arhgap23 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following arhgap23 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the arhgap23 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
OXa50767 XM_002940156.5
Latest version!
Xenopus tropicalis Rho GTPase activating protein 23 (arhgap23), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa50768 XM_012952736.3
Latest version!
Xenopus tropicalis Rho GTPase activating protein 23 (arhgap23), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa17528 XM_012952736.2
Latest version!
Xenopus tropicalis Rho GTPase activating protein 23 (arhgap23), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $713.30
$1019.00
OXa50766 XM_004918665.4
Latest version!
Xenopus tropicalis Rho GTPase activating protein 23 (arhgap23), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa17526 XM_004918665.3
Latest version!
Xenopus tropicalis Rho GTPase activating protein 23 (arhgap23), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
OXa17527 XM_002940156.4
Latest version!
Xenopus tropicalis Rho GTPase activating protein 23 (arhgap23), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00

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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 OXa50767
    Clone ID Related Accession (Same CDS sequence) XM_002940156.5
    Accession Version XM_002940156.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4464bp)
    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 23 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030686.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_002940156.4. ##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
    4321
    4381
    4441
    ATGAATGGCG TGGCTTTCTG CCTGGTGGGA TCCCCGTCTC CCCCCGCCGC ACAAACCCCC 
    GTGGTGCCGC GGGATGGGGG CTGCCCGAGC ACTTCTCCGC CGCTGGACGA GTCCTTCCAC
    TGGGTCGGAC CCAGAACGCT GGTCATCAGG AAGAGCCAGC ATGGCTTCGG ATTCACCCTG
    CGCCACTTCA TAGTGTACCC ACCGGAATCT GCCGTGACCT CTGTCCACAA GGAGGAGGAT
    GGAGGCGCAG ATCTCCCCTC GGCAGCCAGT CAACTGGAGC CTATGGACAC CATCTTTGTC
    AAACAGGTGA AGGAAGGAGG CCCAGCCCAG AAGGCAGGAC TGTGCACAGG TGACCGACTG
    GTGAAGGTGA ATGGCGAGAG CATCATCGGA AAAACATACT CACAAGTTAT TGCACTCATA
    CAGAACAGTG ACGATACCCT GGAACTCTCC ATTATGCCCC GGGATGAAGA TATATTACAG
    CTGGCCTATT CCCAGGATGC TTATCTGAAA GGCAATGAGC CATATCGAGG TGGTGCCCAC
    AGTATCCCCG AGCCCCCACC TGTTTACTAC CCGTGGCGGA CTCACGAGCC TGTTTCTGGG
    TACGCGCCTG CTTCTCGGTA CCATCACCCA AACTCTGCCG ATGCGACTGC CATTAGGAGC
    CCTGTTCACA GTGAAGTGCC AAGAGGCAGC CCTGCCCACC GTGACAATTA CCCACGGACT
    GCTCCCACTT CTCTTTCGCA GGCTCGATCC TTCCAGGGGT CACCGTCCTC TTCAGACAGA
    TTCAGGGGTC CTGGGCCGCC CCACAGCAGT CACGGATGGC ACTCTCGTTA TATGCAAGAT
    GCGCCACGCA ATGTCTCGCC TGAACCCTGG GAGCGACTGG CCAGCCCGCG GTGGGTGAGT
    CCGTGGGAGC GACATCAGGC ACTGTGCAGC TGGATGTCCC AGCAGGCCCC TAGAAGGGGC
    TCCGCCTTAC CCCCAAGAAG ACGCAGTGCG TCGCAGGACC GGCTAGGAGA GACCACTCAC
    CTAAGCAACT GGCCTCACAG CGTATCCCAG GACACTCTTC ATCAGGCTCC ATTGTATGAG
    TCTTGGGGTC ACCGGGCACA GTCTGACAAC TTCCTGGCTC AGTTTGGTAC ATCCGCAGAG
    AAACTAAACT TAAGTGCTCT CATTTCACCA CCTTATGAGC ACCGCATCTG GCCACAGGAC
    AGACCACTAC ATTCTTCCCA AGCACCCTCT CGTGTTCGCC CAAGCCAAAC AGTATCCCCT
    GGCCTAAGGG AAGCAACGAA GCCCCCTCAG CCACACCCCA GCTCCGGGGA TTCTGGGTAC
    ATTGGATACC GTAGTTACAG TCCCTCATTC CAGAGACGAA CTGAACTTCT AAATGCCTTT
    TCCTTCCGGG AAACTGCCTT TAGCGGCCTC CCCACCTTCC GGACTGAGCA GTATTCTGGC
    TCTCCAGCTT CTCTGCCAGA GAGGAGAGAG TCTGCGGTAT CGGCCAGCTC CACAGATGAC
    AGCTGCTCCA CACAGGAGAG ACGGGAGGAG GTGGTCCTGA GGCAGAAACC CCCTTCTGGT
    CGAAAGGCTA CCACTGCAGT ACGCCAAGTC AATTTACACT TTCCAACAGA AGTGAAGGAT
    GTAGAGCCCC CAACGTCTAC CTCAGTTAGT GAAGAGGCTC CCAGAGAGCG GCCATTGCAA
    AGGGTGCCAC CACTGCCCCC CTCAGAGGAG CCTCTGGCAT CCATACCTTT CATAGATGAG
    CCAACAAGTC CTAGCATTGA CCTCCGCGCC AAACACGTCC CTGCCTCCTG TGTGGTGTCC
    AGCGCCATAA ACTCTGCCCC CGTAATCTCT GCCAGCCCCT CCTCGCCCTC CTTCAGCTTT
    AATATCAGTC GGCATTACTC TCAGGACTGC AGCAGTATTA AGTCCAGCCG GCGTTCCTCA
    TATCTCCTTG CTATAACCAC CGAGCGGTCT AAATCATGTG ACGACGGACT CAACACCTTC
    CGAGAAGAAG GAAGACTGCA AAGGCGAGTT GTGGGTCGAG TGCCAAGCTT GAGGATGCTC
    CGGAGCTTCT TCACTGATGG GTCCTTAGAC AGCTTGGAGG CCAATGAGGA CGGCCGGTCA
    AAGCGTCACT CGGCCTCGGA ACTTTCTGAG ACAGAGTTCA GTGACGTGCG CAGGGAGGGC
    TGGCTGCTGT ACAAACAGAT CCTCACCAAC AAGGGAAAGA AGGTTGGCAG CGGTCTCCGC
    CAGTGGAAGC GAGTGTTTGC TGTCCTGCGC CCTCACCTGC TGTTTTTGCA CAAGGACCGC
    CCAGAAGCAC GGGGCCCCGC CCCAGGTGAG GAGGAGCAGC CAATCAGCAT CCTCGGAAGC
    CTGGTGGACA TCTCTTACAG CGAGACCAAG AGGAAGCACG TCTTTCGGCT GACGACCCCT
    GACTTCTGTG AATATCTCTT TCAGGCTGAG GATCGGGATG ACATGCTCAG CTGGGTCAAA
    GCTATCCGGG AGAATAGCCG GATGGAGGGG GAGGACCCCG GCTTTGCCAG CCAAGCATTA
    ATTAACAAGA AATTAAACGA TTATCGCAAA GTAAGCATTA CAGGGGTCAA ACAGGAAACT
    TCCCCCAAGG GGTCCCGGAG TTTGGGCATC CGACCGGATC TCTTGTGGAC AAGTGGCGTG
    AGTGCTCCCC GCTCTCCCAA GCAGGACGGC GCGGCCAAAG AGGAGGCGCC GCCATCCAAG
    GGGGCCTGGG GAATTAATCT CATGAAGAAG AACAAAAAGT GCCCCCCCCG GGCGTTTGGG
    GTCAGACTGG AGGACTGCCA GCCGGCGGCA GAGAATAAGG GAGTGCCGCT GATAGTGGAG
    CTGTGCTGCT CTCAGGTGGA ACAGAAGGGT TTGGAATATT TGGGAATTTA CCGCGTCCCT
    GGAAATAATG CCGTGGTGAG CAGCCTGCAG GAGCATCTCA ACAAGGGCCT GAGCGAGTCC
    AACATACAGG ATCAGAGATG GCAGGACCTT AATGTTGTCA GCAGTTTGCT GAAGTCGTTT
    TTTCGGAAAC TCCCGGAACC TCTTTTCACT GATGACAAGT ACAGCGACTT CATTGAAGCG
    AATCGTATGG AGGATTCCAG AGAGCGAATG AAAATGCTTC GCAAACTGAT TAAGGAGCTG
    CCTTCTTATT ACTACGAGAC CCTCCGGTTT CTTGTGCGCC ACCTAAAGAC AATCGCAGAC
    CACTCGGAGA AAAACAAGAT GGAACCCCGG AACTTAGCCC TGGTCTTTGG CCCAACGCTG
    GTTCGCACGT CGGAGGACAA CATGACCGAC ATGGTGACAC ACATGCCAGA CCGGTACAAG
    ATTGTGGAGA CACTTATCCA ACACTTTGAT TGGTTCTTCA GTGAGGAGCA AGAGAAGGCA
    GAAAAGACCC CCGTGGATGA GACCAATTCC CAGAATATAC CAAACATTGA GCATCTTCTA
    CCAAATATCG GACGGACGGC AGGAACTGGG GAGAACTCGG ATTCCACCAA CAGTGACTCT
    GCTAAAGGGA AGGTCTCACG GAAGGAAATC TACGCCCGGG ACATCCTGTC CATTCCCTTT
    ATTTCAGCTG TAAACCGCAA GCGCAGAAAG CGGCGAGACG AGAAGCGTTT TGGGAGCAGC
    ACGGAGGAGG ACGATTCTGA GCAGGAGGCG GCGCGGGCAG GGCAAGTGGA GCAGAAGGCT
    GAGGCAGAAG TGGAGCTGAG GGAGACAGAG GAGTCGCCGG CACAAACCTG CTCACCCCAC
    GGGCCGGGAG CAGAGCGAAT ACACAGCGAG GAGACTGGGC AGCGGGACAA AGGTGCCCAG
    AGCCGGTGGC AGGGGTCCGG AGAGGAGAGA ATCCCCGTTG ACGCTCGCTC CATTGTATCT
    GGATATTCCA CTCTTTCTAC TCTGTGCTCA GAACCTGCCT CCAGTGTCCG TGGCGGGGAG
    GAGGCCGATG ATGAACGCAG TGAGTTCAGC CACATGGAGA CGGACACGGA GGGGGTAGGA
    GCCCGAGAGA CTGATGAGCG CCCTCACTCC CAGGACTCAT TTACCTCCCA GAGGCTCATA
    CCGGGGGACA CTCTAGCTCG GAGAAGGCTG GGCAGGGGGC GGATAGAGAG CAAAGAGGAA
    CCAGCGCCGC CCCGCAACTC CCTGCGCATC AGGCCGGCAG CCGATGACTT GTGTGTGGCC
    GCCTTACGCA AGCCCGGCTC GCCAGAGACC CGCCGGAGGA AGAGCGCCTG GCGCAGGCAC
    ACTGTGGTGC TCCCGGGGCA GCTGACTGAC TGCAACTTCA ACGACTGGAA AGAGCCAGTA
    CCAGGGGCCA CCGTGGCATC GGAACCTGGG AGCCGCCTCA GTGGTGGAGC CTGGGTAGAA
    GGGAGGGATT CTGGACTTAG CAGCCTGGAG TCTCAGAAAG CCAAAACTTC TGTGGCTCAG
    GAAGCTCTGG GCAACAAAGG ACCAAGCCAC GTAGCCAAGT CCCAGAATCC TCCTCTGCAG
    CCTGGACTCC GCCATTACCT ATAG

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

    RefSeq XP_002940202.2
    CDS153..4616
    Translation

    Target ORF information:

    RefSeq Version XM_002940156.5
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis Rho GTPase activating protein 23 (arhgap23), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002940156.5

