGT CTGGCCCAGC CTTCCTGCAG 
    GACATCCACA GTGTGTCCTC CCTCTGCAAG CTCTACTTCC GAGAGCTGCC CAACCCTTTG 
    CTCACATATC AGCTCTACGG GAAGTTTAGC GAGGCCATGT CAGTGCCTGG AGAAGAAGAA 
    CGCCTGGTGC GCATCCATGA TGTCATCCAG CAGCTGCCCC CGCCACACTA CAGGACCCTG 
    GAATATCTGC TGAGGCACTT GGCCCGCATG GCGAGACACA GTGCCAACAC CAGCATGCAT 
    GCCCGCAACC TGGCCATTGT CTGGGCGCCC AACCTGCTAC GGTCTATGGA GCTGGAATCG 
    GTGGGGCTGG GTGGGGCAGC GGCCTTCCGG GAGGTTCGAG TGCAGTCGGT GGTGGTGGAA 
    TTCCTGCTCA CGCATGTGGA TGTCCTGTTC AGTGACACCT TCGCCTCTGC TGGCCTTGAC 
    CCTGCAGGCC GCTGCCTCCT TCCCAGGCCC AAGTCCCTTG CGGGCAGCGG CCCCTCTACT 
    CGCCTGCTGA CACTGGAGGA AGCTCAGGCT CGCACCCAGG GCCGGCTGGG GACACCCACT 
    GACTCTACAG TTCCCAAGGC CTCAGCCTCA CCTGCAGAAA GGAGGAAAGG GGAAAGAGGC 
    GAGAAACAGC GGAAGTCAGG GGGTAGCAGC TGGAAGACCT TCTTTGCACT GGGCCGGGGC 
    CCCAGCATCC CCCGAAAGAA GCCTCTTCCC TGGCTGGGGA GCACACGCGC TCCACCACAG 
    CCTTCAGGGA GCCGACCTGA CACAGTCACA CTAAGATCTG CCAAGAGTGA AGAGTCTCTG 
    TCATCGCAGG CCAGTGGTGC TGGCCTCCAG AGGCTGCACA GGCTACGGCG ACCCCACTCC 
    AGCAGTGATG CTTTCCCAGT GGGCCCGGCA CCTGCTGGCT CCTGCGAAAG CCTGTCCTCG 
    TCCTCTTCCT CTGAGTCCTC TGAGTCCTCT GAGTCCTCTG AGTCCTCTGA GTCCTCAGCA 
    GCCGGGCTGG GGGCACTCTC CGGTTCCCCT TCGCACCGAA CTTCAGCCTG GCTAGATGAT 
    GGTGATGAGC TGGACTTCAG CCCACCCCAC TGCCTGGAGG GGCTCCGGGG GCTTGACTTT 
    GATCCCCTTA CCTTTCGCTG CAGCAGCCCC ACCCCAGGGG ACCCTGCACC TCCTGCCAGC 
    CCGGCCCCCC CGGCCCCTGC TTCTGCCTTC CCACCCAGGG TAACCCCCCA GGCCCTCTCT 
    CCCTGTGGGC CCACCAGCCC TGCCTCACCC ACTGCCCTGG ACATCTCAGA GCCCTTGGCT 
    GTAACAGTGC CACCTGCTGT CTTGGAGCTG CTAGGGGCTG GGGGAACACC TGCCTCAGCC 
