arap2 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following arap2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the arap2 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
OXa42324 XM_018090919.1
Latest version!
Xenopus tropicalis ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 2 (arap2), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OXa49669 XM_031895359.1
Latest version!
Xenopus tropicalis ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 2 (arap2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa49670 XM_031895360.1
Latest version!
Xenopus tropicalis ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 2 (arap2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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 OXa42324
    Clone ID Related Accession (Same CDS sequence) XM_018090919.1
    Accession Version XM_018090919.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4704bp)
    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 Rho-GAP domain, ANK repeat and PH domain-containing protein 2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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## ##RefSeq-Attributes-START## ab initio :: 6% of CDS bases ##RefSeq-Attributes-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
    ATGATCAAAA TGTCCTCAAG CCCTCAACAG AATTCTAATA TTGGCCCGCT GCTAGCTGAT 
    ATTAATTTAG AGACTTATCT TCCAAACTTC CTAAAGTCTG GTTATTATAC AGTTCTAGAA
    TGTGAAAAAT TGAATCATGA GATACTTCAA GAAATGGGAA TATCTCTTAC TGGGCATCGG
    AAGAGAATCA TTGCAAAGCT ACAAAGCATA CAAGAGCAGA TGAGAAGAGA ATCCAGGAAC
    TCGGATTCAT TGACGTCTGA TTCAGAATTA CAGAACTCCA TTACACATGG CTCAAAGCCA
    TTAGACACTA TTCTGCCAGT TAGTGAACAG GTTCAAGGTT CCACCATGGA GTACAATGCA
    TCCCCTGATT CATCTCCTTC AAAGGAAGCA GATAATAATT CAACATGTCA ATATCAGCAA
    AAAGAAGACT CAAATGACCA ATTCAACAGA ACAGGACTGA ATGAAAAATC ATTGGAAATA
    AAAGATCACA GTGTAAAAGA TTTTCCTTTG GATCTTGAGA CACAATTAGA CTCACAGAAT
    TCAGGCTTTT TTGAATTTCA AGGACCAATG GTAGACAATG AGATCTACGA CAAAAGTAAG
    GATGATGGAC ACAAACCTCT ACTAAAGAGT CCTCCAACAA AATCATTCAT TCTGAGAAAC
    AGGCCGGTAC CTAAGTTACC CTTTAACACG AGTGATACAT TTGTCAAAAG CTGTCACCAA
    GAAAGACGTT TAGAAAATAA AGCCGCGCAG GAAAGCTCAG CATCCAAACA ACAAAACCAA
    GAATCTCAAG AACAAAACAT AAATCTAATT TCTCCATATG AAGAAACCTT TTTCAGCAAT
    TCTGAATTTC CAAAGGAAAC CTCAAGGGAT AAATTTCAGT TTCCCTCATA TCATGAACAA
    AATGAAAAAT CCTTGGAAAA GAATGCAAGC ACTTCATGTG GTTCTCTATC TGCTAACAAT
    GGGTCTCCAC CTCCACCGGG GGATCAGATA TCGGAAGAAT CTATATATTC AACAATGGAA
    GAATGCACCC GTGAGTTAAG AGTAAACAGA CGCATTGGCA TGACACCCGA TCCGGCTGCC
    AGTTTGCACA CTGACAGTGG CACTAGCTCT GAATTGGAAG CTGTGGAAAG TGAAATTTCA
    CCCTACGCAT GCTTTTATGG GCCATCAACC ATGCCAGCAA AAACAGGGTG GCTGGAAAAA
