arhgap30 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following arhgap30 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the arhgap30 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
OXa65240 XM_031891853.1
Latest version!
Xenopus tropicalis Rho GTPase activating protein 30 (arhgap30), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa19754 XM_002943972.4
Latest version!
Xenopus tropicalis Rho GTPase activating protein 30 (arhgap30), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $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)
    CloneID OXa65240
    Clone ID Related Accession (Same CDS sequence) XM_031891853.1
    Accession Version XM_031891853.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4296bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product rho GTPase-activating protein 30
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) 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 :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGTCGCTGG CAATGAAGGC ACGGCAGAAG GTGAGGAAGA AAACCACCAA GGACAAAACC 
    TTTGGATGTG ACTTACTGGA ACATCTCTCT ATTTCTGGAC TAGAAGTCCC ACAGGTGCTG
    AGAAGTTGCA CAGACTTTGT GGAAGAACAT GGAGTAGTAG ACGGGATCTA CAGGCTGTGT
    GGCATCGCCT CCAATGTCCA TAAATTAAGA CAGGAGTTTG ATATGGAGCG CCAACCAGAC
    CTGAGTAAAG ACACCTACCT ACAAGATGTG CACTGTGTCA GCTCTCTGTG CAAAGCGTAT
    TTCAGGGAAT TACCAAACCC ACTACTGACA TATCAGCTCT ATGATAAATT TGCGGATGCT
    GTGGCGATCC AGCTGGAGGA ACAACGGCTC ATAAAGATTA AAGAAGTGCT GAAGGAACTG
    CCACTCCCAC ATTACAGGAC ACTGGAGTAT CTAATGAGGC ATCTGCTCCG CATGGCTTCC
    TTCAGCTCTC AGACCAACAT GCATGCCCGT AACTTGGCTA TAGTATGGGC CCCTAACCTG
    CTCAGATCAA AGGATATTGA ATCATCTGGC TTTAATGGCA CAGCAGCATT TATGGAGGTC
    CGAATCCAAT CAATTGTGGT GGAATTCATT CTCACTCATG TGGAGCAGTT GTTTGGAGAC
    ATGCCTCTAG CTGGAGGGGA GCACTGCTCC ATAACGAAGC TGAATTCGCC AAGCTGTGTG
    CGTGAGGATT ACTTCCGCTC CCTGACCTAC AACATCCCAA GAAGTGCGCT AAACCAGGGC
    GATGGGCCCC CGCAGATGCG CCCCTACCAC ACCATCATTG AGTTTTCTGA TCACAAGCGG
    AAGGGTTCCC TCAAAGCGAA GAAATGGAAA TCCATTTTCA ACCTTGGCCG ATCCAACAAC
    GATTCCAAGC GCAAAGCCCA CAAGCAGGAT GAGAAAGACT CAGAAAAAAC AGAGAAAATG
    AGTCTTCGAC CGGCAAAAAG CATGGACTCC CTTAGTTCTG TGCCGTATGC ATCGGAGGCG
    ATGGATTCCG ACAGAGGCCT GATGGGAAAC AAATCTCCTA AAAGACTGGT CCCCTTGCGC
    AGGGAGAGTT TTGGGGCAAA CTCTAAGCCA GGTCAGGACT ACACAATTTC AGGAGAACTT
    TCCATCCCAC TGGAGACAAG TCATCAAAAA GATTATGAAG AAGAATCGAA GTCTGAACCA
    ACAACACCAA AACCAGGAAG GTCGTCTATT GTGGCAAGCC CACAAGGAAG ATCCCCTAAA
    AGTGCTCAGA ATCGAGCAGA GAAATGCTTA GGGGTCCATA TCTCAGAGCC GTTTTCTGTT
    ACTCTACCTC GCCATATCAC TTCCAACTTG TCCCGTCTGA CCAGAGTTAT GGAGTGTCCA