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAATGGCG TGGCTTTCTG CCTGGTGGGA TCCCCGTCTC CCCCCGCCGC ACAAACCCCC 
    GTGGTGCCGC GGGATGGGGG CTGCCCGAGC ACTTCTCCGC CGCTGGACGA GTCCTTCCAC
    TGGGTCGGAC CCAGAACGCT GGTCATCAGG AAGAGCCAGC ATGGCTTCGG ATTCACCCTG
    CGCCACTTCA TAGTGTACCC ACCGGAATCT GCCGTGACCT CTGTCCACAA GGAGGAGGAT
    GGAGGCGCAG ATCTCCCCTC GGCAGCCAGT CAACTGGAGC CTATGGACAC CATCTTTGTC
    AAACAGGTGA AGGAAGGAGG CCCAGCCCAG AAGGCAGGAC TGTGCACAGG TGACCGACTG
    GTGAAGGTGA ATGGCGAGAG CATCATCGGA AAAACATACT CACAAGTTAT TGCACTCATA
    CAGAACAGTG ACGATACCCT GGAACTCTCC ATTATGCCCC GGGATGAAGA TATATTACAG
    CTGGCCTATT CCCAGGATGC TTATCTGAAA GGCAATGAGC CATATCGAGG TGGTGCCCAC
    AGTATCCCCG AGCCCCCACC TGTTTACTAC CCGTGGCGGA CTCACGAGCC TGTTTCTGGG
    TACGCGCCTG CTTCTCGGTA CCATCACCCA AACTCTGCCG ATGCGACTGC CATTAGGAGC
    CCTGTTCACA GTGAAGTGCC AAGAGGCAGC CCTGCCCACC GTGACAATTA CCCACGGACT
    GCTCCCACTT CTCTTTCGCA GGCTCGATCC TTCCAGGGGT CACCGTCCTC TTCAGACAGA
    TTCAGGGGTC CTGGGCCGCC CCACAGCAGT CACGGATGGC ACTCTCGTTA TATGCAAGAT
    GCGCCACGCA ATGTCTCGCC TGAACCCTGG GAGCGACTGG CCAGCCCGCG GTGGGTGAGT
    CCGTGGGAGC GACATCAGGC ACTGTGCAGC TGGATGTCCC AGCAGGCCCC TAGAAGGGGC
    TCCGCCTTAC CCCCAAGAAG ACGCAGTGCG TCGCAGGACC GGCTAGGAGA GACCACTCAC
    CTAAGCAACT GGCCTCACAG CGTATCCCAG GACACTCTTC ATCAGGCTCC ATTGTATGAG
    TCTTGGGGTC ACCGGGCACA GTCTGACAAC TTCCTGGCTC AGTTTGGTAC ATCCGCAGAG
    AAACTAAACT TAAGTGCTCT CATTTCACCA CCTTATGAGC ACCGCATCTG GCCACAGGAC
    AGACCACTAC ATTCTTCCCA AGCACCCTCT CGTGTTCGCC CAAGCCAAAC AGTATCCCCT
    GGCCTAAGGG AAGCAACGAA GCCCCCTCAG CCACACCCCA GCTCCGGGGA TTCTGGGTAC
    ATTGGATACC GTAGTTACAG TCCCTCATTC CAGAGACGAA CTGAACTTCT AAATGCCTTT
    TCCTTCCGGG AAACTGCCTT TAGCGGCCTC CCCACCTTCC GGACTGAGCA GTATTCTGGC
    TCTCCAGCTT CTCTGCCAGA GAGGAGAGAG TCTGCGGTAT CGGCCAGCTC CACAGATGAC
    AGCTGCTCCA CACAGGAGAG ACGGGAGGAG GTGGTCCTGA GGCAGAAACC CCCTTCTGGT
    CGAAAGGCTA CCACTGCAGT ACGCCAAGTC AATTTACACT TTCCAACAGA AGTGAAGGAT
    GTAGAGCCCC CAACGTCTAC CTCAGTTAGT GAAGAGGCTC CCAGAGAGCG GCCATTGCAA
    AGGGTGCCAC CACTGCCCCC CTCAGAGGAG CCTCTGGCAT CCATACCTTT CATAGATGAG
    CCAACAAGTC CTAGCATTGA CCTCCGCGCC AAACACGTCC CTGCCTCCTG TGTGGTGTCC
    AGCGCCATAA ACTCTGCCCC CGTAATCTCT GCCAGCCCCT CCTCGCCCTC CTTCAGCTTT
    AATATCAGTC GGCATTACTC TCAGGACTGC AGCAGTATTA AGTCCAGCCG GCGTTCCTCA
    TATCTCCTTG CTATAACCAC CGAGCGGTCT AAATCATGTG ACGACGGACT CAACACCTTC
    CGAGAAGAAG GAAGACTGCA AAGGCGAGTT GTGGGTCGAG TGCCAAGCTT GAGGATGCTC
    CGGAGCTTCT TCACTGATGG GTCCTTAGAC AGCTTGGAGG CCAATGAGGA CGGCCGGTCA
    AAGCGTCACT CGGCCTCGGA ACTTTCTGAG ACAGAGTTCA GTGACGTGCG CAGGGAGGGC
    TGGCTGCTGT ACAAACAGAT CCTCACCAAC AAGGGAAAGA AGGTTGGCAG CGGTCTCCGC
    CAGTGGAAGC GAGTGTTTGC TGTCCTGCGC CCTCACCTGC TGTTTTTGCA CAAGGACCGC
    CCAGAAGCAC GGGGCCCCGC CCCAGGTGAG GAGGAGCAGC CAATCAGCAT CCTCGGAAGC
    CTGGTGGACA TCTCTTACAG CGAGACCAAG AGGAAGCACG TCTTTCGGCT GACGACCCCT
    GACTTCTGTG AATATCTCTT TCAGGCTGAG GATCGGGATG ACATGCTCAG CTGGGTCAAA
    GCTATCCGGG AGAATAGCCG GATGGAGGGG GAGGACCCCG GCTTTGCCAG CCAAGCATTA
    ATTAACAAGA AATTAAACGA TTATCGCAAA GTAAGCATTA CAGGGGTCAA ACAGGAAACT
    TCCCCCAAGG GGTCCCGGAG TTTGGGCATC CGACCGGATC TCTTGTGGAC AAGTGGCGTG
    AGTGCTCCCC GCTCTCCCAA GCAGGACGGC GCGGCCAAAG AGGAGGCGCC GCCATCCAAG
    GGGGCCTGGG GAATTAATCT CATGAAGAAG AACAAAAAGT GCCCCCCCCG GGCGTTTGGG
    GTCAGACTGG AGGACTGCCA GCCGGCGGCA GAGAATAAGG GAGTGCCGCT GATAGTGGAG
    CTGTGCTGCT CTCAGGTGGA ACAGAAGGGT TTGGAATATT TGGGAATTTA CCGCGTCCCT
    GGAAATAATG CCGTGGTGAG CAGCCTGCAG GAGCATCTCA ACAAGGGCCT GAGCGAGTCC
    AACATACAGG ATCAGAGATG GCAGGACCTT AATGTTGTCA GCAGTTTGCT GAAGTCGTTT
    TTTCGGAAAC TCCCGGAACC TCTTTTCACT GATGACAAGT ACAGCGACTT CATTGAAGCG
    AATCGTATGG AGGATTCCAG AGAGCGAATG AAAATGCTTC GCAAACTGAT TAAGGAGCTG
    CCTTCTTATT ACTACGAGAC CCTCCGGTTT CTTGTGCGCC ACCTAAAGAC AATCGCAGAC
    CACTCGGAGA AAAACAAGAT GGAACCCCGG AACTTAGCCC TGGTCTTTGG CCCAACGCTG
    GTTCGCACGT CGGAGGACAA CATGACCGAC ATGGTGACAC ACATGCCAGA CCGGTACAAG
    ATTGTGGAGA CACTTATCCA ACACTTTGAT TGGTTCTTCA GTGAGGAGCA AGAGAAGGCA
    GAAAAGACCC CCGTGGATGA GACCAATTCC CAGAATATAC CAAACATTGA GCATCTTCTA
    CCAAATATCG GACGGACGGC AGGAACTGGG GAGAACTCGG ATTCCACCAA CAGTGACTCT
    GCTAAAGGGA AGGTCTCACG GAAGGAAATC TACGCCCGGG ACATCCTGTC CATTCCCTTT
    ATTTCAGCTG TAAACCGCAA GCGCAGAAAG CGGCGAGACG AGAAGCGTTT TGGGAGCAGC
    ACGGAGGAGG ACGATTCTGA GCAGGAGGCG GCGCGGGCAG GGCAAGTGGA GCAGAAGGCT
    GAGGCAGAAG TGGAGCTGAG GGAGACAGAG GAGTCGCCGG CACAAACCTG CTCACCCCAC
    GGGCCGGGAG CAGAGCGAAT ACACAGCGAG GAGACTGGGC AGCGGGACAA AGGTGCCCAG
    AGCCGGTGGC AGGGGTCCGG AGAGGAGAGA ATCCCCGTTG ACGCTCGCTC CATTGTATCT
    GGATATTCCA CTCTTTCTAC TCTGTGCTCA GAACCTGCCT CCAGTGTCCG TGGCGGGGAG
    GAGGCCGATG ATGAACGCAG TGAGTTCAGC CACATGGAGA CGGACACGGA GGGGGTAGGA
    GCCCGAGAGA CTGATGAGCG CCCTCACTCC CAGGACTCAT TTACCTCCCA GAGGCTCATA
    CCGGGGGACA CTCTAGCTCG GAGAAGGCTG GGCAGGGGGC GGATAGAGAG CAAAGAGGAA
    CCAGCGCCGC CCCGCAACTC CCTGCGCATC AGGCCGGCAG CCGATGACTT GTGTGTGGCC
    GCCTTACGCA AGCCCGGCTC GCCAGAGACC CGCCGGAGGA AGAGCGCCTG GCGCAGGCAC
    ACTGTGGTGC TCCCGGGGCA GCTGACTGAC TGCAACTTCA ACGACTGGAA AGAGCCAGTA
    CCAGGGGCCA CCGTGGCATC GGAACCTGGG AGCCGCCTCA GTGGTGGAGC CTGGGTAGAA
    GGGAGGGATT CTGGACTTAG CAGCCTGGAG TCTCAGAAAG CCAAAACTTC TGTGGCTCAG
    GAAGCTCTGG GCAACAAAGG ACCAAGCCAC GTAGCCAAGT CCCAGAATCC TCCTCTGCAG
    CCTGGACTCC GCCATTACCT ATAG

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

    CloneID OXa50768
    Clone ID Related Accession (Same CDS sequence) XM_012952736.3
    Accession Version XM_012952736.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3609bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product rho GTPase-activating protein 23 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030686.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012952736.2. ##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
    ATGCTCGGGG TGCAGAGCAG CGTCTGTGCC CCCCAAGGCC TGGCATGGTG CTTGGAAAAG 
    ATAGTAGGAG TGGATTGCAG TACCCCAGAG CCATGTTGCA TTTGGCTGGC AAGTTCCAGG
    AGCAGAGGAC TCGGGGCTTC CACCTTTCCT TCCAGGACCA GGAACCCACA CAAAACTCAA
    GGGACCCCCG TGGTGCCGCG GGATGGGGGC TGCCCGAGCA CTTCTCCGCC GCTGGACGAG
    TCCTTCCACT GGGTCGGACC CAGAACGCTG GTCATCAGGA AGAGCCAGCA TGGCTTCGGA
    TTCACCCTGC GCCACTTCAT AGTGTACCCA CCGGAATCTG CCGTGACCTC TGTCCACAAG
    GAGGAGGATG GAGGCGCAGA TCTCCCCTCG GCAGCCAGTC AACTGGAGCC TATGGACACC
    ATCTTTGTCA AACAGGTGAA GGAAGGAGGC CCAGCCCAGA AGGCAGGACT GTGCACAGGT
    GACCGACTGG TGAAGGTGAA TGGCGAGAGC ATCATCGGAA AAACATACTC ACAAGTTATT
    GCACTCATAC AGAACAGTGA CGATACCCTG GAACTCTCCA TTATGCCCCG GGATGAAGAT
    ATATTACAGC TGGCCTATTC CCAGGATGCT TATCTGAAAG GCAATGAGCC ATATCGAGGT
    GGTGCCCACA GTATCCCCGA GCCCCCACCT GTTTACTACC CGTGGCGGAC TCACGAGCCT
    GTTTCTGGGT ACGCGCCTGC TTCTCGGTAC CATCACCCAA ACTCTGCCGA TGCGACTGCC
    ATTAGGAGCC CTGTTCACAG TGAAGTGCCA AGAGGCAGCC CTGCCCACCG TGACAATTAC
    CCACGGACTG CTCCCACTTC TCTTTCGCAG GCTCGATCCT TCCAGGGGTC ACCGTCCTCT
    TCAGACAGAT TCAGGGGTCC TGGGCCGCCC CACAGCAGTC ACGGATGGCA CTCTCGTTAT
    ATGCAAGATG CGCCACGCAA TGTCTCGCCT GAACCCTGGG AGCGACTGGC CAGCCCGCGG
    TGGGTGAGTC CGTGGGAGCG ACATCAGGCA CTGTGCAGCT GGATGTCCCA GCAGGCCCCT
    AGAAGGGGCT CCGCCTTACC CCCAAGAAGA CGCAGTGCGT CGCAGGACCG GCTAGGAGAG
    ACCACTCACC TAAGCAACTG GCCTCACAGC GTATCCCAGG ACACTCTTCA TCAGGCTCCA
    TTGTATGAGT CTTGGGGTCA CCGGGCACAG TCTGACAACT TCCTGGCTCA GTTTGGTACA
    TCCGCAGAGA AACTAAACTT AAGTGCTCTC ATTTCACCAC CTTATGAGCA CCGCATCTGG
    CCACAGGACA GACCACTACA TTCTTCCCAA GCACCCTCTC GTGTTCGCCC AAGCCAAACA
    GTATCCCCTG GCCTAAGGGA AGCAACGAAG CCCCCTCAGC CACACCCCAG CTCCGGGGAT
    TCTGGGTACA TTGGATACCG TAGTTACAGT CCCTCATTCC AGAGACGAAC TGAACTTCTA
    AATGCCTTTT CCTTCCGGGA AACTGCCTTT AGCGGCCTCC CCACCTTCCG GACTGAGCAG
    TATTCTGGCT CTCCAGCTTC TCTGCCAGAG AGGAGAGAGT CTGCGGTATC GGCCAGCTCC
    ACAGATGACA GCTGCTCCAC ACAGGAGAGA CGGGAGGAGG TGGTCCTGAG GCAGAAACCC
    CCTTCTGGTC GAAAGGCTAC CACTGCAGTA CGCCAAGTCA ATTTACACTT TCCAACAGAA
    GTGAAGGATG TAGAGCCCCC AACGTCTACC TCAGTTAGTG AAGAGGCTCC CAGAGAGCGG
    CCATTGCAAA GGGTGCCACC ACTGCCCCCC TCAGAGGAGC CTCTGGCATC CATACCTTTC
    ATAGATGAGC CAACAAGTCC TAGCATTGAC CTCCGCGCCA AACACGTCCC TGCCTCCTGT
    GTGGTGTCCA GCGCCATAAA CTCTGCCCCC GTAATCTCTG CCAGCCCCTC CTCGCCCTCC
    TTCAGCTTTA ATATCAGTCG GCATTACTCT CAGGACTGCA GCAGTATTAA GTCCAGCCGG
    CGTTCCTCAT ATCTCCTTGC TATAACCACC GAGCGGTCTA AATCATGTGA CGACGGACTC
    AACACCTTCC GAGAAGAAGG AAGACTGCAA AGGCGAGTTG TGGGTCGAGT GCCAAGCTTG
    AGGATGCTCC GGAGCTTCTT CACTGATGGG TCCTTAGACA GCTTGGAGGC CAATGAGGAC
    GGCCGGTCAA AGCGTCACTC GGCCTCGGAA CTTTCTGAGA CAGAGTTCAG TGACGTGCGC
    AGGGAGGGCT GGCTGCTGTA CAAACAGATC CTCACCAACA AGGGAAAGAA GGTTGGCAGC
    GGTCTCCGCC AGTGGAAGCG AGTGTTTGCT GTCCTGCGCC CTCACCTGCT GTTTTTGCAC
    AAGGACCGCC CAGAAGCACG GGGCCCCGCC CCAGGTGAGG AGGAGCAGCC AATCAGCATC
    CTCGGAAGCC TGGTGGACAT CTCTTACAGC GAGACCAAGA GGAAGCACGT CTTTCGGCTG
    ACGACCCCTG ACTTCTGTGA ATATCTCTTT CAGGCTGAGG ATCGGGATGA CATGCTCAGC
    TGGGTCAAAG CTATCCGGGA GAATAGCCGG ATGGAGGGGG AGGACCCCGG CTTTGCCAGC
    CAAGCATTAA TTAACAAGAA ATTAAACGAT TATCGCAAAG TAAGCATTAC AGGGGTCAAA
    CAGGAAACTT CCCCCAAGGG GTCCCGGAGT TTGGGCATCC GACCGGATCT CTTGTGGACA
    AGTGGCGTGA GTGCTCCCCG CTCTCCCAAG CAGGACGGCG CGGCCAAAGA GGAGGCGCCG
    CCATCCAAGG GGGCCTGGGG AATTAATCTC ATGAAGAAGA ACAAAAAGTG CCCCCCCCGG
    GCGTTTGGGG TCAGACTGGA GGACTGCCAG CCGGCGGCAG AGAATAAGGG AGTGCCGCTG
    ATAGTGGAGC TGTGCTGCTC TCAGGTGGAA CAGAAGGGTT TGGAATATTT GGGAATTTAC
    CGCGTCCCTG GAAATAATGC CGTGGTGAGC AGCCTGCAGG AGCATCTCAA CAAGGGCCTG
    AGCGAGTCCA ACATACAGGA TCAGAGATGG CAGGACCTTA ATGTTGTCAG CAGTTTGCTG
    AAGTCGTTTT TTCGGAAACT CCCGGAACCT CTTTTCACTG ATGACAAGTA CAGCGACTTC
    ATTGAAGCGA ATCGTATGGA GGATTCCAGA GAGCGAATGA AAATGCTTCG CAAACTGATT
    AAGGAGCTGC CTTCTTATTA CTACGAGACC CTCCGGTTTC TTGTGCGCCA CCTAAAGACA
    ATCGCAGACC ACTCGGAGAA AAACAAGATG GAACCCCGGA ACTTAGCCCT GGTCTTTGGC
    CCAACGCTGG TTCGCACGTC GGAGGACAAC ATGACCGACA TGGTGACACA CATGCCAGAC
    CGGTACAAGA TTGTGGAGAC ACTTATCCAA CACTTTGATT GGTTCTTCAG TGAGGAGCAA
    GAGAAGGCAG AAAAGACCCC CGTGGATGAG ACCAATTCCC AGAATATACC AAACATTGAG
    CATCTTCTAC CAAATATCGG ACGGACGGCA GGAACTGGGG AGAACTCGGC GGATCTTCTG
    CAGCTGTGA

