agap2 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following agap2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the agap2 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
OXa36737 XM_012957846.2
Latest version!
Xenopus tropicalis ArfGAP with GTPase domain, ankyrin repeat and PH domain 2 (agap2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $426.30
$609.00
OXa36738 XM_012957847.2
Latest version!
Xenopus tropicalis ArfGAP with GTPase domain, ankyrin repeat and PH domain 2 (agap2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $426.30
$609.00
OXa52702 XM_012957846.3
Latest version!
Xenopus tropicalis ArfGAP with GTPase domain, ankyrin repeat and PH domain 2 (agap2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OXa52703 XM_012957847.3
Latest version!
Xenopus tropicalis ArfGAP with GTPase domain, ankyrin repeat and PH domain 2 (agap2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
OXa52700 XM_002933688.5
Latest version!
Xenopus tropicalis ArfGAP with GTPase domain, ankyrin repeat and PH domain 2 (agap2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00
OXa52701 XM_004911920.4
Latest version!
Xenopus tropicalis ArfGAP with GTPase domain, ankyrin repeat and PH domain 2 (agap2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00
OXa06078 XM_002933688.4
Latest version!
Xenopus tropicalis ArfGAP with GTPase domain, ankyrin repeat and PH domain 2 (agap2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1161.30
$1659.00
OXa06079 XM_004911920.3
Latest version!
Xenopus tropicalis ArfGAP with GTPase domain, ankyrin repeat and PH domain 2 (agap2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1161.30
$1659.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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 OXa36737
    Clone ID Related Accession (Same CDS sequence) XM_012957846.2
    Accession Version XM_012957846.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2487bp)
    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 arf-GAP with GTPase, ANK repeat and PH domain-containing protein 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) 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_012957846.1. ##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
    ATGAGCGGGG AGTTTTACAG AGGCAGAGAT GGCATTCATG GAAGTCTCAA GATGAGTTCA 
    GGAAAGCAGC AAATGTCTGC AGCCATTCGA GGTGAAGTGA AGAGACATGA GGTGGCCAAG
    GCTCAGCTCA CTAGGCTGCT CAAACTAGCA GAGCAAGTGA GCGAAGAGCA TCTGAAAGAT
    AACCTAGTCG TCTCCCTGCG GAGCCTGAGA GAATGTGTGA TGAACAGCCA GGAATGGACC
    TTAAGTCGGA CTGTGCCTGA AATCAGAGTG GGAGTTTTGG GCAGTACTAA AAGTGCCAAG
    TCTGCTCTTG TGCATCGGTT TGTGACCGGC TCCTATCAAC CCCTAGAAGC ACCTGAAAGT
    GCTCAGTTCA AGAAAGAGAT CAGCGTGGAA GGGCAGAGCT ACCTTCTGCT AATTAGGGAA
    GAAGCCGGAG CTCCAGATGC CAAGTTTGCC AATTGGGTGG ATGCCGTCAT TTTTGTGTTC
    AGCCTGGAAA ATGAGGCAAG CTTTCAAGAT ATTTTCCAGT ATTATGCTCT CCTGGCAAAT
    TATCGCAATG TTGCAGACCT CGCTATGGCA CTTGTTGGGA CTCAAGATAA AATTAGTGCA
    AACAACAAGC GAGTGGTAGA GGACGTGCGG GCGAGAGCCC TCTGCAATGA TATCAAACGC
    TGTGTTTACT ATGAGACCTG TGCCACCTAT GGACTCAATG TGGATCGGGT GTTTAATGAA
    GTTGCTCAGA AGATGGTTGC AATAAAGAGG CAGCAGCAAC TCCTATCATG CAAGTCATTA
    CCAAGCTCTC CAAGTCACTC CTCTGGATCC ATTGCAATAT CAGTGCAGGC AAGTAATGGA
    GGAACAACAA GTGATTATTC ATCGTCACTG CCTTCCACAC CAAACATCAG TCACAGAGAA
    CTACGAAGTG AGGTGTCCAT TGGAGTCAGC ACTCCGGTGT CCCTCCATCG TGGCACTAAA
    AGGCGCACAA GCATATTTAC AAACCGAAGG GGAAGTGATT TGGAAAAGAG AAGTTTTGAT
    AGTCGTGCAG ATGGTGCTGG TGGGGGTCGG GCTCTACCAA TTAAACAGAG CTTCTTAATG
    AAACGAAGCG GCAACTCTCT GAACAAAGAA TGGAAGAAGA AGTATGTTAC CCTGACAAGC
    AATGGGGTCC TGCTCTACCA TCCAAGCATT AATGATTACC TACACAGTAC ACATGGGAAG
    GAGATGGATC TTTTACGAAC TACAGTGAAG GTCCCTGGAA AGAGGCCTCC AATAGCCATG
    TCTGCCTGTG GCCCATCCAA TAGCATCAAC GGCTTGTTAA AGGATGTGGG CAGCTCTCCA
    GGGGGAGATA CAGCAAGTAA CAAGGCGCAA TCAACAAAAA GCAAATCCAC TGGCGATGTC
    ATTTCCAGCC CCACCAGCAA CAAAGATCCC CCCTCTTCCC CAATGAGTGA TAAAAAGAAG
    AACAGAAGAA AAAAGAATAT GACCCCTTCC AAGACAGAAG GGTCCGCTGG ACAGGCAGAT
    GCCAAGCGCA AAATGTGGAA GTTAAAAACA TTTGGTAGCT TGAGAAATAT TTATAAGACA
    GAAGAGAACT TCGAATTTAT CATTGTGTCT AGCACAGGGC AGACATGGCA TTTTGAGACA
    AGCAGCTTTG AAGAAAGGGA TTCCTGGGTA CAAGCCATTG AGAGCCAGAT CCTCGCTAGC
    CTGCAGTGCT GCGAGAGCAG CAAAAATAAG GCTCGAATGG ACAGTCAGAG CGAAGCGGTC
    GCCATCCAAG CCATTCGGAA TGCTAAAGGG AATTCATTTT GTGTGGATTG TGGTGCCCCG
    AATCCCACCT GGGCCAGCTT GAATCTGGGT GCCCTGATCT GCATTGAATG TTCAGGAATT
    CACAGAAACC TTGGCACCCA TTTATCTCGG GTCCGATCAC TGGATTTGGA TGACTGGCCC
    CTAGAGCTCA CACTTGTTCT AACCTCTATT GGTAATGAAA TGGCCAACAG CATATGGGAG
    ATGACAACTC ATGGAAGAAC CAAACCAGCA CCTGATTCCT CAAGGGAAGA GAGAGAATCA
    TGGATTAGAG CTAAGTATGA GCAGCGATTA TTTTTGGCCC CTTTGAAGAG TCCAGGGGTC
    CCCTTGGTGA AGCAGCTTTT TAAAGCTGTA CATGAGAAAA ATCTCGGCAA TGTACTTCTC
    CTCCTAGCCC ACAGCAACAA GGAGCAAATC AACGGAATCA CTGGAGACAG AGACAGACGC
    ACTGCCCTTC ATGTGGCCTG TGAACTGGGG GAAGTTGTGA CCACACAACT GCTTGTCTGG
    TATGGCATCG ATGTGAAGTC AAGAGACAGC AATGGCCACA CAGCCGTGTT TTATGCTAAG
    AAAAGTAACA GCCAAGAGTG CGTGGACATT CTGCTGCAAC ATGGCTGTCC CAATGAGTCC
    ACAAGCGCCC TGTCCACTCC CAGTCTAAGA AGGAAAAGCA GCTCTGCCAG CATCGTGAGG
    ACTGATTCCC GGACTGCCCT TGTGTAG

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

    RefSeq XP_012813300.1
    CDS438..2924
    Translation

    Target ORF information:

    RefSeq Version XM_012957846.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ArfGAP with GTPase domain, ankyrin repeat and PH domain 2 (agap2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957846.2

    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
    ATGAGCGGGG AGTTTTACAG AGGCAGAGAT GGCATTCATG GAAGTCTCAA GATGAGTTCA 
    GGAAAGCAGC AAATGTCTGC AGCCATTCGA GGTGAAGTGA AGAGACATGA GGTGGCCAAG
    GCTCAGCTCA CTAGGCTGCT CAAACTAGCA GAGCAAGTGA GCGAAGAGCA TCTGAAAGAT
    AACCTAGTCG TCTCCCTGCG GAGCCTGAGA GAATGTGTGA TGAACAGCCA GGAATGGACC
    TTAAGTCGGA CTGTGCCTGA AATCAGAGTG GGAGTTTTGG GCAGTACTAA AAGTGCCAAG
    TCTGCTCTTG TGCATCGGTT TGTGACCGGC TCCTATCAAC CCCTAGAAGC ACCTGAAAGT
    GCTCAGTTCA AGAAAGAGAT CAGCGTGGAA GGGCAGAGCT ACCTTCTGCT AATTAGGGAA
    GAAGCCGGAG CTCCAGATGC CAAGTTTGCC AATTGGGTGG ATGCCGTCAT TTTTGTGTTC
    AGCCTGGAAA ATGAGGCAAG CTTTCAAGAT ATTTTCCAGT ATTATGCTCT CCTGGCAAAT
    TATCGCAATG TTGCAGACCT CGCTATGGCA CTTGTTGGGA CTCAAGATAA AATTAGTGCA
    AACAACAAGC GAGTGGTAGA GGACGTGCGG GCGAGAGCCC TCTGCAATGA TATCAAACGC
    TGTGTTTACT ATGAGACCTG TGCCACCTAT GGACTCAATG TGGATCGGGT GTTTAATGAA
    GTTGCTCAGA AGATGGTTGC AATAAAGAGG CAGCAGCAAC TCCTATCATG CAAGTCATTA
    CCAAGCTCTC CAAGTCACTC CTCTGGATCC ATTGCAATAT CAGTGCAGGC AAGTAATGGA
    GGAACAACAA GTGATTATTC ATCGTCACTG CCTTCCACAC CAAACATCAG TCACAGAGAA
    CTACGAAGTG AGGTGTCCAT TGGAGTCAGC ACTCCGGTGT CCCTCCATCG TGGCACTAAA
    AGGCGCACAA GCATATTTAC AAACCGAAGG GGAAGTGATT TGGAAAAGAG AAGTTTTGAT
    AGTCGTGCAG ATGGTGCTGG TGGGGGTCGG GCTCTACCAA TTAAACAGAG CTTCTTAATG
    AAACGAAGCG GCAACTCTCT GAACAAAGAA TGGAAGAAGA AGTATGTTAC CCTGACAAGC
    AATGGGGTCC TGCTCTACCA TCCAAGCATT AATGATTACC TACACAGTAC ACATGGGAAG
    GAGATGGATC TTTTACGAAC TACAGTGAAG GTCCCTGGAA AGAGGCCTCC AATAGCCATG
    TCTGCCTGTG GCCCATCCAA TAGCATCAAC GGCTTGTTAA AGGATGTGGG CAGCTCTCCA
    GGGGGAGATA CAGCAAGTAA CAAGGCGCAA TCAACAAAAA GCAAATCCAC TGGCGATGTC
    ATTTCCAGCC CCACCAGCAA CAAAGATCCC CCCTCTTCCC CAATGAGTGA TAAAAAGAAG
    AACAGAAGAA AAAAGAATAT GACCCCTTCC AAGACAGAAG GGTCCGCTGG ACAGGCAGAT
    GCCAAGCGCA AAATGTGGAA GTTAAAAACA TTTGGTAGCT TGAGAAATAT TTATAAGACA
    GAAGAGAACT TCGAATTTAT CATTGTGTCT AGCACAGGGC AGACATGGCA TTTTGAGACA
    AGCAGCTTTG AAGAAAGGGA TTCCTGGGTA CAAGCCATTG AGAGCCAGAT CCTCGCTAGC
    CTGCAGTGCT GCGAGAGCAG CAAAAATAAG GCTCGAATGG ACAGTCAGAG CGAAGCGGTC
    GCCATCCAAG CCATTCGGAA TGCTAAAGGG AATTCATTTT GTGTGGATTG TGGTGCCCCG
    AATCCCACCT GGGCCAGCTT GAATCTGGGT GCCCTGATCT GCATTGAATG TTCAGGAATT
    CACAGAAACC TTGGCACCCA TTTATCTCGG GTCCGATCAC TGGATTTGGA TGACTGGCCC
    CTAGAGCTCA CACTTGTTCT AACCTCTATT GGTAATGAAA TGGCCAACAG CATATGGGAG
    ATGACAACTC ATGGAAGAAC CAAACCAGCA CCTGATTCCT CAAGGGAAGA GAGAGAATCA
    TGGATTAGAG CTAAGTATGA GCAGCGATTA TTTTTGGCCC CTTTGAAGAG TCCAGGGGTC
    CCCTTGGTGA AGCAGCTTTT TAAAGCTGTA CATGAGAAAA ATCTCGGCAA TGTACTTCTC
    CTCCTAGCCC ACAGCAACAA GGAGCAAATC AACGGAATCA CTGGAGACAG AGACAGACGC
    ACTGCCCTTC ATGTGGCCTG TGAACTGGGG GAAGTTGTGA CCACACAACT GCTTGTCTGG
    TATGGCATCG ATGTGAAGTC AAGAGACAGC AATGGCCACA CAGCCGTGTT TTATGCTAAG
    AAAAGTAACA GCCAAGAGTG CGTGGACATT CTGCTGCAAC ATGGCTGTCC CAATGAGTCC
    ACAAGCGCCC TGTCCACTCC CAGTCTAAGA AGGAAAAGCA GCTCTGCCAG CATCGTGAGG
    ACTGATTCCC GGACTGCCCT TGTGTAG

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

    CloneID OXa36738
    Clone ID Related Accession (Same CDS sequence) XM_012957847.2
    Accession Version XM_012957847.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2427bp)
    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 arf-GAP with GTPase, ANK repeat and PH domain-containing protein 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) 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_012957847.1. ##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
    ATGAGCGGGG AGTTTTACAG AGGCAGAGAT GGCATTCATG GAAGTCTCAA GATGAGTTCA 
    GGAAAGCAGC AAATGTCTGC AGCCATTCGA GGTGAAGTGA AGAGACATGA GGTGGCCAAG
    GCTCAGCTCA CTAGGCTGCT CAAACTAGCA GAGCAAGTGA GCGAAGAGCA TCTGAAAGAT
    AACCTAGTCG TCTCCCTGCG GAGCCTGAGA GAATGTGTGA TGAACAGCCA GGAATGGACC
    TTAAGTCGGA CTGTGCCTGA AATCAGAGTG GGAGTTTTGG GCAGTACTAA AAGTGCCAAG
    TCTGCTCTTG TGCATCGGTT TGTGACCGGC TCCTATCAAC CCCTAGAAGC ACCTGAAAGT
    GCTCAGTTCA AGAAAGAGAT CAGCGTGGAA GGGCAGAGCT ACCTTCTGCT AATTAGGGAA
    GAAGCCGGAG CTCCAGATGC CAAGTTTGCC AATTGGGTGG ATGCCGTCAT TTTTGTGTTC
    AGCCTGGAAA ATGAGGCAAG CTTTCAAGAT ATTTTCCAGT ATTATGCTCT CCTGGCAAAT
    TATCGCAATG TTGCAGACCT CGCTATGGCA CTTGTTGGGA CTCAAGATAA AATTAGTGCA
    AACAACAAGC GAGTGGTAGA GGACGTGCGG GCGAGAGCCC TCTGCAATGA TATCAAACGC
    TGTGTTTACT ATGAGACCTG TGCCACCTAT GGACTCAATG TGGATCGGGT GTTTAATGAA
    GTTGCTCAGA AGATGGTTGC AATAAAGAGG CAGCAGCAAC TCCTATCATG CAAGTCATTA
    CCAAGCTCTC CAAGTCACTC CTCTGGATCC ATTGCAATAT CAGTGCAGGC AAGTAATGGA
    GGAACAACAA GTGATTATTC ATCGTCACTG CCTTCCACAC CAAACATCAG TCACAGAGAA
    CTACGAAGTG AGGTGTCCAT TGGAGTCAGC ACTCCGGTGT CCCTCCATCG TGGCACTAAA
    AGGCGCACAA GCATATTTAC AAACCGAAGG GGAAGTGATT TGGAAAAGAG AAGTTTTGAT
    AGTCGTGCAG ATGGTGCTGG TGGGGGTCGG GCTCTACCAA TTAAACAGAG CTTCTTAATG
    AAACGAAGCG GCAACTCTCT GAACAAAGAA TGGAAGAAGA AGTATGTTAC CCTGACAAGC
    AATGGGGTCC TGCTCTACCA TCCAAGCATT AATGATTACC TACACAGTAC ACATGGGAAG
    GAGATGGATC TTTTACGAAC TACAGTGAAG GTCCCTGGAA AGAGGCCTCC AATAGCCATG
    TCTGCCTGTG GCCCATCCAA TAGCATCAAC GGCTTGTTAA AGGATGTGGG CAGCTCTCCA
    GGGGGAGATA CAGCAAGTAA CAAGGCGCAA TCAACAAAAA GCAAATCCAC TGGCGATGTC
    ATTTCCAGCC CCACCAGCAA CAAAGATCCC CCCTCTTCCC CAATGAGTGA TAAAAAGAAG
    AACAGAAGAA AAAAGAATAT GACCCCTTCC AAGACAGAAG GGTCCGCTGG ACAGGCAGAT
    GAAGAGAACT TCGAATTTAT CATTGTGTCT AGCACAGGGC AGACATGGCA TTTTGAGACA
    AGCAGCTTTG AAGAAAGGGA TTCCTGGGTA CAAGCCATTG AGAGCCAGAT CCTCGCTAGC
    CTGCAGTGCT GCGAGAGCAG CAAAAATAAG GCTCGAATGG ACAGTCAGAG CGAAGCGGTC
    GCCATCCAAG CCATTCGGAA TGCTAAAGGG AATTCATTTT GTGTGGATTG TGGTGCCCCG
    AATCCCACCT GGGCCAGCTT GAATCTGGGT GCCCTGATCT GCATTGAATG TTCAGGAATT
    CACAGAAACC TTGGCACCCA TTTATCTCGG GTCCGATCAC TGGATTTGGA TGACTGGCCC
    CTAGAGCTCA CACTTGTTCT AACCTCTATT GGTAATGAAA TGGCCAACAG CATATGGGAG
    ATGACAACTC ATGGAAGAAC CAAACCAGCA CCTGATTCCT CAAGGGAAGA GAGAGAATCA
    TGGATTAGAG CTAAGTATGA GCAGCGATTA TTTTTGGCCC CTTTGAAGAG TCCAGGGGTC
    CCCTTGGTGA AGCAGCTTTT TAAAGCTGTA CATGAGAAAA ATCTCGGCAA TGTACTTCTC
    CTCCTAGCCC ACAGCAACAA GGAGCAAATC AACGGAATCA CTGGAGACAG AGACAGACGC
    ACTGCCCTTC ATGTGGCCTG TGAACTGGGG GAAGTTGTGA CCACACAACT GCTTGTCTGG
    TATGGCATCG ATGTGAAGTC AAGAGACAGC AATGGCCACA CAGCCGTGTT TTATGCTAAG
    AAAAGTAACA GCCAAGAGTG CGTGGACATT CTGCTGCAAC ATGGCTGTCC CAATGAGTCC
    ACAAGCGCCC TGTCCACTCC CAGTCTAAGA AGGAAAAGCA GCTCTGCCAG CATCGTGAGG
    ACTGATTCCC GGACTGCCCT TGTGTAG

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

    RefSeq XP_012813301.1
    CDS438..2864
    Translation

    Target ORF information:

    RefSeq Version XM_012957847.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ArfGAP with GTPase domain, ankyrin repeat and PH domain 2 (agap2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957847.2