    AGTCTCAAAT ATCCTGTGTT GTACGGAAGT TCTGAGAAGA TTTCTTCACA GGAGGAAAGC
    CCACCTCAAG CAATGCTTGT ACCACCCAGC ACAGGCACTC AATGGAGCAA TGCAGAGCAA
    TCAGCCATGC TGCATGATGG ACCTGTAGTA AGCGAAGTCA AGTTGGGCTC ACTGCCTGAT
    GTAAGCCTTA GCATGGAAAG TGATGGTGGC CTTGATTTGA ATCAAGTCAA GTCTTCTGCT
    AACTCTGACA GAAGCCCGGT TCCAATGCAA GAGCAATCAG GCCATAGAGA CTCTGAACTA
    AGCTCTGAAA AGGACCAAGT GGACCCAAGT ATGGAACCTC AACATGCCAA TGGAAAAGGT
    AGCCCATTTG AGACTACAGA CAAGCTGAAA CCAGACACAG AGAAGAAACG CATTTCCCTT
    GAAGTTCAAG ACACGTTTTC GTTTCTGGAC AACCAAGACA CCACCCCAGA GAGCAGCGCA
    TTGGATGGTG ATGGGGCAGA GGAGGGGCTG CCTGGATATC ATGATGGCTG GGTCCCTGGG
    GATGAGGAGC TTCGCAGCGC CTACATGACT GACATGATTA CATCTTGCAT GCAGCAGAGA
    GAGGAATTCT CGGTGGAGCC CCCTCCAGAA GACCTCTCTA CAGAGGACGA TGAAGATATG
    TACTCCATGG CAGCAGAGTG CGCAGACACT TTAGAAGATC TAAGACATAT AGACGACTAT
    TCGGATGACA TTTATCTGAG TGCTTACGAT GACCTCAGCC CCCTGGCCCG TGAACTGGAA
    ACAATGTACG TGGTGGAACA AGACTCACCG GCAAATAAAA CCGTATTGGG GGAAAGCAGT
    TCCCGGAATT TACCTGGCAA TTCTAACCAT GAAGTCAACA CAGAAACACA ACTGGAATTA
    GAGCCTCCAG AAATGCAGGG CACTATTAAT GTTTACCTTT CCACTGAAGC CCTGCAAGAT
    AGTATGGGAG ACCCCTCAGT ACAAGATGGC GGTAGTCACA TCCCTGAGAC TAATGCTACA
    TCAGGAAGAG ATGAGCCCAA ACAGGACTTA CAGCAATGTG AAGGTTCTAC AGAACATATT
    TTGAAATCAG AAGATGTTTT ACAAGACAGT TTACGAAAGG CCCGCCTACA TCTTCTCACT
    CTTGGCCTTG ACGTGACTCA GGACATACAA GTGTTAAAAC CAGTACCATG TTTAGATATA
    AAAACATTAG TACTAGATAT CCAACAAGGG CATAGCAATT ACTTGGAGTG CTCTACTGAG
    TGTGATTCTA CCAGGGCACA TAACATGCCA CTTACTGAAT GGGTACCGCC AATTCTAGAG
    CATGTTCTTC TAACAGATAC ACCAGCTCTA GAGCATGTTC TACTAACAGA TGCACCAGCT
    TCAGAGCATG TTCTACTAAC AGATACACCA GCTTCAGAGC ATGTTCTACT AACAGATAGT
    CCATCTCTAG AACATGTTCT ACTAACAGAT ACACCAGCTT CAGAGCATGT TCTACTAACA
    GATACACCAG CTTCAGAGCA TGTTCTACTA ACAGATACAC CAGCTTCAGA GCATGTTCTA
    CTAACAGATA GTCCATCTCT AGAACATGTT CTACTAACAG ATGTACCAGC TTCAGAGCAT
    GTTCTACTAA CAGATACACC AGCTTCAGAG TATGTTCTAC TAACAGATAC ACCAGATTCA
    GAGCATGTTC TACTAACTGA TAGTCCATCT CTAGAACATG TTCTGCTAAC AGATGTACCA
    GCTTCAGAGA ATGTTCTACT AACAGATGCA CCAGCTTCAG AGCATGTTCT ACTAACAAAT
    GTACCAGCTT CAGAGCATGT TCTACTAACA GATGTACCAG CTTCAGAGCA TGTTCTACTA
    ACAAATGTAC CAGCTTCAGA GCATGTTCTA TTAACAGATA CACCAGCTTC AGGGCATGTT
    CTACTAACAG ATAGTCCATC TCTAGAACAT GTTCTACTAA CAGATGTACC AGCTTCAGAG
    CATGTTCTAC TAACAAATGT ACCAGCTTCA GAGTATGTTC TACTAACAGA TACACCAGCT
    TCAGGGCATG TTCTACTAAA AGATAGTCCA TCTTTAGAAC ATGTTCTACT AACAGATACA
    CCAGCTTCAT ATACAGTTGA TTCAGTCCAG CAAGATGAGG TTGCTGATCA CAAGCAGAAC
    AAAGACTTGC CTACATGTTC TGCCCAGGAC ACTGGTGTAT CTATGCAAGT TACCCTATCA