    ACCCCAAAGC CAGCCCCCAG CCCAGGCCTG CGCCCCCATC TCATTCCCCT GCTGCTGCAT 
    GGAGCTGAAG CCCAGCTAAG TGACACCTGC CAACAGGAAA TCTGCAATAA GCTGGCACTA 
    CCTGGTCCTC AGGGAGCCCA AGGCCAGCAT GGACCTGGTA TGGATTCGCC ACTGCTGCCC 
    CCACCCCTGT CTCTCCTGCG CCCTGGGGGT GCTCCACCTC CACCCCCCAA GAACCCAGCA 
    CGCCTCATGG CCCTGGCCCT GGCTGAGCAG GCTCAGCAGG TGGCCCAGAG ACAGAACCAA 
    CAGGAGCATG GGAGCACCCC ATCTGCTCCC CACTCCCCTT TCTGCCGCTC ACTGTCCTTG 
    GAGGTGGGCA GTAAGCCCCC GGGGACCTCA GGGAGTGGGC CACCCACCCA CTCCCTAGCC 
    CACCCAGGTG CCTGGGCTCC AGGACCCCCA CCCTCCCTAC CAAGGCAACA AAGTGATGGG 
    AGCCTGGTGA GGAGCCAGCG GCCCACAGGG ATCTCAAGGA GGGGACGCAG AGGCCCTGCC 
    CAGGTTCCTG CTTCTGTGAG AACCCCCGGC TGCTTCTCCT CAGCCCCCCG GGAGTGCCTG 
    CCACCCTTTC TTGGGGTCCC CAAATCAGGC TTGTACCCTC TGGCCTCCCC ATCCTTCCAG 
    CCCAGCTCCC CAGCTCCAGT CTGGAGGAGC TCCTTGGGTC CTCCTGCACC ACTTGACAGG 
    GGAGAGAACC TATACTATGA AATAGAGGCA GGTGAGGGGT CCCCCTACTC TGGCCCCACC 
    CAGTCCTGGA GTCCCTTTCG CTCCATGCCC CCAGATAGGC TCAATGCCTC ATATGGCATG 
    CTTGGCCAAT CGCCACCACT CCACAGGTCC CCCAACTTCC TGCTCAGCTA CCCACCACCC 
    CCCTCCTGCT TTCCCCATAA CCACCTGGGC TATTCGGCCC CTCAGCACCC CACCCGGCGC 
    CCCACCCGGC CTGAGCCCCT CTATGTCAAC CTAGCCCTAG GTCCCAGGGG TCCCTCACCT 
    GCCTCTTCTA GCTCCTCCTC CCCTCCTGCG CACCCCCGTA GCCATTCAGA TCCTGGTCCC 
    CCAGCCCCCC ACATACCCCA GAAACAGCGG GCCCCCTGGG GCCCCCACAC CCCTCACAGG 
    GTGCCTGGGC CCTGGGGCCC TCCCGAGCCT CTCCTGTTCT ACCGGGCAGC CCCACCAGCC 
    TATGGCAGAG GGGGCGAGCA CCACCGAGGG TCCTTGTACA GGAATGGGGG ACAAGGAAGG 
    GAAGGGGCTG GTCCCCCACC CCCCTACCCC ACTCCCAGCT GGTCCCTCCA CCCTGAGGGC 
    CAAACTCGAA GCTACTGCTG A