    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
    ATGAGCGGGG AGTTTTACAG AGGCAGAGAT GGCATTCATG GAAGTCTCAA GATGAGTTCA 
    GGAAAGCAGC AAATGTCTGC AGCCATTCGA GGTGAAGTGA AGAGACATGA GGTGGCCAAG
    GCTCAGCTCA CTAGGCTGCT CAAACTAGCA GAGCAAGTGA GCGAAGAGCA TCTGAAAGAT
    AACCTAGTCG TCTCCCTGCG GAGCCTGAGA GAATGTGTGA TGAACAGCCA GGAATGGACC
    TTAAGTCGGA CTGTGCCTGA AATCAGAGTG GGAGTTTTGG GCAGTACTAA AAGTGCCAAG
    TCTGCTCTTG TGCATCGGTT TGTGACCGGC TCCTATCAAC CCCTAGAAGC ACCTGAAAGT
    GCTCAGTTCA AGAAAGAGAT CAGCGTGGAA GGGCAGAGCT ACCTTCTGCT AATTAGGGAA
    GAAGCCGGAG CTCCAGATGC CAAGTTTGCC AATTGGGTGG ATGCCGTCAT TTTTGTGTTC
    AGCCTGGAAA ATGAGGCAAG CTTTCAAGAT ATTTTCCAGT ATTATGCTCT CCTGGCAAAT
    TATCGCAATG TTGCAGACCT CGCTATGGCA CTTGTTGGGA CTCAAGATAA AATTAGTGCA
    AACAACAAGC GAGTGGTAGA GGACGTGCGG GCGAGAGCCC TCTGCAATGA TATCAAACGC
    TGTGTTTACT ATGAGACCTG TGCCACCTAT GGACTCAATG TGGATCGGGT GTTTAATGAA
    GTTGCTCAGA AGATGGTTGC AATAAAGAGG CAGCAGCAAC TCCTATCATG CAAGTCATTA
    CCAAGCTCTC CAAGTCACTC CTCTGGATCC ATTGCAATAT CAGTGCAGGC AAGTAATGGA
    GGAACAACAA GTGATTATTC ATCGTCACTG CCTTCCACAC CAAACATCAG TCACAGAGAA
    CTACGAAGTG AGGTGTCCAT TGGAGTCAGC ACTCCGGTGT CCCTCCATCG TGGCACTAAA
    AGGCGCACAA GCATATTTAC AAACCGAAGG GGAAGTGATT TGGAAAAGAG AAGTTTTGAT
    AGTCGTGCAG ATGGTGCTGG TGGGGGTCGG GCTCTACCAA TTAAACAGAG CTTCTTAATG
    AAACGAAGCG GCAACTCTCT GAACAAAGAA TGGAAGAAGA AGTATGTTAC CCTGACAAGC
    AATGGGGTCC TGCTCTACCA TCCAAGCATT AATGATTACC TACACAGTAC ACATGGGAAG
    GAGATGGATC TTTTACGAAC TACAGTGAAG GTCCCTGGAA AGAGGCCTCC AATAGCCATG
    TCTGCCTGTG GCCCATCCAA TAGCATCAAC GGCTTGTTAA AGGATGTGGG CAGCTCTCCA
    GGGGGAGATA CAGCAAGTAA CAAGGCGCAA TCAACAAAAA GCAAATCCAC TGGCGATGTC
    ATTTCCAGCC CCACCAGCAA CAAAGATCCC CCCTCTTCCC CAATGAGTGA TAAAAAGAAG
    AACAGAAGAA AAAAGAATAT GACCCCTTCC AAGACAGAAG GGTCCGCTGG ACAGGCAGAT
    GAAGAGAACT TCGAATTTAT CATTGTGTCT AGCACAGGGC AGACATGGCA TTTTGAGACA
    AGCAGCTTTG AAGAAAGGGA TTCCTGGGTA CAAGCCATTG AGAGCCAGAT CCTCGCTAGC
    CTGCAGTGCT GCGAGAGCAG CAAAAATAAG GCTCGAATGG ACAGTCAGAG CGAAGCGGTC
    GCCATCCAAG CCATTCGGAA TGCTAAAGGG AATTCATTTT GTGTGGATTG TGGTGCCCCG
    AATCCCACCT GGGCCAGCTT GAATCTGGGT GCCCTGATCT GCATTGAATG TTCAGGAATT
    CACAGAAACC TTGGCACCCA TTTATCTCGG GTCCGATCAC TGGATTTGGA TGACTGGCCC
    CTAGAGCTCA CACTTGTTCT AACCTCTATT GGTAATGAAA TGGCCAACAG CATATGGGAG
    ATGACAACTC ATGGAAGAAC CAAACCAGCA CCTGATTCCT CAAGGGAAGA GAGAGAATCA
    TGGATTAGAG CTAAGTATGA GCAGCGATTA TTTTTGGCCC CTTTGAAGAG TCCAGGGGTC
    CCCTTGGTGA AGCAGCTTTT TAAAGCTGTA CATGAGAAAA ATCTCGGCAA TGTACTTCTC
    CTCCTAGCCC ACAGCAACAA GGAGCAAATC AACGGAATCA CTGGAGACAG AGACAGACGC
    ACTGCCCTTC ATGTGGCCTG TGAACTGGGG GAAGTTGTGA CCACACAACT GCTTGTCTGG
    TATGGCATCG ATGTGAAGTC AAGAGACAGC AATGGCCACA CAGCCGTGTT TTATGCTAAG
    AAAAGTAACA GCCAAGAGTG CGTGGACATT CTGCTGCAAC ATGGCTGTCC CAATGAGTCC
    ACAAGCGCCC TGTCCACTCC CAGTCTAAGA AGGAAAAGCA GCTCTGCCAG CATCGTGAGG
    ACTGATTCCC GGACTGCCCT TGTGTAG

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

    CloneID OXa52702
    Clone ID Related Accession (Same CDS sequence) XM_012957846.3
    Accession Version XM_012957846.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2487bp)
    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 arf-GAP with GTPase, ANK repeat and PH domain-containing protein 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) 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_012957846.2. ##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
    ATGAGCGGGG AGTTTTACAG AGGCAGAGAT GGCATTCATG GAAGTCTCAA GATGAGTTCA 
    GGAAAGCAGC AAATGTCTGC AGCCATTCGA GGTGAAGTGA AGAGACATGA GGTGGCCAAG
    GCTCAGCTCA CTAGGCTGCT CAAACTAGCA GAGCAAGTGA GCGAAGAGCA TCTGAAAGAT
    AACCTAGTCG TCTCCCTGCG GAGCCTGAGA GAATGTGTGA TGAACAGCCA GGAATGGACC
    TTAAGTCGGA CTGTGCCTGA AATCAGAGTG GGAGTTTTGG GCAGTACTAA AAGTGCCAAG
    TCTGCTCTTG TGCATCGGTT TGTGACCGGC TCCTATCAAC CCCTAGAAGC ACCTGAAAGT
    GCTCAGTTCA AGAAAGAGAT CAGCGTGGAA GGGCAGAGCT ACCTTCTGCT AATTAGGGAA
    GAAGCCGGAG CTCCAGATGC CAAGTTTGCC AATTGGGTGG ATGCCGTCAT TTTTGTGTTC
    AGCCTGGAAA ATGAGGCAAG CTTTCAAGAT ATTTTCCAGT ATTATGCTCT CCTGGCAAAT
    TATCGCAATG TTGCAGACCT CGCTATGGCA CTTGTTGGGA CTCAAGATAA AATTAGTGCA
    AACAACAAGC GAGTGGTAGA GGACGTGCGG GCGAGAGCCC TCTGCAATGA TATCAAACGC
    TGTGTTTACT ATGAGACCTG TGCCACCTAT GGACTCAATG TGGATCGGGT GTTTAATGAA
    GTTGCTCAGA AGATGGTTGC AATAAAGAGG CAGCAGCAAC TCCTATCATG CAAGTCATTA
    CCAAGCTCTC CAAGTCACTC CTCTGGATCC ATTGCAATAT CAGTGCAGGC AAGTAATGGA
    GGAACAACAA GTGATTATTC ATCGTCACTG CCTTCCACAC CAAACATCAG TCACAGAGAA
    CTACGAAGTG AGGTGTCCAT TGGAGTCAGC ACTCCGGTGT CCCTCCATCG TGGCACTAAA
    AGGCGCACAA GCATATTTAC AAACCGAAGG GGAAGTGATT TGGAAAAGAG AAGTTTTGAT
    AGTCGTGCAG ATGGTGCTGG TGGGGGTCGG GCTCTACCAA TTAAACAGAG CTTCTTAATG
    AAACGAAGCG GCAACTCTCT GAACAAAGAA TGGAAGAAGA AGTATGTTAC CCTGACAAGC
    AATGGGGTCC TGCTCTACCA TCCAAGCATT AATGATTACC TACACAGTAC ACATGGGAAG
    GAGATGGATC TTTTACGAAC TACAGTGAAG GTCCCTGGAA AGAGGCCTCC AATAGCCATG
    TCTGCCTGTG GCCCATCCAA TAGCATCAAC GGCTTGTTAA AGGATGTGGG CAGCTCTCCA
    GGGGGAGATA CAGCAAGTAA CAAGGCGCAA TCAACAAAAA GCAAATCCAC TGGCGATGTC
    ATTTCCAGCC CCACCAGCAA CAAAGATCCC CCCTCTTCCC CAATGAGTGA TAAAAAGAAG
    AACAGAAGAA AAAAGAATAT GACCCCTTCC AAGACAGAAG GGTCCGCTGG ACAGGCAGAT
    GCCAAGCGCA AAATGTGGAA GTTAAAAACA TTTGGTAGCT TGAGAAATAT TTATAAGACA
    GAAGAGAACT TCGAATTCAT CATTGTGTCT AGCACCGGGC AGACATGGCA TTTTGAGACA
    AGCAGCTTTG AAGAAAGGGA TTCCTGGGTA CAAGCCATTG AGAGCCAGAT CCTCGCTAGC
    CTGCAGTGCT GCGAGAGCAG CAAAAATAAG GCTCGAATGG ATAGTCAGAG CGAAGCGGTC
    GCCATCCAAG CCATTCGGAA TGCTAAAGGG AATTCATTTT GTGTGGATTG TGGTGCCCCG
    AATCCCACCT GGGCCAGCTT GAATCTGGGT GCCCTGATCT GCATTGAATG TTCAGGAATT
    CACAGAAACC TTGGCACCCA TTTATCTCGG GTCCGATCAC TGGATTTGGA TGACTGGCCC
    CTAGAGCTCA CACTTGTTCT AACCTCTATT GGTAATGAAA TGGCCAACAG TATATGGGAG
    ATGACAACTC ATGGAAGAAC CAAACCAGCA CCTGATTCCT CAAGGGAAGA GAGAGAATCA
    TGGATTAGAG CTAAGTATGA GCAGCGATTA TTTTTGGCCC CTTTGAAGAG TCCAGGGGTC
    CCCTTGGTGA AGCAGCTTTT TAAAGCTGTA CATGAGAAAA ATCTCGGCAA TGTACTTCTC
    CTCCTAGCCC ACAGCAACAA GGAGCAAATC AACGGAATCA CTGGAGACAG AGACAGACGC
    ACTGCCCTTC ATGTGGCCTG TGAACTGGGG GAAGTTGTGA CCACACAACT GCTTGTCTGG
    TATGGCATCG ATGTGAAGTC AAGAGACAGC AATGGCCACA CAGCCGTGTT TTATGCTAAG
    AAAAGTAACA GCCAAGAGTG CGTGGACATT CTGCTGCAAC ATGGCTGTCC CAATGAGTCC
    ACAAGCGCCC TGTCCACTCC CAGTCTAAGA AGGAAAAGCA GCTCTGCCAG CATCGTGAGG
    ACTGATTCCC GGACTGCCCT TGTGTAG

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

    RefSeq XP_012813300.1
    CDS332..2818
    Translation

    Target ORF information:

    RefSeq Version XM_012957846.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ArfGAP with GTPase domain, ankyrin repeat and PH domain 2 (agap2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957846.3

    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
    ATGAGCGGGG AGTTTTACAG AGGCAGAGAT GGCATTCATG GAAGTCTCAA GATGAGTTCA 
    GGAAAGCAGC AAATGTCTGC AGCCATTCGA GGTGAAGTGA AGAGACATGA GGTGGCCAAG
    GCTCAGCTCA CTAGGCTGCT CAAACTAGCA GAGCAAGTGA GCGAAGAGCA TCTGAAAGAT
    AACCTAGTCG TCTCCCTGCG GAGCCTGAGA GAATGTGTGA TGAACAGCCA GGAATGGACC
    TTAAGTCGGA CTGTGCCTGA AATCAGAGTG GGAGTTTTGG GCAGTACTAA AAGTGCCAAG
    TCTGCTCTTG TGCATCGGTT TGTGACCGGC TCCTATCAAC CCCTAGAAGC ACCTGAAAGT
    GCTCAGTTCA AGAAAGAGAT CAGCGTGGAA GGGCAGAGCT ACCTTCTGCT AATTAGGGAA
    GAAGCCGGAG CTCCAGATGC CAAGTTTGCC AATTGGGTGG ATGCCGTCAT TTTTGTGTTC
    AGCCTGGAAA ATGAGGCAAG CTTTCAAGAT ATTTTCCAGT ATTATGCTCT CCTGGCAAAT
    TATCGCAATG TTGCAGACCT CGCTATGGCA CTTGTTGGGA CTCAAGATAA AATTAGTGCA
    AACAACAAGC GAGTGGTAGA GGACGTGCGG GCGAGAGCCC TCTGCAATGA TATCAAACGC
    TGTGTTTACT ATGAGACCTG TGCCACCTAT GGACTCAATG TGGATCGGGT GTTTAATGAA
    GTTGCTCAGA AGATGGTTGC AATAAAGAGG CAGCAGCAAC TCCTATCATG CAAGTCATTA
    CCAAGCTCTC CAAGTCACTC CTCTGGATCC ATTGCAATAT CAGTGCAGGC AAGTAATGGA
    GGAACAACAA GTGATTATTC ATCGTCACTG CCTTCCACAC CAAACATCAG TCACAGAGAA
    CTACGAAGTG AGGTGTCCAT TGGAGTCAGC ACTCCGGTGT CCCTCCATCG TGGCACTAAA
    AGGCGCACAA GCATATTTAC AAACCGAAGG GGAAGTGATT TGGAAAAGAG AAGTTTTGAT
    AGTCGTGCAG ATGGTGCTGG TGGGGGTCGG GCTCTACCAA TTAAACAGAG CTTCTTAATG
    AAACGAAGCG GCAACTCTCT GAACAAAGAA TGGAAGAAGA AGTATGTTAC CCTGACAAGC
    AATGGGGTCC TGCTCTACCA TCCAAGCATT AATGATTACC TACACAGTAC ACATGGGAAG
    GAGATGGATC TTTTACGAAC TACAGTGAAG GTCCCTGGAA AGAGGCCTCC AATAGCCATG
    TCTGCCTGTG GCCCATCCAA TAGCATCAAC GGCTTGTTAA AGGATGTGGG CAGCTCTCCA
    GGGGGAGATA CAGCAAGTAA CAAGGCGCAA TCAACAAAAA GCAAATCCAC TGGCGATGTC
    ATTTCCAGCC CCACCAGCAA CAAAGATCCC CCCTCTTCCC CAATGAGTGA TAAAAAGAAG
    AACAGAAGAA AAAAGAATAT GACCCCTTCC AAGACAGAAG GGTCCGCTGG ACAGGCAGAT
    GCCAAGCGCA AAATGTGGAA GTTAAAAACA TTTGGTAGCT TGAGAAATAT TTATAAGACA
    GAAGAGAACT TCGAATTCAT CATTGTGTCT AGCACCGGGC AGACATGGCA TTTTGAGACA
    AGCAGCTTTG AAGAAAGGGA TTCCTGGGTA CAAGCCATTG AGAGCCAGAT CCTCGCTAGC
    CTGCAGTGCT GCGAGAGCAG CAAAAATAAG GCTCGAATGG ATAGTCAGAG CGAAGCGGTC
    GCCATCCAAG CCATTCGGAA TGCTAAAGGG AATTCATTTT GTGTGGATTG TGGTGCCCCG
    AATCCCACCT GGGCCAGCTT GAATCTGGGT GCCCTGATCT GCATTGAATG TTCAGGAATT
    CACAGAAACC TTGGCACCCA TTTATCTCGG GTCCGATCAC TGGATTTGGA TGACTGGCCC
    CTAGAGCTCA CACTTGTTCT AACCTCTATT GGTAATGAAA TGGCCAACAG TATATGGGAG
    ATGACAACTC ATGGAAGAAC CAAACCAGCA CCTGATTCCT CAAGGGAAGA GAGAGAATCA
    TGGATTAGAG CTAAGTATGA GCAGCGATTA TTTTTGGCCC CTTTGAAGAG TCCAGGGGTC
    CCCTTGGTGA AGCAGCTTTT TAAAGCTGTA CATGAGAAAA ATCTCGGCAA TGTACTTCTC
    CTCCTAGCCC ACAGCAACAA GGAGCAAATC AACGGAATCA CTGGAGACAG AGACAGACGC
    ACTGCCCTTC ATGTGGCCTG TGAACTGGGG GAAGTTGTGA CCACACAACT GCTTGTCTGG
    TATGGCATCG ATGTGAAGTC AAGAGACAGC AATGGCCACA CAGCCGTGTT TTATGCTAAG
    AAAAGTAACA GCCAAGAGTG CGTGGACATT CTGCTGCAAC ATGGCTGTCC CAATGAGTCC
    ACAAGCGCCC TGTCCACTCC CAGTCTAAGA AGGAAAAGCA GCTCTGCCAG CATCGTGAGG
    ACTGATTCCC GGACTGCCCT TGTGTAG

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

    CloneID OXa52703
    Clone ID Related Accession (Same CDS sequence) XM_012957847.3
    Accession Version XM_012957847.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2427bp)
    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 arf-GAP with GTPase, ANK repeat and PH domain-containing protein 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) 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_012957847.2. ##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
    ATGAGCGGGG AGTTTTACAG AGGCAGAGAT GGCATTCATG GAAGTCTCAA GATGAGTTCA 
    GGAAAGCAGC AAATGTCTGC AGCCATTCGA GGTGAAGTGA AGAGACATGA GGTGGCCAAG
    GCTCAGCTCA CTAGGCTGCT CAAACTAGCA GAGCAAGTGA GCGAAGAGCA TCTGAAAGAT
    AACCTAGTCG TCTCCCTGCG GAGCCTGAGA GAATGTGTGA TGAACAGCCA GGAATGGACC
    TTAAGTCGGA CTGTGCCTGA AATCAGAGTG GGAGTTTTGG GCAGTACTAA AAGTGCCAAG
    TCTGCTCTTG TGCATCGGTT TGTGACCGGC TCCTATCAAC CCCTAGAAGC ACCTGAAAGT
    GCTCAGTTCA AGAAAGAGAT CAGCGTGGAA GGGCAGAGCT ACCTTCTGCT AATTAGGGAA
    GAAGCCGGAG CTCCAGATGC CAAGTTTGCC AATTGGGTGG ATGCCGTCAT TTTTGTGTTC
    AGCCTGGAAA ATGAGGCAAG CTTTCAAGAT ATTTTCCAGT ATTATGCTCT CCTGGCAAAT
    TATCGCAATG TTGCAGACCT CGCTATGGCA CTTGTTGGGA CTCAAGATAA AATTAGTGCA
    AACAACAAGC GAGTGGTAGA GGACGTGCGG GCGAGAGCCC TCTGCAATGA TATCAAACGC
    TGTGTTTACT ATGAGACCTG TGCCACCTAT GGACTCAATG TGGATCGGGT GTTTAATGAA
    GTTGCTCAGA AGATGGTTGC AATAAAGAGG CAGCAGCAAC TCCTATCATG CAAGTCATTA
    CCAAGCTCTC CAAGTCACTC CTCTGGATCC ATTGCAATAT CAGTGCAGGC AAGTAATGGA
    GGAACAACAA GTGATTATTC ATCGTCACTG CCTTCCACAC CAAACATCAG TCACAGAGAA
    CTACGAAGTG AGGTGTCCAT TGGAGTCAGC ACTCCGGTGT CCCTCCATCG TGGCACTAAA
    AGGCGCACAA GCATATTTAC AAACCGAAGG GGAAGTGATT TGGAAAAGAG AAGTTTTGAT
    AGTCGTGCAG ATGGTGCTGG TGGGGGTCGG GCTCTACCAA TTAAACAGAG CTTCTTAATG
    AAACGAAGCG GCAACTCTCT GAACAAAGAA TGGAAGAAGA AGTATGTTAC CCTGACAAGC
    AATGGGGTCC TGCTCTACCA TCCAAGCATT AATGATTACC TACACAGTAC ACATGGGAAG
    GAGATGGATC TTTTACGAAC TACAGTGAAG GTCCCTGGAA AGAGGCCTCC AATAGCCATG
    TCTGCCTGTG GCCCATCCAA TAGCATCAAC GGCTTGTTAA AGGATGTGGG CAGCTCTCCA
    GGGGGAGATA CAGCAAGTAA CAAGGCGCAA TCAACAAAAA GCAAATCCAC TGGCGATGTC
    ATTTCCAGCC CCACCAGCAA CAAAGATCCC CCCTCTTCCC CAATGAGTGA TAAAAAGAAG
    AACAGAAGAA AAAAGAATAT GACCCCTTCC AAGACAGAAG GGTCCGCTGG ACAGGCAGAT
    GAAGAGAACT TCGAATTCAT CATTGTGTCT AGCACCGGGC AGACATGGCA TTTTGAGACA
    AGCAGCTTTG AAGAAAGGGA TTCCTGGGTA CAAGCCATTG AGAGCCAGAT CCTCGCTAGC
    CTGCAGTGCT GCGAGAGCAG CAAAAATAAG GCTCGAATGG ATAGTCAGAG CGAAGCGGTC
    GCCATCCAAG CCATTCGGAA TGCTAAAGGG AATTCATTTT GTGTGGATTG TGGTGCCCCG
    AATCCCACCT GGGCCAGCTT GAATCTGGGT GCCCTGATCT GCATTGAATG TTCAGGAATT
    CACAGAAACC TTGGCACCCA TTTATCTCGG GTCCGATCAC TGGATTTGGA TGACTGGCCC
    CTAGAGCTCA CACTTGTTCT AACCTCTATT GGTAATGAAA TGGCCAACAG TATATGGGAG
    ATGACAACTC ATGGAAGAAC CAAACCAGCA CCTGATTCCT CAAGGGAAGA GAGAGAATCA
    TGGATTAGAG CTAAGTATGA GCAGCGATTA TTTTTGGCCC CTTTGAAGAG TCCAGGGGTC
    CCCTTGGTGA AGCAGCTTTT TAAAGCTGTA CATGAGAAAA ATCTCGGCAA TGTACTTCTC
    CTCCTAGCCC ACAGCAACAA GGAGCAAATC AACGGAATCA CTGGAGACAG AGACAGACGC
    ACTGCCCTTC ATGTGGCCTG TGAACTGGGG GAAGTTGTGA CCACACAACT GCTTGTCTGG
    TATGGCATCG ATGTGAAGTC AAGAGACAGC AATGGCCACA CAGCCGTGTT TTATGCTAAG
    AAAAGTAACA GCCAAGAGTG CGTGGACATT CTGCTGCAAC ATGGCTGTCC CAATGAGTCC
    ACAAGCGCCC TGTCCACTCC CAGTCTAAGA AGGAAAAGCA GCTCTGCCAG CATCGTGAGG
    ACTGATTCCC GGACTGCCCT TGTGTAG