    GAGAAGACAA ATAAATTGAT ACCTGCAGTG TTCCCTGATG GAAGTGTCTC AATGAAACTA
    GCAAGTGCTC CTCAGAAAAT ACACCAAGTG AAATCTGTTC CTGTTGTGCC ACCAAAACCA
    CAATTTGCAA AGCTCCCCCC CGCCCTGAAA AGTAAAATTC ACATTAGCCC AGCAAATAAT
    ATATCTAAGG ACACGGAGAG CCACAAATCA GACAGTGTTG CCAGTGTGGA GATGGGCAAT
    CCTTGCAGTG AGTCTTCTCA AAGCCAGAAG CGTTCCAGCT GGAGAAGTGG GGCAAGCGTT
    TCATTTGACA CAGCAGTAGC CCAAGCTAGA GAAAGACAGA TGTCCCAGTA CCCCATCAGG
    AGAATGCAGA CTTACTGCGT TGGTGAATCG CACCATGTTC TGGACAACCC CAAGGAAGAC
    GCCTCTCTGC ATCGTCAAAA ACTTGCCCAA AAGCCAGGAG GGAGTAGACC TCACAGCTGT
    GTCTTGGCTC TAAACTCTTT GGAAGTGGCA AGTAAAGTGA ACAGTACTGA TGAAAAACCA
    AAAAGCAGCC ATTTATTGCA GGAGTGTAGG TGTGCAATGA GGCAGGACAC CGCCGGGGCC
    CGGAACAGAC GGAGTATGCC ACGTTTGGCC AAGCAGACCA GCACTGAGGA ACCTTCTGAG
    ACTTGTGAGA AGCCCCAGCG CAGATCCCTG CTATAA

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

    RefSeq XP_031747713.1
    CDS295..4590
    Translation

    Target ORF information:

    RefSeq Version XM_031891853.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis Rho GTPase activating protein 30 (arhgap30), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031891853.1

    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
    ATGTCGCTGG CAATGAAGGC ACGGCAGAAG GTGAGGAAGA AAACCACCAA GGACAAAACC 
    TTTGGATGTG ACTTACTGGA ACATCTCTCT ATTTCTGGAC TAGAAGTCCC ACAGGTGCTG
    AGAAGTTGCA CAGACTTTGT GGAAGAACAT GGAGTAGTAG ACGGGATCTA CAGGCTGTGT
    GGCATCGCCT CCAATGTCCA TAAATTAAGA CAGGAGTTTG ATATGGAGCG CCAACCAGAC
    CTGAGTAAAG ACACCTACCT ACAAGATGTG CACTGTGTCA GCTCTCTGTG CAAAGCGTAT
    TTCAGGGAAT TACCAAACCC ACTACTGACA TATCAGCTCT ATGATAAATT TGCGGATGCT
    GTGGCGATCC AGCTGGAGGA ACAACGGCTC ATAAAGATTA AAGAAGTGCT GAAGGAACTG
    CCACTCCCAC ATTACAGGAC ACTGGAGTAT CTAATGAGGC ATCTGCTCCG CATGGCTTCC
    TTCAGCTCTC AGACCAACAT GCATGCCCGT AACTTGGCTA TAGTATGGGC CCCTAACCTG
    CTCAGATCAA AGGATATTGA ATCATCTGGC TTTAATGGCA CAGCAGCATT TATGGAGGTC
    CGAATCCAAT CAATTGTGGT GGAATTCATT CTCACTCATG TGGAGCAGTT GTTTGGAGAC
    ATGCCTCTAG CTGGAGGGGA GCACTGCTCC ATAACGAAGC TGAATTCGCC AAGCTGTGTG
    CGTGAGGATT ACTTCCGCTC CCTGACCTAC AACATCCCAA GAAGTGCGCT AAACCAGGGC
    GATGGGCCCC CGCAGATGCG CCCCTACCAC ACCATCATTG AGTTTTCTGA TCACAAGCGG
    AAGGGTTCCC TCAAAGCGAA GAAATGGAAA TCCATTTTCA ACCTTGGCCG ATCCAACAAC
    GATTCCAAGC GCAAAGCCCA CAAGCAGGAT GAGAAAGACT CAGAAAAAAC AGAGAAAATG
    AGTCTTCGAC CGGCAAAAAG CATGGACTCC CTTAGTTCTG TGCCGTATGC ATCGGAGGCG
    ATGGATTCCG ACAGAGGCCT GATGGGAAAC AAATCTCCTA AAAGACTGGT CCCCTTGCGC
    AGGGAGAGTT TTGGGGCAAA CTCTAAGCCA GGTCAGGACT ACACAATTTC AGGAGAACTT
    TCCATCCCAC TGGAGACAAG TCATCAAAAA GATTATGAAG AAGAATCGAA GTCTGAACCA