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

    RefSeq XP_012808190.1
    CDS483..4091
    Translation

    Target ORF information:

    RefSeq Version XM_012952736.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis Rho GTPase activating protein 23 (arhgap23), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012952736.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGCTCGGGG TGCAGAGCAG CGTCTGTGCC CCCCAAGGCC TGGCATGGTG CTTGGAAAAG 
    ATAGTAGGAG TGGATTGCAG TACCCCAGAG CCATGTTGCA TTTGGCTGGC AAGTTCCAGG
    AGCAGAGGAC TCGGGGCTTC CACCTTTCCT TCCAGGACCA GGAACCCACA CAAAACTCAA
    GGGACCCCCG TGGTGCCGCG GGATGGGGGC TGCCCGAGCA CTTCTCCGCC GCTGGACGAG
    TCCTTCCACT GGGTCGGACC CAGAACGCTG GTCATCAGGA AGAGCCAGCA TGGCTTCGGA
    TTCACCCTGC GCCACTTCAT AGTGTACCCA CCGGAATCTG CCGTGACCTC TGTCCACAAG
    GAGGAGGATG GAGGCGCAGA TCTCCCCTCG GCAGCCAGTC AACTGGAGCC TATGGACACC
    ATCTTTGTCA AACAGGTGAA GGAAGGAGGC CCAGCCCAGA AGGCAGGACT GTGCACAGGT
    GACCGACTGG TGAAGGTGAA TGGCGAGAGC ATCATCGGAA AAACATACTC ACAAGTTATT
    GCACTCATAC AGAACAGTGA CGATACCCTG GAACTCTCCA TTATGCCCCG GGATGAAGAT
    ATATTACAGC TGGCCTATTC CCAGGATGCT TATCTGAAAG GCAATGAGCC ATATCGAGGT
    GGTGCCCACA GTATCCCCGA GCCCCCACCT GTTTACTACC CGTGGCGGAC TCACGAGCCT
    GTTTCTGGGT ACGCGCCTGC TTCTCGGTAC CATCACCCAA ACTCTGCCGA TGCGACTGCC
    ATTAGGAGCC CTGTTCACAG TGAAGTGCCA AGAGGCAGCC CTGCCCACCG TGACAATTAC
    CCACGGACTG CTCCCACTTC TCTTTCGCAG GCTCGATCCT TCCAGGGGTC ACCGTCCTCT
    TCAGACAGAT TCAGGGGTCC TGGGCCGCCC CACAGCAGTC ACGGATGGCA CTCTCGTTAT
    ATGCAAGATG CGCCACGCAA TGTCTCGCCT GAACCCTGGG AGCGACTGGC CAGCCCGCGG
    TGGGTGAGTC CGTGGGAGCG ACATCAGGCA CTGTGCAGCT GGATGTCCCA GCAGGCCCCT
    AGAAGGGGCT CCGCCTTACC CCCAAGAAGA CGCAGTGCGT CGCAGGACCG GCTAGGAGAG
    ACCACTCACC TAAGCAACTG GCCTCACAGC GTATCCCAGG ACACTCTTCA TCAGGCTCCA
    TTGTATGAGT CTTGGGGTCA CCGGGCACAG TCTGACAACT TCCTGGCTCA GTTTGGTACA
    TCCGCAGAGA AACTAAACTT AAGTGCTCTC ATTTCACCAC CTTATGAGCA CCGCATCTGG
    CCACAGGACA GACCACTACA TTCTTCCCAA GCACCCTCTC GTGTTCGCCC AAGCCAAACA
    GTATCCCCTG GCCTAAGGGA AGCAACGAAG CCCCCTCAGC CACACCCCAG CTCCGGGGAT
    TCTGGGTACA TTGGATACCG TAGTTACAGT CCCTCATTCC AGAGACGAAC TGAACTTCTA
    AATGCCTTTT CCTTCCGGGA AACTGCCTTT AGCGGCCTCC CCACCTTCCG GACTGAGCAG
    TATTCTGGCT CTCCAGCTTC TCTGCCAGAG AGGAGAGAGT CTGCGGTATC GGCCAGCTCC
    ACAGATGACA GCTGCTCCAC ACAGGAGAGA CGGGAGGAGG TGGTCCTGAG GCAGAAACCC
    CCTTCTGGTC GAAAGGCTAC CACTGCAGTA CGCCAAGTCA ATTTACACTT TCCAACAGAA
    GTGAAGGATG TAGAGCCCCC AACGTCTACC TCAGTTAGTG AAGAGGCTCC CAGAGAGCGG
    CCATTGCAAA GGGTGCCACC ACTGCCCCCC TCAGAGGAGC CTCTGGCATC CATACCTTTC
    ATAGATGAGC CAACAAGTCC TAGCATTGAC CTCCGCGCCA AACACGTCCC TGCCTCCTGT
    GTGGTGTCCA GCGCCATAAA CTCTGCCCCC GTAATCTCTG CCAGCCCCTC CTCGCCCTCC
    TTCAGCTTTA ATATCAGTCG GCATTACTCT CAGGACTGCA GCAGTATTAA GTCCAGCCGG
    CGTTCCTCAT ATCTCCTTGC TATAACCACC GAGCGGTCTA AATCATGTGA CGACGGACTC
    AACACCTTCC GAGAAGAAGG AAGACTGCAA AGGCGAGTTG TGGGTCGAGT GCCAAGCTTG
    AGGATGCTCC GGAGCTTCTT CACTGATGGG TCCTTAGACA GCTTGGAGGC CAATGAGGAC
    GGCCGGTCAA AGCGTCACTC GGCCTCGGAA CTTTCTGAGA CAGAGTTCAG TGACGTGCGC
    AGGGAGGGCT GGCTGCTGTA CAAACAGATC CTCACCAACA AGGGAAAGAA GGTTGGCAGC
    GGTCTCCGCC AGTGGAAGCG AGTGTTTGCT GTCCTGCGCC CTCACCTGCT GTTTTTGCAC
    AAGGACCGCC CAGAAGCACG GGGCCCCGCC CCAGGTGAGG AGGAGCAGCC AATCAGCATC
    CTCGGAAGCC TGGTGGACAT CTCTTACAGC GAGACCAAGA GGAAGCACGT CTTTCGGCTG
    ACGACCCCTG ACTTCTGTGA ATATCTCTTT CAGGCTGAGG ATCGGGATGA CATGCTCAGC
    TGGGTCAAAG CTATCCGGGA GAATAGCCGG ATGGAGGGGG AGGACCCCGG CTTTGCCAGC
    CAAGCATTAA TTAACAAGAA ATTAAACGAT TATCGCAAAG TAAGCATTAC AGGGGTCAAA
    CAGGAAACTT CCCCCAAGGG GTCCCGGAGT TTGGGCATCC GACCGGATCT CTTGTGGACA
    AGTGGCGTGA GTGCTCCCCG CTCTCCCAAG CAGGACGGCG CGGCCAAAGA GGAGGCGCCG
    CCATCCAAGG GGGCCTGGGG AATTAATCTC ATGAAGAAGA ACAAAAAGTG CCCCCCCCGG
    GCGTTTGGGG TCAGACTGGA GGACTGCCAG CCGGCGGCAG AGAATAAGGG AGTGCCGCTG
    ATAGTGGAGC TGTGCTGCTC TCAGGTGGAA CAGAAGGGTT TGGAATATTT GGGAATTTAC
    CGCGTCCCTG GAAATAATGC CGTGGTGAGC AGCCTGCAGG AGCATCTCAA CAAGGGCCTG
    AGCGAGTCCA ACATACAGGA TCAGAGATGG CAGGACCTTA ATGTTGTCAG CAGTTTGCTG
    AAGTCGTTTT TTCGGAAACT CCCGGAACCT CTTTTCACTG ATGACAAGTA CAGCGACTTC
    ATTGAAGCGA ATCGTATGGA GGATTCCAGA GAGCGAATGA AAATGCTTCG CAAACTGATT
    AAGGAGCTGC CTTCTTATTA CTACGAGACC CTCCGGTTTC TTGTGCGCCA CCTAAAGACA
    ATCGCAGACC ACTCGGAGAA AAACAAGATG GAACCCCGGA ACTTAGCCCT GGTCTTTGGC
    CCAACGCTGG TTCGCACGTC GGAGGACAAC ATGACCGACA TGGTGACACA CATGCCAGAC
    CGGTACAAGA TTGTGGAGAC ACTTATCCAA CACTTTGATT GGTTCTTCAG TGAGGAGCAA
    GAGAAGGCAG AAAAGACCCC CGTGGATGAG ACCAATTCCC AGAATATACC AAACATTGAG
    CATCTTCTAC CAAATATCGG ACGGACGGCA GGAACTGGGG AGAACTCGGC GGATCTTCTG
    CAGCTGTGA

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

    CloneID OXa17528
    Clone ID Related Accession (Same CDS sequence) XM_012952736.2
    Accession Version XM_012952736.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3609bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product rho GTPase-activating protein 23 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030686.1) 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_012952736.1. ##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
    ATGCTCGGGG TGCAGAGCAG CGTCTGTGCC CCCCAAGGCC TGGCATGGTG CTTGGAAAAG 
    ATAGTAGGAG TGGATTGCAG TACCCCAGAG CCATGTTGCA TTTGGCTGGC AAGTTCCAGG
    AGCAGAGGAC TCGGGGCTTC CACCTTTCCT TCCAGGACCA GGAACCCACA CAAAACTCAA
    GGGACCCCCG TGGTGCCGCG GGATGGGGGC TGCCCGAGCA CTTCTCCGCC GCTGGACGAG
    TCCTTCCACT GGGTCGGACC CAGAACGCTG GTCATCAGGA AGAGCCAGCA TGGCTTCGGA
    TTCACCCTGC GCCACTTCAT AGTGTACCCA CCGGAATCTG CCGTGACCTC TGTCCACAAG
    GAGGAGGATG GGGGCGCAGA TCTCCCCTCG GCAGCCAGTC AACTGGAGCC TATGGACACC
    ATCTTTGTCA AACAGGTGAA GGAAGGAGGC CCAGCCCAGA AGGCAGGACT GTGCACAGGT
    GACCGACTGG TGAAGGTGAA TGGCGAGAGC ATCATCGGAA AAACATACTC ACAAGTTATT
    GCACTCATAC AGAACAGTGA CGATACCCTG GAACTCTCCA TTATGCCCCG GGATGAAGAT
    ATATTACAGC TGGCCTACTC CCAGGATGCT TATCTGAAAG GCAATGAGCC ATATCGAGGT
    GGTGCCCACA GTATCCCCGA GCCCCCACCT GTTTACTACC CGTGGCGGAC TCACGAGCCT
    GTTTCTGGGT ACGCGCCTGC TTCTCGGTAC CATCACCCAA ACTCTGCCGA TGCTACTGCC
    ATTAGGAGCC CTGTTCACAG TGAAGTGCCA AGAGGCAGCC CTGCCCACCG TGACAATTAC
    CCACGGACTG CTCCCACTTC TCTTTCGCAG GCTCGATCCT TCCAGGGGTC ACCGTCCTCT
    TCAGACAGAT TCAGGGGTCC TGGGCCGCCC CACAGCAGTC ACGGATGGCA CTCTCGTTAT
    ATGCAAGATG CGCCACGCAA TGTCTCGCCT GAGCCCTGGG AGCGACTGGC CAGCCCGCGG
    TGGGTGAGTC CGTGGGAGCG ACATCAGGCA CTGTGCAGCT GGATGTCCCA GCAGGCCCCT
    AGAAGGGGCT CCGCCTTACC CCCAAGAAGA CGCAGTGCGT CGCAGGACCG GCTAGGAGAG
    ACCACTCACC TAAGCAACTG GCCTCACAGC GTATCCCAGG ACACTCTTCA TCAGGCTCCA
    TTGTATGAGT CTTGGGGTCA CCGGGCACAG TCTGACAACT TCCTGGCTCA GTTTGGTACA
    TCCGCAGAGA AACTAAACTT AAGTGCTCTC ATTTCACCAC CTTATGAGCA CCGCATCTGG
    CCACAGGACA GACCACTACA TTCTTCCCAA GCACCCTCTC GTGTTCGCCC AAGCCAAACA
    GTATCCCCTG GCCTAAGGGA AGCAACAAAG CCCCCTCAGC CACACCCCAG CTCCGGGGAT
    TCTGGGTACA TTGGATACCG TAGTTACAGT CCCTCATTCC AGAGACGAAC TGAACTTCTA
    AATGCCTTTT CCTTCCGGGA AACTGCCTTT AGCGGCCTCC CCACCTTCCG GACTGAGCAG
    TATTCTGGCT CTCCAGCTTC TCTGCCAGAG AGGAGAGAGT CTGCGGTGTC GGCCAGCTCC
    ACAGATGACA GCTGCTCCAC ACAGGAGAGA CGGGAGGAGG TGGTCCTGAG GCAGAAACCC
    CCTTCTGGTC GAAAGGCTAC CACTGCAGTA CGCCAAGTCA ATTTACACTT TCCAACAGAA
    GTGAAGGATG TAGAGCCCCC AACGTCTACC TCAGTTAGTG AAGAGGCTCC CAGAGAGCGG
    CCATTGCAAA GGGTGCCACC ACTGCCCCCC TCAGAGGAGC CTCTGGCATC CATACCTTTC
    ATAGATGAGC CAACAAGTCC TAGCATTGAC CTCCGCGCCA AACACGTCCC TGCCTCCTGT
    GTGGTGTCCA GCGCCATAAA CTCTGCCCCC GTAATCTCTG CCAGCCCCTC CTCGCCCTCC
    TTCAGCTTTA ATATCAGTCG GCATTACTCT CAGGACTGCA GCAGTATTAA GTCCAGCCGG
    CGTTCCTCAT ATCTCCTTGC TATAACCACC GAGCGGTCTA AATCATGTGA CGACGGACTC
    AACACCTTCC GAGAAGAAGG AAGACTGCAA AGGCGAGTTG TGGGTCGAGT GCCAAGCTTG
    AGGATGCTCC GGAGCTTCTT CACTGATGGG TCCTTAGACA GCTTGGAGGC CAATGAGGAC
    GGCCGGTCAA AGCGTCACTC GGCCTCGGAA CTTTCTGAGA CAGAGTTCAG TGACGTGCGC
    AGGGAGGGCT GGCTGCTGTA CAAACAGATC CTCACCAACA AGGGAAAGAA GGTTGGCAGC
    GGTCTCCGCC AGTGGAAGCG AGTGTTTGCT GTCCTGCGCC CTCACCTGCT GTTTTTGCAC
    AAGGACCGCC CAGAAGCACG GGGCCCCGCC CCAGGTGAGG AGGAGCAGCC AATCAGCATC
    CTCGGAAGCC TGGTGGACAT CTCTTACAGC GAGACCAAGA GGAAGCACGT CTTTCGGCTG
    ACGACCCCTG ACTTCTGTGA ATATCTCTTT CAGGCTGAGG ATCGGGATGA CATGCTCAGC
    TGGGTCAAAG CTATCCGGGA GAATAGCCGG ATGGAGGGGG AGGACCCCGG CTTTGCCAGC
    CAAGCATTAA TTAACAAGAA ATTAAACGAT TATCGCAAAG TAAGCATTAC AGGGGTCAAA
    CAGGAAACTT CCCCCAAGGG GTCCCGGAGT TTGGGCATCC GACCGGATCT CTTGTGGACA
    AGTGGCGTGA GTGCTCCCCG CTCTCCCAAG CAGGACGGCG CGGCCAAAGA GGAGGCGCCG
    CCATCCAAGG GGGCCTGGGG AATTAATCTC ATGAAGAAGA ACAAAAAGTG CCCCCCCCGG
    GCGTTTGGGG TCAGACTGGA GGACTGCCAG CCGGCGGCAG AGAATAAGGG AGTGCCGCTG
    ATAGTGGAGC TGTGCTGCTC TCAGGTGGAA CAGAAGGGTT TGGAATATTT GGGAATTTAC
    CGCGTCCCTG GAAATAATGC CGTGGTGAGC AGCCTGCAGG AGCATCTCAA CAAGGGCCTG
    AGCGAGTCCA ACATACAGGA TCAGAGATGG CAGGACCTTA ATGTTGTCAG CAGTTTGCTG
    AAGTCGTTTT TTCGGAAACT CCCGGAACCT CTTTTCACTG ATGACAAGTA CAGCGACTTC
    ATTGAAGCGA ATCGTATGGA GGATTCCAGA GAGCGAATGA AAATGCTTCG CAAACTGATT
    AAGGAGCTGC CTTCTTATTA CTACGAGACC CTCCGGTTTC TTGTGCGCCA CCTAAAGACA
    ATCGCAGACC ACTCGGAGAA AAACAAGATG GAACCCCGGA ACTTAGCCCT GGTCTTTGGC
    CCAACGCTGG TTCGCACGTC GGAGGACAAC ATGACCGACA TGGTGACACA CATGCCAGAC
    CGGTACAAGA TTGTGGAGAC ACTTATCCAA CACTTTGATT GGTTCTTCAG TGAGGAGCAA
    GAGAAGGCAG AAAAGACCCC CGTGGATGAG ACCAATTCCC AGAATATACC AAACATTGAG
    CATCTTCTAC CAAATATCGG ACGGACGGCA GGAACTGGGG AGAACTCGGC GGATCTTCTG
    CAGCTGTGA