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

    RefSeq XP_012813301.1
    CDS333..2759
    Translation

    Target ORF information:

    RefSeq Version XM_012957847.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ArfGAP with GTPase domain, ankyrin repeat and PH domain 2 (agap2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957847.3

    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
    ATGAGCGGGG AGTTTTACAG AGGCAGAGAT GGCATTCATG GAAGTCTCAA GATGAGTTCA 
    GGAAAGCAGC AAATGTCTGC AGCCATTCGA GGTGAAGTGA AGAGACATGA GGTGGCCAAG
    GCTCAGCTCA CTAGGCTGCT CAAACTAGCA GAGCAAGTGA GCGAAGAGCA TCTGAAAGAT
    AACCTAGTCG TCTCCCTGCG GAGCCTGAGA GAATGTGTGA TGAACAGCCA GGAATGGACC
    TTAAGTCGGA CTGTGCCTGA AATCAGAGTG GGAGTTTTGG GCAGTACTAA AAGTGCCAAG
    TCTGCTCTTG TGCATCGGTT TGTGACCGGC TCCTATCAAC CCCTAGAAGC ACCTGAAAGT
    GCTCAGTTCA AGAAAGAGAT CAGCGTGGAA GGGCAGAGCT ACCTTCTGCT AATTAGGGAA
    GAAGCCGGAG CTCCAGATGC CAAGTTTGCC AATTGGGTGG ATGCCGTCAT TTTTGTGTTC
    AGCCTGGAAA ATGAGGCAAG CTTTCAAGAT ATTTTCCAGT ATTATGCTCT CCTGGCAAAT
    TATCGCAATG TTGCAGACCT CGCTATGGCA CTTGTTGGGA CTCAAGATAA AATTAGTGCA
    AACAACAAGC GAGTGGTAGA GGACGTGCGG GCGAGAGCCC TCTGCAATGA TATCAAACGC
    TGTGTTTACT ATGAGACCTG TGCCACCTAT GGACTCAATG TGGATCGGGT GTTTAATGAA
    GTTGCTCAGA AGATGGTTGC AATAAAGAGG CAGCAGCAAC TCCTATCATG CAAGTCATTA
    CCAAGCTCTC CAAGTCACTC CTCTGGATCC ATTGCAATAT CAGTGCAGGC AAGTAATGGA
    GGAACAACAA GTGATTATTC ATCGTCACTG CCTTCCACAC CAAACATCAG TCACAGAGAA
    CTACGAAGTG AGGTGTCCAT TGGAGTCAGC ACTCCGGTGT CCCTCCATCG TGGCACTAAA
    AGGCGCACAA GCATATTTAC AAACCGAAGG GGAAGTGATT TGGAAAAGAG AAGTTTTGAT
    AGTCGTGCAG ATGGTGCTGG TGGGGGTCGG GCTCTACCAA TTAAACAGAG CTTCTTAATG
    AAACGAAGCG GCAACTCTCT GAACAAAGAA TGGAAGAAGA AGTATGTTAC CCTGACAAGC
    AATGGGGTCC TGCTCTACCA TCCAAGCATT AATGATTACC TACACAGTAC ACATGGGAAG
    GAGATGGATC TTTTACGAAC TACAGTGAAG GTCCCTGGAA AGAGGCCTCC AATAGCCATG
    TCTGCCTGTG GCCCATCCAA TAGCATCAAC GGCTTGTTAA AGGATGTGGG CAGCTCTCCA
    GGGGGAGATA CAGCAAGTAA CAAGGCGCAA TCAACAAAAA GCAAATCCAC TGGCGATGTC
    ATTTCCAGCC CCACCAGCAA CAAAGATCCC CCCTCTTCCC CAATGAGTGA TAAAAAGAAG
    AACAGAAGAA AAAAGAATAT GACCCCTTCC AAGACAGAAG GGTCCGCTGG ACAGGCAGAT
    GAAGAGAACT TCGAATTCAT CATTGTGTCT AGCACCGGGC AGACATGGCA TTTTGAGACA
    AGCAGCTTTG AAGAAAGGGA TTCCTGGGTA CAAGCCATTG AGAGCCAGAT CCTCGCTAGC
    CTGCAGTGCT GCGAGAGCAG CAAAAATAAG GCTCGAATGG ATAGTCAGAG CGAAGCGGTC
    GCCATCCAAG CCATTCGGAA TGCTAAAGGG AATTCATTTT GTGTGGATTG TGGTGCCCCG
    AATCCCACCT GGGCCAGCTT GAATCTGGGT GCCCTGATCT GCATTGAATG TTCAGGAATT
    CACAGAAACC TTGGCACCCA TTTATCTCGG GTCCGATCAC TGGATTTGGA TGACTGGCCC
    CTAGAGCTCA CACTTGTTCT AACCTCTATT GGTAATGAAA TGGCCAACAG TATATGGGAG
    ATGACAACTC ATGGAAGAAC CAAACCAGCA CCTGATTCCT CAAGGGAAGA GAGAGAATCA
    TGGATTAGAG CTAAGTATGA GCAGCGATTA TTTTTGGCCC CTTTGAAGAG TCCAGGGGTC
    CCCTTGGTGA AGCAGCTTTT TAAAGCTGTA CATGAGAAAA ATCTCGGCAA TGTACTTCTC
    CTCCTAGCCC ACAGCAACAA GGAGCAAATC AACGGAATCA CTGGAGACAG AGACAGACGC
    ACTGCCCTTC ATGTGGCCTG TGAACTGGGG GAAGTTGTGA CCACACAACT GCTTGTCTGG
    TATGGCATCG ATGTGAAGTC AAGAGACAGC AATGGCCACA CAGCCGTGTT TTATGCTAAG
    AAAAGTAACA GCCAAGAGTG CGTGGACATT CTGCTGCAAC ATGGCTGTCC CAATGAGTCC
    ACAAGCGCCC TGTCCACTCC CAGTCTAAGA AGGAAAAGCA GCTCTGCCAG CATCGTGAGG
    ACTGATTCCC GGACTGCCCT TGTGTAG

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

    CloneID OXa52700
    Clone ID Related Accession (Same CDS sequence) XM_002933688.5
    Accession Version XM_002933688.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6114bp)
    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 arf-GAP with GTPase, ANK repeat and PH domain-containing protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) 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_002933688.4. ##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
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    ATGAGCAGAG GAGCCACCCT GCAGCGCAGG ACCACCTACC ATATATCTCT TACTCTGGTC 
    AAACTAGAGG CTGTAGGAGA AGAAAAGAAG GGAGAGACTC GGGAAGTCTA TCGGAGACAT
    GACACCCCGT CTCTCGGCAG CACCCCCGGT CTGGCCCATT GCCTCTCTCT GGACAGGGAA
    TTCCCAGATG CCTGGGTGTG GGGTGGGCCC GATGCTGCTT CCAGGGTGAG AGATCAGCCT
    AGTCCGGGAG CCGGTTCCGC AGCGGCCGGG GATGGCTCTG CCGCAGGGAC AAAGGTGAGA
    GGCAAGGTGA TCCGGAGCCA GACCCAAGCG CCTGTGCCCA GCAAGCCAAC TTTCCCCGGC
    CATGGGCAGA CTGCTACACC CGGCACTGCT GTGCCTCGGC CGGTACCGAA AGGAGCCGCG
    GTTCCCACAT CTGGACCTAA AGGGAGCGGT ACCTCCGGCT CTGCCAAGGG AACATCCAGC
    CCCGCAGCCT GTGCCATAGA CTCCCGGGCA CGTACCGCGG CCACTGAGGA ACCTGGCAGC
    AAAGGCACTT TCAGATCTGC CGCCCCGGTA CCGGCGAGTA AAGAAGCCTC TCCCAGCAGT
    GGGACACCGG CACCGGGACC CAAGCCCAGC AATGTAGCCT CAACTGCTCG TACAGCGCCT
    CAATCTACTT CCAGCCGCCC CCCCAGTCAT GCAGCCCCGC CACCTCCTCA CAAACACAAT
    GGCACCTCTG ATCCAGCTGC CTTGGCACTC ACACCGTCAC ATCCACCCTT GGCACCAACA
    GCAAAGGATA GTGGCACTTC ATCGCCTGCA TCCTTGGCAT CTATACCAAA GGACAGCAGT
    GCACCAGATA TGGCATCCCT GGCTCCTAAC CTTACATACA ATAATACCCC AAGCCCTTCA
    GCCTCTATAC CTTTAGACAG CTGTGCACCA TGCCCTTCAG GCCCTAATCT GTCAGCTAAG
    GAAAGTGTCA GTCCAGCTCC TACACCAAGT GCACCAGGAC AAGCAGGTCC AGTTTCCAAA
    GCCAAGGACA CTGACATGTC TGGTCTTGCA GCCCCAGGTA AGGACACTGG GAGACCTGGT
    GCCACCTGTA GTCCTATGAC ACCTGCAGCA TCAGCACCAA AAATGAAGGA AAAGGACGCA
    CCAAGACCTA CAGCAACAGC ATCCAAAGTT AAGGAAATTT GTACTGCAGA AATGACACCT
    GTAACAGAAG CTGCTTCTGT AAGTTTTGTT CCAGCAGCTA AGGGCAGCTA CACATCAGCT
    ACTGCAGCTC TGGTACCCAC ATCAAAGGGC ACTGGCTTAT CAAGTTCTGA AGGCTCTGTA
    CCCACATCAA AGAGCTATGG CACATCAATA CCTGCAACTC CAGTACCACC ACCATTACCT
    ATGGGCAATG TCACATTAAT TTCTGACCCT TCAGCACCCA CACCAAAGGG CAATAGCCAG
    TTTGTTCCTG CAGCTCCAAC AACCACACCT AAGTGCGCTG GCCAATCATT TCCTGCAGCT
    CCAACACCTA AGGGCAGGGG ACAATCAATT TCTGCAGCTC CAGCACCCAC ACCTAAGGTC
    AGTGGGACAT CAATTTCTGC AGCTCCAACA TCCACTCTTA AGGGCAGCTC ATCAATTTGT
    ACTGCAACAA CCATACCCAA GGCCAGTGGT ATATCAAGCC TTGGAACCTC GGTACCCACA
    TCTAAAGAAA GTAACACCTT AAATTCTGCA GCACCATCAA AGGACAGTGG CAAATCAAGT
    CCTGCAGACC CATCAACAAT TCTTCAGGAC AAAGATGTTT TACATTCTGC TGACCAGGTA
    CCTACAGCTG CTCCTAGTGA TAAATCAAGT CCTGACGTCC CAACTCCAAC CGCAGAAGAT
    AGTAATAAAA AGAGTTCTGA ACCCCAGTTA GCAGAGGATA AGGTTATCAC TGCAACTAGT
    AATTCAGGCC CAGTCAAAGA CACTGGCACC TCCAGCACTG CCACAACAGT GCCAGCAGGA
    CAGAGAGAGT TTACCTTTGG AACAGCTCGG GTGATCCGAG GATCCCTAAT CAGAAGACCA
    GCCTTGGATA CTGATGTGTC GCGAGATTTA GTCAGCAGTC CTACTGTTCC TGTACAAGGG
    GCCCGGATAA CAGAAGGAGT TAATGCGGAG GCCCCAGCCA TTGAAGCTAG AGTCTCTTCA
    CGAAGCTTCA AGGCTGTGAG AATTCCAGCG GGTTCAACTG AGACTGGAAC TGCATCAAGG
    GCAAATAGAG CCTCAGTCAA GGTAGAAAAG CCCAGTAAAG CATCTGAGCC AGAGGACAAG
    CCATGCCCAG TCATGACCTC TGTTCCCCGG GTAACTGCTC CACCTATCAG TGCTGCCAGA
    ACAGCAGCCG CCCTGTTTTC TGCATCTCGA TCAGGAGCCC CTCATAATGC AAGACCCAGT
    GAGGCAAAAA TAACTGCTAT CCGAACCGCA GCTCGCGGAG CCAGAGCAGT TTCTTCAGGG
    GCATGTACTG AGGACCTTGC AGGAAGAAGA ACACCAAACA CAGGCTTAGG GGAAAGAGCT
    CAAACCGGAG ATGCAGGAAC CTATCCAGGG GCAAAAGCAT CTGTCATGGG ACCAAAAACA
    GCAACTGGGA CATCACCTGT AAAAGTTGCA AAAATTGCAC CCAGGCCCAT GAGCTCTTGT
    GCAGACCCTA TAATCATCAC TGGATTGCGA ACAAAGGCCT CAACTGCTGT AAAAGCACCA
    CTGTCTGGTA CAGGTACATA CCCAGGGGCC AAATCATCTC TCTCCGGGTC ATTCACATCC
    CTGGGAAGTA AAGCATTGAC TGATAGCTCA GGAATTGTGG CTCCATCCGC AGAAGAAAAG
    TTTAGTCCAG GGTTAGTTTC ACCACATGTT GTCCGAACTC CAGTCCCCTC TGCCTTCTCC
    CTCCCAATCA GGCCTGAGGA CATTTTGCCT GGGGGGGAGG AGGAGTTTAC CCCCGATAAT
    GAGGATCCTG CTAAGAGTAA GCGCCAGGAG CGGCTGTTCC TAAGGCAGGA TGCCATGTGG
    ATCAGCACAA GTGTTACTTC AGACTATTTC TTACAGTCAT CCCCTGGACG GCCTGGTAGT
    GGTGGAAGCT CCCCTGGAGG GCACCGCCAG GAGCTTAGCC CAAAATTCTT TTCAGGGCCT
    CGCTGTTCGT TTAGCTCCCC AGGCAGCCCA CTGCTTACTG CTCCTTGTCA GCCAGGCACA
    CCTTACAGGG AGGCTCCAAT CAATGTGTCC CTTACAGTAA GCCAAGAGCA TGCTGGGGGA
    TCTTCAGAAA GTTGCCTTCT GATTGAGCGT AGTGCCTCTT CAGGGGTGAG TTCAGTAGGA
    GTTCCTGAGG CAGGTGAGCT TGGTAAAGGA CACCCTGCCC TACTTACCCC TGGTAAAGAA
    AAGGGCGGTA GAATTCTGAA ACTTAAAGCT TCTAAAAGCC AGGTAGAGAA ACCAACAGAG
    CAACGAGATA AACTTCAAAG CCAGAAGAGT TTCACTAACA GGCTTTCTTG GCCTGAAAAT
    GAGGGGGGTA AGAGCCGCTC TAAATCCTCC ACAAAGAGCA GCCCTAGAGT GGAGACACCC
    AAACTGTCTG GCATGGCAGG CAAGAACCTA TTGTCCCCTG CCTCATGTGA CCCTAAGGGT
    TTTCGGAAGG GGAAAAGTAA GACTGTGGAC AATAGTGACT TGGACCCCAC TGCAGAGGAT
    TTCAAAAAAA GCAGAGAGGG AAGCTCACCG ACAGGGGACA AGGCCAGGGC CACAGCAGCC
    AGGGATAGGA AAATGCTTAA ATTCATCAGT GGGATCTTTG CCAAGAACAC TGCATCCGTG
    GCCTCATCCG TTTCACCTAG TAGTTTAAGC CCAGGAGATG AGAGGGATAT ACTTCACAAA
    TGTGTGATGA ACAGCCAGGA ATGGACCTTA AGTCGGACTG TGCCTGAAAT CAGAGTGGGA
    GTTTTGGGCA GTACTAAAAG TGCCAAGTCT GCTCTTGTGC ATCGGTTTGT GACCGGCTCC
    TATCAACCCC TAGAAGCACC TGAAAGTGCT CAGTTCAAGA AAGAGATCAG CGTGGAAGGG
    CAGAGCTACC TTCTGCTAAT TAGGGAAGAA GCCGGAGCTC CAGATGCCAA GTTTGCCAAT
    TGGGTGGATG CCGTCATTTT TGTGTTCAGC CTGGAAAATG AGGCAAGCTT TCAAGATATT
    TTCCAGTATT ATGCTCTCCT GGCAAATTAT CGCAATGTTG CAGACCTCGC TATGGCACTT
    GTTGGGACTC AAGATAAAAT TAGTGCAAAC AACAAGCGAG TGGTAGAGGA CGTGCGGGCG
    AGAGCCCTCT GCAATGATAT CAAACGCTGT GTTTACTATG AGACCTGTGC CACCTATGGA
    CTCAATGTGG ATCGGGTGTT TAATGAAGTT GCTCAGAAGA TGGTTGCAAT AAAGAGGCAG
    CAGCAACTCC TATCATGCAA GTCATTACCA AGCTCTCCAA GTCACTCCTC TGGATCCATT
    GCAATATCAG TGCAGGCAAG TAATGGAGGA ACAACAAGTG ATTATTCATC GTCACTGCCT
    TCCACACCAA ACATCAGTCA CAGAGAACTA CGAAGTGAGG TGTCCATTGG AGTCAGCACT
    CCGGTGTCCC TCCATCGTGG CACTAAAAGG CGCACAAGCA TATTTACAAA CCGAAGGGGA
    AGTGATTTGG AAAAGAGAAG TTTTGATAGT CGTGCAGATG GTGCTGGTGG GGGTCGGGCT
    CTACCAATTA AACAGAGCTT CTTAATGAAA CGAAGCGGCA ACTCTCTGAA CAAAGAATGG
    AAGAAGAAGT ATGTTACCCT GACAAGCAAT GGGGTCCTGC TCTACCATCC AAGCATTAAT
    GATTACCTAC ACAGTACACA TGGGAAGGAG ATGGATCTTT TACGAACTAC AGTGAAGGTC
    CCTGGAAAGA GGCCTCCAAT AGCCATGTCT GCCTGTGGCC CATCCAATAG CATCAACGGC
    TTGTTAAAGG ATGTGGGCAG CTCTCCAGGG GGAGATACAG CAAGTAACAA GGCGCAATCA
    ACAAAAAGCA AATCCACTGG CGATGTCATT TCCAGCCCCA CCAGCAACAA AGATCCCCCC
    TCTTCCCCAA TGAGTGATAA AAAGAAGAAC AGAAGAAAAA AGAATATGAC CCCTTCCAAG
    ACAGAAGGGT CCGCTGGACA GGCAGATGCC AAGCGCAAAA TGTGGAAGTT AAAAACATTT
    GGTAGCTTGA GAAATATTTA TAAGACAGAA GAGAACTTCG AATTCATCAT TGTGTCTAGC
    ACCGGGCAGA CATGGCATTT TGAGACAAGC AGCTTTGAAG AAAGGGATTC CTGGGTACAA
    GCCATTGAGA GCCAGATCCT CGCTAGCCTG CAGTGCTGCG AGAGCAGCAA AAATAAGGCT
    CGAATGGATA GTCAGAGCGA AGCGGTCGCC ATCCAAGCCA TTCGGAATGC TAAAGGGAAT
    TCATTTTGTG TGGATTGTGG TGCCCCGAAT CCCACCTGGG CCAGCTTGAA TCTGGGTGCC
    CTGATCTGCA TTGAATGTTC AGGAATTCAC AGAAACCTTG GCACCCATTT ATCTCGGGTC
    CGATCACTGG ATTTGGATGA CTGGCCCCTA GAGCTCACAC TTGTTCTAAC CTCTATTGGT
    AATGAAATGG CCAACAGTAT ATGGGAGATG ACAACTCATG GAAGAACCAA ACCAGCACCT
    GATTCCTCAA GGGAAGAGAG AGAATCATGG ATTAGAGCTA AGTATGAGCA GCGATTATTT
    TTGGCCCCTT TGAAGAGTCC AGGGGTCCCC TTGGTGAAGC AGCTTTTTAA AGCTGTACAT
    GAGAAAAATC TCGGCAATGT ACTTCTCCTC CTAGCCCACA GCAACAAGGA GCAAATCAAC
    GGAATCACTG GAGACAGAGA CAGACGCACT GCCCTTCATG TGGCCTGTGA ACTGGGGGAA
    GTTGTGACCA CACAACTGCT TGTCTGGTAT GGCATCGATG TGAAGTCAAG AGACAGCAAT
    GGCCACACAG CCGTGTTTTA TGCTAAGAAA AGTAACAGCC AAGAGTGCGT GGACATTCTG
    CTGCAACATG GCTGTCCCAA TGAGTCCACA AGCGCCCTGT CCACTCCCAG TCTAAGAAGG
    AAAAGCAGCT CTGCCAGCAT CGTGAGGACT GATTCCCGGA CTGCCCTTGT GTAG