    ACAACACCAA AACCAGGAAG GTCGTCTATT GTGGCAAGCC CACAAGGAAG ATCCCCTAAA
    AGTGCTCAGA ATCGAGCAGA GAAATGCTTA GGGGTCCATA TCTCAGAGCC GTTTTCTGTT
    ACTCTACCTC GCCATATCAC TTCCAACTTG TCCCGTCTGA CCAGAGTTAT GGAGTGTCCA
    AGTCTCAAAT ATCCTGTGTT GTACGGAAGT TCTGAGAAGA TTTCTTCACA GGAGGAAAGC
    CCACCTCAAG CAATGCTTGT ACCACCCAGC ACAGGCACTC AATGGAGCAA TGCAGAGCAA
    TCAGCCATGC TGCATGATGG ACCTGTAGTA AGCGAAGTCA AGTTGGGCTC ACTGCCTGAT
    GTAAGCCTTA GCATGGAAAG TGATGGTGGC CTTGATTTGA ATCAAGTCAA GTCTTCTGCT
    AACTCTGACA GAAGCCCGGT TCCAATGCAA GAGCAATCAG GCCATAGAGA CTCTGAACTA
    AGCTCTGAAA AGGACCAAGT GGACCCAAGT ATGGAACCTC AACATGCCAA TGGAAAAGGT
    AGCCCATTTG AGACTACAGA CAAGCTGAAA CCAGACACAG AGAAGAAACG CATTTCCCTT
    GAAGTTCAAG ACACGTTTTC GTTTCTGGAC AACCAAGACA CCACCCCAGA GAGCAGCGCA
    TTGGATGGTG ATGGGGCAGA GGAGGGGCTG CCTGGATATC ATGATGGCTG GGTCCCTGGG
    GATGAGGAGC TTCGCAGCGC CTACATGACT GACATGATTA CATCTTGCAT GCAGCAGAGA
    GAGGAATTCT CGGTGGAGCC CCCTCCAGAA GACCTCTCTA CAGAGGACGA TGAAGATATG
    TACTCCATGG CAGCAGAGTG CGCAGACACT TTAGAAGATC TAAGACATAT AGACGACTAT
    TCGGATGACA TTTATCTGAG TGCTTACGAT GACCTCAGCC CCCTGGCCCG TGAACTGGAA
    ACAATGTACG TGGTGGAACA AGACTCACCG GCAAATAAAA CCGTATTGGG GGAAAGCAGT
    TCCCGGAATT TACCTGGCAA TTCTAACCAT GAAGTCAACA CAGAAACACA ACTGGAATTA
    GAGCCTCCAG AAATGCAGGG CACTATTAAT GTTTACCTTT CCACTGAAGC CCTGCAAGAT
    AGTATGGGAG ACCCCTCAGT ACAAGATGGC GGTAGTCACA TCCCTGAGAC TAATGCTACA
    TCAGGAAGAG ATGAGCCCAA ACAGGACTTA CAGCAATGTG AAGGTTCTAC AGAACATATT
    TTGAAATCAG AAGATGTTTT ACAAGACAGT TTACGAAAGG CCCGCCTACA TCTTCTCACT
    CTTGGCCTTG ACGTGACTCA GGACATACAA GTGTTAAAAC CAGTACCATG TTTAGATATA
    AAAACATTAG TACTAGATAT CCAACAAGGG CATAGCAATT ACTTGGAGTG CTCTACTGAG
    TGTGATTCTA CCAGGGCACA TAACATGCCA CTTACTGAAT GGGTACCGCC AATTCTAGAG
    CATGTTCTTC TAACAGATAC ACCAGCTCTA GAGCATGTTC TACTAACAGA TGCACCAGCT
    TCAGAGCATG TTCTACTAAC AGATACACCA GCTTCAGAGC ATGTTCTACT AACAGATAGT
    CCATCTCTAG AACATGTTCT ACTAACAGAT ACACCAGCTT CAGAGCATGT TCTACTAACA
    GATACACCAG CTTCAGAGCA TGTTCTACTA ACAGATACAC CAGCTTCAGA GCATGTTCTA
    CTAACAGATA GTCCATCTCT AGAACATGTT CTACTAACAG ATGTACCAGC TTCAGAGCAT
    GTTCTACTAA CAGATACACC AGCTTCAGAG TATGTTCTAC TAACAGATAC ACCAGATTCA
    GAGCATGTTC TACTAACTGA TAGTCCATCT CTAGAACATG TTCTGCTAAC AGATGTACCA
    GCTTCAGAGA ATGTTCTACT AACAGATGCA CCAGCTTCAG AGCATGTTCT ACTAACAAAT
    GTACCAGCTT CAGAGCATGT TCTACTAACA GATGTACCAG CTTCAGAGCA TGTTCTACTA
    ACAAATGTAC CAGCTTCAGA GCATGTTCTA TTAACAGATA CACCAGCTTC AGGGCATGTT
    CTACTAACAG ATAGTCCATC TCTAGAACAT GTTCTACTAA CAGATGTACC AGCTTCAGAG
    CATGTTCTAC TAACAAATGT ACCAGCTTCA GAGTATGTTC TACTAACAGA TACACCAGCT