    CTGTCACCTC ATCGAAGTGG CATATTTCAA AAGAGATGGG TAAAAGTTGA CGGAATGCAT
    CTTTCCTACT ATAACAATGA CCGGGATATG TTTTCGAAGG GGAAGATTTC TCTGCCTGCC
    ATAACAAAAG TGAACAAAAT GGGAGAGAGC AAATTTGAAG TGGTCACCGT GCAGAGGACG
    TTTGTGTTTC GCGCAGAGAA GGAAGAGGAC AGAGACGACT GGATTGACAC GCTGCTGCGC
    ACATCAAAAT CCGAGCCTTA TGAGTTCCCA GATCTCTGTG TCACTGAGAA AAATGGTTAC
    CTTGAGCTGA AAGGTTATAA AAATAAAATC TATGCTGTGA TAAATGGAAG CAAATTATGG
    TTCAGTAAAA GCAAACAGGA TGCGAGTGCT GGCATTGCAA TCACTGACCT CACACTGACT
    ATGGTATCTG TAAAAATTAT AGATCGGAAG TCATTTGAAC TCACTACCCC GTTCAGACAT
    TTTTGCTTAA CAGCAGAGTC TGAGAGAGAG AAACAAGAGT GGACTGAAGA AATACAGCAA
    TCAATAGCAG AAACTCTGGC TGATTATGAA GTAGCTGAAA AGATCTGGTT CAATGAATCT
    AACCGGAGCT GTGCAGATTG CCGCGCTCCC AGCCCTGACT GGGCATCTAT CAGCCTCGGT
    GTTGTCATTT GCAAGAACTG CGCAGGTCAA CATCGGGCAC TTGGAAGCAA CATATCAAAA
    GTTCACAGCT TGATCCTGGA TACTACTATC TGGAGCAATG AACTTGTTGA GCTTTTCATT
    GTCGTGGGAA ATGAGAAAGT AAATAACATC TGGGAAGCAA ATCTTTTGCC TGAGAACATG
    CTTCATATGG ATTCCAATGT AAGCCAGAGA AGATTATTTA TTACACAAAA ATACAAGGAA
    GGGAGATTTA AAAAAATCTA CTTTCCAGGT TTCACACAAG AGGAATTAAA TCAAGCCTTA
    TGTGATGCTG TGACTAAAGA TGAGATCCTG CAAACCATGA TATTGGTTTT TAGTGGAGCC
    GACACCATGT GCCCAACAGG GGATAAAGTC TACAACACAC CATACCTTTT AGCAAAGATG
    TCTGGCCAAA GGTTGCAGAT GGAATTCTTG CATCACAATA GGCTTTCTGG TAATTTTAAA
    GCACCTTCTT TAAATGCAAA TGGAGCCAGT TTGTTTTATT GTGGGTTTTT ATACAAGGCT
    TCCCCAAGCA CTAAGATGAC AATAAACAGA AAATCTAAAG AAGTTCCAGA GATGAAGCAA
    TGGTGGTGCA CTATCGAAAA CAATTTCTTG AAGTATTACG AAAATGAAAC GGCTCCCGTG
    GCAGACGGTG TGATTGACTT AAGTGAAATA ATAAGTCTAG TTATTCACCC GTCGGATTTC
    TCCTCCAATG GAATGGCGGC TTTTACCTTT GAGATCTACT TTCTGTCGGA ACGTATGTTT
    CTTTTTGGAG CTGAAAATGT AGAGTCTCGC AGAGAATGGA GCAGGGCAAT AGCGAAGAAC
    TTTACTCCTG CTGTAGAAGG ATATTTGCTG GAACTAGATT TCAATGTGCT TGGATATCTG
    AACTACAAAA ATTCTTCTAG CCTTAGCCAG TGGAAAAAAG GTTGGTTTGC CCTAGAGAAG
    GCACGCTTAC ACTACTGCAA TAAAGACGAT TGTGGGAATG CAGACACCAT ACAACTAAAG
    AAACTTCAAG AACTAACAGC AAACTCATCC ACGCTGAATG GGGAAAAAGG GAATATTCTT
    CTGCTGGTTG AAAATGGAAG GACATTCTAT ATCCATGGAC ATACAATGCT GGATTTCACG
    GTCTGGCATT CAGCAATTGA GAAAGCAGCA GGTACAGATG GTAATGCACT ACAGGATCAG
    CAGCTCAGCA AAAACAACAT TCCTATTATC GTGAACAGCT GCATAGCATT TGTTACGCAG
    TATGGTTTGG GAAGCAAATC TCTGTATCTG AAGAATGGAA ACCCGTTGCA AGTGAGGGAG
    CTGCTCGAAG AATTTAAAAA GGATGCACGG AGCATTAAAC TAAAAGTCGG AAAGCATCAG
    CTGGAAGATG TGACTGATGT GCTGAAATAT TTCTTCTATG AAATAGATGA TGCACTTCTC
    ACAAAAGAAC TTTATCCGTA TTGGATCTCT GCCTTAGATA TCCGGAATGA ACAGGAGCGG
    GTGAAAAAAT ACAAAACCGT AATCAGTACA GTACCAGCCC TAAATAAAGC AACACTGGCA
    GCCCTAATCG AGCACCTTTT CAGAATACAG AAATGTTTTG ACATTAATCA TCTGGATACT