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

    RefSeq XP_002933734.3
    CDS604..6717
    Translation

    Target ORF information:

    RefSeq Version XM_002933688.5
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ArfGAP with GTPase domain, ankyrin repeat and PH domain 2 (agap2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002933688.5

    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
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    ATGAGCAGAG GAGCCACCCT GCAGCGCAGG ACCACCTACC ATATATCTCT TACTCTGGTC 
    AAACTAGAGG CTGTAGGAGA AGAAAAGAAG GGAGAGACTC GGGAAGTCTA TCGGAGACAT
    GACACCCCGT CTCTCGGCAG CACCCCCGGT CTGGCCCATT GCCTCTCTCT GGACAGGGAA
    TTCCCAGATG CCTGGGTGTG GGGTGGGCCC GATGCTGCTT CCAGGGTGAG AGATCAGCCT
    AGTCCGGGAG CCGGTTCCGC AGCGGCCGGG GATGGCTCTG CCGCAGGGAC AAAGGTGAGA
    GGCAAGGTGA TCCGGAGCCA GACCCAAGCG CCTGTGCCCA GCAAGCCAAC TTTCCCCGGC
    CATGGGCAGA CTGCTACACC CGGCACTGCT GTGCCTCGGC CGGTACCGAA AGGAGCCGCG
    GTTCCCACAT CTGGACCTAA AGGGAGCGGT ACCTCCGGCT CTGCCAAGGG AACATCCAGC
    CCCGCAGCCT GTGCCATAGA CTCCCGGGCA CGTACCGCGG CCACTGAGGA ACCTGGCAGC
    AAAGGCACTT TCAGATCTGC CGCCCCGGTA CCGGCGAGTA AAGAAGCCTC TCCCAGCAGT
    GGGACACCGG CACCGGGACC CAAGCCCAGC AATGTAGCCT CAACTGCTCG TACAGCGCCT
    CAATCTACTT CCAGCCGCCC CCCCAGTCAT GCAGCCCCGC CACCTCCTCA CAAACACAAT
    GGCACCTCTG ATCCAGCTGC CTTGGCACTC ACACCGTCAC ATCCACCCTT GGCACCAACA
    GCAAAGGATA GTGGCACTTC ATCGCCTGCA TCCTTGGCAT CTATACCAAA GGACAGCAGT
    GCACCAGATA TGGCATCCCT GGCTCCTAAC CTTACATACA ATAATACCCC AAGCCCTTCA
    GCCTCTATAC CTTTAGACAG CTGTGCACCA TGCCCTTCAG GCCCTAATCT GTCAGCTAAG
    GAAAGTGTCA GTCCAGCTCC TACACCAAGT GCACCAGGAC AAGCAGGTCC AGTTTCCAAA
    GCCAAGGACA CTGACATGTC TGGTCTTGCA GCCCCAGGTA AGGACACTGG GAGACCTGGT
    GCCACCTGTA GTCCTATGAC ACCTGCAGCA TCAGCACCAA AAATGAAGGA AAAGGACGCA
    CCAAGACCTA CAGCAACAGC ATCCAAAGTT AAGGAAATTT GTACTGCAGA AATGACACCT
    GTAACAGAAG CTGCTTCTGT AAGTTTTGTT CCAGCAGCTA AGGGCAGCTA CACATCAGCT
    ACTGCAGCTC TGGTACCCAC ATCAAAGGGC ACTGGCTTAT CAAGTTCTGA AGGCTCTGTA
    CCCACATCAA AGAGCTATGG CACATCAATA CCTGCAACTC CAGTACCACC ACCATTACCT
    ATGGGCAATG TCACATTAAT TTCTGACCCT TCAGCACCCA CACCAAAGGG CAATAGCCAG
    TTTGTTCCTG CAGCTCCAAC AACCACACCT AAGTGCGCTG GCCAATCATT TCCTGCAGCT
    CCAACACCTA AGGGCAGGGG ACAATCAATT TCTGCAGCTC CAGCACCCAC ACCTAAGGTC
    AGTGGGACAT CAATTTCTGC AGCTCCAACA TCCACTCTTA AGGGCAGCTC ATCAATTTGT
    ACTGCAACAA CCATACCCAA GGCCAGTGGT ATATCAAGCC TTGGAACCTC GGTACCCACA
    TCTAAAGAAA GTAACACCTT AAATTCTGCA GCACCATCAA AGGACAGTGG CAAATCAAGT
    CCTGCAGACC CATCAACAAT TCTTCAGGAC AAAGATGTTT TACATTCTGC TGACCAGGTA
    CCTACAGCTG CTCCTAGTGA TAAATCAAGT CCTGACGTCC CAACTCCAAC CGCAGAAGAT
    AGTAATAAAA AGAGTTCTGA ACCCCAGTTA GCAGAGGATA AGGTTATCAC TGCAACTAGT
    AATTCAGGCC CAGTCAAAGA CACTGGCACC TCCAGCACTG CCACAACAGT GCCAGCAGGA
    CAGAGAGAGT TTACCTTTGG AACAGCTCGG GTGATCCGAG GATCCCTAAT CAGAAGACCA
    GCCTTGGATA CTGATGTGTC GCGAGATTTA GTCAGCAGTC CTACTGTTCC TGTACAAGGG
    GCCCGGATAA CAGAAGGAGT TAATGCGGAG GCCCCAGCCA TTGAAGCTAG AGTCTCTTCA
    CGAAGCTTCA AGGCTGTGAG AATTCCAGCG GGTTCAACTG AGACTGGAAC TGCATCAAGG
    GCAAATAGAG CCTCAGTCAA GGTAGAAAAG CCCAGTAAAG CATCTGAGCC AGAGGACAAG
    CCATGCCCAG TCATGACCTC TGTTCCCCGG GTAACTGCTC CACCTATCAG TGCTGCCAGA
    ACAGCAGCCG CCCTGTTTTC TGCATCTCGA TCAGGAGCCC CTCATAATGC AAGACCCAGT
    GAGGCAAAAA TAACTGCTAT CCGAACCGCA GCTCGCGGAG CCAGAGCAGT TTCTTCAGGG
    GCATGTACTG AGGACCTTGC AGGAAGAAGA ACACCAAACA CAGGCTTAGG GGAAAGAGCT
    CAAACCGGAG ATGCAGGAAC CTATCCAGGG GCAAAAGCAT CTGTCATGGG ACCAAAAACA
    GCAACTGGGA CATCACCTGT AAAAGTTGCA AAAATTGCAC CCAGGCCCAT GAGCTCTTGT
    GCAGACCCTA TAATCATCAC TGGATTGCGA ACAAAGGCCT CAACTGCTGT AAAAGCACCA
    CTGTCTGGTA CAGGTACATA CCCAGGGGCC AAATCATCTC TCTCCGGGTC ATTCACATCC
    CTGGGAAGTA AAGCATTGAC TGATAGCTCA GGAATTGTGG CTCCATCCGC AGAAGAAAAG
    TTTAGTCCAG GGTTAGTTTC ACCACATGTT GTCCGAACTC CAGTCCCCTC TGCCTTCTCC
    CTCCCAATCA GGCCTGAGGA CATTTTGCCT GGGGGGGAGG AGGAGTTTAC CCCCGATAAT
    GAGGATCCTG CTAAGAGTAA GCGCCAGGAG CGGCTGTTCC TAAGGCAGGA TGCCATGTGG
    ATCAGCACAA GTGTTACTTC AGACTATTTC TTACAGTCAT CCCCTGGACG GCCTGGTAGT
    GGTGGAAGCT CCCCTGGAGG GCACCGCCAG GAGCTTAGCC CAAAATTCTT TTCAGGGCCT
    CGCTGTTCGT TTAGCTCCCC AGGCAGCCCA CTGCTTACTG CTCCTTGTCA GCCAGGCACA
    CCTTACAGGG AGGCTCCAAT CAATGTGTCC CTTACAGTAA GCCAAGAGCA TGCTGGGGGA
    TCTTCAGAAA GTTGCCTTCT GATTGAGCGT AGTGCCTCTT CAGGGGTGAG TTCAGTAGGA
    GTTCCTGAGG CAGGTGAGCT TGGTAAAGGA CACCCTGCCC TACTTACCCC TGGTAAAGAA
    AAGGGCGGTA GAATTCTGAA ACTTAAAGCT TCTAAAAGCC AGGTAGAGAA ACCAACAGAG
    CAACGAGATA AACTTCAAAG CCAGAAGAGT TTCACTAACA GGCTTTCTTG GCCTGAAAAT
    GAGGGGGGTA AGAGCCGCTC TAAATCCTCC ACAAAGAGCA GCCCTAGAGT GGAGACACCC
    AAACTGTCTG GCATGGCAGG CAAGAACCTA TTGTCCCCTG CCTCATGTGA CCCTAAGGGT
    TTTCGGAAGG GGAAAAGTAA GACTGTGGAC AATAGTGACT TGGACCCCAC TGCAGAGGAT
    TTCAAAAAAA GCAGAGAGGG AAGCTCACCG ACAGGGGACA AGGCCAGGGC CACAGCAGCC
    AGGGATAGGA AAATGCTTAA ATTCATCAGT GGGATCTTTG CCAAGAACAC TGCATCCGTG
    GCCTCATCCG TTTCACCTAG TAGTTTAAGC CCAGGAGATG AGAGGGATAT ACTTCACAAA
    TGTGTGATGA ACAGCCAGGA ATGGACCTTA AGTCGGACTG TGCCTGAAAT CAGAGTGGGA
    GTTTTGGGCA GTACTAAAAG TGCCAAGTCT GCTCTTGTGC ATCGGTTTGT GACCGGCTCC
    TATCAACCCC TAGAAGCACC TGAAAGTGCT CAGTTCAAGA AAGAGATCAG CGTGGAAGGG
    CAGAGCTACC TTCTGCTAAT TAGGGAAGAA GCCGGAGCTC CAGATGCCAA GTTTGCCAAT
    TGGGTGGATG CCGTCATTTT TGTGTTCAGC CTGGAAAATG AGGCAAGCTT TCAAGATATT
    TTCCAGTATT ATGCTCTCCT GGCAAATTAT CGCAATGTTG CAGACCTCGC TATGGCACTT
    GTTGGGACTC AAGATAAAAT TAGTGCAAAC AACAAGCGAG TGGTAGAGGA CGTGCGGGCG
    AGAGCCCTCT GCAATGATAT CAAACGCTGT GTTTACTATG AGACCTGTGC CACCTATGGA
    CTCAATGTGG ATCGGGTGTT TAATGAAGTT GCTCAGAAGA TGGTTGCAAT AAAGAGGCAG
    CAGCAACTCC TATCATGCAA GTCATTACCA AGCTCTCCAA GTCACTCCTC TGGATCCATT
    GCAATATCAG TGCAGGCAAG TAATGGAGGA ACAACAAGTG ATTATTCATC GTCACTGCCT
    TCCACACCAA ACATCAGTCA CAGAGAACTA CGAAGTGAGG TGTCCATTGG AGTCAGCACT
    CCGGTGTCCC TCCATCGTGG CACTAAAAGG CGCACAAGCA TATTTACAAA CCGAAGGGGA
    AGTGATTTGG AAAAGAGAAG TTTTGATAGT CGTGCAGATG GTGCTGGTGG GGGTCGGGCT
    CTACCAATTA AACAGAGCTT CTTAATGAAA CGAAGCGGCA ACTCTCTGAA CAAAGAATGG
    AAGAAGAAGT ATGTTACCCT GACAAGCAAT GGGGTCCTGC TCTACCATCC AAGCATTAAT
    GATTACCTAC ACAGTACACA TGGGAAGGAG ATGGATCTTT TACGAACTAC AGTGAAGGTC
    CCTGGAAAGA GGCCTCCAAT AGCCATGTCT GCCTGTGGCC CATCCAATAG CATCAACGGC
    TTGTTAAAGG ATGTGGGCAG CTCTCCAGGG GGAGATACAG CAAGTAACAA GGCGCAATCA
    ACAAAAAGCA AATCCACTGG CGATGTCATT TCCAGCCCCA CCAGCAACAA AGATCCCCCC
    TCTTCCCCAA TGAGTGATAA AAAGAAGAAC AGAAGAAAAA AGAATATGAC CCCTTCCAAG
    ACAGAAGGGT CCGCTGGACA GGCAGATGCC AAGCGCAAAA TGTGGAAGTT AAAAACATTT
    GGTAGCTTGA GAAATATTTA TAAGACAGAA GAGAACTTCG AATTCATCAT TGTGTCTAGC
    ACCGGGCAGA CATGGCATTT TGAGACAAGC AGCTTTGAAG AAAGGGATTC CTGGGTACAA
    GCCATTGAGA GCCAGATCCT CGCTAGCCTG CAGTGCTGCG AGAGCAGCAA AAATAAGGCT
    CGAATGGATA GTCAGAGCGA AGCGGTCGCC ATCCAAGCCA TTCGGAATGC TAAAGGGAAT
    TCATTTTGTG TGGATTGTGG TGCCCCGAAT CCCACCTGGG CCAGCTTGAA TCTGGGTGCC
    CTGATCTGCA TTGAATGTTC AGGAATTCAC AGAAACCTTG GCACCCATTT ATCTCGGGTC
    CGATCACTGG ATTTGGATGA CTGGCCCCTA GAGCTCACAC TTGTTCTAAC CTCTATTGGT
    AATGAAATGG CCAACAGTAT ATGGGAGATG ACAACTCATG GAAGAACCAA ACCAGCACCT
    GATTCCTCAA GGGAAGAGAG AGAATCATGG ATTAGAGCTA AGTATGAGCA GCGATTATTT
    TTGGCCCCTT TGAAGAGTCC AGGGGTCCCC TTGGTGAAGC AGCTTTTTAA AGCTGTACAT
    GAGAAAAATC TCGGCAATGT ACTTCTCCTC CTAGCCCACA GCAACAAGGA GCAAATCAAC
    GGAATCACTG GAGACAGAGA CAGACGCACT GCCCTTCATG TGGCCTGTGA ACTGGGGGAA
    GTTGTGACCA CACAACTGCT TGTCTGGTAT GGCATCGATG TGAAGTCAAG AGACAGCAAT
    GGCCACACAG CCGTGTTTTA TGCTAAGAAA AGTAACAGCC AAGAGTGCGT GGACATTCTG
    CTGCAACATG GCTGTCCCAA TGAGTCCACA AGCGCCCTGT CCACTCCCAG TCTAAGAAGG
    AAAAGCAGCT CTGCCAGCAT CGTGAGGACT GATTCCCGGA CTGCCCTTGT GTAG