    TCAGGGCATG TTCTACTAAA AGATAGTCCA TCTTTAGAAC ATGTTCTACT AACAGATACA
    CCAGCTTCAT ATACAGTTGA TTCAGTCCAG CAAGATGAGG TTGCTGATCA CAAGCAGAAC
    AAAGACTTGC CTACATGTTC TGCCCAGGAC ACTGGTGTAT CTATGCAAGT TACCCTATCA
    GAGAAGACAA ATAAATTGAT ACCTGCAGTG TTCCCTGATG GAAGTGTCTC AATGAAACTA
    GCAAGTGCTC CTCAGAAAAT ACACCAAGTG AAATCTGTTC CTGTTGTGCC ACCAAAACCA
    CAATTTGCAA AGCTCCCCCC CGCCCTGAAA AGTAAAATTC ACATTAGCCC AGCAAATAAT
    ATATCTAAGG ACACGGAGAG CCACAAATCA GACAGTGTTG CCAGTGTGGA GATGGGCAAT
    CCTTGCAGTG AGTCTTCTCA AAGCCAGAAG CGTTCCAGCT GGAGAAGTGG GGCAAGCGTT
    TCATTTGACA CAGCAGTAGC CCAAGCTAGA GAAAGACAGA TGTCCCAGTA CCCCATCAGG
    AGAATGCAGA CTTACTGCGT TGGTGAATCG CACCATGTTC TGGACAACCC CAAGGAAGAC
    GCCTCTCTGC ATCGTCAAAA ACTTGCCCAA AAGCCAGGAG GGAGTAGACC TCACAGCTGT
    GTCTTGGCTC TAAACTCTTT GGAAGTGGCA AGTAAAGTGA ACAGTACTGA TGAAAAACCA
    AAAAGCAGCC ATTTATTGCA GGAGTGTAGG TGTGCAATGA GGCAGGACAC CGCCGGGGCC
    CGGAACAGAC GGAGTATGCC ACGTTTGGCC AAGCAGACCA GCACTGAGGA ACCTTCTGAG
    ACTTGTGAGA AGCCCCAGCG CAGATCCCTG CTATAA

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

    CloneID OXa19754
    Clone ID Related Accession (Same CDS sequence) XM_002943972.4
    Accession Version XM_002943972.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3612bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product rho GTPase-activating protein 30
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_016684169.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_002943972.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGAGCGCC AACCAGACCT GAGTAAAGAC ACCTACCTAC AAGATGTGCA CTGTGTCAGC 
    TCTCTGTGCA AAGCGTATTT CAGGGAATTA CCAAACCCAC TACTGACATA TCAGCTCTAT
    GATAAATTTG CGGATGCTGT GGCGATCCAG CTGGAGGAAC AACGGCTCAT AAAGATTAAA
    GAAGTGCTGA AGGAACTGCC ACTCCCACAT TACAGGACAC TGGAGTATCT AATGAGGCAT
    CTGCTCCGCA TGGCTTCCTT CAGCTCTCAG ACCAACATGC ATGCCCGTAA CTTGGCTATA
    GTATGGGCCC CTAACCTGCT CAGATCAAAG GATATTGAAT CATCTGGCTT TAATGGCACA
    GCAGCATTTA TGGAGGTCCG AATCCAATCA ATTGTGGTGG AATTCATTCT CACTCATGTG
    GAGCAGTTGT TTGGAGACAT GCCTCTAGCT GGAGGGGAGC ACTGCTCCAT AACGAAGCTG
    AATTCGCCAA GCTGTGTGCG TGAGGATTAC TTCCGCTCCC TGACCTACAA CATCCCAAGA
    AGTGCGCTAA ACCAGGGCGA TGGGCCCCCG CAGATGCGCC CCTACCACAC CATCATTGAG
    TTTTCTGATC ACAAGCGGAA GGGTTCCCTC AAAGCGAAGA AATGGAAATC CATTTTCAAC
    CTTGGCCGAT CCAACAACGA TTCCAAGCGC AAAGCCCACA AGCAGGATGA GAAAGACTCA
    GAAAAAACAG AGAAAATGAG TCTTCGACCG GCAAAAAGCA TGGACTCCCT TAGTTCTGTG
    CCGTATGCAT CGGAGGCGAT GGATTCCGAC AGAGGCCTGA TGGGAAACAA ATCTCCTAAA
    AGACTGGTCC CCTTGCGCAG GGAGAGTTTT GGGGCAAACT CTAAGCCAGG TCAGGACTAC