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

    RefSeq XP_011380110.1
    CDS1913..5713
    Translation

    Target ORF information:

    RefSeq Version XM_011381808.2
    Organism Pteropus vampyrus(large flying fox)
    Definition Pteropus vampyrus Rho GTPase activating protein 33 (ARHGAP33), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011381808.2

    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
    ATGGTGGCTC GAAGCACTGA CAGCCTGGAC GGCCCAGGGG AGGGCTCAGT GCAACCCCTG 
    CCCACCACAG GGGGGCCCAG TGTGAAGGGG AAGTCTGGGA AGAGGCTCTC TGCTCCTCGA 
    GGTCCCTTCC CCCGGCTGGC TGACTGTGCC CATTTCCACT ATGAGAATGT TGACTTTGGC 
    CACATTCAGC TCCTACTATC TCCAGGGCGT GAAGGCCCCG GCTTCTCTGG GGAGAATGAG 
    CTCGTGTTTG GAGTACAGGT GACCTGTCAG GGCCGTTCCT GGCCAGTTCT CCGCAGTTAT 
    GATGACTTCC GTACCCTGGA TGCCCACCTT CACCGGTGCA TATTTGACCG GAGGTTTTCC 
    TGCCTCCCAG AACTTCCCCC ACCCCCAGAG GGTGCCAGGG CTGCCCAGAT GCTGGTGCCG 
    CTGCTGCTGC AATACCTGGA GACCCTGTCA GGACTGGTGG ACAGTAACCT CAACTGCGGG 
    CCTGTGCTCA CCTGGATGGA GCTGGACAAC CATGGCCGGC GGCTGCTCCT CAGTGAAGAG 
    GCCTCCCTCA ATATCCCTGC AGTGGCCGCT GCCCACGTGG TGAAACGGTA CACAGCCCAG 
    GCACCAGATG AGCTATCCTT CGAGGTGGGA GACATTGTCT CAGTTATCGA CATGCCGCCC 
    ACAGAGGATC GGAGCTGGTG GCGGGGCAAG AGAGGCTTCC AGGTCGGTTT CTTCCCCAGT 
    GAGTGTGTGG AGCTATTCAC AGAGCGGCCT GGTCCAGGAT TCAAGGGGGA TGCTGATGGT 
    CCCCCATGTG GTGTCCCAAC TCCCCAGGGT ATCTCTTCTC TGACCTCAGC TGTGCCCCGG 
    CCACGTGGGA AGCTGGCTGG CCTCCTGCGT ACCTTCATGC GCTCCCGCCC TTCTCGGCAG 
    CGGCTGCGAC AGCGGGGCAT CCTGCGGCAG AGGGTGTTCG GCTGTGACCT TGGAGAGCAC 
    CTCAGTAACT CAGGCCAGGA TGTGCCCCAG GTGCTTCGCT GCTGCTCTGA GTTTATTGAG 
    GCCCATGGGG TGGTGGATGG AATCTACCGG CTCTCAGGCG TGTCATCCAA TATCCAGAGG 
    CTACGGCATG AGTTTGACAG TGAGAGGATC CCTGAACTGT CTGGCCCAGC CTTCCTGCAG 
    GACATCCACA GTGTGTCCTC CCTCTGCAAG CTCTACTTCC GAGAGCTGCC CAACCCTTTG 
    CTCACATATC AGCTCTACGG GAAGTTTAGC GAGGCCATGT CAGTGCCTGG AGAAGAAGAA 
    CGCCTGGTGC GCATCCATGA TGTCATCCAG CAGCTGCCCC CGCCACACTA CAGGACCCTG 
    GAATATCTGC TGAGGCACTT GGCCCGCATG GCGAGACACA GTGCCAACAC CAGCATGCAT 
    GCCCGCAACC TGGCCATTGT CTGGGCGCCC AACCTGCTAC GGTCTATGGA GCTGGAATCG 
    GTGGGGCTGG GTGGGGCAGC GGCCTTCCGG GAGGTTCGAG TGCAGTCGGT GGTGGTGGAA 
    TTCCTGCTCA CGCATGTGGA TGTCCTGTTC AGTGACACCT TCGCCTCTGC TGGCCTTGAC 
    CCTGCAGGCC GCTGCCTCCT TCCCAGGCCC AAGTCCCTTG CGGGCAGCGG CCCCTCTACT 
    CGCCTGCTGA CACTGGAGGA AGCTCAGGCT CGCACCCAGG GCCGGCTGGG GACACCCACT 
    GACTCTACAG TTCCCAAGGC CTCAGCCTCA CCTGCAGAAA GGAGGAAAGG GGAAAGAGGC 