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

    CloneID OXa52701
    Clone ID Related Accession (Same CDS sequence) XM_004911920.4
    Accession Version XM_004911920.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6054bp)
    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 arf-GAP with GTPase, ANK repeat and PH domain-containing protein 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) 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_004911920.3. ##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
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    ATGAGCAGAG GAGCCACCCT GCAGCGCAGG ACCACCTACC ATATATCTCT TACTCTGGTC 
    AAACTAGAGG CTGTAGGAGA AGAAAAGAAG GGAGAGACTC GGGAAGTCTA TCGGAGACAT
    GACACCCCGT CTCTCGGCAG CACCCCCGGT CTGGCCCATT GCCTCTCTCT GGACAGGGAA
    TTCCCAGATG CCTGGGTGTG GGGTGGGCCC GATGCTGCTT CCAGGGTGAG AGATCAGCCT
    AGTCCGGGAG CCGGTTCCGC AGCGGCCGGG GATGGCTCTG CCGCAGGGAC AAAGGTGAGA
    GGCAAGGTGA TCCGGAGCCA GACCCAAGCG CCTGTGCCCA GCAAGCCAAC TTTCCCCGGC
    CATGGGCAGA CTGCTACACC CGGCACTGCT GTGCCTCGGC CGGTACCGAA AGGAGCCGCG
    GTTCCCACAT CTGGACCTAA AGGGAGCGGT ACCTCCGGCT CTGCCAAGGG AACATCCAGC
    CCCGCAGCCT GTGCCATAGA CTCCCGGGCA CGTACCGCGG CCACTGAGGA ACCTGGCAGC
    AAAGGCACTT TCAGATCTGC CGCCCCGGTA CCGGCGAGTA AAGAAGCCTC TCCCAGCAGT
    GGGACACCGG CACCGGGACC CAAGCCCAGC AATGTAGCCT CAACTGCTCG TACAGCGCCT
    CAATCTACTT CCAGCCGCCC CCCCAGTCAT GCAGCCCCGC CACCTCCTCA CAAACACAAT
    GGCACCTCTG ATCCAGCTGC CTTGGCACTC ACACCGTCAC ATCCACCCTT GGCACCAACA
    GCAAAGGATA GTGGCACTTC ATCGCCTGCA TCCTTGGCAT CTATACCAAA GGACAGCAGT
    GCACCAGATA TGGCATCCCT GGCTCCTAAC CTTACATACA ATAATACCCC AAGCCCTTCA
    GCCTCTATAC CTTTAGACAG CTGTGCACCA TGCCCTTCAG GCCCTAATCT GTCAGCTAAG
    GAAAGTGTCA GTCCAGCTCC TACACCAAGT GCACCAGGAC AAGCAGGTCC AGTTTCCAAA
    GCCAAGGACA CTGACATGTC TGGTCTTGCA GCCCCAGGTA AGGACACTGG GAGACCTGGT
    GCCACCTGTA GTCCTATGAC ACCTGCAGCA TCAGCACCAA AAATGAAGGA AAAGGACGCA
    CCAAGACCTA CAGCAACAGC ATCCAAAGTT AAGGAAATTT GTACTGCAGA AATGACACCT
    GTAACAGAAG CTGCTTCTGT AAGTTTTGTT CCAGCAGCTA AGGGCAGCTA CACATCAGCT
    ACTGCAGCTC TGGTACCCAC ATCAAAGGGC ACTGGCTTAT CAAGTTCTGA AGGCTCTGTA
    CCCACATCAA AGAGCTATGG CACATCAATA CCTGCAACTC CAGTACCACC ACCATTACCT
    ATGGGCAATG TCACATTAAT TTCTGACCCT TCAGCACCCA CACCAAAGGG CAATAGCCAG
    TTTGTTCCTG CAGCTCCAAC AACCACACCT AAGTGCGCTG GCCAATCATT TCCTGCAGCT
    CCAACACCTA AGGGCAGGGG ACAATCAATT TCTGCAGCTC CAGCACCCAC ACCTAAGGTC
    AGTGGGACAT CAATTTCTGC AGCTCCAACA TCCACTCTTA AGGGCAGCTC ATCAATTTGT
    ACTGCAACAA CCATACCCAA GGCCAGTGGT ATATCAAGCC TTGGAACCTC GGTACCCACA
    TCTAAAGAAA GTAACACCTT AAATTCTGCA GCACCATCAA AGGACAGTGG CAAATCAAGT
    CCTGCAGACC CATCAACAAT TCTTCAGGAC AAAGATGTTT TACATTCTGC TGACCAGGTA
    CCTACAGCTG CTCCTAGTGA TAAATCAAGT CCTGACGTCC CAACTCCAAC CGCAGAAGAT
    AGTAATAAAA AGAGTTCTGA ACCCCAGTTA GCAGAGGATA AGGTTATCAC TGCAACTAGT
    AATTCAGGCC CAGTCAAAGA CACTGGCACC TCCAGCACTG CCACAACAGT GCCAGCAGGA
    CAGAGAGAGT TTACCTTTGG AACAGCTCGG GTGATCCGAG GATCCCTAAT CAGAAGACCA
    GCCTTGGATA CTGATGTGTC GCGAGATTTA GTCAGCAGTC CTACTGTTCC TGTACAAGGG
    GCCCGGATAA CAGAAGGAGT TAATGCGGAG GCCCCAGCCA TTGAAGCTAG AGTCTCTTCA
    CGAAGCTTCA AGGCTGTGAG AATTCCAGCG GGTTCAACTG AGACTGGAAC TGCATCAAGG
    GCAAATAGAG CCTCAGTCAA GGTAGAAAAG CCCAGTAAAG CATCTGAGCC AGAGGACAAG
    CCATGCCCAG TCATGACCTC TGTTCCCCGG GTAACTGCTC CACCTATCAG TGCTGCCAGA
    ACAGCAGCCG CCCTGTTTTC TGCATCTCGA TCAGGAGCCC CTCATAATGC AAGACCCAGT
    GAGGCAAAAA TAACTGCTAT CCGAACCGCA GCTCGCGGAG CCAGAGCAGT TTCTTCAGGG
    GCATGTACTG AGGACCTTGC AGGAAGAAGA ACACCAAACA CAGGCTTAGG GGAAAGAGCT
    CAAACCGGAG ATGCAGGAAC CTATCCAGGG GCAAAAGCAT CTGTCATGGG ACCAAAAACA
    GCAACTGGGA CATCACCTGT AAAAGTTGCA AAAATTGCAC CCAGGCCCAT GAGCTCTTGT
    GCAGACCCTA TAATCATCAC TGGATTGCGA ACAAAGGCCT CAACTGCTGT AAAAGCACCA
    CTGTCTGGTA CAGGTACATA CCCAGGGGCC AAATCATCTC TCTCCGGGTC ATTCACATCC
    CTGGGAAGTA AAGCATTGAC TGATAGCTCA GGAATTGTGG CTCCATCCGC AGAAGAAAAG
    TTTAGTCCAG GGTTAGTTTC ACCACATGTT GTCCGAACTC CAGTCCCCTC TGCCTTCTCC
    CTCCCAATCA GGCCTGAGGA CATTTTGCCT GGGGGGGAGG AGGAGTTTAC CCCCGATAAT
    GAGGATCCTG CTAAGAGTAA GCGCCAGGAG CGGCTGTTCC TAAGGCAGGA TGCCATGTGG
    ATCAGCACAA GTGTTACTTC AGACTATTTC TTACAGTCAT CCCCTGGACG GCCTGGTAGT
    GGTGGAAGCT CCCCTGGAGG GCACCGCCAG GAGCTTAGCC CAAAATTCTT TTCAGGGCCT
    CGCTGTTCGT TTAGCTCCCC AGGCAGCCCA CTGCTTACTG CTCCTTGTCA GCCAGGCACA
    CCTTACAGGG AGGCTCCAAT CAATGTGTCC CTTACAGTAA GCCAAGAGCA TGCTGGGGGA
    TCTTCAGAAA GTTGCCTTCT GATTGAGCGT AGTGCCTCTT CAGGGGTGAG TTCAGTAGGA
    GTTCCTGAGG CAGGTGAGCT TGGTAAAGGA CACCCTGCCC TACTTACCCC TGGTAAAGAA
    AAGGGCGGTA GAATTCTGAA ACTTAAAGCT TCTAAAAGCC AGGTAGAGAA ACCAACAGAG
    CAACGAGATA AACTTCAAAG CCAGAAGAGT TTCACTAACA GGCTTTCTTG GCCTGAAAAT
    GAGGGGGGTA AGAGCCGCTC TAAATCCTCC ACAAAGAGCA GCCCTAGAGT GGAGACACCC
    AAACTGTCTG GCATGGCAGG CAAGAACCTA TTGTCCCCTG CCTCATGTGA CCCTAAGGGT
    TTTCGGAAGG GGAAAAGTAA GACTGTGGAC AATAGTGACT TGGACCCCAC TGCAGAGGAT
    TTCAAAAAAA GCAGAGAGGG AAGCTCACCG ACAGGGGACA AGGCCAGGGC CACAGCAGCC
    AGGGATAGGA AAATGCTTAA ATTCATCAGT GGGATCTTTG CCAAGAACAC TGCATCCGTG
    GCCTCATCCG TTTCACCTAG TAGTTTAAGC CCAGGAGATG AGAGGGATAT ACTTCACAAA
    TGTGTGATGA ACAGCCAGGA ATGGACCTTA AGTCGGACTG TGCCTGAAAT CAGAGTGGGA
    GTTTTGGGCA GTACTAAAAG TGCCAAGTCT GCTCTTGTGC ATCGGTTTGT GACCGGCTCC
    TATCAACCCC TAGAAGCACC TGAAAGTGCT CAGTTCAAGA AAGAGATCAG CGTGGAAGGG
    CAGAGCTACC TTCTGCTAAT TAGGGAAGAA GCCGGAGCTC CAGATGCCAA GTTTGCCAAT
    TGGGTGGATG CCGTCATTTT TGTGTTCAGC CTGGAAAATG AGGCAAGCTT TCAAGATATT
    TTCCAGTATT ATGCTCTCCT GGCAAATTAT CGCAATGTTG CAGACCTCGC TATGGCACTT
    GTTGGGACTC AAGATAAAAT TAGTGCAAAC AACAAGCGAG TGGTAGAGGA CGTGCGGGCG
    AGAGCCCTCT GCAATGATAT CAAACGCTGT GTTTACTATG AGACCTGTGC CACCTATGGA
    CTCAATGTGG ATCGGGTGTT TAATGAAGTT GCTCAGAAGA TGGTTGCAAT AAAGAGGCAG
    CAGCAACTCC TATCATGCAA GTCATTACCA AGCTCTCCAA GTCACTCCTC TGGATCCATT
    GCAATATCAG TGCAGGCAAG TAATGGAGGA ACAACAAGTG ATTATTCATC GTCACTGCCT
    TCCACACCAA ACATCAGTCA CAGAGAACTA CGAAGTGAGG TGTCCATTGG AGTCAGCACT
    CCGGTGTCCC TCCATCGTGG CACTAAAAGG CGCACAAGCA TATTTACAAA CCGAAGGGGA
    AGTGATTTGG AAAAGAGAAG TTTTGATAGT CGTGCAGATG GTGCTGGTGG GGGTCGGGCT
    CTACCAATTA AACAGAGCTT CTTAATGAAA CGAAGCGGCA ACTCTCTGAA CAAAGAATGG
    AAGAAGAAGT ATGTTACCCT GACAAGCAAT GGGGTCCTGC TCTACCATCC AAGCATTAAT
    GATTACCTAC ACAGTACACA TGGGAAGGAG ATGGATCTTT TACGAACTAC AGTGAAGGTC
    CCTGGAAAGA GGCCTCCAAT AGCCATGTCT GCCTGTGGCC CATCCAATAG CATCAACGGC
    TTGTTAAAGG ATGTGGGCAG CTCTCCAGGG GGAGATACAG CAAGTAACAA GGCGCAATCA
    ACAAAAAGCA AATCCACTGG CGATGTCATT TCCAGCCCCA CCAGCAACAA AGATCCCCCC
    TCTTCCCCAA TGAGTGATAA AAAGAAGAAC AGAAGAAAAA AGAATATGAC CCCTTCCAAG
    ACAGAAGGGT CCGCTGGACA GGCAGATGAA GAGAACTTCG AATTCATCAT TGTGTCTAGC
    ACCGGGCAGA CATGGCATTT TGAGACAAGC AGCTTTGAAG AAAGGGATTC CTGGGTACAA
    GCCATTGAGA GCCAGATCCT CGCTAGCCTG CAGTGCTGCG AGAGCAGCAA AAATAAGGCT
    CGAATGGATA GTCAGAGCGA AGCGGTCGCC ATCCAAGCCA TTCGGAATGC TAAAGGGAAT
    TCATTTTGTG TGGATTGTGG TGCCCCGAAT CCCACCTGGG CCAGCTTGAA TCTGGGTGCC
    CTGATCTGCA TTGAATGTTC AGGAATTCAC AGAAACCTTG GCACCCATTT ATCTCGGGTC
    CGATCACTGG ATTTGGATGA CTGGCCCCTA GAGCTCACAC TTGTTCTAAC CTCTATTGGT
    AATGAAATGG CCAACAGTAT ATGGGAGATG ACAACTCATG GAAGAACCAA ACCAGCACCT
    GATTCCTCAA GGGAAGAGAG AGAATCATGG ATTAGAGCTA AGTATGAGCA GCGATTATTT
    TTGGCCCCTT TGAAGAGTCC AGGGGTCCCC TTGGTGAAGC AGCTTTTTAA AGCTGTACAT
    GAGAAAAATC TCGGCAATGT ACTTCTCCTC CTAGCCCACA GCAACAAGGA GCAAATCAAC
    GGAATCACTG GAGACAGAGA CAGACGCACT GCCCTTCATG TGGCCTGTGA ACTGGGGGAA
    GTTGTGACCA CACAACTGCT TGTCTGGTAT GGCATCGATG TGAAGTCAAG AGACAGCAAT
    GGCCACACAG CCGTGTTTTA TGCTAAGAAA AGTAACAGCC AAGAGTGCGT GGACATTCTG
    CTGCAACATG GCTGTCCCAA TGAGTCCACA AGCGCCCTGT CCACTCCCAG TCTAAGAAGG
    AAAAGCAGCT CTGCCAGCAT CGTGAGGACT GATTCCCGGA CTGCCCTTGT GTAG

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

    RefSeq XP_004911977.2
    CDS606..6659
    Translation

    Target ORF information:

    RefSeq Version XM_004911920.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ArfGAP with GTPase domain, ankyrin repeat and PH domain 2 (agap2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004911920.4

    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
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    ATGAGCAGAG GAGCCACCCT GCAGCGCAGG ACCACCTACC ATATATCTCT TACTCTGGTC 
    AAACTAGAGG CTGTAGGAGA AGAAAAGAAG GGAGAGACTC GGGAAGTCTA TCGGAGACAT
    GACACCCCGT CTCTCGGCAG CACCCCCGGT CTGGCCCATT GCCTCTCTCT GGACAGGGAA
    TTCCCAGATG CCTGGGTGTG GGGTGGGCCC GATGCTGCTT CCAGGGTGAG AGATCAGCCT
    AGTCCGGGAG CCGGTTCCGC AGCGGCCGGG GATGGCTCTG CCGCAGGGAC AAAGGTGAGA
    GGCAAGGTGA TCCGGAGCCA GACCCAAGCG CCTGTGCCCA GCAAGCCAAC TTTCCCCGGC
    CATGGGCAGA CTGCTACACC CGGCACTGCT GTGCCTCGGC CGGTACCGAA AGGAGCCGCG
    GTTCCCACAT CTGGACCTAA AGGGAGCGGT ACCTCCGGCT CTGCCAAGGG AACATCCAGC
    CCCGCAGCCT GTGCCATAGA CTCCCGGGCA CGTACCGCGG CCACTGAGGA ACCTGGCAGC
    AAAGGCACTT TCAGATCTGC CGCCCCGGTA CCGGCGAGTA AAGAAGCCTC TCCCAGCAGT
    GGGACACCGG CACCGGGACC CAAGCCCAGC AATGTAGCCT CAACTGCTCG TACAGCGCCT
    CAATCTACTT CCAGCCGCCC CCCCAGTCAT GCAGCCCCGC CACCTCCTCA CAAACACAAT
    GGCACCTCTG ATCCAGCTGC CTTGGCACTC ACACCGTCAC ATCCACCCTT GGCACCAACA
    GCAAAGGATA GTGGCACTTC ATCGCCTGCA TCCTTGGCAT CTATACCAAA GGACAGCAGT
    GCACCAGATA TGGCATCCCT GGCTCCTAAC CTTACATACA ATAATACCCC AAGCCCTTCA
    GCCTCTATAC CTTTAGACAG CTGTGCACCA TGCCCTTCAG GCCCTAATCT GTCAGCTAAG
    GAAAGTGTCA GTCCAGCTCC TACACCAAGT GCACCAGGAC AAGCAGGTCC AGTTTCCAAA
    GCCAAGGACA CTGACATGTC TGGTCTTGCA GCCCCAGGTA AGGACACTGG GAGACCTGGT
    GCCACCTGTA GTCCTATGAC ACCTGCAGCA TCAGCACCAA AAATGAAGGA AAAGGACGCA
    CCAAGACCTA CAGCAACAGC ATCCAAAGTT AAGGAAATTT GTACTGCAGA AATGACACCT
    GTAACAGAAG CTGCTTCTGT AAGTTTTGTT CCAGCAGCTA AGGGCAGCTA CACATCAGCT
    ACTGCAGCTC TGGTACCCAC ATCAAAGGGC ACTGGCTTAT CAAGTTCTGA AGGCTCTGTA
    CCCACATCAA AGAGCTATGG CACATCAATA CCTGCAACTC CAGTACCACC ACCATTACCT
    ATGGGCAATG TCACATTAAT TTCTGACCCT TCAGCACCCA CACCAAAGGG CAATAGCCAG
    TTTGTTCCTG CAGCTCCAAC AACCACACCT AAGTGCGCTG GCCAATCATT TCCTGCAGCT
    CCAACACCTA AGGGCAGGGG ACAATCAATT TCTGCAGCTC CAGCACCCAC ACCTAAGGTC
    AGTGGGACAT CAATTTCTGC AGCTCCAACA TCCACTCTTA AGGGCAGCTC ATCAATTTGT
    ACTGCAACAA CCATACCCAA GGCCAGTGGT ATATCAAGCC TTGGAACCTC GGTACCCACA
    TCTAAAGAAA GTAACACCTT AAATTCTGCA GCACCATCAA AGGACAGTGG CAAATCAAGT
    CCTGCAGACC CATCAACAAT TCTTCAGGAC AAAGATGTTT TACATTCTGC TGACCAGGTA
    CCTACAGCTG CTCCTAGTGA TAAATCAAGT CCTGACGTCC CAACTCCAAC CGCAGAAGAT
    AGTAATAAAA AGAGTTCTGA ACCCCAGTTA GCAGAGGATA AGGTTATCAC TGCAACTAGT
    AATTCAGGCC CAGTCAAAGA CACTGGCACC TCCAGCACTG CCACAACAGT GCCAGCAGGA
    CAGAGAGAGT TTACCTTTGG AACAGCTCGG GTGATCCGAG GATCCCTAAT CAGAAGACCA
    GCCTTGGATA CTGATGTGTC GCGAGATTTA GTCAGCAGTC CTACTGTTCC TGTACAAGGG
    GCCCGGATAA CAGAAGGAGT TAATGCGGAG GCCCCAGCCA TTGAAGCTAG AGTCTCTTCA
    CGAAGCTTCA AGGCTGTGAG AATTCCAGCG GGTTCAACTG AGACTGGAAC TGCATCAAGG
    GCAAATAGAG CCTCAGTCAA GGTAGAAAAG CCCAGTAAAG CATCTGAGCC AGAGGACAAG
    CCATGCCCAG TCATGACCTC TGTTCCCCGG GTAACTGCTC CACCTATCAG TGCTGCCAGA
    ACAGCAGCCG CCCTGTTTTC TGCATCTCGA TCAGGAGCCC CTCATAATGC AAGACCCAGT
    GAGGCAAAAA TAACTGCTAT CCGAACCGCA GCTCGCGGAG CCAGAGCAGT TTCTTCAGGG
    GCATGTACTG AGGACCTTGC AGGAAGAAGA ACACCAAACA CAGGCTTAGG GGAAAGAGCT
    CAAACCGGAG ATGCAGGAAC CTATCCAGGG GCAAAAGCAT CTGTCATGGG ACCAAAAACA
    GCAACTGGGA CATCACCTGT AAAAGTTGCA AAAATTGCAC CCAGGCCCAT GAGCTCTTGT
    GCAGACCCTA TAATCATCAC TGGATTGCGA ACAAAGGCCT CAACTGCTGT AAAAGCACCA
    CTGTCTGGTA CAGGTACATA CCCAGGGGCC AAATCATCTC TCTCCGGGTC ATTCACATCC
    CTGGGAAGTA AAGCATTGAC TGATAGCTCA GGAATTGTGG CTCCATCCGC AGAAGAAAAG
    TTTAGTCCAG GGTTAGTTTC ACCACATGTT GTCCGAACTC CAGTCCCCTC TGCCTTCTCC
    CTCCCAATCA GGCCTGAGGA CATTTTGCCT GGGGGGGAGG AGGAGTTTAC CCCCGATAAT
    GAGGATCCTG CTAAGAGTAA GCGCCAGGAG CGGCTGTTCC TAAGGCAGGA TGCCATGTGG
    ATCAGCACAA GTGTTACTTC AGACTATTTC TTACAGTCAT CCCCTGGACG GCCTGGTAGT
    GGTGGAAGCT CCCCTGGAGG GCACCGCCAG GAGCTTAGCC CAAAATTCTT TTCAGGGCCT
    CGCTGTTCGT TTAGCTCCCC AGGCAGCCCA CTGCTTACTG CTCCTTGTCA GCCAGGCACA
    CCTTACAGGG AGGCTCCAAT CAATGTGTCC CTTACAGTAA GCCAAGAGCA TGCTGGGGGA
    TCTTCAGAAA GTTGCCTTCT GATTGAGCGT AGTGCCTCTT CAGGGGTGAG TTCAGTAGGA
    GTTCCTGAGG CAGGTGAGCT TGGTAAAGGA CACCCTGCCC TACTTACCCC TGGTAAAGAA
    AAGGGCGGTA GAATTCTGAA ACTTAAAGCT TCTAAAAGCC AGGTAGAGAA ACCAACAGAG
    CAACGAGATA AACTTCAAAG CCAGAAGAGT TTCACTAACA GGCTTTCTTG GCCTGAAAAT
    GAGGGGGGTA AGAGCCGCTC TAAATCCTCC ACAAAGAGCA GCCCTAGAGT GGAGACACCC
    AAACTGTCTG GCATGGCAGG CAAGAACCTA TTGTCCCCTG CCTCATGTGA CCCTAAGGGT
    TTTCGGAAGG GGAAAAGTAA GACTGTGGAC AATAGTGACT TGGACCCCAC TGCAGAGGAT
    TTCAAAAAAA GCAGAGAGGG AAGCTCACCG ACAGGGGACA AGGCCAGGGC CACAGCAGCC
    AGGGATAGGA AAATGCTTAA ATTCATCAGT GGGATCTTTG CCAAGAACAC TGCATCCGTG
    GCCTCATCCG TTTCACCTAG TAGTTTAAGC CCAGGAGATG AGAGGGATAT ACTTCACAAA
    TGTGTGATGA ACAGCCAGGA ATGGACCTTA AGTCGGACTG TGCCTGAAAT CAGAGTGGGA
    GTTTTGGGCA GTACTAAAAG TGCCAAGTCT GCTCTTGTGC ATCGGTTTGT GACCGGCTCC
    TATCAACCCC TAGAAGCACC TGAAAGTGCT CAGTTCAAGA AAGAGATCAG CGTGGAAGGG
    CAGAGCTACC TTCTGCTAAT TAGGGAAGAA GCCGGAGCTC CAGATGCCAA GTTTGCCAAT
    TGGGTGGATG CCGTCATTTT TGTGTTCAGC CTGGAAAATG AGGCAAGCTT TCAAGATATT
    TTCCAGTATT ATGCTCTCCT GGCAAATTAT CGCAATGTTG CAGACCTCGC TATGGCACTT
    GTTGGGACTC AAGATAAAAT TAGTGCAAAC AACAAGCGAG TGGTAGAGGA CGTGCGGGCG
    AGAGCCCTCT GCAATGATAT CAAACGCTGT GTTTACTATG AGACCTGTGC CACCTATGGA
    CTCAATGTGG ATCGGGTGTT TAATGAAGTT GCTCAGAAGA TGGTTGCAAT AAAGAGGCAG
    CAGCAACTCC TATCATGCAA GTCATTACCA AGCTCTCCAA GTCACTCCTC TGGATCCATT
    GCAATATCAG TGCAGGCAAG TAATGGAGGA ACAACAAGTG ATTATTCATC GTCACTGCCT
    TCCACACCAA ACATCAGTCA CAGAGAACTA CGAAGTGAGG TGTCCATTGG AGTCAGCACT
    CCGGTGTCCC TCCATCGTGG CACTAAAAGG CGCACAAGCA TATTTACAAA CCGAAGGGGA
    AGTGATTTGG AAAAGAGAAG TTTTGATAGT CGTGCAGATG GTGCTGGTGG GGGTCGGGCT
    CTACCAATTA AACAGAGCTT CTTAATGAAA CGAAGCGGCA ACTCTCTGAA CAAAGAATGG
    AAGAAGAAGT ATGTTACCCT GACAAGCAAT GGGGTCCTGC TCTACCATCC AAGCATTAAT
    GATTACCTAC ACAGTACACA TGGGAAGGAG ATGGATCTTT TACGAACTAC AGTGAAGGTC
    CCTGGAAAGA GGCCTCCAAT AGCCATGTCT GCCTGTGGCC CATCCAATAG CATCAACGGC
    TTGTTAAAGG ATGTGGGCAG CTCTCCAGGG GGAGATACAG CAAGTAACAA GGCGCAATCA
    ACAAAAAGCA AATCCACTGG CGATGTCATT TCCAGCCCCA CCAGCAACAA AGATCCCCCC
    TCTTCCCCAA TGAGTGATAA AAAGAAGAAC AGAAGAAAAA AGAATATGAC CCCTTCCAAG
    ACAGAAGGGT CCGCTGGACA GGCAGATGAA GAGAACTTCG AATTCATCAT TGTGTCTAGC
    ACCGGGCAGA CATGGCATTT TGAGACAAGC AGCTTTGAAG AAAGGGATTC CTGGGTACAA
    GCCATTGAGA GCCAGATCCT CGCTAGCCTG CAGTGCTGCG AGAGCAGCAA AAATAAGGCT
    CGAATGGATA GTCAGAGCGA AGCGGTCGCC ATCCAAGCCA TTCGGAATGC TAAAGGGAAT
    TCATTTTGTG TGGATTGTGG TGCCCCGAAT CCCACCTGGG CCAGCTTGAA TCTGGGTGCC
    CTGATCTGCA TTGAATGTTC AGGAATTCAC AGAAACCTTG GCACCCATTT ATCTCGGGTC
    CGATCACTGG ATTTGGATGA CTGGCCCCTA GAGCTCACAC TTGTTCTAAC CTCTATTGGT
    AATGAAATGG CCAACAGTAT ATGGGAGATG ACAACTCATG GAAGAACCAA ACCAGCACCT
    GATTCCTCAA GGGAAGAGAG AGAATCATGG ATTAGAGCTA AGTATGAGCA GCGATTATTT
    TTGGCCCCTT TGAAGAGTCC AGGGGTCCCC TTGGTGAAGC AGCTTTTTAA AGCTGTACAT
    GAGAAAAATC TCGGCAATGT ACTTCTCCTC CTAGCCCACA GCAACAAGGA GCAAATCAAC
    GGAATCACTG GAGACAGAGA CAGACGCACT GCCCTTCATG TGGCCTGTGA ACTGGGGGAA
    GTTGTGACCA CACAACTGCT TGTCTGGTAT GGCATCGATG TGAAGTCAAG AGACAGCAAT
    GGCCACACAG CCGTGTTTTA TGCTAAGAAA AGTAACAGCC AAGAGTGCGT GGACATTCTG
    CTGCAACATG GCTGTCCCAA TGAGTCCACA AGCGCCCTGT CCACTCCCAG TCTAAGAAGG
    AAAAGCAGCT CTGCCAGCAT CGTGAGGACT GATTCCCGGA CTGCCCTTGT GTAG