    CAGACTCTAG CCAAAGCCTT TTCTTCTTGC TTGTTTCAAA CAAATGGAGA AAATGAAAAG
    GAAGTAGCTG TTCTGGAAGA TCTAATTACC AATTATGTGA ATATTTTTAA TGTGAGTGAA
    GATCAGGTAC AACAAATGGA GACAGAGAAC CGTTTCATTA CCAAATGGAA AGAGGCACAG
    ATATGTCATT CTGGTGACTT GTTGATTGAA GTTTATGTAG AAAGAAAAGA GCCTGACATG
    TGTGTAATTA TTAGGGTGCC ACCTACCATG GAAACAGCAG AGCTGACTAA TTGTGCTATG
    GGAATAAAAA ACATTACTCT AACCAAGGAA ATGCCTTGGG CAACATTTGA AGTAATTGAA
    AATGGAGAAC TTGAGCGCCT TATGCATTAC AAGGAAAAAG TATTGGAAAC CGTCCTTCAG
    TGGATCTCAC TATCTGACCC TGGAGCAGCT TACCTCCTTG TAAAGCCACA TAACACAAGA
    GATATGACGA CTCCTGGCCT AAAATCTTCA CACCACATGC AGTCTGGTCA TATGAAATTT
    AAAGAGGATC CTTCAAAATT ACTTTCTGGG AATAAATTTC AAGAGCGATA TTTTGTCTTA
    CGTGAAAGAA AACTTCTCTT ATATAAGGAT ATAAAGAGTA TTAAGCCTGA GAAAGAACTG
    CTTGTTACTT CATGCAAGGT ATACGCTGGG ATCAAAAAGA AAATGAAACC GCCAACAAGT
    TGGGGAATTA CAATTTATTC CGAAAAGCAC CAATGGCATC TATGTTGTGA TACACAAGAA
    TCACAGAAAG AATGGTTGGG AGGCCTTTTT AGTGCACAGC ATCCTGGTGC ACAGGTTCCA
    TCAGCTTCAC ATGTACAAAT GAGAGGAACA CACGTGAGGC AAGGGAAACA AATGGCAACG
    GATATGGATC GCGGCTCAGA AAAAAGCACA CTGAAAATAA TCCATGGAGC CTCCACACTG
    CAACTCAGCC CCATCTTGAA ATCAAGATCC TCAATGTTGG CTGAGATTTT TGACTGCAAA
    GAAGAATCAA AACTTACAAA TCAAAAGAAA CACCACAGCT TAATTAACCT TGATAATGAA
    AACAATTACA CTGGGGGTGG AAAAGACAAT TCAGCAGAAC AGATAATCAA GCAGTGTCCT
    GCATCAAATG CAAAATTGCC TCCAAACTTA ATTAAGGAAC TGAATTCAGT ACTTCAGAAA
    AGCAAGAGAG ATGTGCAGGA ATAG

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

    RefSeq XP_017946408.1
    CDS24..4727
    Translation

    Target ORF information:

    RefSeq Version XM_018090919.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 2 (arap2), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018090919.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGATCAAAA TGTCCTCAAG CCCTCAACAG AATTCTAATA TTGGCCCGCT GCTAGCTGAT 
    ATTAATTTAG AGACTTATCT TCCAAACTTC CTAAAGTCTG GTTATTATAC AGTTCTAGAA
    TGTGAAAAAT TGAATCATGA GATACTTCAA GAAATGGGAA TATCTCTTAC TGGGCATCGG
    AAGAGAATCA TTGCAAAGCT ACAAAGCATA CAAGAGCAGA TGAGAAGAGA ATCCAGGAAC
    TCGGATTCAT TGACGTCTGA TTCAGAATTA CAGAACTCCA TTACACATGG CTCAAAGCCA
    TTAGACACTA TTCTGCCAGT TAGTGAACAG GTTCAAGGTT CCACCATGGA GTACAATGCA
    TCCCCTGATT CATCTCCTTC AAAGGAAGCA GATAATAATT CAACATGTCA ATATCAGCAA
    AAAGAAGACT CAAATGACCA ATTCAACAGA ACAGGACTGA ATGAAAAATC ATTGGAAATA
    AAAGATCACA GTGTAAAAGA TTTTCCTTTG GATCTTGAGA CACAATTAGA CTCACAGAAT
    TCAGGCTTTT TTGAATTTCA AGGACCAATG GTAGACAATG AGATCTACGA CAAAAGTAAG
    GATGATGGAC ACAAACCTCT ACTAAAGAGT CCTCCAACAA AATCATTCAT TCTGAGAAAC
    AGGCCGGTAC CTAAGTTACC CTTTAACACG AGTGATACAT TTGTCAAAAG CTGTCACCAA
    GAAAGACGTT TAGAAAATAA AGCCGCGCAG GAAAGCTCAG CATCCAAACA ACAAAACCAA