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

    RefSeq XP_012808190.1
    CDS793..4401
    Translation

    Target ORF information:

    RefSeq Version XM_012952736.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis Rho GTPase activating protein 23 (arhgap23), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012952736.2

    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
    ATGCTCGGGG TGCAGAGCAG CGTCTGTGCC CCCCAAGGCC TGGCATGGTG CTTGGAAAAG 
    ATAGTAGGAG TGGATTGCAG TACCCCAGAG CCATGTTGCA TTTGGCTGGC AAGTTCCAGG
    AGCAGAGGAC TCGGGGCTTC CACCTTTCCT TCCAGGACCA GGAACCCACA CAAAACTCAA
    GGGACCCCCG TGGTGCCGCG GGATGGGGGC TGCCCGAGCA CTTCTCCGCC GCTGGACGAG
    TCCTTCCACT GGGTCGGACC CAGAACGCTG GTCATCAGGA AGAGCCAGCA TGGCTTCGGA
    TTCACCCTGC GCCACTTCAT AGTGTACCCA CCGGAATCTG CCGTGACCTC TGTCCACAAG
    GAGGAGGATG GGGGCGCAGA TCTCCCCTCG GCAGCCAGTC AACTGGAGCC TATGGACACC
    ATCTTTGTCA AACAGGTGAA GGAAGGAGGC CCAGCCCAGA AGGCAGGACT GTGCACAGGT
    GACCGACTGG TGAAGGTGAA TGGCGAGAGC ATCATCGGAA AAACATACTC ACAAGTTATT
    GCACTCATAC AGAACAGTGA CGATACCCTG GAACTCTCCA TTATGCCCCG GGATGAAGAT
    ATATTACAGC TGGCCTACTC CCAGGATGCT TATCTGAAAG GCAATGAGCC ATATCGAGGT
    GGTGCCCACA GTATCCCCGA GCCCCCACCT GTTTACTACC CGTGGCGGAC TCACGAGCCT
    GTTTCTGGGT ACGCGCCTGC TTCTCGGTAC CATCACCCAA ACTCTGCCGA TGCTACTGCC
    ATTAGGAGCC CTGTTCACAG TGAAGTGCCA AGAGGCAGCC CTGCCCACCG TGACAATTAC
    CCACGGACTG CTCCCACTTC TCTTTCGCAG GCTCGATCCT TCCAGGGGTC ACCGTCCTCT
    TCAGACAGAT TCAGGGGTCC TGGGCCGCCC CACAGCAGTC ACGGATGGCA CTCTCGTTAT
    ATGCAAGATG CGCCACGCAA TGTCTCGCCT GAGCCCTGGG AGCGACTGGC CAGCCCGCGG
    TGGGTGAGTC CGTGGGAGCG ACATCAGGCA CTGTGCAGCT GGATGTCCCA GCAGGCCCCT
    AGAAGGGGCT CCGCCTTACC CCCAAGAAGA CGCAGTGCGT CGCAGGACCG GCTAGGAGAG
    ACCACTCACC TAAGCAACTG GCCTCACAGC GTATCCCAGG ACACTCTTCA TCAGGCTCCA
    TTGTATGAGT CTTGGGGTCA CCGGGCACAG TCTGACAACT TCCTGGCTCA GTTTGGTACA
    TCCGCAGAGA AACTAAACTT AAGTGCTCTC ATTTCACCAC CTTATGAGCA CCGCATCTGG
    CCACAGGACA GACCACTACA TTCTTCCCAA GCACCCTCTC GTGTTCGCCC AAGCCAAACA
    GTATCCCCTG GCCTAAGGGA AGCAACAAAG CCCCCTCAGC CACACCCCAG CTCCGGGGAT
    TCTGGGTACA TTGGATACCG TAGTTACAGT CCCTCATTCC AGAGACGAAC TGAACTTCTA
    AATGCCTTTT CCTTCCGGGA AACTGCCTTT AGCGGCCTCC CCACCTTCCG GACTGAGCAG
    TATTCTGGCT CTCCAGCTTC TCTGCCAGAG AGGAGAGAGT CTGCGGTGTC GGCCAGCTCC
    ACAGATGACA GCTGCTCCAC ACAGGAGAGA CGGGAGGAGG TGGTCCTGAG GCAGAAACCC
    CCTTCTGGTC GAAAGGCTAC CACTGCAGTA CGCCAAGTCA ATTTACACTT TCCAACAGAA
    GTGAAGGATG TAGAGCCCCC AACGTCTACC TCAGTTAGTG AAGAGGCTCC CAGAGAGCGG
    CCATTGCAAA GGGTGCCACC ACTGCCCCCC TCAGAGGAGC CTCTGGCATC CATACCTTTC
    ATAGATGAGC CAACAAGTCC TAGCATTGAC CTCCGCGCCA AACACGTCCC TGCCTCCTGT
    GTGGTGTCCA GCGCCATAAA CTCTGCCCCC GTAATCTCTG CCAGCCCCTC CTCGCCCTCC
    TTCAGCTTTA ATATCAGTCG GCATTACTCT CAGGACTGCA GCAGTATTAA GTCCAGCCGG
    CGTTCCTCAT ATCTCCTTGC TATAACCACC GAGCGGTCTA AATCATGTGA CGACGGACTC
    AACACCTTCC GAGAAGAAGG AAGACTGCAA AGGCGAGTTG TGGGTCGAGT GCCAAGCTTG
    AGGATGCTCC GGAGCTTCTT CACTGATGGG TCCTTAGACA GCTTGGAGGC CAATGAGGAC
    GGCCGGTCAA AGCGTCACTC GGCCTCGGAA CTTTCTGAGA CAGAGTTCAG TGACGTGCGC
    AGGGAGGGCT GGCTGCTGTA CAAACAGATC CTCACCAACA AGGGAAAGAA GGTTGGCAGC
    GGTCTCCGCC AGTGGAAGCG AGTGTTTGCT GTCCTGCGCC CTCACCTGCT GTTTTTGCAC
    AAGGACCGCC CAGAAGCACG GGGCCCCGCC CCAGGTGAGG AGGAGCAGCC AATCAGCATC
    CTCGGAAGCC TGGTGGACAT CTCTTACAGC GAGACCAAGA GGAAGCACGT CTTTCGGCTG
    ACGACCCCTG ACTTCTGTGA ATATCTCTTT CAGGCTGAGG ATCGGGATGA CATGCTCAGC
    TGGGTCAAAG CTATCCGGGA GAATAGCCGG ATGGAGGGGG AGGACCCCGG CTTTGCCAGC
    CAAGCATTAA TTAACAAGAA ATTAAACGAT TATCGCAAAG TAAGCATTAC AGGGGTCAAA
    CAGGAAACTT CCCCCAAGGG GTCCCGGAGT TTGGGCATCC GACCGGATCT CTTGTGGACA
    AGTGGCGTGA GTGCTCCCCG CTCTCCCAAG CAGGACGGCG CGGCCAAAGA GGAGGCGCCG
    CCATCCAAGG GGGCCTGGGG AATTAATCTC ATGAAGAAGA ACAAAAAGTG CCCCCCCCGG
    GCGTTTGGGG TCAGACTGGA GGACTGCCAG CCGGCGGCAG AGAATAAGGG AGTGCCGCTG
    ATAGTGGAGC TGTGCTGCTC TCAGGTGGAA CAGAAGGGTT TGGAATATTT GGGAATTTAC
    CGCGTCCCTG GAAATAATGC CGTGGTGAGC AGCCTGCAGG AGCATCTCAA CAAGGGCCTG
    AGCGAGTCCA ACATACAGGA TCAGAGATGG CAGGACCTTA ATGTTGTCAG CAGTTTGCTG
    AAGTCGTTTT TTCGGAAACT CCCGGAACCT CTTTTCACTG ATGACAAGTA CAGCGACTTC
    ATTGAAGCGA ATCGTATGGA GGATTCCAGA GAGCGAATGA AAATGCTTCG CAAACTGATT
    AAGGAGCTGC CTTCTTATTA CTACGAGACC CTCCGGTTTC TTGTGCGCCA CCTAAAGACA
    ATCGCAGACC ACTCGGAGAA AAACAAGATG GAACCCCGGA ACTTAGCCCT GGTCTTTGGC
    CCAACGCTGG TTCGCACGTC GGAGGACAAC ATGACCGACA TGGTGACACA CATGCCAGAC
    CGGTACAAGA TTGTGGAGAC ACTTATCCAA CACTTTGATT GGTTCTTCAG TGAGGAGCAA
    GAGAAGGCAG AAAAGACCCC CGTGGATGAG ACCAATTCCC AGAATATACC AAACATTGAG
    CATCTTCTAC CAAATATCGG ACGGACGGCA GGAACTGGGG AGAACTCGGC GGATCTTCTG
    CAGCTGTGA