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

    CloneID OXa06078
    Clone ID Related Accession (Same CDS sequence) XM_002933688.4
    Accession Version XM_002933688.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6114bp)
    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 arf-GAP with GTPase, ANK repeat and PH domain-containing protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) 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_002933688.3. ##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
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    ATGAGCAGAG GAGCCACCCT GCAGCGCAGG ACCACCTACC ATATATCTCT TACTCTGGTC 
    AAACTAGAGG CTGTAGGAGA AGAAAAGAAG GGAGAGACTC GGGAAGTCTA TCGGAGACAT
    GACACCCCGT CTCTCGGCAG CACCCCCGGT CTGGCCCATT GCCTCTCTCT GGACAGGGAA
    TTCCCAGATG CCTGGGTGTG GGGTGGGCCC GATGCTGCTT CCAGGGTGAG AGATCAGCCT
    AGTCCGGGAG CCGGTTCCGC AGCGGCCGGG GATGGCTCTG CCGCAGGGAC AAAGGTGAGA
    GGCAAGGTGA TCCGGAGCCA GACCCAAGCG CCTGTGCCCA GCAAGCCAAC TTTCCCCGGC
    CATGGGCAGA CTGCTACACC CGGCACTGCT GTGCCTCGGC CGGTACCGAA AGGAGCCGCG
    GTTCCCACAT CTGGACCTAA AGGGAGCGGT ACCTCCGGCT CTGCCAAGGG AACATCCAGC
    CCCGCAGCCT GTGCCATAGA CTCCCGGGCA CGTACCGCGG CCACTGAGGA ACCTGGCAGC
    AAAGGCACTT TCAGATCTGC CGCCCCGGTA CCGGCGAGTA AAGAAGCCTC TCCCAGCACT
    GGGACACCGG CACCGGGACC CAAGCCCAGC AATGTAGCCT CAACTGCTCG TACAGCGCCT
    CAATCTACTT CCAGCCGCCC CCCCAGTCAT GCAGCCCCGC CACCTCCTCA CAAACACAAT
    GGCACCTCTG ATCCAGCTGC CTTGGCACTC ACACCGTCAC ATCCACCCTT GGCACCAACA
    GCAAAGGATA GTGGCACTTC ATCGCCTGCA TCCTTGGCAT CTATACCAAA GGACAGCAGT
    GCACCAGATA TGGCATCCCT GGCTCCTAAC GTTACATACA ATAATACCCC AAGCCCTTCA
    GCCTCTATAC CTTTAGACAG CTGTGCACCA TGCCCTTCAG GCCCTAATCT GTCAGCTAAG
    GAAAGTGTCA GTCCAGCTCC TACACCAAGT GCACCAGGAC AAGCAGGTCC AGTTTCCAAA
    GCCAAGGACA CTGACATGTC TGGTCTTGCA GCCCCAGGTA AGGACACTGG GAGACCTGGT
    GCCACCTGTA GTCCTATGAC ACCTGCAGCA TCAGCACCAA AAATGAAGGA AAAGGACGCA
    CCAAGACCTA CAGCAACAGC ATCCAAAGTT AAGGAAATTT GTACTGCAGA AATGACACCT
    GTAACAGAAG CTGCTTCTGT AAGTTTTGTT CCAGCAGCTA AGGGCAGCTA CACATCAGCT
    ACTGCAGCTC TGGTACCCAC ATCAAAGGGC ACTGGCTTAT CAAGTTCTGA AGGCTCTGTA
    CCCACATCAA AGAGCTATGG CACATCAATA CCTGCAACTC CAGTACCACC ACCATTACCT
    ATGGGCAATG TCACATTAAT TTCTGACCCT TCAGCACCCA CACCAAAGGG CAATAGCCAG
    TTTGTTCCTG CAGCTCCAAC AACCACACCT AAGTGCGCTG GCCAATCATT TCCTGCAGCT
    CCAACACCTA AGGGCAGGGG ACAATCAATT TCTGCAGCTC CAGCACCCAC ACCTAAGGTC
    AGTGGGACAT CAATTTCTGC AGCTCCAACA TCCACTCTTA AGGGCAGCTC ATCAATTTGT
    ACTGCAACAA CCATACCCAA GGCCAGTGGT ATATCAAGCC TTGGAACCTC GGTACCCACA
    TCTAAAGAAA GTAACACCTT AAATTCTGCA GCACCATCAA AGGACAGTGG CAAATCAAGT
    CCTGCAGACC CATCAACAAT TCTTCAGGAC AAAGATGTTT TACATTCTGC TGACCAGGTA
    CCTACAGCTG CTCCTAGTGA TAAATCAAGT CCTGACGTCC CAACTCCAAC CGCAGAAGAT
    AGTAATAAAA AGAGTTCTGA ACCCCAGTTA GCAGAGGATA AGGTTATCAC TGCAACTAGT
    AATTCAGGCC CAGTCAAAGA CACTGGCACC TCCAGCACTG CCACAACAGT GCCAGCAGGA
    CAGAGAGAGT TTACCTTTGG AACAGCTCGG GTGATCCGAG GATCCCTAAT CAGAAGACCA
    GCCTTGGATA CTGATGTGTC GCGAGATTTA GTCAGCAGTC CTACTGTTCC TGTACAAGGG
    GCCCGGATAA CAGAAGGAGT TAATGCGGAG GCCCCAGCCA TTGAAGCTAG AGTCTCTTCA
    CGAAGCTTCA AGGCTGTGAG AATTCCAGCG GGTTCAACTG AGACTGGAAC TGCATCAAGG
    GCAAATAGAG CCTCAGTCAA GGTAGAAAAG CCCAGTAAAG CATCTGAGCC AGAGGACAAG
    CCATGCCCAG TCATGACCTC TGTTCCCCGG GTAACTGCTC CACCTATCAG TGCTGCCAGA
    ACAGCAGCCG CCCTGTTTTC TGCATCTCGA TCAGGAGCCC CTCATAATGC AAGACCCAGT
    GAGGCAAAAA TAACTGCTAT CCGAACCGCA GCTCGCGGAG CCAGAGCAGT TTCTTCAGGG
    GCATGTACTG AGGACCTTGC AGGAAGAAGA ACACCAAACA CAGGCTTAGG GGAAAGAGCT
    CAAACCGGAG ATGCAGGAAC CTATCCAGGG GCAAAAGCAT CTGTCATGGG ACCAAAAACA
    GCAACTGGGA CATCACCTGT AAAAGTTGCA AAAATTGCAC CCAGGCCCAT GAGCTCTTGT
    GCAGACCCTA TAATCATCAC TGGATTGCGA ACAAAGGCCT CAACTGCTGT AAAAGCACCA
    CTGTCTGGTA CAGGTACATA CCCAGGGGCC AAATCATCTC TCTCCGGGTC ATTCACATCC
    CTGGGAAGTA AAGCATTGAC TGATAGCTCA GGAATTGTGG CTCCATCCGC AGAAGAAAAG
    TTTAGTCCAG GGTTAGTTTC ACCACATGTT GTCCGAACTC CAGTCCCCTC TGCCTTCTCC
    CTCCCAATCA GGCCTGAGGA CATTTTGCCT GGGGGGGAGG AGGAGTTTAC CCCCGATAAT
    GAGGATCCTG CTAAGAGTAA GCGCCAGGAG CGGCTGTTCC TAAGGCAGGA TGCCATGTGG
    ATCAGCACAA GTGTTACTTC AGACTATTTC TTACAGTCAT CCCCTGGACG GCCTGGTAGT
    GGTGGAAGCT CCCCTGGAGG GCACCGCCAG GAGCTTAGCC CAAAATTCTT TTCAGGGCCT
    CGCTGTTCGT TTAGCTCCCC AGGCAGCCCA CTGCTTACTG CTCCTTGTCA GCCAGGCACA
    CCTTACAGGG AGGCTCCAAT CAATGTGTCC CTTACAGTAA GCCAAGAGCA TGCTGGGGGA
    TCTTCAGAAA GTTGCCTTCT GATTGAGCGT AGTGCCTCTT CAGGGGTGAG TTCAGTAGGA
    GTTCCTGAGG CAGGTGAGCT TGGTAAAGGA CACCCTGCCC TACTTACCCC TGGTAAAGAA
    AAGGGCGGTA GAATTCTGAA ACTTAAAGCT TCTAAAAGCC AGGTAGAGAA ACCAACAGAG
    CAACGAGATA AACTTCAAAG CCAGAAGAGT TTCACTAACA GGCTTTCTTG GCCTGAAAAT
    GAGGGGGGTA AGAGCCGCTC TAAATCCTCC ACAAAGAGCA GCCCTAGAGT GGAGACACCC
    AAACTGTCTG GCATGGCAGG CAAGAACCTA TTGTCCCCTG CCTCATGTGA CCCTAAGGGT
    TTTCGGAAGG GGAAAAGTAA GACTGTGGAC AATAGTGACT TGGACCCCAC TGCAGAGGAT
    TTCAAAAAAA GCAGAGAGGG AAGCTCACCG ACAGGGGACA AGGCCAGGGC CACAGCAGCC
    AGGGATAGGA AAATGCTTAA ATTCATCAGT GGGATCTTTG CCAAGAACAC TGCATCCGTG
    GCCTCATCCG TTTCACCTAG TAGTTTAAGC CCAGGAGATG AGAGGGATAT ACTTCACAAA
    TGTGTGATGA ACAGCCAGGA ATGGACCTTA AGTCGGACTG TGCCTGAAAT CAGAGTGGGA
    GTTTTGGGCA GTACTAAAAG TGCCAAGTCT GCTCTTGTGC ATCGGTTTGT GACCGGCTCC
    TATCAACCCC TAGAAGCACC TGAAAGTGCT CAGTTCAAGA AAGAGATCAG CGTGGAAGGG
    CAGAGCTACC TTCTGCTAAT TAGGGAAGAA GCCGGAGCTC CAGATGCCAA GTTTGCCAAT
    TGGGTGGATG CCGTCATTTT TGTGTTCAGC CTGGAAAATG AGGCAAGCTT TCAAGATATT
    TTCCAGTATT ATGCTCTCCT GGCAAATTAT CGCAATGTTG CAGACCTCGC TATGGCACTT
    GTTGGGACTC AAGATAAAAT TAGTGCAAAC AACAAGCGAG TGGTAGAGGA CGTGCGGGCG
    AGAGCCCTCT GCAATGATAT CAAACGCTGT GTTTACTATG AGACCTGTGC CACCTATGGA
    CTCAATGTGG ATCGGGTGTT TAATGAAGTT GCTCAGAAGA TGGTTGCAAT AAAGAGGCAG
    CAGCAACTCC TATCATGCAA GTCATTACCA AGCTCTCCAA GTCACTCCTC TGGATCCATT
    GCAATATCAG TGCAGGCAAG TAATGGAGGA ACAACAAGTG ATTATTCATC GTCACTGCCT
    TCCACACCAA ACATCAGTCA CAGAGAACTA CGAAGTGAGG TGTCCATTGG AGTCAGCACT
    CCGGTGTCCC TCCATCGTGG CACTAAAAGG CGCACAAGCA TATTTACAAA CCGAAGGGGA
    AGTGATTTGG AAAAGAGAAG TTTTGATAGT CGTGCAGATG GTGCTGGTGG GGGTCGGGCT
    CTACCAATTA AACAGAGCTT CTTAATGAAA CGAAGCGGCA ACTCTCTGAA CAAAGAATGG
    AAGAAGAAGT ATGTTACCCT GACAAGCAAT GGGGTCCTGC TCTACCATCC AAGCATTAAT
    GATTACCTAC ACAGTACACA TGGGAAGGAG ATGGATCTTT TACGAACTAC AGTGAAGGTC
    CCTGGAAAGA GGCCTCCAAT AGCCATGTCT GCCTGTGGCC CATCCAATAG CATCAACGGC
    TTGTTAAAGG ATGTGGGCAG CTCTCCAGGG GGAGATACAG CAAGTAACAA GGCGCAATCA
    ACAAAAAGCA AATCCACTGG CGATGTCATT TCCAGCCCCA CCAGCAACAA AGATCCCCCC
    TCTTCCCCAA TGAGTGATAA AAAGAAGAAC AGAAGAAAAA AGAATATGAC CCCTTCCAAG
    ACAGAAGGGT CCGCTGGACA GGCAGATGCC AAGCGCAAAA TGTGGAAGTT AAAAACATTT
    GGTAGCTTGA GAAATATTTA TAAGACAGAA GAGAACTTCG AATTTATCAT TGTGTCTAGC
    ACAGGGCAGA CATGGCATTT TGAGACAAGC AGCTTTGAAG AAAGGGATTC CTGGGTACAA
    GCCATTGAGA GCCAGATCCT CGCTAGCCTG CAGTGCTGCG AGAGCAGCAA AAATAAGGCT
    CGAATGGACA GTCAGAGCGA AGCGGTCGCC ATCCAAGCCA TTCGGAATGC TAAAGGGAAT
    TCATTTTGTG TGGATTGTGG TGCCCCGAAT CCCACCTGGG CCAGCTTGAA TCTGGGTGCC
    CTGATCTGCA TTGAATGTTC AGGAATTCAC AGAAACCTTG GCACCCATTT ATCTCGGGTC
    CGATCACTGG ATTTGGATGA CTGGCCCCTA GAGCTCACAC TTGTTCTAAC CTCTATTGGT
    AATGAAATGG CCAACAGCAT ATGGGAGATG ACAACTCATG GAAGAACCAA ACCAGCACCT
    GATTCCTCAA GGGAAGAGAG AGAATCATGG ATTAGAGCTA AGTATGAGCA GCGATTATTT
    TTGGCCCCTT TGAAGAGTCC AGGGGTCCCC TTGGTGAAGC AGCTTTTTAA AGCTGTACAT
    GAGAAAAATC TCGGCAATGT ACTTCTCCTC CTAGCCCACA GCAACAAGGA GCAAATCAAC
    GGAATCACTG GAGACAGAGA CAGACGCACT GCCCTTCATG TGGCCTGTGA ACTGGGGGAA
    GTTGTGACCA CACAACTGCT TGTCTGGTAT GGCATCGATG TGAAGTCAAG AGACAGCAAT
    GGCCACACAG CCGTGTTTTA TGCTAAGAAA AGTAACAGCC AAGAGTGCGT GGACATTCTG
    CTGCAACATG GCTGTCCCAA TGAGTCCACA AGCGCCCTGT CCACTCCCAG TCTAAGAAGG
    AAAAGCAGCT CTGCCAGCAT CGTGAGGACT GATTCCCGGA CTGCCCTTGT GTAG

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

    RefSeq XP_002933734.2
    CDS888..7001
    Translation

    Target ORF information:

    RefSeq Version XM_002933688.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ArfGAP with GTPase domain, ankyrin repeat and PH domain 2 (agap2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_002933688.4