    GAATCTCAAG AACAAAACAT AAATCTAATT TCTCCATATG AAGAAACCTT TTTCAGCAAT
    TCTGAATTTC CAAAGGAAAC CTCAAGGGAT AAATTTCAGT TTCCCTCATA TCATGAACAA
    AATGAAAAAT CCTTGGAAAA GAATGCAAGC ACTTCATGTG GTTCTCTATC TGCTAACAAT
    GGGTCTCCAC CTCCACCGGG GGATCAGATA TCGGAAGAAT CTATATATTC AACAATGGAA
    GAATGCACCC GTGAGTTAAG AGTAAACAGA CGCATTGGCA TGACACCCGA TCCGGCTGCC
    AGTTTGCACA CTGACAGTGG CACTAGCTCT GAATTGGAAG CTGTGGAAAG TGAAATTTCA
    CCCTACGCAT GCTTTTATGG GCCATCAACC ATGCCAGCAA AAACAGGGTG GCTGGAAAAA
    CTGTCACCTC ATCGAAGTGG CATATTTCAA AAGAGATGGG TAAAAGTTGA CGGAATGCAT
    CTTTCCTACT ATAACAATGA CCGGGATATG TTTTCGAAGG GGAAGATTTC TCTGCCTGCC
    ATAACAAAAG TGAACAAAAT GGGAGAGAGC AAATTTGAAG TGGTCACCGT GCAGAGGACG
    TTTGTGTTTC GCGCAGAGAA GGAAGAGGAC AGAGACGACT GGATTGACAC GCTGCTGCGC
    ACATCAAAAT CCGAGCCTTA TGAGTTCCCA GATCTCTGTG TCACTGAGAA AAATGGTTAC
    CTTGAGCTGA AAGGTTATAA AAATAAAATC TATGCTGTGA TAAATGGAAG CAAATTATGG
    TTCAGTAAAA GCAAACAGGA TGCGAGTGCT GGCATTGCAA TCACTGACCT CACACTGACT
    ATGGTATCTG TAAAAATTAT AGATCGGAAG TCATTTGAAC TCACTACCCC GTTCAGACAT
    TTTTGCTTAA CAGCAGAGTC TGAGAGAGAG AAACAAGAGT GGACTGAAGA AATACAGCAA
    TCAATAGCAG AAACTCTGGC TGATTATGAA GTAGCTGAAA AGATCTGGTT CAATGAATCT
    AACCGGAGCT GTGCAGATTG CCGCGCTCCC AGCCCTGACT GGGCATCTAT CAGCCTCGGT
    GTTGTCATTT GCAAGAACTG CGCAGGTCAA CATCGGGCAC TTGGAAGCAA CATATCAAAA
    GTTCACAGCT TGATCCTGGA TACTACTATC TGGAGCAATG AACTTGTTGA GCTTTTCATT
    GTCGTGGGAA ATGAGAAAGT AAATAACATC TGGGAAGCAA ATCTTTTGCC TGAGAACATG
    CTTCATATGG ATTCCAATGT AAGCCAGAGA AGATTATTTA TTACACAAAA ATACAAGGAA
    GGGAGATTTA AAAAAATCTA CTTTCCAGGT TTCACACAAG AGGAATTAAA TCAAGCCTTA
    TGTGATGCTG TGACTAAAGA TGAGATCCTG CAAACCATGA TATTGGTTTT TAGTGGAGCC
    GACACCATGT GCCCAACAGG GGATAAAGTC TACAACACAC CATACCTTTT AGCAAAGATG
    TCTGGCCAAA GGTTGCAGAT GGAATTCTTG CATCACAATA GGCTTTCTGG TAATTTTAAA
    GCACCTTCTT TAAATGCAAA TGGAGCCAGT TTGTTTTATT GTGGGTTTTT ATACAAGGCT
    TCCCCAAGCA CTAAGATGAC AATAAACAGA AAATCTAAAG AAGTTCCAGA GATGAAGCAA
    TGGTGGTGCA CTATCGAAAA CAATTTCTTG AAGTATTACG AAAATGAAAC GGCTCCCGTG
    GCAGACGGTG TGATTGACTT AAGTGAAATA ATAAGTCTAG TTATTCACCC GTCGGATTTC
    TCCTCCAATG GAATGGCGGC TTTTACCTTT GAGATCTACT TTCTGTCGGA ACGTATGTTT
    CTTTTTGGAG CTGAAAATGT AGAGTCTCGC AGAGAATGGA GCAGGGCAAT AGCGAAGAAC
    TTTACTCCTG CTGTAGAAGG ATATTTGCTG GAACTAGATT TCAATGTGCT TGGATATCTG
    AACTACAAAA ATTCTTCTAG CCTTAGCCAG TGGAAAAAAG GTTGGTTTGC CCTAGAGAAG
    GCACGCTTAC ACTACTGCAA TAAAGACGAT TGTGGGAATG CAGACACCAT ACAACTAAAG
    AAACTTCAAG AACTAACAGC AAACTCATCC ACGCTGAATG GGGAAAAAGG GAATATTCTT
    CTGCTGGTTG AAAATGGAAG GACATTCTAT ATCCATGGAC ATACAATGCT GGATTTCACG
    GTCTGGCATT CAGCAATTGA GAAAGCAGCA GGTACAGATG GTAATGCACT ACAGGATCAG