    ACAATTTCAG GAGAACTTTC CATCCCACTG GAGACAAGTC ATCAAAAAGA TTATGAAGAA
    GAATCGAAGT CTGAACCAAC AACACCAAAA CCAGGAAGGT CGTCTATTGT GGCAAGCCCA
    CAAGGAAGAT CCCCTAAAAG TGCTCAGAAT CGAGCAGAGA AATGCTTAGG GGTCCATATC
    TCAGAGCCGT TTTCTGTTAC TCTACCTCGC CATATCACTT CCAACTTGTC CCGTCTGACC
    AGAGTTATGG AGTGTCCAAG TCTCAAATAT CCTGTGTTGT ACGGAAGTTC TGAGAAGATT
    TCTTCACAGG AGGAAAGCCC ACCTCAAGCA ATGCTTGTAC CACCCAGCAC AGGCACTCAA
    TGGAGCAATG CAGAGCAATC AGCCATGCTG CATGATGGAC CTGTAGTAAG CGAAGTCAAG
    TTGGGCTCAC TGCCTGATGT AAGCCTTAGC ATGGAAAGTG ATGGTGGCCT TGATTTGAAT
    CAAGTCAAGT CTTCTGCTAA CTCTGACAGA AGCCCGGTTC CAATGCAAGA GCAATCAGGC
    CATAGAGACT CTGAACTAAG CTCTGAAAAG GACCAAGTGG ACCCAAGTAT GGAACCTCAA
    CATGCCAATG GAAAAGGTAG CCCATTTGAG ACTACAGACA AGCTGAAACC AGACACAGAG
    AAGAAACGCA TTTCCCTTGA AGTTCAAGAC ACGTTTTCGT TTCTGGACAA CCAAGACACC
    ACCCCAGAGA GCAGCGCATT GGATGGTGAT GGGGCAGAGG AGGGGCTGCC TGGATATCAT
    GATGGCTGGG TCCCTGGGGA TGAGGAGCTT CGCAGCGCCT ACATGACTGA CATGATTACA
    TCTTGCATGC AGCAGAGAGA GGAATTCTCG GTGGAGCCCC CTCCAGAAGA CCTCTCTACA
    GAGGACGATG AAGATATGTA CTCCATGGCA GCAGAGTGCG CAGACACTTT AGAAGATCTA
    AGACATATAG ACGACTATTC GGATGACATT TATCTGAGTG CTTACGATGA CCTCAGCCCC
    CTGGCCCGTG AACTGGAAAC AATGTACGTG GTGGAACAAG ACTCACCGGC AAATAAAACC
    GTATTGGGGG AAAGCAGTTC CCGGAATTTA CCTGGCAATT CTAACCATGA AGTCAACACA
    GAAACACAAC TGGAATTAGA GCCTCCAGAA ATGCAGGGCA CTATTAATGT TTACCTTTCC
    ACTGAAGCCC TGCAAGATAG TATGGGAGAC CCCTCAGTAC AAGATGGCGG TAGTCACATC
    CCTGAGACTA ATGCTACATC AGGAAGAGAT GAGCCCAAAC AGGACTTACA GCAATGTGAA
    GGTTCTACAG AACATATTTT GAAATCAGAA GATGTTTTAC AAGACAGTTT ACGAAAGGCC
    CGCCTACATC TTCTCACTCT TGGCCTTGAC GTGACTCAGG ACATACAAGT GTTAAAACCA
    GTACCATGTT TAGATATAAA AACATTAGTA CTAGATATCC AACAAGGGCA TAGCAATTAC
    TTGGAGTGCT CTACTGAGTG TGATTCTACC AGGGCACATA ACATGCCACT TACTGAATGG
    GTACCGCCAA TTCTAGAGCA TGTTCTTCTA ACAGATACAC CAGCTCTAGA GCATGTTCTA
    CTAACAGATG CACCAGCTTC AGAGCATGTT CTACTAACAG ATACACCAGC TTCAGAGCAT
    GTTCTACTAA CAGATAGTCC ATCTCTAGAA CATGTTCTAC TAACAGATAG TCCATCTCTA
    GAACATGTTC TACTAACAGA TGTACCAGCT TCAGAGCATG TTCTACTAAC AAATGTACCA
    GCTTCAGAGT ATGTTCTACT AACAGATACA CCAGCTTCAG GGCATGTTCT ACTAAAAGAT
    AGTCCATCTT TAGAACATGT TCTACTAACA GATACACCAG CTTCATATAC AGTTGATTCA
    GTCCAGCAAG ATGAGGTTGC TGATCACAAG CAGAACAAAG ACTTGCCTAC ATGTTCTGCC
    CAGGACACTG GTGTATCTAT GCAAGTTACC CTATCAGAGA AGACAAATAA ATTGATACCT
    GCAGTGTTCC CTGATGGAAG TGTCTCAATG AAACTAGCAA GTGCTCCTCA GAAAATACAC
    CAAGTGAAAT CTGTTCCTGT TGTGCCACCA AAACCACAAT TTGCAAAGCT CCCCCCCGCC
    CTGAAAAGTA AAATTCACAT TAGCCCAGCA AATAATATAT CTAAGGACAC GGAGAGCCAC