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

    CloneID OXa50766
    Clone ID Related Accession (Same CDS sequence) XM_004918665.4
    Accession Version XM_004918665.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4593bp)
    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 23 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030686.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_004918665.3. ##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
    4321
    4381
    4441
    4501
    4561
    ATGCTCGGGG TGCAGAGCAG CGTCTGTGCC CCCCAAGGCC TGGCATGGTG CTTGGAAAAG 
    ATAGTAGGAG TGGATTGCAG TACCCCAGAG CCATGTTGCA TTTGGCTGGC AAGTTCCAGG
    AGCAGAGGAC TCGGGGCTTC CACCTTTCCT TCCAGGACCA GGAACCCACA CAAAACTCAA
    GGGACCCCCG TGGTGCCGCG GGATGGGGGC TGCCCGAGCA CTTCTCCGCC GCTGGACGAG
    TCCTTCCACT GGGTCGGACC CAGAACGCTG GTCATCAGGA AGAGCCAGCA TGGCTTCGGA
    TTCACCCTGC GCCACTTCAT AGTGTACCCA CCGGAATCTG CCGTGACCTC TGTCCACAAG
    GAGGAGGATG GAGGCGCAGA TCTCCCCTCG GCAGCCAGTC AACTGGAGCC TATGGACACC
    ATCTTTGTCA AACAGGTGAA GGAAGGAGGC CCAGCCCAGA AGGCAGGACT GTGCACAGGT
    GACCGACTGG TGAAGGTGAA TGGCGAGAGC ATCATCGGAA AAACATACTC ACAAGTTATT
    GCACTCATAC AGAACAGTGA CGATACCCTG GAACTCTCCA TTATGCCCCG GGATGAAGAT
    ATATTACAGC TGGCCTATTC CCAGGATGCT TATCTGAAAG GCAATGAGCC ATATCGAGGT
    GGTGCCCACA GTATCCCCGA GCCCCCACCT GTTTACTACC CGTGGCGGAC TCACGAGCCT
    GTTTCTGGGT ACGCGCCTGC TTCTCGGTAC CATCACCCAA ACTCTGCCGA TGCGACTGCC
    ATTAGGAGCC CTGTTCACAG TGAAGTGCCA AGAGGCAGCC CTGCCCACCG TGACAATTAC
    CCACGGACTG CTCCCACTTC TCTTTCGCAG GCTCGATCCT TCCAGGGGTC ACCGTCCTCT
    TCAGACAGAT TCAGGGGTCC TGGGCCGCCC CACAGCAGTC ACGGATGGCA CTCTCGTTAT
    ATGCAAGATG CGCCACGCAA TGTCTCGCCT GAACCCTGGG AGCGACTGGC CAGCCCGCGG
    TGGGTGAGTC CGTGGGAGCG ACATCAGGCA CTGTGCAGCT GGATGTCCCA GCAGGCCCCT
    AGAAGGGGCT CCGCCTTACC CCCAAGAAGA CGCAGTGCGT CGCAGGACCG GCTAGGAGAG
    ACCACTCACC TAAGCAACTG GCCTCACAGC GTATCCCAGG ACACTCTTCA TCAGGCTCCA
    TTGTATGAGT CTTGGGGTCA CCGGGCACAG TCTGACAACT TCCTGGCTCA GTTTGGTACA
    TCCGCAGAGA AACTAAACTT AAGTGCTCTC ATTTCACCAC CTTATGAGCA CCGCATCTGG
    CCACAGGACA GACCACTACA TTCTTCCCAA GCACCCTCTC GTGTTCGCCC AAGCCAAACA
    GTATCCCCTG GCCTAAGGGA AGCAACGAAG CCCCCTCAGC CACACCCCAG CTCCGGGGAT
    TCTGGGTACA TTGGATACCG TAGTTACAGT CCCTCATTCC AGAGACGAAC TGAACTTCTA
    AATGCCTTTT CCTTCCGGGA AACTGCCTTT AGCGGCCTCC CCACCTTCCG GACTGAGCAG
    TATTCTGGCT CTCCAGCTTC TCTGCCAGAG AGGAGAGAGT CTGCGGTATC GGCCAGCTCC
    ACAGATGACA GCTGCTCCAC ACAGGAGAGA CGGGAGGAGG TGGTCCTGAG GCAGAAACCC
    CCTTCTGGTC GAAAGGCTAC CACTGCAGTA CGCCAAGTCA ATTTACACTT TCCAACAGAA
    GTGAAGGATG TAGAGCCCCC AACGTCTACC TCAGTTAGTG AAGAGGCTCC CAGAGAGCGG
    CCATTGCAAA GGGTGCCACC ACTGCCCCCC TCAGAGGAGC CTCTGGCATC CATACCTTTC
    ATAGATGAGC CAACAAGTCC TAGCATTGAC CTCCGCGCCA AACACGTCCC TGCCTCCTGT
    GTGGTGTCCA GCGCCATAAA CTCTGCCCCC GTAATCTCTG CCAGCCCCTC CTCGCCCTCC
    TTCAGCTTTA ATATCAGTCG GCATTACTCT CAGGACTGCA GCAGTATTAA GTCCAGCCGG
    CGTTCCTCAT ATCTCCTTGC TATAACCACC GAGCGGTCTA AATCATGTGA CGACGGACTC
    AACACCTTCC GAGAAGAAGG AAGACTGCAA AGGCGAGTTG TGGGTCGAGT GCCAAGCTTG
    AGGATGCTCC GGAGCTTCTT CACTGATGGG TCCTTAGACA GCTTGGAGGC CAATGAGGAC
    GGCCGGTCAA AGCGTCACTC GGCCTCGGAA CTTTCTGAGA CAGAGTTCAG TGACGTGCGC
    AGGGAGGGCT GGCTGCTGTA CAAACAGATC CTCACCAACA AGGGAAAGAA GGTTGGCAGC
    GGTCTCCGCC AGTGGAAGCG AGTGTTTGCT GTCCTGCGCC CTCACCTGCT GTTTTTGCAC
    AAGGACCGCC CAGAAGCACG GGGCCCCGCC CCAGGTGAGG AGGAGCAGCC AATCAGCATC
    CTCGGAAGCC TGGTGGACAT CTCTTACAGC GAGACCAAGA GGAAGCACGT CTTTCGGCTG
    ACGACCCCTG ACTTCTGTGA ATATCTCTTT CAGGCTGAGG ATCGGGATGA CATGCTCAGC
    TGGGTCAAAG CTATCCGGGA GAATAGCCGG ATGGAGGGGG AGGACCCCGG CTTTGCCAGC
    CAAGCATTAA TTAACAAGAA ATTAAACGAT TATCGCAAAG TAAGCATTAC AGGGGTCAAA
    CAGGAAACTT CCCCCAAGGG GTCCCGGAGT TTGGGCATCC GACCGGATCT CTTGTGGACA
    AGTGGCGTGA GTGCTCCCCG CTCTCCCAAG CAGGACGGCG CGGCCAAAGA GGAGGCGCCG
    CCATCCAAGG GGGCCTGGGG AATTAATCTC ATGAAGAAGA ACAAAAAGTG CCCCCCCCGG
    GCGTTTGGGG TCAGACTGGA GGACTGCCAG CCGGCGGCAG AGAATAAGGG AGTGCCGCTG
    ATAGTGGAGC TGTGCTGCTC TCAGGTGGAA CAGAAGGGTT TGGAATATTT GGGAATTTAC
    CGCGTCCCTG GAAATAATGC CGTGGTGAGC AGCCTGCAGG AGCATCTCAA CAAGGGCCTG
    AGCGAGTCCA ACATACAGGA TCAGAGATGG CAGGACCTTA ATGTTGTCAG CAGTTTGCTG
    AAGTCGTTTT TTCGGAAACT CCCGGAACCT CTTTTCACTG ATGACAAGTA CAGCGACTTC
    ATTGAAGCGA ATCGTATGGA GGATTCCAGA GAGCGAATGA AAATGCTTCG CAAACTGATT
    AAGGAGCTGC CTTCTTATTA CTACGAGACC CTCCGGTTTC TTGTGCGCCA CCTAAAGACA
    ATCGCAGACC ACTCGGAGAA AAACAAGATG GAACCCCGGA ACTTAGCCCT GGTCTTTGGC
    CCAACGCTGG TTCGCACGTC GGAGGACAAC ATGACCGACA TGGTGACACA CATGCCAGAC
    CGGTACAAGA TTGTGGAGAC ACTTATCCAA CACTTTGATT GGTTCTTCAG TGAGGAGCAA
    GAGAAGGCAG AAAAGACCCC CGTGGATGAG ACCAATTCCC AGAATATACC AAACATTGAG
    CATCTTCTAC CAAATATCGG ACGGACGGCA GGAACTGGGG AGAACTCGGA TTCCACCAAC
    AGTGACTCTG CTAAAGGGAA GGTCTCACGG AAGGAAATCT ACGCCCGGGA CATCCTGTCC
    ATTCCCTTTA TTTCAGCTGT AAACCGCAAG CGCAGAAAGC GGCGAGACGA GAAGCGTTTT
    GGGAGCAGCA CGGAGGAGGA CGATTCTGAG CAGGAGGCGG CGCGGGCAGG GCAAGTGGAG
    CAGAAGGCTG AGGCAGAAGT GGAGCTGAGG GAGACAGAGG AGTCGCCGGC ACAAACCTGC
    TCACCCCACG GGCCGGGAGC AGAGCGAATA CACAGCGAGG AGACTGGGCA GCGGGACAAA
    GGTGCCCAGA GCCGGTGGCA GGGGTCCGGA GAGGAGAGAA TCCCCGTTGA CGCTCGCTCC
    ATTGTATCTG GATATTCCAC TCTTTCTACT CTGTGCTCAG AACCTGCCTC CAGTGTCCGT
    GGCGGGGAGG AGGCCGATGA TGAACGCAGT GAGTTCAGCC ACATGGAGAC GGACACGGAG
    GGGGTAGGAG CCCGAGAGAC TGATGAGCGC CCTCACTCCC AGGACTCATT TACCTCCCAG
    AGGCTCATAC CGGGGGACAC TCTAGCTCGG AGAAGGCTGG GCAGGGGGCG GATAGAGAGC
    AAAGAGGAAC CAGCGCCGCC CCGCAACTCC CTGCGCATCA GGCCGGCAGC CGATGACTTG
    TGTGTGGCCG CCTTACGCAA GCCCGGCTCG CCAGAGACCC GCCGGAGGAA GAGCGCCTGG
    CGCAGGCACA CTGTGGTGCT CCCGGGGCAG CTGACTGACT GCAACTTCAA CGACTGGAAA
    GAGCCAGTAC CAGGGGCCAC CGTGGCATCG GAACCTGGGA GCCGCCTCAG TGGTGGAGCC
    TGGGTAGAAG GGAGGGATTC TGGACTTAGC AGCCTGGAGT CTCAGAAAGC CAAAACTTCT
    GTGGCTCAGG AAGCTCTGGG CAACAAAGGA CCAAGCCACG TAGCCAAGTC CCAGAATCCT
    CCTCTGCAGC CTGGACTCCG CCATTACCTA TAG

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

    RefSeq XP_004918722.1
    CDS481..5073
    Translation

    Target ORF information:

    RefSeq Version XM_004918665.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis Rho GTPase activating protein 23 (arhgap23), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004918665.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCTCGGGG TGCAGAGCAG CGTCTGTGCC CCCCAAGGCC TGGCATGGTG CTTGGAAAAG 
    ATAGTAGGAG TGGATTGCAG TACCCCAGAG CCATGTTGCA TTTGGCTGGC AAGTTCCAGG
    AGCAGAGGAC TCGGGGCTTC CACCTTTCCT TCCAGGACCA GGAACCCACA CAAAACTCAA
    GGGACCCCCG TGGTGCCGCG GGATGGGGGC TGCCCGAGCA CTTCTCCGCC GCTGGACGAG
    TCCTTCCACT GGGTCGGACC CAGAACGCTG GTCATCAGGA AGAGCCAGCA TGGCTTCGGA
    TTCACCCTGC GCCACTTCAT AGTGTACCCA CCGGAATCTG CCGTGACCTC TGTCCACAAG
    GAGGAGGATG GAGGCGCAGA TCTCCCCTCG GCAGCCAGTC AACTGGAGCC TATGGACACC
    ATCTTTGTCA AACAGGTGAA GGAAGGAGGC CCAGCCCAGA AGGCAGGACT GTGCACAGGT
    GACCGACTGG TGAAGGTGAA TGGCGAGAGC ATCATCGGAA AAACATACTC ACAAGTTATT
    GCACTCATAC AGAACAGTGA CGATACCCTG GAACTCTCCA TTATGCCCCG GGATGAAGAT
    ATATTACAGC TGGCCTATTC CCAGGATGCT TATCTGAAAG GCAATGAGCC ATATCGAGGT
    GGTGCCCACA GTATCCCCGA GCCCCCACCT GTTTACTACC CGTGGCGGAC TCACGAGCCT
    GTTTCTGGGT ACGCGCCTGC TTCTCGGTAC CATCACCCAA ACTCTGCCGA TGCGACTGCC
    ATTAGGAGCC CTGTTCACAG TGAAGTGCCA AGAGGCAGCC CTGCCCACCG TGACAATTAC
    CCACGGACTG CTCCCACTTC TCTTTCGCAG GCTCGATCCT TCCAGGGGTC ACCGTCCTCT
    TCAGACAGAT TCAGGGGTCC TGGGCCGCCC CACAGCAGTC ACGGATGGCA CTCTCGTTAT
    ATGCAAGATG CGCCACGCAA TGTCTCGCCT GAACCCTGGG AGCGACTGGC CAGCCCGCGG
    TGGGTGAGTC CGTGGGAGCG ACATCAGGCA CTGTGCAGCT GGATGTCCCA GCAGGCCCCT
    AGAAGGGGCT CCGCCTTACC CCCAAGAAGA CGCAGTGCGT CGCAGGACCG GCTAGGAGAG
    ACCACTCACC TAAGCAACTG GCCTCACAGC GTATCCCAGG ACACTCTTCA TCAGGCTCCA
    TTGTATGAGT CTTGGGGTCA CCGGGCACAG TCTGACAACT TCCTGGCTCA GTTTGGTACA
    TCCGCAGAGA AACTAAACTT AAGTGCTCTC ATTTCACCAC CTTATGAGCA CCGCATCTGG
    CCACAGGACA GACCACTACA TTCTTCCCAA GCACCCTCTC GTGTTCGCCC AAGCCAAACA
    GTATCCCCTG GCCTAAGGGA AGCAACGAAG CCCCCTCAGC CACACCCCAG CTCCGGGGAT
    TCTGGGTACA TTGGATACCG TAGTTACAGT CCCTCATTCC AGAGACGAAC TGAACTTCTA
    AATGCCTTTT CCTTCCGGGA AACTGCCTTT AGCGGCCTCC CCACCTTCCG GACTGAGCAG
    TATTCTGGCT CTCCAGCTTC TCTGCCAGAG AGGAGAGAGT CTGCGGTATC GGCCAGCTCC
    ACAGATGACA GCTGCTCCAC ACAGGAGAGA CGGGAGGAGG TGGTCCTGAG GCAGAAACCC
    CCTTCTGGTC GAAAGGCTAC CACTGCAGTA CGCCAAGTCA ATTTACACTT TCCAACAGAA
    GTGAAGGATG TAGAGCCCCC AACGTCTACC TCAGTTAGTG AAGAGGCTCC CAGAGAGCGG
    CCATTGCAAA GGGTGCCACC ACTGCCCCCC TCAGAGGAGC CTCTGGCATC CATACCTTTC
    ATAGATGAGC CAACAAGTCC TAGCATTGAC CTCCGCGCCA AACACGTCCC TGCCTCCTGT
    GTGGTGTCCA GCGCCATAAA CTCTGCCCCC GTAATCTCTG CCAGCCCCTC CTCGCCCTCC
    TTCAGCTTTA ATATCAGTCG GCATTACTCT CAGGACTGCA GCAGTATTAA GTCCAGCCGG
    CGTTCCTCAT ATCTCCTTGC TATAACCACC GAGCGGTCTA AATCATGTGA CGACGGACTC
    AACACCTTCC GAGAAGAAGG AAGACTGCAA AGGCGAGTTG TGGGTCGAGT GCCAAGCTTG
    AGGATGCTCC GGAGCTTCTT CACTGATGGG TCCTTAGACA GCTTGGAGGC CAATGAGGAC
    GGCCGGTCAA AGCGTCACTC GGCCTCGGAA CTTTCTGAGA CAGAGTTCAG TGACGTGCGC
    AGGGAGGGCT GGCTGCTGTA CAAACAGATC CTCACCAACA AGGGAAAGAA GGTTGGCAGC
    GGTCTCCGCC AGTGGAAGCG AGTGTTTGCT GTCCTGCGCC CTCACCTGCT GTTTTTGCAC
    AAGGACCGCC CAGAAGCACG GGGCCCCGCC CCAGGTGAGG AGGAGCAGCC AATCAGCATC
    CTCGGAAGCC TGGTGGACAT CTCTTACAGC GAGACCAAGA GGAAGCACGT CTTTCGGCTG
    ACGACCCCTG ACTTCTGTGA ATATCTCTTT CAGGCTGAGG ATCGGGATGA CATGCTCAGC
    TGGGTCAAAG CTATCCGGGA GAATAGCCGG ATGGAGGGGG AGGACCCCGG CTTTGCCAGC
    CAAGCATTAA TTAACAAGAA ATTAAACGAT TATCGCAAAG TAAGCATTAC AGGGGTCAAA
    CAGGAAACTT CCCCCAAGGG GTCCCGGAGT TTGGGCATCC GACCGGATCT CTTGTGGACA
    AGTGGCGTGA GTGCTCCCCG CTCTCCCAAG CAGGACGGCG CGGCCAAAGA GGAGGCGCCG
    CCATCCAAGG GGGCCTGGGG AATTAATCTC ATGAAGAAGA ACAAAAAGTG CCCCCCCCGG
    GCGTTTGGGG TCAGACTGGA GGACTGCCAG CCGGCGGCAG AGAATAAGGG AGTGCCGCTG
    ATAGTGGAGC TGTGCTGCTC TCAGGTGGAA CAGAAGGGTT TGGAATATTT GGGAATTTAC
    CGCGTCCCTG GAAATAATGC CGTGGTGAGC AGCCTGCAGG AGCATCTCAA CAAGGGCCTG
    AGCGAGTCCA ACATACAGGA TCAGAGATGG CAGGACCTTA ATGTTGTCAG CAGTTTGCTG
    AAGTCGTTTT TTCGGAAACT CCCGGAACCT CTTTTCACTG ATGACAAGTA CAGCGACTTC
    ATTGAAGCGA ATCGTATGGA GGATTCCAGA GAGCGAATGA AAATGCTTCG CAAACTGATT
    AAGGAGCTGC CTTCTTATTA CTACGAGACC CTCCGGTTTC TTGTGCGCCA CCTAAAGACA
    ATCGCAGACC ACTCGGAGAA AAACAAGATG GAACCCCGGA ACTTAGCCCT GGTCTTTGGC
    CCAACGCTGG TTCGCACGTC GGAGGACAAC ATGACCGACA TGGTGACACA CATGCCAGAC
    CGGTACAAGA TTGTGGAGAC ACTTATCCAA CACTTTGATT GGTTCTTCAG TGAGGAGCAA
    GAGAAGGCAG AAAAGACCCC CGTGGATGAG ACCAATTCCC AGAATATACC AAACATTGAG
    CATCTTCTAC CAAATATCGG ACGGACGGCA GGAACTGGGG AGAACTCGGA TTCCACCAAC
    AGTGACTCTG CTAAAGGGAA GGTCTCACGG AAGGAAATCT ACGCCCGGGA CATCCTGTCC
    ATTCCCTTTA TTTCAGCTGT AAACCGCAAG CGCAGAAAGC GGCGAGACGA GAAGCGTTTT
    GGGAGCAGCA CGGAGGAGGA CGATTCTGAG CAGGAGGCGG CGCGGGCAGG GCAAGTGGAG
    CAGAAGGCTG AGGCAGAAGT GGAGCTGAGG GAGACAGAGG AGTCGCCGGC ACAAACCTGC
    TCACCCCACG GGCCGGGAGC AGAGCGAATA CACAGCGAGG AGACTGGGCA GCGGGACAAA
    GGTGCCCAGA GCCGGTGGCA GGGGTCCGGA GAGGAGAGAA TCCCCGTTGA CGCTCGCTCC
    ATTGTATCTG GATATTCCAC TCTTTCTACT CTGTGCTCAG AACCTGCCTC CAGTGTCCGT
    GGCGGGGAGG AGGCCGATGA TGAACGCAGT GAGTTCAGCC ACATGGAGAC GGACACGGAG
    GGGGTAGGAG CCCGAGAGAC TGATGAGCGC CCTCACTCCC AGGACTCATT TACCTCCCAG
    AGGCTCATAC CGGGGGACAC TCTAGCTCGG AGAAGGCTGG GCAGGGGGCG GATAGAGAGC
    AAAGAGGAAC CAGCGCCGCC CCGCAACTCC CTGCGCATCA GGCCGGCAGC CGATGACTTG
    TGTGTGGCCG CCTTACGCAA GCCCGGCTCG CCAGAGACCC GCCGGAGGAA GAGCGCCTGG
    CGCAGGCACA CTGTGGTGCT CCCGGGGCAG CTGACTGACT GCAACTTCAA CGACTGGAAA
    GAGCCAGTAC CAGGGGCCAC CGTGGCATCG GAACCTGGGA GCCGCCTCAG TGGTGGAGCC
    TGGGTAGAAG GGAGGGATTC TGGACTTAGC AGCCTGGAGT CTCAGAAAGC CAAAACTTCT
    GTGGCTCAGG AAGCTCTGGG CAACAAAGGA CCAAGCCACG TAGCCAAGTC CCAGAATCCT
    CCTCTGCAGC CTGGACTCCG CCATTACCTA TAG