    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
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    ATGAGCAGAG GAGCCACCCT GCAGCGCAGG ACCACCTACC ATATATCTCT TACTCTGGTC 
    AAACTAGAGG CTGTAGGAGA AGAAAAGAAG GGAGAGACTC GGGAAGTCTA TCGGAGACAT
    GACACCCCGT CTCTCGGCAG CACCCCCGGT CTGGCCCATT GCCTCTCTCT GGACAGGGAA
    TTCCCAGATG CCTGGGTGTG GGGTGGGCCC GATGCTGCTT CCAGGGTGAG AGATCAGCCT
    AGTCCGGGAG CCGGTTCCGC AGCGGCCGGG GATGGCTCTG CCGCAGGGAC AAAGGTGAGA
    GGCAAGGTGA TCCGGAGCCA GACCCAAGCG CCTGTGCCCA GCAAGCCAAC TTTCCCCGGC
    CATGGGCAGA CTGCTACACC CGGCACTGCT GTGCCTCGGC CGGTACCGAA AGGAGCCGCG
    GTTCCCACAT CTGGACCTAA AGGGAGCGGT ACCTCCGGCT CTGCCAAGGG AACATCCAGC
    CCCGCAGCCT GTGCCATAGA CTCCCGGGCA CGTACCGCGG CCACTGAGGA ACCTGGCAGC
    AAAGGCACTT TCAGATCTGC CGCCCCGGTA CCGGCGAGTA AAGAAGCCTC TCCCAGCACT
    GGGACACCGG CACCGGGACC CAAGCCCAGC AATGTAGCCT CAACTGCTCG TACAGCGCCT
    CAATCTACTT CCAGCCGCCC CCCCAGTCAT GCAGCCCCGC CACCTCCTCA CAAACACAAT
    GGCACCTCTG ATCCAGCTGC CTTGGCACTC ACACCGTCAC ATCCACCCTT GGCACCAACA
    GCAAAGGATA GTGGCACTTC ATCGCCTGCA TCCTTGGCAT CTATACCAAA GGACAGCAGT
    GCACCAGATA TGGCATCCCT GGCTCCTAAC GTTACATACA ATAATACCCC AAGCCCTTCA
    GCCTCTATAC CTTTAGACAG CTGTGCACCA TGCCCTTCAG GCCCTAATCT GTCAGCTAAG
    GAAAGTGTCA GTCCAGCTCC TACACCAAGT GCACCAGGAC AAGCAGGTCC AGTTTCCAAA
    GCCAAGGACA CTGACATGTC TGGTCTTGCA GCCCCAGGTA AGGACACTGG GAGACCTGGT
    GCCACCTGTA GTCCTATGAC ACCTGCAGCA TCAGCACCAA AAATGAAGGA AAAGGACGCA
    CCAAGACCTA CAGCAACAGC ATCCAAAGTT AAGGAAATTT GTACTGCAGA AATGACACCT
    GTAACAGAAG CTGCTTCTGT AAGTTTTGTT CCAGCAGCTA AGGGCAGCTA CACATCAGCT
    ACTGCAGCTC TGGTACCCAC ATCAAAGGGC ACTGGCTTAT CAAGTTCTGA AGGCTCTGTA
    CCCACATCAA AGAGCTATGG CACATCAATA CCTGCAACTC CAGTACCACC ACCATTACCT
    ATGGGCAATG TCACATTAAT TTCTGACCCT TCAGCACCCA CACCAAAGGG CAATAGCCAG
    TTTGTTCCTG CAGCTCCAAC AACCACACCT AAGTGCGCTG GCCAATCATT TCCTGCAGCT
    CCAACACCTA AGGGCAGGGG ACAATCAATT TCTGCAGCTC CAGCACCCAC ACCTAAGGTC
    AGTGGGACAT CAATTTCTGC AGCTCCAACA TCCACTCTTA AGGGCAGCTC ATCAATTTGT
    ACTGCAACAA CCATACCCAA GGCCAGTGGT ATATCAAGCC TTGGAACCTC GGTACCCACA
    TCTAAAGAAA GTAACACCTT AAATTCTGCA GCACCATCAA AGGACAGTGG CAAATCAAGT
    CCTGCAGACC CATCAACAAT TCTTCAGGAC AAAGATGTTT TACATTCTGC TGACCAGGTA
    CCTACAGCTG CTCCTAGTGA TAAATCAAGT CCTGACGTCC CAACTCCAAC CGCAGAAGAT
    AGTAATAAAA AGAGTTCTGA ACCCCAGTTA GCAGAGGATA AGGTTATCAC TGCAACTAGT
    AATTCAGGCC CAGTCAAAGA CACTGGCACC TCCAGCACTG CCACAACAGT GCCAGCAGGA
    CAGAGAGAGT TTACCTTTGG AACAGCTCGG GTGATCCGAG GATCCCTAAT CAGAAGACCA
    GCCTTGGATA CTGATGTGTC GCGAGATTTA GTCAGCAGTC CTACTGTTCC TGTACAAGGG
    GCCCGGATAA CAGAAGGAGT TAATGCGGAG GCCCCAGCCA TTGAAGCTAG AGTCTCTTCA
    CGAAGCTTCA AGGCTGTGAG AATTCCAGCG GGTTCAACTG AGACTGGAAC TGCATCAAGG
    GCAAATAGAG CCTCAGTCAA GGTAGAAAAG CCCAGTAAAG CATCTGAGCC AGAGGACAAG
    CCATGCCCAG TCATGACCTC TGTTCCCCGG GTAACTGCTC CACCTATCAG TGCTGCCAGA
    ACAGCAGCCG CCCTGTTTTC TGCATCTCGA TCAGGAGCCC CTCATAATGC AAGACCCAGT
    GAGGCAAAAA TAACTGCTAT CCGAACCGCA GCTCGCGGAG CCAGAGCAGT TTCTTCAGGG
    GCATGTACTG AGGACCTTGC AGGAAGAAGA ACACCAAACA CAGGCTTAGG GGAAAGAGCT
    CAAACCGGAG ATGCAGGAAC CTATCCAGGG GCAAAAGCAT CTGTCATGGG ACCAAAAACA
    GCAACTGGGA CATCACCTGT AAAAGTTGCA AAAATTGCAC CCAGGCCCAT GAGCTCTTGT
    GCAGACCCTA TAATCATCAC TGGATTGCGA ACAAAGGCCT CAACTGCTGT AAAAGCACCA
    CTGTCTGGTA CAGGTACATA CCCAGGGGCC AAATCATCTC TCTCCGGGTC ATTCACATCC
    CTGGGAAGTA AAGCATTGAC TGATAGCTCA GGAATTGTGG CTCCATCCGC AGAAGAAAAG
    TTTAGTCCAG GGTTAGTTTC ACCACATGTT GTCCGAACTC CAGTCCCCTC TGCCTTCTCC
    CTCCCAATCA GGCCTGAGGA CATTTTGCCT GGGGGGGAGG AGGAGTTTAC CCCCGATAAT
    GAGGATCCTG CTAAGAGTAA GCGCCAGGAG CGGCTGTTCC TAAGGCAGGA TGCCATGTGG
    ATCAGCACAA GTGTTACTTC AGACTATTTC TTACAGTCAT CCCCTGGACG GCCTGGTAGT
    GGTGGAAGCT CCCCTGGAGG GCACCGCCAG GAGCTTAGCC CAAAATTCTT TTCAGGGCCT
    CGCTGTTCGT TTAGCTCCCC AGGCAGCCCA CTGCTTACTG CTCCTTGTCA GCCAGGCACA
    CCTTACAGGG AGGCTCCAAT CAATGTGTCC CTTACAGTAA GCCAAGAGCA TGCTGGGGGA
    TCTTCAGAAA GTTGCCTTCT GATTGAGCGT AGTGCCTCTT CAGGGGTGAG TTCAGTAGGA
    GTTCCTGAGG CAGGTGAGCT TGGTAAAGGA CACCCTGCCC TACTTACCCC TGGTAAAGAA
    AAGGGCGGTA GAATTCTGAA ACTTAAAGCT TCTAAAAGCC AGGTAGAGAA ACCAACAGAG
    CAACGAGATA AACTTCAAAG CCAGAAGAGT TTCACTAACA GGCTTTCTTG GCCTGAAAAT
    GAGGGGGGTA AGAGCCGCTC TAAATCCTCC ACAAAGAGCA GCCCTAGAGT GGAGACACCC
    AAACTGTCTG GCATGGCAGG CAAGAACCTA TTGTCCCCTG CCTCATGTGA CCCTAAGGGT
    TTTCGGAAGG GGAAAAGTAA GACTGTGGAC AATAGTGACT TGGACCCCAC TGCAGAGGAT
    TTCAAAAAAA GCAGAGAGGG AAGCTCACCG ACAGGGGACA AGGCCAGGGC CACAGCAGCC
    AGGGATAGGA AAATGCTTAA ATTCATCAGT GGGATCTTTG CCAAGAACAC TGCATCCGTG
    GCCTCATCCG TTTCACCTAG TAGTTTAAGC CCAGGAGATG AGAGGGATAT ACTTCACAAA
    TGTGTGATGA ACAGCCAGGA ATGGACCTTA AGTCGGACTG TGCCTGAAAT CAGAGTGGGA
    GTTTTGGGCA GTACTAAAAG TGCCAAGTCT GCTCTTGTGC ATCGGTTTGT GACCGGCTCC
    TATCAACCCC TAGAAGCACC TGAAAGTGCT CAGTTCAAGA AAGAGATCAG CGTGGAAGGG
    CAGAGCTACC TTCTGCTAAT TAGGGAAGAA GCCGGAGCTC CAGATGCCAA GTTTGCCAAT
    TGGGTGGATG CCGTCATTTT TGTGTTCAGC CTGGAAAATG AGGCAAGCTT TCAAGATATT
    TTCCAGTATT ATGCTCTCCT GGCAAATTAT CGCAATGTTG CAGACCTCGC TATGGCACTT
    GTTGGGACTC AAGATAAAAT TAGTGCAAAC AACAAGCGAG TGGTAGAGGA CGTGCGGGCG
    AGAGCCCTCT GCAATGATAT CAAACGCTGT GTTTACTATG AGACCTGTGC CACCTATGGA
    CTCAATGTGG ATCGGGTGTT TAATGAAGTT GCTCAGAAGA TGGTTGCAAT AAAGAGGCAG
    CAGCAACTCC TATCATGCAA GTCATTACCA AGCTCTCCAA GTCACTCCTC TGGATCCATT
    GCAATATCAG TGCAGGCAAG TAATGGAGGA ACAACAAGTG ATTATTCATC GTCACTGCCT
    TCCACACCAA ACATCAGTCA CAGAGAACTA CGAAGTGAGG TGTCCATTGG AGTCAGCACT
    CCGGTGTCCC TCCATCGTGG CACTAAAAGG CGCACAAGCA TATTTACAAA CCGAAGGGGA
    AGTGATTTGG AAAAGAGAAG TTTTGATAGT CGTGCAGATG GTGCTGGTGG GGGTCGGGCT
    CTACCAATTA AACAGAGCTT CTTAATGAAA CGAAGCGGCA ACTCTCTGAA CAAAGAATGG
    AAGAAGAAGT ATGTTACCCT GACAAGCAAT GGGGTCCTGC TCTACCATCC AAGCATTAAT
    GATTACCTAC ACAGTACACA TGGGAAGGAG ATGGATCTTT TACGAACTAC AGTGAAGGTC
    CCTGGAAAGA GGCCTCCAAT AGCCATGTCT GCCTGTGGCC CATCCAATAG CATCAACGGC
    TTGTTAAAGG ATGTGGGCAG CTCTCCAGGG GGAGATACAG CAAGTAACAA GGCGCAATCA
    ACAAAAAGCA AATCCACTGG CGATGTCATT TCCAGCCCCA CCAGCAACAA AGATCCCCCC
    TCTTCCCCAA TGAGTGATAA AAAGAAGAAC AGAAGAAAAA AGAATATGAC CCCTTCCAAG
    ACAGAAGGGT CCGCTGGACA GGCAGATGCC AAGCGCAAAA TGTGGAAGTT AAAAACATTT
    GGTAGCTTGA GAAATATTTA TAAGACAGAA GAGAACTTCG AATTTATCAT TGTGTCTAGC
    ACAGGGCAGA CATGGCATTT TGAGACAAGC AGCTTTGAAG AAAGGGATTC CTGGGTACAA
    GCCATTGAGA GCCAGATCCT CGCTAGCCTG CAGTGCTGCG AGAGCAGCAA AAATAAGGCT
    CGAATGGACA GTCAGAGCGA AGCGGTCGCC ATCCAAGCCA TTCGGAATGC TAAAGGGAAT
    TCATTTTGTG TGGATTGTGG TGCCCCGAAT CCCACCTGGG CCAGCTTGAA TCTGGGTGCC
    CTGATCTGCA TTGAATGTTC AGGAATTCAC AGAAACCTTG GCACCCATTT ATCTCGGGTC
    CGATCACTGG ATTTGGATGA CTGGCCCCTA GAGCTCACAC TTGTTCTAAC CTCTATTGGT
    AATGAAATGG CCAACAGCAT ATGGGAGATG ACAACTCATG GAAGAACCAA ACCAGCACCT
    GATTCCTCAA GGGAAGAGAG AGAATCATGG ATTAGAGCTA AGTATGAGCA GCGATTATTT
    TTGGCCCCTT TGAAGAGTCC AGGGGTCCCC TTGGTGAAGC AGCTTTTTAA AGCTGTACAT
    GAGAAAAATC TCGGCAATGT ACTTCTCCTC CTAGCCCACA GCAACAAGGA GCAAATCAAC
    GGAATCACTG GAGACAGAGA CAGACGCACT GCCCTTCATG TGGCCTGTGA ACTGGGGGAA
    GTTGTGACCA CACAACTGCT TGTCTGGTAT GGCATCGATG TGAAGTCAAG AGACAGCAAT
    GGCCACACAG CCGTGTTTTA TGCTAAGAAA AGTAACAGCC AAGAGTGCGT GGACATTCTG
    CTGCAACATG GCTGTCCCAA TGAGTCCACA AGCGCCCTGT CCACTCCCAG TCTAAGAAGG
    AAAAGCAGCT CTGCCAGCAT CGTGAGGACT GATTCCCGGA CTGCCCTTGT GTAG

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

    CloneID OXa06079
    Clone ID Related Accession (Same CDS sequence) XM_004911920.3
    Accession Version XM_004911920.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6054bp)
    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 arf-GAP with GTPase, ANK repeat and PH domain-containing protein 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) 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_004911920.2. ##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
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    ATGAGCAGAG GAGCCACCCT GCAGCGCAGG ACCACCTACC ATATATCTCT TACTCTGGTC 
    AAACTAGAGG CTGTAGGAGA AGAAAAGAAG GGAGAGACTC GGGAAGTCTA TCGGAGACAT
    GACACCCCGT CTCTCGGCAG CACCCCCGGT CTGGCCCATT GCCTCTCTCT GGACAGGGAA
    TTCCCAGATG CCTGGGTGTG GGGTGGGCCC GATGCTGCTT CCAGGGTGAG AGATCAGCCT
    AGTCCGGGAG CCGGTTCCGC AGCGGCCGGG GATGGCTCTG CCGCAGGGAC AAAGGTGAGA
    GGCAAGGTGA TCCGGAGCCA GACCCAAGCG CCTGTGCCCA GCAAGCCAAC TTTCCCCGGC
    CATGGGCAGA CTGCTACACC CGGCACTGCT GTGCCTCGGC CGGTACCGAA AGGAGCCGCG
    GTTCCCACAT CTGGACCTAA AGGGAGCGGT ACCTCCGGCT CTGCCAAGGG AACATCCAGC
    CCCGCAGCCT GTGCCATAGA CTCCCGGGCA CGTACCGCGG CCACTGAGGA ACCTGGCAGC
    AAAGGCACTT TCAGATCTGC CGCCCCGGTA CCGGCGAGTA AAGAAGCCTC TCCCAGCACT
    GGGACACCGG CACCGGGACC CAAGCCCAGC AATGTAGCCT CAACTGCTCG TACAGCGCCT
    CAATCTACTT CCAGCCGCCC CCCCAGTCAT GCAGCCCCGC CACCTCCTCA CAAACACAAT
    GGCACCTCTG ATCCAGCTGC CTTGGCACTC ACACCGTCAC ATCCACCCTT GGCACCAACA
    GCAAAGGATA GTGGCACTTC ATCGCCTGCA TCCTTGGCAT CTATACCAAA GGACAGCAGT
    GCACCAGATA TGGCATCCCT GGCTCCTAAC GTTACATACA ATAATACCCC AAGCCCTTCA
    GCCTCTATAC CTTTAGACAG CTGTGCACCA TGCCCTTCAG GCCCTAATCT GTCAGCTAAG
    GAAAGTGTCA GTCCAGCTCC TACACCAAGT GCACCAGGAC AAGCAGGTCC AGTTTCCAAA
    GCCAAGGACA CTGACATGTC TGGTCTTGCA GCCCCAGGTA AGGACACTGG GAGACCTGGT
    GCCACCTGTA GTCCTATGAC ACCTGCAGCA TCAGCACCAA AAATGAAGGA AAAGGACGCA
    CCAAGACCTA CAGCAACAGC ATCCAAAGTT AAGGAAATTT GTACTGCAGA AATGACACCT
    GTAACAGAAG CTGCTTCTGT AAGTTTTGTT CCAGCAGCTA AGGGCAGCTA CACATCAGCT
    ACTGCAGCTC TGGTACCCAC ATCAAAGGGC ACTGGCTTAT CAAGTTCTGA AGGCTCTGTA
    CCCACATCAA AGAGCTATGG CACATCAATA CCTGCAACTC CAGTACCACC ACCATTACCT
    ATGGGCAATG TCACATTAAT TTCTGACCCT TCAGCACCCA CACCAAAGGG CAATAGCCAG
    TTTGTTCCTG CAGCTCCAAC AACCACACCT AAGTGCGCTG GCCAATCATT TCCTGCAGCT
    CCAACACCTA AGGGCAGGGG ACAATCAATT TCTGCAGCTC CAGCACCCAC ACCTAAGGTC
    AGTGGGACAT CAATTTCTGC AGCTCCAACA TCCACTCTTA AGGGCAGCTC ATCAATTTGT
    ACTGCAACAA CCATACCCAA GGCCAGTGGT ATATCAAGCC TTGGAACCTC GGTACCCACA
    TCTAAAGAAA GTAACACCTT AAATTCTGCA GCACCATCAA AGGACAGTGG CAAATCAAGT
    CCTGCAGACC CATCAACAAT TCTTCAGGAC AAAGATGTTT TACATTCTGC TGACCAGGTA
    CCTACAGCTG CTCCTAGTGA TAAATCAAGT CCTGACGTCC CAACTCCAAC CGCAGAAGAT
    AGTAATAAAA AGAGTTCTGA ACCCCAGTTA GCAGAGGATA AGGTTATCAC TGCAACTAGT
    AATTCAGGCC CAGTCAAAGA CACTGGCACC TCCAGCACTG CCACAACAGT GCCAGCAGGA
    CAGAGAGAGT TTACCTTTGG AACAGCTCGG GTGATCCGAG GATCCCTAAT CAGAAGACCA
    GCCTTGGATA CTGATGTGTC GCGAGATTTA GTCAGCAGTC CTACTGTTCC TGTACAAGGG
    GCCCGGATAA CAGAAGGAGT TAATGCGGAG GCCCCAGCCA TTGAAGCTAG AGTCTCTTCA
    CGAAGCTTCA AGGCTGTGAG AATTCCAGCG GGTTCAACTG AGACTGGAAC TGCATCAAGG
    GCAAATAGAG CCTCAGTCAA GGTAGAAAAG CCCAGTAAAG CATCTGAGCC AGAGGACAAG
    CCATGCCCAG TCATGACCTC TGTTCCCCGG GTAACTGCTC CACCTATCAG TGCTGCCAGA
    ACAGCAGCCG CCCTGTTTTC TGCATCTCGA TCAGGAGCCC CTCATAATGC AAGACCCAGT
    GAGGCAAAAA TAACTGCTAT CCGAACCGCA GCTCGCGGAG CCAGAGCAGT TTCTTCAGGG
    GCATGTACTG AGGACCTTGC AGGAAGAAGA ACACCAAACA CAGGCTTAGG GGAAAGAGCT
    CAAACCGGAG ATGCAGGAAC CTATCCAGGG GCAAAAGCAT CTGTCATGGG ACCAAAAACA
    GCAACTGGGA CATCACCTGT AAAAGTTGCA AAAATTGCAC CCAGGCCCAT GAGCTCTTGT
    GCAGACCCTA TAATCATCAC TGGATTGCGA ACAAAGGCCT CAACTGCTGT AAAAGCACCA
    CTGTCTGGTA CAGGTACATA CCCAGGGGCC AAATCATCTC TCTCCGGGTC ATTCACATCC
    CTGGGAAGTA AAGCATTGAC TGATAGCTCA GGAATTGTGG CTCCATCCGC AGAAGAAAAG
    TTTAGTCCAG GGTTAGTTTC ACCACATGTT GTCCGAACTC CAGTCCCCTC TGCCTTCTCC
    CTCCCAATCA GGCCTGAGGA CATTTTGCCT GGGGGGGAGG AGGAGTTTAC CCCCGATAAT
    GAGGATCCTG CTAAGAGTAA GCGCCAGGAG CGGCTGTTCC TAAGGCAGGA TGCCATGTGG
    ATCAGCACAA GTGTTACTTC AGACTATTTC TTACAGTCAT CCCCTGGACG GCCTGGTAGT
    GGTGGAAGCT CCCCTGGAGG GCACCGCCAG GAGCTTAGCC CAAAATTCTT TTCAGGGCCT
    CGCTGTTCGT TTAGCTCCCC AGGCAGCCCA CTGCTTACTG CTCCTTGTCA GCCAGGCACA
    CCTTACAGGG AGGCTCCAAT CAATGTGTCC CTTACAGTAA GCCAAGAGCA TGCTGGGGGA
    TCTTCAGAAA GTTGCCTTCT GATTGAGCGT AGTGCCTCTT CAGGGGTGAG TTCAGTAGGA
    GTTCCTGAGG CAGGTGAGCT TGGTAAAGGA CACCCTGCCC TACTTACCCC TGGTAAAGAA
    AAGGGCGGTA GAATTCTGAA ACTTAAAGCT TCTAAAAGCC AGGTAGAGAA ACCAACAGAG
    CAACGAGATA AACTTCAAAG CCAGAAGAGT TTCACTAACA GGCTTTCTTG GCCTGAAAAT
    GAGGGGGGTA AGAGCCGCTC TAAATCCTCC ACAAAGAGCA GCCCTAGAGT GGAGACACCC
    AAACTGTCTG GCATGGCAGG CAAGAACCTA TTGTCCCCTG CCTCATGTGA CCCTAAGGGT
    TTTCGGAAGG GGAAAAGTAA GACTGTGGAC AATAGTGACT TGGACCCCAC TGCAGAGGAT
    TTCAAAAAAA GCAGAGAGGG AAGCTCACCG ACAGGGGACA AGGCCAGGGC CACAGCAGCC
    AGGGATAGGA AAATGCTTAA ATTCATCAGT GGGATCTTTG CCAAGAACAC TGCATCCGTG
    GCCTCATCCG TTTCACCTAG TAGTTTAAGC CCAGGAGATG AGAGGGATAT ACTTCACAAA
    TGTGTGATGA ACAGCCAGGA ATGGACCTTA AGTCGGACTG TGCCTGAAAT CAGAGTGGGA
    GTTTTGGGCA GTACTAAAAG TGCCAAGTCT GCTCTTGTGC ATCGGTTTGT GACCGGCTCC
    TATCAACCCC TAGAAGCACC TGAAAGTGCT CAGTTCAAGA AAGAGATCAG CGTGGAAGGG
    CAGAGCTACC TTCTGCTAAT TAGGGAAGAA GCCGGAGCTC CAGATGCCAA GTTTGCCAAT
    TGGGTGGATG CCGTCATTTT TGTGTTCAGC CTGGAAAATG AGGCAAGCTT TCAAGATATT
    TTCCAGTATT ATGCTCTCCT GGCAAATTAT CGCAATGTTG CAGACCTCGC TATGGCACTT
    GTTGGGACTC AAGATAAAAT TAGTGCAAAC AACAAGCGAG TGGTAGAGGA CGTGCGGGCG
    AGAGCCCTCT GCAATGATAT CAAACGCTGT GTTTACTATG AGACCTGTGC CACCTATGGA
    CTCAATGTGG ATCGGGTGTT TAATGAAGTT GCTCAGAAGA TGGTTGCAAT AAAGAGGCAG
    CAGCAACTCC TATCATGCAA GTCATTACCA AGCTCTCCAA GTCACTCCTC TGGATCCATT
    GCAATATCAG TGCAGGCAAG TAATGGAGGA ACAACAAGTG ATTATTCATC GTCACTGCCT
    TCCACACCAA ACATCAGTCA CAGAGAACTA CGAAGTGAGG TGTCCATTGG AGTCAGCACT
    CCGGTGTCCC TCCATCGTGG CACTAAAAGG CGCACAAGCA TATTTACAAA CCGAAGGGGA
    AGTGATTTGG AAAAGAGAAG TTTTGATAGT CGTGCAGATG GTGCTGGTGG GGGTCGGGCT
    CTACCAATTA AACAGAGCTT CTTAATGAAA CGAAGCGGCA ACTCTCTGAA CAAAGAATGG
    AAGAAGAAGT ATGTTACCCT GACAAGCAAT GGGGTCCTGC TCTACCATCC AAGCATTAAT
    GATTACCTAC ACAGTACACA TGGGAAGGAG ATGGATCTTT TACGAACTAC AGTGAAGGTC
    CCTGGAAAGA GGCCTCCAAT AGCCATGTCT GCCTGTGGCC CATCCAATAG CATCAACGGC
    TTGTTAAAGG ATGTGGGCAG CTCTCCAGGG GGAGATACAG CAAGTAACAA GGCGCAATCA
    ACAAAAAGCA AATCCACTGG CGATGTCATT TCCAGCCCCA CCAGCAACAA AGATCCCCCC
    TCTTCCCCAA TGAGTGATAA AAAGAAGAAC AGAAGAAAAA AGAATATGAC CCCTTCCAAG
    ACAGAAGGGT CCGCTGGACA GGCAGATGAA GAGAACTTCG AATTTATCAT TGTGTCTAGC
    ACAGGGCAGA CATGGCATTT TGAGACAAGC AGCTTTGAAG AAAGGGATTC CTGGGTACAA
    GCCATTGAGA GCCAGATCCT CGCTAGCCTG CAGTGCTGCG AGAGCAGCAA AAATAAGGCT
    CGAATGGACA GTCAGAGCGA AGCGGTCGCC ATCCAAGCCA TTCGGAATGC TAAAGGGAAT
    TCATTTTGTG TGGATTGTGG TGCCCCGAAT CCCACCTGGG CCAGCTTGAA TCTGGGTGCC
    CTGATCTGCA TTGAATGTTC AGGAATTCAC AGAAACCTTG GCACCCATTT ATCTCGGGTC
    CGATCACTGG ATTTGGATGA CTGGCCCCTA GAGCTCACAC TTGTTCTAAC CTCTATTGGT
    AATGAAATGG CCAACAGCAT ATGGGAGATG ACAACTCATG GAAGAACCAA ACCAGCACCT
    GATTCCTCAA GGGAAGAGAG AGAATCATGG ATTAGAGCTA AGTATGAGCA GCGATTATTT
    TTGGCCCCTT TGAAGAGTCC AGGGGTCCCC TTGGTGAAGC AGCTTTTTAA AGCTGTACAT
    GAGAAAAATC TCGGCAATGT ACTTCTCCTC CTAGCCCACA GCAACAAGGA GCAAATCAAC
    GGAATCACTG GAGACAGAGA CAGACGCACT GCCCTTCATG TGGCCTGTGA ACTGGGGGAA
    GTTGTGACCA CACAACTGCT TGTCTGGTAT GGCATCGATG TGAAGTCAAG AGACAGCAAT
    GGCCACACAG CCGTGTTTTA TGCTAAGAAA AGTAACAGCC AAGAGTGCGT GGACATTCTG
    CTGCAACATG GCTGTCCCAA TGAGTCCACA AGCGCCCTGT CCACTCCCAG TCTAAGAAGG
    AAAAGCAGCT CTGCCAGCAT CGTGAGGACT GATTCCCGGA CTGCCCTTGT GTAG