    GAGAAACAGC GGAAGTCAGG GGGTAGCAGC TGGAAGACCT TCTTTGCACT GGGCCGGGGC 
    CCCAGCATCC CCCGAAAGAA GCCTCTTCCC TGGCTGGGGA GCACACGCGC TCCACCACAG 
    CCTTCAGGGA GCCGACCTGA CACAGTCACA CTAAGATCTG CCAAGAGTGA AGAGTCTCTG 
    TCATCGCAGG CCAGTGGTGC TGGCCTCCAG AGGCTGCACA GGCTACGGCG ACCCCACTCC 
    AGCAGTGATG CTTTCCCAGT GGGCCCGGCA CCTGCTGGCT CCTGCGAAAG CCTGTCCTCG 
    TCCTCTTCCT CTGAGTCCTC TGAGTCCTCT GAGTCCTCTG AGTCCTCTGA GTCCTCAGCA 
    GCCGGGCTGG GGGCACTCTC CGGTTCCCCT TCGCACCGAA CTTCAGCCTG GCTAGATGAT 
    GGTGATGAGC TGGACTTCAG CCCACCCCAC TGCCTGGAGG GGCTCCGGGG GCTTGACTTT 
    GATCCCCTTA CCTTTCGCTG CAGCAGCCCC ACCCCAGGGG ACCCTGCACC TCCTGCCAGC 
    CCGGCCCCCC CGGCCCCTGC TTCTGCCTTC CCACCCAGGG TAACCCCCCA GGCCCTCTCT 
    CCCTGTGGGC CCACCAGCCC TGCCTCACCC ACTGCCCTGG ACATCTCAGA GCCCTTGGCT 
    GTAACAGTGC CACCTGCTGT CTTGGAGCTG CTAGGGGCTG GGGGAACACC TGCCTCAGCC 
    ACCCCAAAGC CAGCCCCCAG CCCAGGCCTG CGCCCCCATC TCATTCCCCT GCTGCTGCAT 
    GGAGCTGAAG CCCAGCTAAG TGACACCTGC CAACAGGAAA TCTGCAATAA GCTGGCACTA 
    CCTGGTCCTC AGGGAGCCCA AGGCCAGCAT GGACCTGGTA TGGATTCGCC ACTGCTGCCC 
    CCACCCCTGT CTCTCCTGCG CCCTGGGGGT GCTCCACCTC CACCCCCCAA GAACCCAGCA 
    CGCCTCATGG CCCTGGCCCT GGCTGAGCAG GCTCAGCAGG TGGCCCAGAG ACAGAACCAA 
    CAGGAGCATG GGAGCACCCC ATCTGCTCCC CACTCCCCTT TCTGCCGCTC ACTGTCCTTG 
    GAGGTGGGCA GTAAGCCCCC GGGGACCTCA GGGAGTGGGC CACCCACCCA CTCCCTAGCC 
    CACCCAGGTG CCTGGGCTCC AGGACCCCCA CCCTCCCTAC CAAGGCAACA AAGTGATGGG 
    AGCCTGGTGA GGAGCCAGCG GCCCACAGGG ATCTCAAGGA GGGGACGCAG AGGCCCTGCC 
    CAGGTTCCTG CTTCTGTGAG AACCCCCGGC TGCTTCTCCT CAGCCCCCCG GGAGTGCCTG 
    CCACCCTTTC TTGGGGTCCC CAAATCAGGC TTGTACCCTC TGGCCTCCCC ATCCTTCCAG 
    CCCAGCTCCC CAGCTCCAGT CTGGAGGAGC TCCTTGGGTC CTCCTGCACC ACTTGACAGG 
    GGAGAGAACC TATACTATGA AATAGAGGCA GGTGAGGGGT CCCCCTACTC TGGCCCCACC 
    CAGTCCTGGA GTCCCTTTCG CTCCATGCCC CCAGATAGGC TCAATGCCTC ATATGGCATG 
    CTTGGCCAAT CGCCACCACT CCACAGGTCC CCCAACTTCC TGCTCAGCTA CCCACCACCC 
    CCCTCCTGCT TTCCCCATAA CCACCTGGGC TATTCGGCCC CTCAGCACCC CACCCGGCGC 
    CCCACCCGGC CTGAGCCCCT CTATGTCAAC CTAGCCCTAG GTCCCAGGGG TCCCTCACCT 
    GCCTCTTCTA GCTCCTCCTC CCCTCCTGCG CACCCCCGTA GCCATTCAGA TCCTGGTCCC 
    CCAGCCCCCC ACATACCCCA GAAACAGCGG GCCCCCTGGG GCCCCCACAC CCCTCACAGG 
    GTGCCTGGGC CCTGGGGCCC TCCCGAGCCT CTCCTGTTCT ACCGGGCAGC CCCACCAGCC 
    TATGGCAGAG GGGGCGAGCA CCACCGAGGG TCCTTGTACA GGAATGGGGG ACAAGGAAGG 
    GAAGGGGCTG GTCCCCCACC CCCCTACCCC ACTCCCAGCT GGTCCCTCCA CCCTGAGGGC 
    CAAACTCGAA GCTACTGCTG A

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

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