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

    CloneID OXa17526
    Clone ID Related Accession (Same CDS sequence) XM_004918665.3
    Accession Version XM_004918665.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4593bp)
    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 23 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030686.1) 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_004918665.2. ##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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCTCGGGG TGCAGAGCAG CGTCTGTGCC CCCCAAGGCC TGGCATGGTG CTTGGAAAAG 
    ATAGTAGGAG TGGATTGCAG TACCCCAGAG CCATGTTGCA TTTGGCTGGC AAGTTCCAGG
    AGCAGAGGAC TCGGGGCTTC CACCTTTCCT TCCAGGACCA GGAACCCACA CAAAACTCAA
    GGGACCCCCG TGGTGCCGCG GGATGGGGGC TGCCCGAGCA CTTCTCCGCC GCTGGACGAG
    TCCTTCCACT GGGTCGGACC CAGAACGCTG GTCATCAGGA AGAGCCAGCA TGGCTTCGGA
    TTCACCCTGC GCCACTTCAT AGTGTACCCA CCGGAATCTG CCGTGACCTC TGTCCACAAG
    GAGGAGGATG GGGGCGCAGA TCTCCCCTCG GCAGCCAGTC AACTGGAGCC TATGGACACC
    ATCTTTGTCA AACAGGTGAA GGAAGGAGGC CCAGCCCAGA AGGCAGGACT GTGCACAGGT
    GACCGACTGG TGAAGGTGAA TGGCGAGAGC ATCATCGGAA AAACATACTC ACAAGTTATT
    GCACTCATAC AGAACAGTGA CGATACCCTG GAACTCTCCA TTATGCCCCG GGATGAAGAT
    ATATTACAGC TGGCCTACTC CCAGGATGCT TATCTGAAAG GCAATGAGCC ATATCGAGGT
    GGTGCCCACA GTATCCCCGA GCCCCCACCT GTTTACTACC CGTGGCGGAC TCACGAGCCT
    GTTTCTGGGT ACGCGCCTGC TTCTCGGTAC CATCACCCAA ACTCTGCCGA TGCTACTGCC
    ATTAGGAGCC CTGTTCACAG TGAAGTGCCA AGAGGCAGCC CTGCCCACCG TGACAATTAC
    CCACGGACTG CTCCCACTTC TCTTTCGCAG GCTCGATCCT TCCAGGGGTC ACCGTCCTCT
    TCAGACAGAT TCAGGGGTCC TGGGCCGCCC CACAGCAGTC ACGGATGGCA CTCTCGTTAT
    ATGCAAGATG CGCCACGCAA TGTCTCGCCT GAGCCCTGGG AGCGACTGGC CAGCCCGCGG
    TGGGTGAGTC CGTGGGAGCG ACATCAGGCA CTGTGCAGCT GGATGTCCCA GCAGGCCCCT
    AGAAGGGGCT CCGCCTTACC CCCAAGAAGA CGCAGTGCGT CGCAGGACCG GCTAGGAGAG
    ACCACTCACC TAAGCAACTG GCCTCACAGC GTATCCCAGG ACACTCTTCA TCAGGCTCCA
    TTGTATGAGT CTTGGGGTCA CCGGGCACAG TCTGACAACT TCCTGGCTCA GTTTGGTACA
    TCCGCAGAGA AACTAAACTT AAGTGCTCTC ATTTCACCAC CTTATGAGCA CCGCATCTGG
    CCACAGGACA GACCACTACA TTCTTCCCAA GCACCCTCTC GTGTTCGCCC AAGCCAAACA
    GTATCCCCTG GCCTAAGGGA AGCAACAAAG CCCCCTCAGC CACACCCCAG CTCCGGGGAT
    TCTGGGTACA TTGGATACCG TAGTTACAGT CCCTCATTCC AGAGACGAAC TGAACTTCTA
    AATGCCTTTT CCTTCCGGGA AACTGCCTTT AGCGGCCTCC CCACCTTCCG GACTGAGCAG
    TATTCTGGCT CTCCAGCTTC TCTGCCAGAG AGGAGAGAGT CTGCGGTGTC GGCCAGCTCC
    ACAGATGACA GCTGCTCCAC ACAGGAGAGA CGGGAGGAGG TGGTCCTGAG GCAGAAACCC
    CCTTCTGGTC GAAAGGCTAC CACTGCAGTA CGCCAAGTCA ATTTACACTT TCCAACAGAA
    GTGAAGGATG TAGAGCCCCC AACGTCTACC TCAGTTAGTG AAGAGGCTCC CAGAGAGCGG
    CCATTGCAAA GGGTGCCACC ACTGCCCCCC TCAGAGGAGC CTCTGGCATC CATACCTTTC
    ATAGATGAGC CAACAAGTCC TAGCATTGAC CTCCGCGCCA AACACGTCCC TGCCTCCTGT
    GTGGTGTCCA GCGCCATAAA CTCTGCCCCC GTAATCTCTG CCAGCCCCTC CTCGCCCTCC
    TTCAGCTTTA ATATCAGTCG GCATTACTCT CAGGACTGCA GCAGTATTAA GTCCAGCCGG
    CGTTCCTCAT ATCTCCTTGC TATAACCACC GAGCGGTCTA AATCATGTGA CGACGGACTC
    AACACCTTCC GAGAAGAAGG AAGACTGCAA AGGCGAGTTG TGGGTCGAGT GCCAAGCTTG
    AGGATGCTCC GGAGCTTCTT CACTGATGGG TCCTTAGACA GCTTGGAGGC CAATGAGGAC
    GGCCGGTCAA AGCGTCACTC GGCCTCGGAA CTTTCTGAGA CAGAGTTCAG TGACGTGCGC
    AGGGAGGGCT GGCTGCTGTA CAAACAGATC CTCACCAACA AGGGAAAGAA GGTTGGCAGC
    GGTCTCCGCC AGTGGAAGCG AGTGTTTGCT GTCCTGCGCC CTCACCTGCT GTTTTTGCAC
    AAGGACCGCC CAGAAGCACG GGGCCCCGCC CCAGGTGAGG AGGAGCAGCC AATCAGCATC
    CTCGGAAGCC TGGTGGACAT CTCTTACAGC GAGACCAAGA GGAAGCACGT CTTTCGGCTG
    ACGACCCCTG ACTTCTGTGA ATATCTCTTT CAGGCTGAGG ATCGGGATGA CATGCTCAGC
    TGGGTCAAAG CTATCCGGGA GAATAGCCGG ATGGAGGGGG AGGACCCCGG CTTTGCCAGC
    CAAGCATTAA TTAACAAGAA ATTAAACGAT TATCGCAAAG TAAGCATTAC AGGGGTCAAA
    CAGGAAACTT CCCCCAAGGG GTCCCGGAGT TTGGGCATCC GACCGGATCT CTTGTGGACA
    AGTGGCGTGA GTGCTCCCCG CTCTCCCAAG CAGGACGGCG CGGCCAAAGA GGAGGCGCCG
    CCATCCAAGG GGGCCTGGGG AATTAATCTC ATGAAGAAGA ACAAAAAGTG CCCCCCCCGG
    GCGTTTGGGG TCAGACTGGA GGACTGCCAG CCGGCGGCAG AGAATAAGGG AGTGCCGCTG
    ATAGTGGAGC TGTGCTGCTC TCAGGTGGAA CAGAAGGGTT TGGAATATTT GGGAATTTAC
    CGCGTCCCTG GAAATAATGC CGTGGTGAGC AGCCTGCAGG AGCATCTCAA CAAGGGCCTG
    AGCGAGTCCA ACATACAGGA TCAGAGATGG CAGGACCTTA ATGTTGTCAG CAGTTTGCTG
    AAGTCGTTTT TTCGGAAACT CCCGGAACCT CTTTTCACTG ATGACAAGTA CAGCGACTTC
    ATTGAAGCGA ATCGTATGGA GGATTCCAGA GAGCGAATGA AAATGCTTCG CAAACTGATT
    AAGGAGCTGC CTTCTTATTA CTACGAGACC CTCCGGTTTC TTGTGCGCCA CCTAAAGACA
    ATCGCAGACC ACTCGGAGAA AAACAAGATG GAACCCCGGA ACTTAGCCCT GGTCTTTGGC
    CCAACGCTGG TTCGCACGTC GGAGGACAAC ATGACCGACA TGGTGACACA CATGCCAGAC
    CGGTACAAGA TTGTGGAGAC ACTTATCCAA CACTTTGATT GGTTCTTCAG TGAGGAGCAA
    GAGAAGGCAG AAAAGACCCC CGTGGATGAG ACCAATTCCC AGAATATACC AAACATTGAG
    CATCTTCTAC CAAATATCGG ACGGACGGCA GGAACTGGGG AGAACTCGGA TTCCACCAAC
    AGTGACTCTG CTAAAGGGAA GGTCTCACGG AAGGAAATCT ACGCCCGGGA CATCCTGTCC
    ATTCCCTTTA TTTCAGCTGT AAACCGCAAG CGCAGAAAGC GGCGAGACGA GAAGCGTTTT
    GGGAGCAGCA CGGAGGAGGA CGATTCTGAG CAGGAGGCGG CGCGGGCAGG GCAAGTGGAG
    CAGAAGGCTG AGGCAGAAGT GGAGCTGAGG GAGACAGAGG AGTCGCCGGC ACAAACCTGC
    TCACCCCACG GGCCGGGAGC AGAGCGAATA CACAGCGAGG AGACTGGGCA GCGGGACAAA
    GGTGCCCAGA GCCGGTGGCA GGGGTCCGGA GAGGAGAGAA TCCCCGTTGA CGCTCGCTCC
    ATTGTATCTG GATATTCCAC TCTTTCTACT CTGTGCTCAG AACCTGCCTC CAGTGTCCGT
    GGCGGGGAGG AGGCCGATGA TGAACGCAGT GAGTTCAGCC ACATGGAGAC GGACACGGAG
    GGGGTAGGAG CCCGAGAGAC TGATGAGCGC CCTCACTCCC AGGACTCATT TACCTCCCAG
    AGGCTCATAC CGGGGGACAC TCTAGCTCGG AGAAGGCTGG GCAGGGGGCG GATAGAGAGC
    AAAGAGGAAC CAGCGCCGCC CCGCAACTCC CTGCGCATCA GGCCGGCAGC CGATGACTTG
    TGTGTGGCCG CCTTACGCAA GCCCGGCTCG CCAGAGACCC GCCGGAGGAA GAGCGCCTGG
    CGCAGGCACA CTGTGGTGCT CCCGGGGCAG CTGACTGACT GCAACTTCAA CGACTGGAAA
    GAGCCAGTAC CAGGGGCCAC CGTGGCATCG GAACCTGGGA GCCGCCTCAG TGGTGGAGCC
    TGGGTAGAAG GGAGGGATTC TGGACTTAGC AGCCTGGAGT CTCAGAAAGC CAAAACTTCT
    GTGGCTCAGG AAGCTCTGGG CAACAAAGGA CCAAGCCACG TAGCCAAGTC CCAGAATCCT
    CCTCTGCAGC CTGGACTCCG CCATTACCTA TAG

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

    RefSeq XP_004918722.1
    CDS787..5379
    Translation

    Target ORF information:

    RefSeq Version XM_004918665.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis Rho GTPase activating protein 23 (arhgap23), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004918665.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGCTCGGGG TGCAGAGCAG CGTCTGTGCC CCCCAAGGCC TGGCATGGTG CTTGGAAAAG 
    ATAGTAGGAG TGGATTGCAG TACCCCAGAG CCATGTTGCA TTTGGCTGGC AAGTTCCAGG
    AGCAGAGGAC TCGGGGCTTC CACCTTTCCT TCCAGGACCA GGAACCCACA CAAAACTCAA
    GGGACCCCCG TGGTGCCGCG GGATGGGGGC TGCCCGAGCA CTTCTCCGCC GCTGGACGAG
    TCCTTCCACT GGGTCGGACC CAGAACGCTG GTCATCAGGA AGAGCCAGCA TGGCTTCGGA
    TTCACCCTGC GCCACTTCAT AGTGTACCCA CCGGAATCTG CCGTGACCTC TGTCCACAAG
    GAGGAGGATG GGGGCGCAGA TCTCCCCTCG GCAGCCAGTC AACTGGAGCC TATGGACACC
    ATCTTTGTCA AACAGGTGAA GGAAGGAGGC CCAGCCCAGA AGGCAGGACT GTGCACAGGT
    GACCGACTGG TGAAGGTGAA TGGCGAGAGC ATCATCGGAA AAACATACTC ACAAGTTATT
    GCACTCATAC AGAACAGTGA CGATACCCTG GAACTCTCCA TTATGCCCCG GGATGAAGAT
    ATATTACAGC TGGCCTACTC CCAGGATGCT TATCTGAAAG GCAATGAGCC ATATCGAGGT
    GGTGCCCACA GTATCCCCGA GCCCCCACCT GTTTACTACC CGTGGCGGAC TCACGAGCCT
    GTTTCTGGGT ACGCGCCTGC TTCTCGGTAC CATCACCCAA ACTCTGCCGA TGCTACTGCC
    ATTAGGAGCC CTGTTCACAG TGAAGTGCCA AGAGGCAGCC CTGCCCACCG TGACAATTAC
    CCACGGACTG CTCCCACTTC TCTTTCGCAG GCTCGATCCT TCCAGGGGTC ACCGTCCTCT
    TCAGACAGAT TCAGGGGTCC TGGGCCGCCC CACAGCAGTC ACGGATGGCA CTCTCGTTAT
    ATGCAAGATG CGCCACGCAA TGTCTCGCCT GAGCCCTGGG AGCGACTGGC CAGCCCGCGG
    TGGGTGAGTC CGTGGGAGCG ACATCAGGCA CTGTGCAGCT GGATGTCCCA GCAGGCCCCT
    AGAAGGGGCT CCGCCTTACC CCCAAGAAGA CGCAGTGCGT CGCAGGACCG GCTAGGAGAG
    ACCACTCACC TAAGCAACTG GCCTCACAGC GTATCCCAGG ACACTCTTCA TCAGGCTCCA
    TTGTATGAGT CTTGGGGTCA CCGGGCACAG TCTGACAACT TCCTGGCTCA GTTTGGTACA
    TCCGCAGAGA AACTAAACTT AAGTGCTCTC ATTTCACCAC CTTATGAGCA CCGCATCTGG
    CCACAGGACA GACCACTACA TTCTTCCCAA GCACCCTCTC GTGTTCGCCC AAGCCAAACA
    GTATCCCCTG GCCTAAGGGA AGCAACAAAG CCCCCTCAGC CACACCCCAG CTCCGGGGAT
    TCTGGGTACA TTGGATACCG TAGTTACAGT CCCTCATTCC AGAGACGAAC TGAACTTCTA
    AATGCCTTTT CCTTCCGGGA AACTGCCTTT AGCGGCCTCC CCACCTTCCG GACTGAGCAG
    TATTCTGGCT CTCCAGCTTC TCTGCCAGAG AGGAGAGAGT CTGCGGTGTC GGCCAGCTCC
    ACAGATGACA GCTGCTCCAC ACAGGAGAGA CGGGAGGAGG TGGTCCTGAG GCAGAAACCC
    CCTTCTGGTC GAAAGGCTAC CACTGCAGTA CGCCAAGTCA ATTTACACTT TCCAACAGAA
    GTGAAGGATG TAGAGCCCCC AACGTCTACC TCAGTTAGTG AAGAGGCTCC CAGAGAGCGG
    CCATTGCAAA GGGTGCCACC ACTGCCCCCC TCAGAGGAGC CTCTGGCATC CATACCTTTC
    ATAGATGAGC CAACAAGTCC TAGCATTGAC CTCCGCGCCA AACACGTCCC TGCCTCCTGT
    GTGGTGTCCA GCGCCATAAA CTCTGCCCCC GTAATCTCTG CCAGCCCCTC CTCGCCCTCC
    TTCAGCTTTA ATATCAGTCG GCATTACTCT CAGGACTGCA GCAGTATTAA GTCCAGCCGG
    CGTTCCTCAT ATCTCCTTGC TATAACCACC GAGCGGTCTA AATCATGTGA CGACGGACTC
    AACACCTTCC GAGAAGAAGG AAGACTGCAA AGGCGAGTTG TGGGTCGAGT GCCAAGCTTG
    AGGATGCTCC GGAGCTTCTT CACTGATGGG TCCTTAGACA GCTTGGAGGC CAATGAGGAC
    GGCCGGTCAA AGCGTCACTC GGCCTCGGAA CTTTCTGAGA CAGAGTTCAG TGACGTGCGC
    AGGGAGGGCT GGCTGCTGTA CAAACAGATC CTCACCAACA AGGGAAAGAA GGTTGGCAGC
    GGTCTCCGCC AGTGGAAGCG AGTGTTTGCT GTCCTGCGCC CTCACCTGCT GTTTTTGCAC
    AAGGACCGCC CAGAAGCACG GGGCCCCGCC CCAGGTGAGG AGGAGCAGCC AATCAGCATC
    CTCGGAAGCC TGGTGGACAT CTCTTACAGC GAGACCAAGA GGAAGCACGT CTTTCGGCTG
    ACGACCCCTG ACTTCTGTGA ATATCTCTTT CAGGCTGAGG ATCGGGATGA CATGCTCAGC
    TGGGTCAAAG CTATCCGGGA GAATAGCCGG ATGGAGGGGG AGGACCCCGG CTTTGCCAGC
    CAAGCATTAA TTAACAAGAA ATTAAACGAT TATCGCAAAG TAAGCATTAC AGGGGTCAAA
    CAGGAAACTT CCCCCAAGGG GTCCCGGAGT TTGGGCATCC GACCGGATCT CTTGTGGACA
    AGTGGCGTGA GTGCTCCCCG CTCTCCCAAG CAGGACGGCG CGGCCAAAGA GGAGGCGCCG
    CCATCCAAGG GGGCCTGGGG AATTAATCTC ATGAAGAAGA ACAAAAAGTG CCCCCCCCGG
    GCGTTTGGGG TCAGACTGGA GGACTGCCAG CCGGCGGCAG AGAATAAGGG AGTGCCGCTG
    ATAGTGGAGC TGTGCTGCTC TCAGGTGGAA CAGAAGGGTT TGGAATATTT GGGAATTTAC
    CGCGTCCCTG GAAATAATGC CGTGGTGAGC AGCCTGCAGG AGCATCTCAA CAAGGGCCTG
    AGCGAGTCCA ACATACAGGA TCAGAGATGG CAGGACCTTA ATGTTGTCAG CAGTTTGCTG
    AAGTCGTTTT TTCGGAAACT CCCGGAACCT CTTTTCACTG ATGACAAGTA CAGCGACTTC
    ATTGAAGCGA ATCGTATGGA GGATTCCAGA GAGCGAATGA AAATGCTTCG CAAACTGATT
    AAGGAGCTGC CTTCTTATTA CTACGAGACC CTCCGGTTTC TTGTGCGCCA CCTAAAGACA
    ATCGCAGACC ACTCGGAGAA AAACAAGATG GAACCCCGGA ACTTAGCCCT GGTCTTTGGC
    CCAACGCTGG TTCGCACGTC GGAGGACAAC ATGACCGACA TGGTGACACA CATGCCAGAC
    CGGTACAAGA TTGTGGAGAC ACTTATCCAA CACTTTGATT GGTTCTTCAG TGAGGAGCAA
    GAGAAGGCAG AAAAGACCCC CGTGGATGAG ACCAATTCCC AGAATATACC AAACATTGAG
    CATCTTCTAC CAAATATCGG ACGGACGGCA GGAACTGGGG AGAACTCGGA TTCCACCAAC
    AGTGACTCTG CTAAAGGGAA GGTCTCACGG AAGGAAATCT ACGCCCGGGA CATCCTGTCC
    ATTCCCTTTA TTTCAGCTGT AAACCGCAAG CGCAGAAAGC GGCGAGACGA GAAGCGTTTT
    GGGAGCAGCA CGGAGGAGGA CGATTCTGAG CAGGAGGCGG CGCGGGCAGG GCAAGTGGAG
    CAGAAGGCTG AGGCAGAAGT GGAGCTGAGG GAGACAGAGG AGTCGCCGGC ACAAACCTGC
    TCACCCCACG GGCCGGGAGC AGAGCGAATA CACAGCGAGG AGACTGGGCA GCGGGACAAA
    GGTGCCCAGA GCCGGTGGCA GGGGTCCGGA GAGGAGAGAA TCCCCGTTGA CGCTCGCTCC
    ATTGTATCTG GATATTCCAC TCTTTCTACT CTGTGCTCAG AACCTGCCTC CAGTGTCCGT
    GGCGGGGAGG AGGCCGATGA TGAACGCAGT GAGTTCAGCC ACATGGAGAC GGACACGGAG
    GGGGTAGGAG CCCGAGAGAC TGATGAGCGC CCTCACTCCC AGGACTCATT TACCTCCCAG
    AGGCTCATAC CGGGGGACAC TCTAGCTCGG AGAAGGCTGG GCAGGGGGCG GATAGAGAGC
    AAAGAGGAAC CAGCGCCGCC CCGCAACTCC CTGCGCATCA GGCCGGCAGC CGATGACTTG
    TGTGTGGCCG CCTTACGCAA GCCCGGCTCG CCAGAGACCC GCCGGAGGAA GAGCGCCTGG
    CGCAGGCACA CTGTGGTGCT CCCGGGGCAG CTGACTGACT GCAACTTCAA CGACTGGAAA
    GAGCCAGTAC CAGGGGCCAC CGTGGCATCG GAACCTGGGA GCCGCCTCAG TGGTGGAGCC
    TGGGTAGAAG GGAGGGATTC TGGACTTAGC AGCCTGGAGT CTCAGAAAGC CAAAACTTCT
    GTGGCTCAGG AAGCTCTGGG CAACAAAGGA CCAAGCCACG TAGCCAAGTC CCAGAATCCT
    CCTCTGCAGC CTGGACTCCG CCATTACCTA TAG

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

    CloneID OXa17527
    Clone ID Related Accession (Same CDS sequence) XM_002940156.4
    Accession Version XM_002940156.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4464bp)
    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 23 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030686.1) 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_002940156.3. ##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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAATGGCG TGGCTTTCTG CCTGGTGGGA TCCCCGTCTC CCCCCGCCGC ACAAACCCCC 
    GTGGTGCCGC GGGATGGGGG CTGCCCGAGC ACTTCTCCGC CGCTGGACGA GTCCTTCCAC
    TGGGTCGGAC CCAGAACGCT GGTCATCAGG AAGAGCCAGC ATGGCTTCGG ATTCACCCTG
    CGCCACTTCA TAGTGTACCC ACCGGAATCT GCCGTGACCT CTGTCCACAA GGAGGAGGAT
    GGGGGCGCAG ATCTCCCCTC GGCAGCCAGT CAACTGGAGC CTATGGACAC CATCTTTGTC
    AAACAGGTGA AGGAAGGAGG CCCAGCCCAG AAGGCAGGAC TGTGCACAGG TGACCGACTG
    GTGAAGGTGA ATGGCGAGAG CATCATCGGA AAAACATACT CACAAGTTAT TGCACTCATA
    CAGAACAGTG ACGATACCCT GGAACTCTCC ATTATGCCCC GGGATGAAGA TATATTACAG
    CTGGCCTACT CCCAGGATGC TTATCTGAAA GGCAATGAGC CATATCGAGG TGGTGCCCAC
    AGTATCCCCG AGCCCCCACC TGTTTACTAC CCGTGGCGGA CTCACGAGCC TGTTTCTGGG
    TACGCGCCTG CTTCTCGGTA CCATCACCCA AACTCTGCCG ATGCTACTGC CATTAGGAGC
    CCTGTTCACA GTGAAGTGCC AAGAGGCAGC CCTGCCCACC GTGACAATTA CCCACGGACT
    GCTCCCACTT CTCTTTCGCA GGCTCGATCC TTCCAGGGGT CACCGTCCTC TTCAGACAGA
    TTCAGGGGTC CTGGGCCGCC CCACAGCAGT CACGGATGGC ACTCTCGTTA TATGCAAGAT
    GCGCCACGCA ATGTCTCGCC TGAGCCCTGG GAGCGACTGG CCAGCCCGCG GTGGGTGAGT
    CCGTGGGAGC GACATCAGGC ACTGTGCAGC TGGATGTCCC AGCAGGCCCC TAGAAGGGGC
    TCCGCCTTAC CCCCAAGAAG ACGCAGTGCG TCGCAGGACC GGCTAGGAGA GACCACTCAC
    CTAAGCAACT GGCCTCACAG CGTATCCCAG GACACTCTTC ATCAGGCTCC ATTGTATGAG
    TCTTGGGGTC ACCGGGCACA GTCTGACAAC TTCCTGGCTC AGTTTGGTAC ATCCGCAGAG
    AAACTAAACT TAAGTGCTCT CATTTCACCA CCTTATGAGC ACCGCATCTG GCCACAGGAC
    AGACCACTAC ATTCTTCCCA AGCACCCTCT CGTGTTCGCC CAAGCCAAAC AGTATCCCCT
    GGCCTAAGGG AAGCAACAAA GCCCCCTCAG CCACACCCCA GCTCCGGGGA TTCTGGGTAC
    ATTGGATACC GTAGTTACAG TCCCTCATTC CAGAGACGAA CTGAACTTCT AAATGCCTTT
    TCCTTCCGGG AAACTGCCTT TAGCGGCCTC CCCACCTTCC GGACTGAGCA GTATTCTGGC
    TCTCCAGCTT CTCTGCCAGA GAGGAGAGAG TCTGCGGTGT CGGCCAGCTC CACAGATGAC
    AGCTGCTCCA CACAGGAGAG ACGGGAGGAG GTGGTCCTGA GGCAGAAACC CCCTTCTGGT
    CGAAAGGCTA CCACTGCAGT ACGCCAAGTC AATTTACACT TTCCAACAGA AGTGAAGGAT
    GTAGAGCCCC CAACGTCTAC CTCAGTTAGT GAAGAGGCTC CCAGAGAGCG GCCATTGCAA
    AGGGTGCCAC CACTGCCCCC CTCAGAGGAG CCTCTGGCAT CCATACCTTT CATAGATGAG
    CCAACAAGTC CTAGCATTGA CCTCCGCGCC AAACACGTCC CTGCCTCCTG TGTGGTGTCC
    AGCGCCATAA ACTCTGCCCC CGTAATCTCT GCCAGCCCCT CCTCGCCCTC CTTCAGCTTT
    AATATCAGTC GGCATTACTC TCAGGACTGC AGCAGTATTA AGTCCAGCCG GCGTTCCTCA
    TATCTCCTTG CTATAACCAC CGAGCGGTCT AAATCATGTG ACGACGGACT CAACACCTTC
    CGAGAAGAAG GAAGACTGCA AAGGCGAGTT GTGGGTCGAG TGCCAAGCTT GAGGATGCTC
    CGGAGCTTCT TCACTGATGG GTCCTTAGAC AGCTTGGAGG CCAATGAGGA CGGCCGGTCA
    AAGCGTCACT CGGCCTCGGA ACTTTCTGAG ACAGAGTTCA GTGACGTGCG CAGGGAGGGC
    TGGCTGCTGT ACAAACAGAT CCTCACCAAC AAGGGAAAGA AGGTTGGCAG CGGTCTCCGC
    CAGTGGAAGC GAGTGTTTGC TGTCCTGCGC CCTCACCTGC TGTTTTTGCA CAAGGACCGC
    CCAGAAGCAC GGGGCCCCGC CCCAGGTGAG GAGGAGCAGC CAATCAGCAT CCTCGGAAGC
    CTGGTGGACA TCTCTTACAG CGAGACCAAG AGGAAGCACG TCTTTCGGCT GACGACCCCT
    GACTTCTGTG AATATCTCTT TCAGGCTGAG GATCGGGATG ACATGCTCAG CTGGGTCAAA
    GCTATCCGGG AGAATAGCCG GATGGAGGGG GAGGACCCCG GCTTTGCCAG CCAAGCATTA
    ATTAACAAGA AATTAAACGA TTATCGCAAA GTAAGCATTA CAGGGGTCAA ACAGGAAACT
    TCCCCCAAGG GGTCCCGGAG TTTGGGCATC CGACCGGATC TCTTGTGGAC AAGTGGCGTG
    AGTGCTCCCC GCTCTCCCAA GCAGGACGGC GCGGCCAAAG AGGAGGCGCC GCCATCCAAG
    GGGGCCTGGG GAATTAATCT CATGAAGAAG AACAAAAAGT GCCCCCCCCG GGCGTTTGGG
    GTCAGACTGG AGGACTGCCA GCCGGCGGCA GAGAATAAGG GAGTGCCGCT GATAGTGGAG
    CTGTGCTGCT CTCAGGTGGA ACAGAAGGGT TTGGAATATT TGGGAATTTA CCGCGTCCCT
    GGAAATAATG CCGTGGTGAG CAGCCTGCAG GAGCATCTCA ACAAGGGCCT GAGCGAGTCC
    AACATACAGG ATCAGAGATG GCAGGACCTT AATGTTGTCA GCAGTTTGCT GAAGTCGTTT
    TTTCGGAAAC TCCCGGAACC TCTTTTCACT GATGACAAGT ACAGCGACTT CATTGAAGCG
    AATCGTATGG AGGATTCCAG AGAGCGAATG AAAATGCTTC GCAAACTGAT TAAGGAGCTG
    CCTTCTTATT ACTACGAGAC CCTCCGGTTT CTTGTGCGCC ACCTAAAGAC AATCGCAGAC
    CACTCGGAGA AAAACAAGAT GGAACCCCGG AACTTAGCCC TGGTCTTTGG CCCAACGCTG
    GTTCGCACGT CGGAGGACAA CATGACCGAC ATGGTGACAC ACATGCCAGA CCGGTACAAG
    ATTGTGGAGA CACTTATCCA ACACTTTGAT TGGTTCTTCA GTGAGGAGCA AGAGAAGGCA
    GAAAAGACCC CCGTGGATGA GACCAATTCC CAGAATATAC CAAACATTGA GCATCTTCTA
    CCAAATATCG GACGGACGGC AGGAACTGGG GAGAACTCGG ATTCCACCAA CAGTGACTCT
    GCTAAAGGGA AGGTCTCACG GAAGGAAATC TACGCCCGGG ACATCCTGTC CATTCCCTTT
    ATTTCAGCTG TAAACCGCAA GCGCAGAAAG CGGCGAGACG AGAAGCGTTT TGGGAGCAGC
    ACGGAGGAGG ACGATTCTGA GCAGGAGGCG GCGCGGGCAG GGCAAGTGGA GCAGAAGGCT
    GAGGCAGAAG TGGAGCTGAG GGAGACAGAG GAGTCGCCGG CACAAACCTG CTCACCCCAC
    GGGCCGGGAG CAGAGCGAAT ACACAGCGAG GAGACTGGGC AGCGGGACAA AGGTGCCCAG
    AGCCGGTGGC AGGGGTCCGG AGAGGAGAGA ATCCCCGTTG ACGCTCGCTC CATTGTATCT
    GGATATTCCA CTCTTTCTAC TCTGTGCTCA GAACCTGCCT CCAGTGTCCG TGGCGGGGAG
    GAGGCCGATG ATGAACGCAG TGAGTTCAGC CACATGGAGA CGGACACGGA GGGGGTAGGA
    GCCCGAGAGA CTGATGAGCG CCCTCACTCC CAGGACTCAT TTACCTCCCA GAGGCTCATA
    CCGGGGGACA CTCTAGCTCG GAGAAGGCTG GGCAGGGGGC GGATAGAGAG CAAAGAGGAA
    CCAGCGCCGC CCCGCAACTC CCTGCGCATC AGGCCGGCAG CCGATGACTT GTGTGTGGCC
    GCCTTACGCA AGCCCGGCTC GCCAGAGACC CGCCGGAGGA AGAGCGCCTG GCGCAGGCAC
    ACTGTGGTGC TCCCGGGGCA GCTGACTGAC TGCAACTTCA ACGACTGGAA AGAGCCAGTA
    CCAGGGGCCA CCGTGGCATC GGAACCTGGG AGCCGCCTCA GTGGTGGAGC CTGGGTAGAA
    GGGAGGGATT CTGGACTTAG CAGCCTGGAG TCTCAGAAAG CCAAAACTTC TGTGGCTCAG
    GAAGCTCTGG GCAACAAAGG ACCAAGCCAC GTAGCCAAGT CCCAGAATCC TCCTCTGCAG
    CCTGGACTCC GCCATTACCT ATAG