    CAGCTCAGCA AAAACAACAT TCCTATTATC GTGAACAGCT GCATAGCATT TGTTACGCAG
    TATGGTTTGG GAAGCAAATC TCTGTATCTG AAGAATGGAA ACCCGTTGCA AGTGAGGGAG
    CTGCTCGAAG AATTTAAAAA GGATGCACGG AGCATTAAAC TAAAAGTCGG AAAGCATCAG
    CTGGAAGATG TGACTGATGT GCTGAAATAT TTCTTCTATG AAATAGATGA TGCACTTCTC
    ACAAAAGAAC TTTATCCGTA TTGGATCTCT GCCTTAGATA TCCGGAATGA ACAGGAGCGG
    GTGAAAAAAT ACAAAACCGT AATCAGTACA GTACCAGCCC TAAATAAAGC AACACTGGCA
    GCCCTAATCG AGCACCTTTT CAGAATACAG AAATGTTTTG ACATTAATCA TCTGGATACT
    CAGACTCTAG CCAAAGCCTT TTCTTCTTGC TTGTTTCAAA CAAATGGAGA AAATGAAAAG
    GAAGTAGCTG TTCTGGAAGA TCTAATTACC AATTATGTGA ATATTTTTAA TGTGAGTGAA
    GATCAGGTAC AACAAATGGA GACAGAGAAC CGTTTCATTA CCAAATGGAA AGAGGCACAG
    ATATGTCATT CTGGTGACTT GTTGATTGAA GTTTATGTAG AAAGAAAAGA GCCTGACATG
    TGTGTAATTA TTAGGGTGCC ACCTACCATG GAAACAGCAG AGCTGACTAA TTGTGCTATG
    GGAATAAAAA ACATTACTCT AACCAAGGAA ATGCCTTGGG CAACATTTGA AGTAATTGAA
    AATGGAGAAC TTGAGCGCCT TATGCATTAC AAGGAAAAAG TATTGGAAAC CGTCCTTCAG
    TGGATCTCAC TATCTGACCC TGGAGCAGCT TACCTCCTTG TAAAGCCACA TAACACAAGA
    GATATGACGA CTCCTGGCCT AAAATCTTCA CACCACATGC AGTCTGGTCA TATGAAATTT
    AAAGAGGATC CTTCAAAATT ACTTTCTGGG AATAAATTTC AAGAGCGATA TTTTGTCTTA
    CGTGAAAGAA AACTTCTCTT ATATAAGGAT ATAAAGAGTA TTAAGCCTGA GAAAGAACTG
    CTTGTTACTT CATGCAAGGT ATACGCTGGG ATCAAAAAGA AAATGAAACC GCCAACAAGT
    TGGGGAATTA CAATTTATTC CGAAAAGCAC CAATGGCATC TATGTTGTGA TACACAAGAA
    TCACAGAAAG AATGGTTGGG AGGCCTTTTT AGTGCACAGC ATCCTGGTGC ACAGGTTCCA
    TCAGCTTCAC ATGTACAAAT GAGAGGAACA CACGTGAGGC AAGGGAAACA AATGGCAACG
    GATATGGATC GCGGCTCAGA AAAAAGCACA CTGAAAATAA TCCATGGAGC CTCCACACTG
    CAACTCAGCC CCATCTTGAA ATCAAGATCC TCAATGTTGG CTGAGATTTT TGACTGCAAA
    GAAGAATCAA AACTTACAAA TCAAAAGAAA CACCACAGCT TAATTAACCT TGATAATGAA
    AACAATTACA CTGGGGGTGG AAAAGACAAT TCAGCAGAAC AGATAATCAA GCAGTGTCCT
    GCATCAAATG CAAAATTGCC TCCAAACTTA ATTAAGGAAC TGAATTCAGT ACTTCAGAAA
    AGCAAGAGAG ATGTGCAGGA ATAG

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

    CloneID OXa49669
    Clone ID Related Accession (Same CDS sequence) XM_031895359.1
    Accession Version XM_031895359.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4701bp)
    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 Rho-GAP domain, 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_030677.2) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation 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
    ATGATCAAAA TGTCCTCAAG CCCTCAACAG AATTCTAATA TTGGCCCGCT GCTAGCTGAT 
    ATTAATTTAG AGACTTATCT TCCAAACTTC CTAAAGTCTG GTTATTATAC AGTTCTAGAA
    TGTGAAAAAT TGAATCATGA GATACTTCAA GAAATGGGAA TATCTCTTAC TGGGCATCGG
    AAGAGAATCA TTGCAAAGCT ACAAAGCATA CAAGAGCAGA TGAGAAGAGA ATCCAGGAAC