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

    RefSeq XP_004911977.1
    CDS888..6941
    Translation

    Target ORF information:

    RefSeq Version XM_004911920.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ArfGAP with GTPase domain, ankyrin repeat and PH domain 2 (agap2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004911920.3

    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
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    ATGAGCAGAG GAGCCACCCT GCAGCGCAGG ACCACCTACC ATATATCTCT TACTCTGGTC 
    AAACTAGAGG CTGTAGGAGA AGAAAAGAAG GGAGAGACTC GGGAAGTCTA TCGGAGACAT
    GACACCCCGT CTCTCGGCAG CACCCCCGGT CTGGCCCATT GCCTCTCTCT GGACAGGGAA
    TTCCCAGATG CCTGGGTGTG GGGTGGGCCC GATGCTGCTT CCAGGGTGAG AGATCAGCCT
    AGTCCGGGAG CCGGTTCCGC AGCGGCCGGG GATGGCTCTG CCGCAGGGAC AAAGGTGAGA
    GGCAAGGTGA TCCGGAGCCA GACCCAAGCG CCTGTGCCCA GCAAGCCAAC TTTCCCCGGC
    CATGGGCAGA CTGCTACACC CGGCACTGCT GTGCCTCGGC CGGTACCGAA AGGAGCCGCG
    GTTCCCACAT CTGGACCTAA AGGGAGCGGT ACCTCCGGCT CTGCCAAGGG AACATCCAGC
    CCCGCAGCCT GTGCCATAGA CTCCCGGGCA CGTACCGCGG CCACTGAGGA ACCTGGCAGC
    AAAGGCACTT TCAGATCTGC CGCCCCGGTA CCGGCGAGTA AAGAAGCCTC TCCCAGCACT
    GGGACACCGG CACCGGGACC CAAGCCCAGC AATGTAGCCT CAACTGCTCG TACAGCGCCT
    CAATCTACTT CCAGCCGCCC CCCCAGTCAT GCAGCCCCGC CACCTCCTCA CAAACACAAT
    GGCACCTCTG ATCCAGCTGC CTTGGCACTC ACACCGTCAC ATCCACCCTT GGCACCAACA
    GCAAAGGATA GTGGCACTTC ATCGCCTGCA TCCTTGGCAT CTATACCAAA GGACAGCAGT
    GCACCAGATA TGGCATCCCT GGCTCCTAAC GTTACATACA ATAATACCCC AAGCCCTTCA
    GCCTCTATAC CTTTAGACAG CTGTGCACCA TGCCCTTCAG GCCCTAATCT GTCAGCTAAG
    GAAAGTGTCA GTCCAGCTCC TACACCAAGT GCACCAGGAC AAGCAGGTCC AGTTTCCAAA
    GCCAAGGACA CTGACATGTC TGGTCTTGCA GCCCCAGGTA AGGACACTGG GAGACCTGGT
    GCCACCTGTA GTCCTATGAC ACCTGCAGCA TCAGCACCAA AAATGAAGGA AAAGGACGCA
    CCAAGACCTA CAGCAACAGC ATCCAAAGTT AAGGAAATTT GTACTGCAGA AATGACACCT
    GTAACAGAAG CTGCTTCTGT AAGTTTTGTT CCAGCAGCTA AGGGCAGCTA CACATCAGCT
    ACTGCAGCTC TGGTACCCAC ATCAAAGGGC ACTGGCTTAT CAAGTTCTGA AGGCTCTGTA
    CCCACATCAA AGAGCTATGG CACATCAATA CCTGCAACTC CAGTACCACC ACCATTACCT
    ATGGGCAATG TCACATTAAT TTCTGACCCT TCAGCACCCA CACCAAAGGG CAATAGCCAG
    TTTGTTCCTG CAGCTCCAAC AACCACACCT AAGTGCGCTG GCCAATCATT TCCTGCAGCT
    CCAACACCTA AGGGCAGGGG ACAATCAATT TCTGCAGCTC CAGCACCCAC ACCTAAGGTC
    AGTGGGACAT CAATTTCTGC AGCTCCAACA TCCACTCTTA AGGGCAGCTC ATCAATTTGT
    ACTGCAACAA CCATACCCAA GGCCAGTGGT ATATCAAGCC TTGGAACCTC GGTACCCACA
    TCTAAAGAAA GTAACACCTT AAATTCTGCA GCACCATCAA AGGACAGTGG CAAATCAAGT
    CCTGCAGACC CATCAACAAT TCTTCAGGAC AAAGATGTTT TACATTCTGC TGACCAGGTA
    CCTACAGCTG CTCCTAGTGA TAAATCAAGT CCTGACGTCC CAACTCCAAC CGCAGAAGAT
    AGTAATAAAA AGAGTTCTGA ACCCCAGTTA GCAGAGGATA AGGTTATCAC TGCAACTAGT
    AATTCAGGCC CAGTCAAAGA CACTGGCACC TCCAGCACTG CCACAACAGT GCCAGCAGGA
    CAGAGAGAGT TTACCTTTGG AACAGCTCGG GTGATCCGAG GATCCCTAAT CAGAAGACCA
    GCCTTGGATA CTGATGTGTC GCGAGATTTA GTCAGCAGTC CTACTGTTCC TGTACAAGGG
    GCCCGGATAA CAGAAGGAGT TAATGCGGAG GCCCCAGCCA TTGAAGCTAG AGTCTCTTCA
    CGAAGCTTCA AGGCTGTGAG AATTCCAGCG GGTTCAACTG AGACTGGAAC TGCATCAAGG
    GCAAATAGAG CCTCAGTCAA GGTAGAAAAG CCCAGTAAAG CATCTGAGCC AGAGGACAAG
    CCATGCCCAG TCATGACCTC TGTTCCCCGG GTAACTGCTC CACCTATCAG TGCTGCCAGA
    ACAGCAGCCG CCCTGTTTTC TGCATCTCGA TCAGGAGCCC CTCATAATGC AAGACCCAGT
    GAGGCAAAAA TAACTGCTAT CCGAACCGCA GCTCGCGGAG CCAGAGCAGT TTCTTCAGGG
    GCATGTACTG AGGACCTTGC AGGAAGAAGA ACACCAAACA CAGGCTTAGG GGAAAGAGCT
    CAAACCGGAG ATGCAGGAAC CTATCCAGGG GCAAAAGCAT CTGTCATGGG ACCAAAAACA
    GCAACTGGGA CATCACCTGT AAAAGTTGCA AAAATTGCAC CCAGGCCCAT GAGCTCTTGT
    GCAGACCCTA TAATCATCAC TGGATTGCGA ACAAAGGCCT CAACTGCTGT AAAAGCACCA
    CTGTCTGGTA CAGGTACATA CCCAGGGGCC AAATCATCTC TCTCCGGGTC ATTCACATCC
    CTGGGAAGTA AAGCATTGAC TGATAGCTCA GGAATTGTGG CTCCATCCGC AGAAGAAAAG
    TTTAGTCCAG GGTTAGTTTC ACCACATGTT GTCCGAACTC CAGTCCCCTC TGCCTTCTCC
    CTCCCAATCA GGCCTGAGGA CATTTTGCCT GGGGGGGAGG AGGAGTTTAC CCCCGATAAT
    GAGGATCCTG CTAAGAGTAA GCGCCAGGAG CGGCTGTTCC TAAGGCAGGA TGCCATGTGG
    ATCAGCACAA GTGTTACTTC AGACTATTTC TTACAGTCAT CCCCTGGACG GCCTGGTAGT
    GGTGGAAGCT CCCCTGGAGG GCACCGCCAG GAGCTTAGCC CAAAATTCTT TTCAGGGCCT
    CGCTGTTCGT TTAGCTCCCC AGGCAGCCCA CTGCTTACTG CTCCTTGTCA GCCAGGCACA
    CCTTACAGGG AGGCTCCAAT CAATGTGTCC CTTACAGTAA GCCAAGAGCA TGCTGGGGGA
    TCTTCAGAAA GTTGCCTTCT GATTGAGCGT AGTGCCTCTT CAGGGGTGAG TTCAGTAGGA
    GTTCCTGAGG CAGGTGAGCT TGGTAAAGGA CACCCTGCCC TACTTACCCC TGGTAAAGAA
    AAGGGCGGTA GAATTCTGAA ACTTAAAGCT TCTAAAAGCC AGGTAGAGAA ACCAACAGAG
    CAACGAGATA AACTTCAAAG CCAGAAGAGT TTCACTAACA GGCTTTCTTG GCCTGAAAAT
    GAGGGGGGTA AGAGCCGCTC TAAATCCTCC ACAAAGAGCA GCCCTAGAGT GGAGACACCC
    AAACTGTCTG GCATGGCAGG CAAGAACCTA TTGTCCCCTG CCTCATGTGA CCCTAAGGGT
    TTTCGGAAGG GGAAAAGTAA GACTGTGGAC AATAGTGACT TGGACCCCAC TGCAGAGGAT
    TTCAAAAAAA GCAGAGAGGG AAGCTCACCG ACAGGGGACA AGGCCAGGGC CACAGCAGCC
    AGGGATAGGA AAATGCTTAA ATTCATCAGT GGGATCTTTG CCAAGAACAC TGCATCCGTG
    GCCTCATCCG TTTCACCTAG TAGTTTAAGC CCAGGAGATG AGAGGGATAT ACTTCACAAA
    TGTGTGATGA ACAGCCAGGA ATGGACCTTA AGTCGGACTG TGCCTGAAAT CAGAGTGGGA
    GTTTTGGGCA GTACTAAAAG TGCCAAGTCT GCTCTTGTGC ATCGGTTTGT GACCGGCTCC
    TATCAACCCC TAGAAGCACC TGAAAGTGCT CAGTTCAAGA AAGAGATCAG CGTGGAAGGG
    CAGAGCTACC TTCTGCTAAT TAGGGAAGAA GCCGGAGCTC CAGATGCCAA GTTTGCCAAT
    TGGGTGGATG CCGTCATTTT TGTGTTCAGC CTGGAAAATG AGGCAAGCTT TCAAGATATT
    TTCCAGTATT ATGCTCTCCT GGCAAATTAT CGCAATGTTG CAGACCTCGC TATGGCACTT
    GTTGGGACTC AAGATAAAAT TAGTGCAAAC AACAAGCGAG TGGTAGAGGA CGTGCGGGCG
    AGAGCCCTCT GCAATGATAT CAAACGCTGT GTTTACTATG AGACCTGTGC CACCTATGGA
    CTCAATGTGG ATCGGGTGTT TAATGAAGTT GCTCAGAAGA TGGTTGCAAT AAAGAGGCAG
    CAGCAACTCC TATCATGCAA GTCATTACCA AGCTCTCCAA GTCACTCCTC TGGATCCATT
    GCAATATCAG TGCAGGCAAG TAATGGAGGA ACAACAAGTG ATTATTCATC GTCACTGCCT
    TCCACACCAA ACATCAGTCA CAGAGAACTA CGAAGTGAGG TGTCCATTGG AGTCAGCACT
    CCGGTGTCCC TCCATCGTGG CACTAAAAGG CGCACAAGCA TATTTACAAA CCGAAGGGGA
    AGTGATTTGG AAAAGAGAAG TTTTGATAGT CGTGCAGATG GTGCTGGTGG GGGTCGGGCT
    CTACCAATTA AACAGAGCTT CTTAATGAAA CGAAGCGGCA ACTCTCTGAA CAAAGAATGG
    AAGAAGAAGT ATGTTACCCT GACAAGCAAT GGGGTCCTGC TCTACCATCC AAGCATTAAT
    GATTACCTAC ACAGTACACA TGGGAAGGAG ATGGATCTTT TACGAACTAC AGTGAAGGTC
    CCTGGAAAGA GGCCTCCAAT AGCCATGTCT GCCTGTGGCC CATCCAATAG CATCAACGGC
    TTGTTAAAGG ATGTGGGCAG CTCTCCAGGG GGAGATACAG CAAGTAACAA GGCGCAATCA
    ACAAAAAGCA AATCCACTGG CGATGTCATT TCCAGCCCCA CCAGCAACAA AGATCCCCCC
    TCTTCCCCAA TGAGTGATAA AAAGAAGAAC AGAAGAAAAA AGAATATGAC CCCTTCCAAG
    ACAGAAGGGT CCGCTGGACA GGCAGATGAA GAGAACTTCG AATTTATCAT TGTGTCTAGC
    ACAGGGCAGA CATGGCATTT TGAGACAAGC AGCTTTGAAG AAAGGGATTC CTGGGTACAA
    GCCATTGAGA GCCAGATCCT CGCTAGCCTG CAGTGCTGCG AGAGCAGCAA AAATAAGGCT
    CGAATGGACA GTCAGAGCGA AGCGGTCGCC ATCCAAGCCA TTCGGAATGC TAAAGGGAAT
    TCATTTTGTG TGGATTGTGG TGCCCCGAAT CCCACCTGGG CCAGCTTGAA TCTGGGTGCC
    CTGATCTGCA TTGAATGTTC AGGAATTCAC AGAAACCTTG GCACCCATTT ATCTCGGGTC
    CGATCACTGG ATTTGGATGA CTGGCCCCTA GAGCTCACAC TTGTTCTAAC CTCTATTGGT
    AATGAAATGG CCAACAGCAT ATGGGAGATG ACAACTCATG GAAGAACCAA ACCAGCACCT
    GATTCCTCAA GGGAAGAGAG AGAATCATGG ATTAGAGCTA AGTATGAGCA GCGATTATTT
    TTGGCCCCTT TGAAGAGTCC AGGGGTCCCC TTGGTGAAGC AGCTTTTTAA AGCTGTACAT
    GAGAAAAATC TCGGCAATGT ACTTCTCCTC CTAGCCCACA GCAACAAGGA GCAAATCAAC
    GGAATCACTG GAGACAGAGA CAGACGCACT GCCCTTCATG TGGCCTGTGA ACTGGGGGAA
    GTTGTGACCA CACAACTGCT TGTCTGGTAT GGCATCGATG TGAAGTCAAG AGACAGCAAT
    GGCCACACAG CCGTGTTTTA TGCTAAGAAA AGTAACAGCC AAGAGTGCGT GGACATTCTG
    CTGCAACATG GCTGTCCCAA TGAGTCCACA AGCGCCCTGT CCACTCCCAG TCTAAGAAGG
    AAAAGCAGCT CTGCCAGCAT CGTGAGGACT GATTCCCGGA CTGCCCTTGT GTAG

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