    AAATCAGACA GTGTTGCCAG TGTGGAGATG GGCAATCCTT GCAGTGAGTC TTCTCAAAGC
    CAGAAGCGTT CCAGCTGGAG AAGTGGGGCA AGCGTTTCAT TTGACACAGC AGTAGCCCAA
    GCTAGAGAAA GACAGATGTC CCAGTACCCC ATCAGGAGAA TGCAGACTTA CTGCGTTGGT
    GAATCGCACC ATGTTCTGGA CAACCCCAAG GAAGACGCCT CTCTGCATCG TCAAAAACTT
    GCCCAAAAGC CAGGAGGGAG TAGACCTCAC AGCTGTGTCT TGGCTCTAAA CTCTTTGGAA
    GTGGCAAGTA AAGTGAACAG TACTGATGAA AAACCAAAAA GCAGCCATTT ATTGCAGGAG
    TGTAGGTGTG CAATGAGGCA GGACACCGCC GGGGCCCGGA ACAGACGGAG TATGCCACGT
    TTGGCCAAGC AGACCAGCAC TGAGGAACCT TCTGAGACTT GTGAGAAGCC CCAGCGCAGA
    TCCCTGCTAT AA

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

    RefSeq XP_002944018.2
    CDS150..3761
    Translation

    Target ORF information:

    RefSeq Version XM_002943972.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis Rho GTPase activating protein 30 (arhgap30), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002943972.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGAGCGCC AACCAGACCT GAGTAAAGAC ACCTACCTAC AAGATGTGCA CTGTGTCAGC 
    TCTCTGTGCA AAGCGTATTT CAGGGAATTA CCAAACCCAC TACTGACATA TCAGCTCTAT
    GATAAATTTG CGGATGCTGT GGCGATCCAG CTGGAGGAAC AACGGCTCAT AAAGATTAAA
    GAAGTGCTGA AGGAACTGCC ACTCCCACAT TACAGGACAC TGGAGTATCT AATGAGGCAT
    CTGCTCCGCA TGGCTTCCTT CAGCTCTCAG ACCAACATGC ATGCCCGTAA CTTGGCTATA
    GTATGGGCCC CTAACCTGCT CAGATCAAAG GATATTGAAT CATCTGGCTT TAATGGCACA
    GCAGCATTTA TGGAGGTCCG AATCCAATCA ATTGTGGTGG AATTCATTCT CACTCATGTG
    GAGCAGTTGT TTGGAGACAT GCCTCTAGCT GGAGGGGAGC ACTGCTCCAT AACGAAGCTG
    AATTCGCCAA GCTGTGTGCG TGAGGATTAC TTCCGCTCCC TGACCTACAA CATCCCAAGA
    AGTGCGCTAA ACCAGGGCGA TGGGCCCCCG CAGATGCGCC CCTACCACAC CATCATTGAG
    TTTTCTGATC ACAAGCGGAA GGGTTCCCTC AAAGCGAAGA AATGGAAATC CATTTTCAAC
    CTTGGCCGAT CCAACAACGA TTCCAAGCGC AAAGCCCACA AGCAGGATGA GAAAGACTCA
    GAAAAAACAG AGAAAATGAG TCTTCGACCG GCAAAAAGCA TGGACTCCCT TAGTTCTGTG
    CCGTATGCAT CGGAGGCGAT GGATTCCGAC AGAGGCCTGA TGGGAAACAA ATCTCCTAAA
    AGACTGGTCC CCTTGCGCAG GGAGAGTTTT GGGGCAAACT CTAAGCCAGG TCAGGACTAC
    ACAATTTCAG GAGAACTTTC CATCCCACTG GAGACAAGTC ATCAAAAAGA TTATGAAGAA
    GAATCGAAGT CTGAACCAAC AACACCAAAA CCAGGAAGGT CGTCTATTGT GGCAAGCCCA
    CAAGGAAGAT CCCCTAAAAG TGCTCAGAAT CGAGCAGAGA AATGCTTAGG GGTCCATATC
    TCAGAGCCGT TTTCTGTTAC TCTACCTCGC CATATCACTT CCAACTTGTC CCGTCTGACC
    AGAGTTATGG AGTGTCCAAG TCTCAAATAT CCTGTGTTGT ACGGAAGTTC TGAGAAGATT
    TCTTCACAGG AGGAAAGCCC ACCTCAAGCA ATGCTTGTAC CACCCAGCAC AGGCACTCAA
    TGGAGCAATG CAGAGCAATC AGCCATGCTG CATGATGGAC CTGTAGTAAG CGAAGTCAAG
    TTGGGCTCAC TGCCTGATGT AAGCCTTAGC ATGGAAAGTG ATGGTGGCCT TGATTTGAAT
    CAAGTCAAGT CTTCTGCTAA CTCTGACAGA AGCCCGGTTC CAATGCAAGA GCAATCAGGC