    TCGGATTCAT TGACGTCTGA TTCAGAATTA CAGAACTCCA TTACACATGG CTCAAAGCCA
    TTAGACACTA TTCTGCCAGT TAGTGAACAG GTTCAAGGTT CCACCATGGA GTACAATGCA
    TCCCCTGATT CATCTCCTTC AAAGGAAGCA GATAATAATT CAACATGTCA ATATCAGCAA
    AAAGAAGACT CAAATGACCA ATTCAACAGA ACAGGACTGA ATGAAAAATC ATTGGAAATA
    AAAGATCACA GTGTAAAAGA TTTTCCTTTG GATCTTGAGA CACAATTAGA CTCACAGAAT
    TCAGGCTTTT TTGAATTTCA AGGACCAATG GTAGACAATG AGATCTACGA CAAAAGTAAG
    GATGATGGAC ACAAACCTCT ACTAAAGAGT CCTCCAACAA AATCATTCAT TCTGAGAAAC
    AGGCCGGTAC CTAAGTTACC CTTTAACACG AGTGATACAT TTGTCAAAAG CTGTCACCAA
    GAAAGACGTT TAGAAAATAA AGCCGCGCAG GAAAGCTCAG CATCCAAACA ACAAAACCAA
    GAATCTCAAG AACAAAACAT AAATCTAATT TCTCCATATG AAGAAACCTT TTTCAGCAAT
    TCTGAATTTC CAAAGGAAAC CTCAAGGGAT AAATTTCAGT TTCCCTCATA TCATGAACAA
    AATGAAAAAT CCTTGGAAAA GAATGCAAGC ACTTCATGTG GTTCTCTATC TGCTAACAAT
    GGGTCTCCAC CTCCACCGGG GGATCAGATA TCGGAAGAAT CTATATATTC AACAATGGAA
    GAATGCACCC GTGAGTTAAG AGTAAACAGA GGCATTGGCA TGACACCCGA TCCGGCTGCC
    AGTTTGCACA CTGACAGTGG CACTAGCTCT GAATTGGAAG GTGCGGAAAG TGAAATTTCA
    CCCTACGCAT GCTTTTATGG GCCATCAACC ATGCCAGCAA AAACAGGGTG GCTGGAAAAA
    CTGTCACCTC ATCGAAGTGG CATATTTCAA AAGAGATGGG TAAAAGTTGA CGGAATGCAT
    CTTTCCTACT ATAACAATGA CCGGGATATG TTTTCGAAGG GGAAGATTTC TCTGCCTGCC
    ATAACAAAAG TGAACAAAAT GGGAGAGAGC AAATTTGAAG TGGTCACCGT GCAGAGGACG
    TTTGTGTTTC GCACAGAGAA GGAAGAGGAC AGAGACGACT GGATTGACAC GCTGCTGCGC
    ACATCAAAAT CCGAGCCTTA TGAGTTCCCA GATCTCTGTG TCACTGAGAA AAATGGTTAC
    CTTGAGCTGA AAGGTTATAA AAATAAAATC TATGCTGTGA TAAATGGAAG CAAATTATGG
    TTCAGTAAAA GCAAACAGGA TGCGAGTGCT GGCATTGCAA TCACTGACCT CACACTGACT
    ATGGTATCTG TAAAAATTAT AGATCGGAAG TCATTTGAAC TCACTACCCC GTTCAGACAT
    TTTTGCTTAA CAGCAGAGTC TGAGAGAGAG AAACAAGAGT GGACTGAAGA AATACAGCAA
    TCAATAGCAG AAACTCTGGC TGATTATGAA GTAGCTGAAA AGATCTGGTT CAATGAATCT
    AACCGGAGCT GTGCAGATTG CCGCGCTCCC AGCCCTGACT GGGCATCTAT CAGCCTCGGT
    GTTGTCATTT GCAAGAACTG CGCAGGTCAA CATCGGGCAC TTGGAAGCAA CATATCAAAA
    GTTCACAGCT TGATCCTGGA TACTACTATC TGGAGCAATG AACTTGTTGA GCTTTTCATT
    GTCGTGGGAA ATGAGAAAGT AAATAACATC TGGGAAGCAA ATCTTTTGCC TGAGAACATG
    CTTCATATGG ATTCCAATGT AAGCCAGAGA AGATTATTTA TTACACAAAA ATACAAGGAA
    GGGAGATTTA AAAAAATCTA CTTTCCAGGT TTCACACAAG AGGAATTAAA TCAAGCCTTA
    TGTGATGCTG TGACTAAAGA TGAGATCCTG CAAACCATGA TATTGGTTTT TAGTGGAGCC
    GACACCATGT GCCCAACAGG GGATAAAGTC TACAACACAC CATACCTTTT AGCAAAGATG
    TCTGGCCAAA GGTTGCAGAT GGAATTCTTG CATCACAATA GGCTTTCTGA TTTTAAAGCA
    CCTTCTTTAA ATGCAAATGG AGCCAGTTTG TTTTATTGTG GGTTTTTATA CAAGGCTTCC
    CCAAGCACTA AGATGACAAT AAACAGAAAA TCTAAAGAAG TTCCAGAGAT GAAGCAATGG
    TGGTGCACTA TCGAAAACAA TTTCTTGAAG TATTACGAAA ATGAAACGGC TCCCGTGGCA