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

    RefSeq XP_002940202.2
    CDS100..4563
    Translation

    Target ORF information:

    RefSeq Version XM_002940156.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis Rho GTPase activating protein 23 (arhgap23), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002940156.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGAATGGCG TGGCTTTCTG CCTGGTGGGA TCCCCGTCTC CCCCCGCCGC ACAAACCCCC 
    GTGGTGCCGC GGGATGGGGG CTGCCCGAGC ACTTCTCCGC CGCTGGACGA GTCCTTCCAC
    TGGGTCGGAC CCAGAACGCT GGTCATCAGG AAGAGCCAGC ATGGCTTCGG ATTCACCCTG
    CGCCACTTCA TAGTGTACCC ACCGGAATCT GCCGTGACCT CTGTCCACAA GGAGGAGGAT
    GGGGGCGCAG ATCTCCCCTC GGCAGCCAGT CAACTGGAGC CTATGGACAC CATCTTTGTC
    AAACAGGTGA AGGAAGGAGG CCCAGCCCAG AAGGCAGGAC TGTGCACAGG TGACCGACTG
    GTGAAGGTGA ATGGCGAGAG CATCATCGGA AAAACATACT CACAAGTTAT TGCACTCATA
    CAGAACAGTG ACGATACCCT GGAACTCTCC ATTATGCCCC GGGATGAAGA TATATTACAG
    CTGGCCTACT CCCAGGATGC TTATCTGAAA GGCAATGAGC CATATCGAGG TGGTGCCCAC
    AGTATCCCCG AGCCCCCACC TGTTTACTAC CCGTGGCGGA CTCACGAGCC TGTTTCTGGG
    TACGCGCCTG CTTCTCGGTA CCATCACCCA AACTCTGCCG ATGCTACTGC CATTAGGAGC
    CCTGTTCACA GTGAAGTGCC AAGAGGCAGC CCTGCCCACC GTGACAATTA CCCACGGACT
    GCTCCCACTT CTCTTTCGCA GGCTCGATCC TTCCAGGGGT CACCGTCCTC TTCAGACAGA
    TTCAGGGGTC CTGGGCCGCC CCACAGCAGT CACGGATGGC ACTCTCGTTA TATGCAAGAT
    GCGCCACGCA ATGTCTCGCC TGAGCCCTGG GAGCGACTGG CCAGCCCGCG GTGGGTGAGT
    CCGTGGGAGC GACATCAGGC ACTGTGCAGC TGGATGTCCC AGCAGGCCCC TAGAAGGGGC
    TCCGCCTTAC CCCCAAGAAG ACGCAGTGCG TCGCAGGACC GGCTAGGAGA GACCACTCAC
    CTAAGCAACT GGCCTCACAG CGTATCCCAG GACACTCTTC ATCAGGCTCC ATTGTATGAG
    TCTTGGGGTC ACCGGGCACA GTCTGACAAC TTCCTGGCTC AGTTTGGTAC ATCCGCAGAG
    AAACTAAACT TAAGTGCTCT CATTTCACCA CCTTATGAGC ACCGCATCTG GCCACAGGAC
    AGACCACTAC ATTCTTCCCA AGCACCCTCT CGTGTTCGCC CAAGCCAAAC AGTATCCCCT
    GGCCTAAGGG AAGCAACAAA GCCCCCTCAG CCACACCCCA GCTCCGGGGA TTCTGGGTAC
    ATTGGATACC GTAGTTACAG TCCCTCATTC CAGAGACGAA CTGAACTTCT AAATGCCTTT
    TCCTTCCGGG AAACTGCCTT TAGCGGCCTC CCCACCTTCC GGACTGAGCA GTATTCTGGC
    TCTCCAGCTT CTCTGCCAGA GAGGAGAGAG TCTGCGGTGT CGGCCAGCTC CACAGATGAC
    AGCTGCTCCA CACAGGAGAG ACGGGAGGAG GTGGTCCTGA GGCAGAAACC CCCTTCTGGT
    CGAAAGGCTA CCACTGCAGT ACGCCAAGTC AATTTACACT TTCCAACAGA AGTGAAGGAT
    GTAGAGCCCC CAACGTCTAC CTCAGTTAGT GAAGAGGCTC CCAGAGAGCG GCCATTGCAA
    AGGGTGCCAC CACTGCCCCC CTCAGAGGAG CCTCTGGCAT CCATACCTTT CATAGATGAG
    CCAACAAGTC CTAGCATTGA CCTCCGCGCC AAACACGTCC CTGCCTCCTG TGTGGTGTCC
    AGCGCCATAA ACTCTGCCCC CGTAATCTCT GCCAGCCCCT CCTCGCCCTC CTTCAGCTTT
    AATATCAGTC GGCATTACTC TCAGGACTGC AGCAGTATTA AGTCCAGCCG GCGTTCCTCA
    TATCTCCTTG CTATAACCAC CGAGCGGTCT AAATCATGTG ACGACGGACT CAACACCTTC
    CGAGAAGAAG GAAGACTGCA AAGGCGAGTT GTGGGTCGAG TGCCAAGCTT GAGGATGCTC
    CGGAGCTTCT TCACTGATGG GTCCTTAGAC AGCTTGGAGG CCAATGAGGA CGGCCGGTCA
    AAGCGTCACT CGGCCTCGGA ACTTTCTGAG ACAGAGTTCA GTGACGTGCG CAGGGAGGGC
    TGGCTGCTGT ACAAACAGAT CCTCACCAAC AAGGGAAAGA AGGTTGGCAG CGGTCTCCGC
    CAGTGGAAGC GAGTGTTTGC TGTCCTGCGC CCTCACCTGC TGTTTTTGCA CAAGGACCGC
    CCAGAAGCAC GGGGCCCCGC CCCAGGTGAG GAGGAGCAGC CAATCAGCAT CCTCGGAAGC
    CTGGTGGACA TCTCTTACAG CGAGACCAAG AGGAAGCACG TCTTTCGGCT GACGACCCCT
    GACTTCTGTG AATATCTCTT TCAGGCTGAG GATCGGGATG ACATGCTCAG CTGGGTCAAA
    GCTATCCGGG AGAATAGCCG GATGGAGGGG GAGGACCCCG GCTTTGCCAG CCAAGCATTA
    ATTAACAAGA AATTAAACGA TTATCGCAAA GTAAGCATTA CAGGGGTCAA ACAGGAAACT
    TCCCCCAAGG GGTCCCGGAG TTTGGGCATC CGACCGGATC TCTTGTGGAC AAGTGGCGTG
    AGTGCTCCCC GCTCTCCCAA GCAGGACGGC GCGGCCAAAG AGGAGGCGCC GCCATCCAAG
    GGGGCCTGGG GAATTAATCT CATGAAGAAG AACAAAAAGT GCCCCCCCCG GGCGTTTGGG
    GTCAGACTGG AGGACTGCCA GCCGGCGGCA GAGAATAAGG GAGTGCCGCT GATAGTGGAG
    CTGTGCTGCT CTCAGGTGGA ACAGAAGGGT TTGGAATATT TGGGAATTTA CCGCGTCCCT
    GGAAATAATG CCGTGGTGAG CAGCCTGCAG GAGCATCTCA ACAAGGGCCT GAGCGAGTCC
    AACATACAGG ATCAGAGATG GCAGGACCTT AATGTTGTCA GCAGTTTGCT GAAGTCGTTT
    TTTCGGAAAC TCCCGGAACC TCTTTTCACT GATGACAAGT ACAGCGACTT CATTGAAGCG
    AATCGTATGG AGGATTCCAG AGAGCGAATG AAAATGCTTC GCAAACTGAT TAAGGAGCTG
    CCTTCTTATT ACTACGAGAC CCTCCGGTTT CTTGTGCGCC ACCTAAAGAC AATCGCAGAC
    CACTCGGAGA AAAACAAGAT GGAACCCCGG AACTTAGCCC TGGTCTTTGG CCCAACGCTG
    GTTCGCACGT CGGAGGACAA CATGACCGAC ATGGTGACAC ACATGCCAGA CCGGTACAAG
    ATTGTGGAGA CACTTATCCA ACACTTTGAT TGGTTCTTCA GTGAGGAGCA AGAGAAGGCA
    GAAAAGACCC CCGTGGATGA GACCAATTCC CAGAATATAC CAAACATTGA GCATCTTCTA
    CCAAATATCG GACGGACGGC AGGAACTGGG GAGAACTCGG ATTCCACCAA CAGTGACTCT
    GCTAAAGGGA AGGTCTCACG GAAGGAAATC TACGCCCGGG ACATCCTGTC CATTCCCTTT
    ATTTCAGCTG TAAACCGCAA GCGCAGAAAG CGGCGAGACG AGAAGCGTTT TGGGAGCAGC
    ACGGAGGAGG ACGATTCTGA GCAGGAGGCG GCGCGGGCAG GGCAAGTGGA GCAGAAGGCT
    GAGGCAGAAG TGGAGCTGAG GGAGACAGAG GAGTCGCCGG CACAAACCTG CTCACCCCAC
    GGGCCGGGAG CAGAGCGAAT ACACAGCGAG GAGACTGGGC AGCGGGACAA AGGTGCCCAG
    AGCCGGTGGC AGGGGTCCGG AGAGGAGAGA ATCCCCGTTG ACGCTCGCTC CATTGTATCT
    GGATATTCCA CTCTTTCTAC TCTGTGCTCA GAACCTGCCT CCAGTGTCCG TGGCGGGGAG
    GAGGCCGATG ATGAACGCAG TGAGTTCAGC CACATGGAGA CGGACACGGA GGGGGTAGGA
    GCCCGAGAGA CTGATGAGCG CCCTCACTCC CAGGACTCAT TTACCTCCCA GAGGCTCATA
    CCGGGGGACA CTCTAGCTCG GAGAAGGCTG GGCAGGGGGC GGATAGAGAG CAAAGAGGAA
    CCAGCGCCGC CCCGCAACTC CCTGCGCATC AGGCCGGCAG CCGATGACTT GTGTGTGGCC
    GCCTTACGCA AGCCCGGCTC GCCAGAGACC CGCCGGAGGA AGAGCGCCTG GCGCAGGCAC
    ACTGTGGTGC TCCCGGGGCA GCTGACTGAC TGCAACTTCA ACGACTGGAA AGAGCCAGTA
    CCAGGGGCCA CCGTGGCATC GGAACCTGGG AGCCGCCTCA GTGGTGGAGC CTGGGTAGAA
    GGGAGGGATT CTGGACTTAG CAGCCTGGAG TCTCAGAAAG CCAAAACTTC TGTGGCTCAG
    GAAGCTCTGG GCAACAAAGG ACCAAGCCAC GTAGCCAAGT CCCAGAATCC TCCTCTGCAG
    CCTGGACTCC GCCATTACCT ATAG

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