    CATAGAGACT CTGAACTAAG CTCTGAAAAG GACCAAGTGG ACCCAAGTAT GGAACCTCAA
    CATGCCAATG GAAAAGGTAG CCCATTTGAG ACTACAGACA AGCTGAAACC AGACACAGAG
    AAGAAACGCA TTTCCCTTGA AGTTCAAGAC ACGTTTTCGT TTCTGGACAA CCAAGACACC
    ACCCCAGAGA GCAGCGCATT GGATGGTGAT GGGGCAGAGG AGGGGCTGCC TGGATATCAT
    GATGGCTGGG TCCCTGGGGA TGAGGAGCTT CGCAGCGCCT ACATGACTGA CATGATTACA
    TCTTGCATGC AGCAGAGAGA GGAATTCTCG GTGGAGCCCC CTCCAGAAGA CCTCTCTACA
    GAGGACGATG AAGATATGTA CTCCATGGCA GCAGAGTGCG CAGACACTTT AGAAGATCTA
    AGACATATAG ACGACTATTC GGATGACATT TATCTGAGTG CTTACGATGA CCTCAGCCCC
    CTGGCCCGTG AACTGGAAAC AATGTACGTG GTGGAACAAG ACTCACCGGC AAATAAAACC
    GTATTGGGGG AAAGCAGTTC CCGGAATTTA CCTGGCAATT CTAACCATGA AGTCAACACA
    GAAACACAAC TGGAATTAGA GCCTCCAGAA ATGCAGGGCA CTATTAATGT TTACCTTTCC
    ACTGAAGCCC TGCAAGATAG TATGGGAGAC CCCTCAGTAC AAGATGGCGG TAGTCACATC
    CCTGAGACTA ATGCTACATC AGGAAGAGAT GAGCCCAAAC AGGACTTACA GCAATGTGAA
    GGTTCTACAG AACATATTTT GAAATCAGAA GATGTTTTAC AAGACAGTTT ACGAAAGGCC
    CGCCTACATC TTCTCACTCT TGGCCTTGAC GTGACTCAGG ACATACAAGT GTTAAAACCA
    GTACCATGTT TAGATATAAA AACATTAGTA CTAGATATCC AACAAGGGCA TAGCAATTAC
    TTGGAGTGCT CTACTGAGTG TGATTCTACC AGGGCACATA ACATGCCACT TACTGAATGG
    GTACCGCCAA TTCTAGAGCA TGTTCTTCTA ACAGATACAC CAGCTCTAGA GCATGTTCTA
    CTAACAGATG CACCAGCTTC AGAGCATGTT CTACTAACAG ATACACCAGC TTCAGAGCAT
    GTTCTACTAA CAGATAGTCC ATCTCTAGAA CATGTTCTAC TAACAGATAG TCCATCTCTA
    GAACATGTTC TACTAACAGA TGTACCAGCT TCAGAGCATG TTCTACTAAC AAATGTACCA
    GCTTCAGAGT ATGTTCTACT AACAGATACA CCAGCTTCAG GGCATGTTCT ACTAAAAGAT
    AGTCCATCTT TAGAACATGT TCTACTAACA GATACACCAG CTTCATATAC AGTTGATTCA
    GTCCAGCAAG ATGAGGTTGC TGATCACAAG CAGAACAAAG ACTTGCCTAC ATGTTCTGCC
    CAGGACACTG GTGTATCTAT GCAAGTTACC CTATCAGAGA AGACAAATAA ATTGATACCT
    GCAGTGTTCC CTGATGGAAG TGTCTCAATG AAACTAGCAA GTGCTCCTCA GAAAATACAC
    CAAGTGAAAT CTGTTCCTGT TGTGCCACCA AAACCACAAT TTGCAAAGCT CCCCCCCGCC
    CTGAAAAGTA AAATTCACAT TAGCCCAGCA AATAATATAT CTAAGGACAC GGAGAGCCAC
    AAATCAGACA GTGTTGCCAG TGTGGAGATG GGCAATCCTT GCAGTGAGTC TTCTCAAAGC
    CAGAAGCGTT CCAGCTGGAG AAGTGGGGCA AGCGTTTCAT TTGACACAGC AGTAGCCCAA
    GCTAGAGAAA GACAGATGTC CCAGTACCCC ATCAGGAGAA TGCAGACTTA CTGCGTTGGT
    GAATCGCACC ATGTTCTGGA CAACCCCAAG GAAGACGCCT CTCTGCATCG TCAAAAACTT
    GCCCAAAAGC CAGGAGGGAG TAGACCTCAC AGCTGTGTCT TGGCTCTAAA CTCTTTGGAA
    GTGGCAAGTA AAGTGAACAG TACTGATGAA AAACCAAAAA GCAGCCATTT ATTGCAGGAG
    TGTAGGTGTG CAATGAGGCA GGACACCGCC GGGGCCCGGA ACAGACGGAG TATGCCACGT
    TTGGCCAAGC AGACCAGCAC TGAGGAACCT TCTGAGACTT GTGAGAAGCC CCAGCGCAGA
    TCCCTGCTAT AA

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