    GACGGTGTGA TTGACTTAAG TGAAATAATA AGTCTAGTTA TTCACCCGTC GGATTTCTCC
    TCCAATGGAA TGGCGGCTTT TACCTTTGAG ATCTACTTTC TGTCGGAACG TATGTTTCTT
    TTTGGAGCTG AAAATGTAGA GTCTCGCAGA GAATGGAGCA GGGCAATAGC GAAGAACTTT
    ACTCCTGCTG TAGAAGGATA TTTGCTGGAA CTAGATTTCA ATGTGCTTGG ATATCTGAAC
    TACAAAAATT CTTCTAGCCT TAGCCAGTGG AAAAAAGGTT GGTTTGCCCT AGAGAAGGCA
    CGCTTACACT ACTGCAATAA AGACGATTGT GGGAATGCAG ACACCATACA ACTAAAGAAA
    CTTCAAGAAC TAACAGCAAA CTCATCCACG CTGAATGGGG AAAAAGGGAA TATTCTTCTG
    CTGGTTGAAA ATGGAAGGAC ATTCTATATC CATGGACATA CAATGCTGGA TTTCACGGTC
    TGGCATTCAG CAATTGAGAA AGCAGCAGGT ACAGATGGTA ATGCACTACA GGATCAGCAG
    CTCAGCAAAA ACAACATTCC TATTATCGTG AACAGCTGCA TAGCATTTGT TACGCAGTAT
    GGTTTGGGAA GCAAATCTCT GTATCTGAAG AATGGAAACC CGTTGCAAGT GAGGGAGCTG
    CTCGAAGAAT TTAAAAAGGA TGCACGGAGC ATTAAACTAA AAGTCGGAAA GCATCAGCTG
    GAAGATGTGA CTGATGTGCT GAAATATTTC TTCTATGAAA TAGATGATGC ACTTCTCACA
    AAAGAACTTT ATCCGTATTG GATCTCTGCC TTAGATATCC GGAATGAACA GGAGCGGGTG
    AAAAAATACA AAACCGTAAT CAGTACAGTA CCAGCCCTAA ATAAAGCAAC ACTGGCAGCC
    CTAATCGAGC ACCTTTTCAG AATACAGAAA TGTTTTGACA TTAATCATCT GGATACTCAG
    ACTCTAGCCA AAGCCTTTTC TTCTTGCTTG TTTCAAACAA ATGGAGAAAA TGAAAAGGAA
    GTAGCTGTTC TGGAAGATCT AATTACCAAT TATGTGAATA TTTTTAATGT GAGTGAAGAT
    CAGGTACAAC AAATGGAGAC AGAGAACCGT TTCATTACCA AATGGAAAGA GGCACAGATA
    TGTCATTCTG GTGACTTGTT GATTGAAGTT TATGTAGAAA GAAAAGAGCC TGACATGTGT
    GTAATTATTA GGGTGCCACC TACCATGGAA ACAGCAGAGC TGACTAATTG TGCTATGGGA
    ATAAAAAACA TTACTCTAAC CAAGGAAATG CCTTGGGCAA CATTTGAAGT AATTGAAAAT
    GGAGAACTTG AGCGCCTTAT GCATTACAAG GAAAAAGTAT TGGAAACCGT CCTTCAGTGG
    AGCTCACTAT CTGACCCTGG AGCAGCTTAC CTCCTTGTAA AGCCACATAA CACAAGAGAT
    ATGACGACTC CTGGCCTAAA ATCTTCACAC CACATGCAGT CTGGTCATAT GAAATTTAAA
    GAGGATCCTT CAAAATTACT TTCTGGGAAT AAATTTCAAG AGCGATATTT TGTCTTACGT
    GAAAGAAAAC TTCTCTTATA TAAGGATATA AAGAGTATTA AGCCTGAGAA AGAACTGCTT
    GTTACTTCAT GCAAGGTATA CGCTGGGGTC AAAAAGAAAA TGAAGCCGCC AACAAGTTGG
    GGAATTACAA TTTATTCCGA AAAGCACCAA TGGCATCTAT GTTGTGATAC ACAAGAATCA
    CAGAAAGAAT GGTTGGGAGG CCTTTTTAGT GCACAGCATC CTGGTGCACA GGTTCCATCA
    GCTTCACATG TACAAATGAG AGGAACACAC GTGAGGCAAG GGAAACAAAT GGCAACGGAT
    ATGGATCGCG GTTCAGAAAA AAGCACACTG AAAATAATCC ATGGAGCCTC CACACTGCAA
    CTCAGCCCCA TCTTGAAATC AAGATCCTCA ATGTTGGCTG AGATTTTTGA CTGCAAAGAA
    GAATCAAAAC TTACAAATCA AAAGAAACAC CACAGCTTAA TTAACCTTGA TAATGAAAAC
    AATTACACTG GGGGTGGAAA AGACAATTCA GCAGAACAGA TAATCAAGCA GTGTCCTGCA
    TCAAATGCAA AATTGCCTCC AAACTTAATT AAGGAACTGA ATTCAGTACT TCAGAAAAGC
    AAGAGAGATG TGCAGGAATA G

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

    RefSeq XP_031751219.1
    CDS252..4952
    Translation

    Target ORF information:

    RefSeq Version XM_031895359.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 2 (arap2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031895359.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGATCAAAA TGTCCTCAAG CCCTCAACAG AATTCTAATA TTGGCCCGCT GCTAGCTGAT 
    ATTAATTTAG AGACTTATCT TCCAAACTTC CTAAAGTCTG GTTATTATAC AGTTCTAGAA
    TGTGAAAAAT TGAATCATGA GATACTTCAA GAAATGGGAA TATCTCTTAC TGGGCATCGG
    AAGAGAATCA TTGCAAAGCT ACAAAGCATA CAAGAGCAGA TGAGAAGAGA ATCCAGGAAC
    TCGGATTCAT TGACGTCTGA TTCAGAATTA CAGAACTCCA TTACACATGG CTCAAAGCCA
    TTAGACACTA TTCTGCCAGT TAGTGAACAG GTTCAAGGTT CCACCATGGA GTACAATGCA
    TCCCCTGATT CATCTCCTTC AAAGGAAGCA GATAATAATT CAACATGTCA ATATCAGCAA
    AAAGAAGACT CAAATGACCA ATTCAACAGA ACAGGACTGA ATGAAAAATC ATTGGAAATA
    AAAGATCACA GTGTAAAAGA TTTTCCTTTG GATCTTGAGA CACAATTAGA CTCACAGAAT
    TCAGGCTTTT TTGAATTTCA AGGACCAATG GTAGACAATG AGATCTACGA CAAAAGTAAG
    GATGATGGAC ACAAACCTCT ACTAAAGAGT CCTCCAACAA AATCATTCAT TCTGAGAAAC
    AGGCCGGTAC CTAAGTTACC CTTTAACACG AGTGATACAT TTGTCAAAAG CTGTCACCAA
    GAAAGACGTT TAGAAAATAA AGCCGCGCAG GAAAGCTCAG CATCCAAACA ACAAAACCAA
    GAATCTCAAG AACAAAACAT AAATCTAATT TCTCCATATG AAGAAACCTT TTTCAGCAAT
    TCTGAATTTC CAAAGGAAAC CTCAAGGGAT AAATTTCAGT TTCCCTCATA TCATGAACAA
    AATGAAAAAT CCTTGGAAAA GAATGCAAGC ACTTCATGTG GTTCTCTATC TGCTAACAAT
    GGGTCTCCAC CTCCACCGGG GGATCAGATA TCGGAAGAAT CTATATATTC AACAATGGAA
    GAATGCACCC GTGAGTTAAG AGTAAACAGA GGCATTGGCA TGACACCCGA TCCGGCTGCC
    AGTTTGCACA CTGACAGTGG CACTAGCTCT GAATTGGAAG GTGCGGAAAG TGAAATTTCA
    CCCTACGCAT GCTTTTATGG GCCATCAACC ATGCCAGCAA AAACAGGGTG GCTGGAAAAA
    CTGTCACCTC ATCGAAGTGG CATATTTCAA AAGAGATGGG TAAAAGTTGA CGGAATGCAT
    CTTTCCTACT ATAACAATGA CCGGGATATG TTTTCGAAGG GGAAGATTTC TCTGCCTGCC
    ATAACAAAAG TGAACAAAAT GGGAGAGAGC AAATTTGAAG TGGTCACCGT GCAGAGGACG
    TTTGTGTTTC GCACAGAGAA GGAAGAGGAC AGAGACGACT GGATTGACAC GCTGCTGCGC
    ACATCAAAAT CCGAGCCTTA TGAGTTCCCA GATCTCTGTG TCACTGAGAA AAATGGTTAC
    CTTGAGCTGA AAGGTTATAA AAATAAAATC TATGCTGTGA TAAATGGAAG CAAATTATGG
    TTCAGTAAAA GCAAACAGGA TGCGAGTGCT GGCATTGCAA TCACTGACCT CACACTGACT
    ATGGTATCTG TAAAAATTAT AGATCGGAAG TCATTTGAAC TCACTACCCC GTTCAGACAT
    TTTTGCTTAA CAGCAGAGTC TGAGAGAGAG AAACAAGAGT GGACTGAAGA AATACAGCAA
    TCAATAGCAG AAACTCTGGC TGATTATGAA GTAGCTGAAA AGATCTGGTT CAATGAATCT
    AACCGGAGCT GTGCAGATTG CCGCGCTCCC AGCCCTGACT GGGCATCTAT CAGCCTCGGT
    GTTGTCATTT GCAAGAACTG CGCAGGTCAA CATCGGGCAC TTGGAAGCAA CATATCAAAA
    GTTCACAGCT TGATCCTGGA TACTACTATC TGGAGCAATG AACTTGTTGA GCTTTTCATT
    GTCGTGGGAA ATGAGAAAGT AAATAACATC TGGGAAGCAA ATCTTTTGCC TGAGAACATG
    CTTCATATGG ATTCCAATGT AAGCCAGAGA AGATTATTTA TTACACAAAA ATACAAGGAA
    GGGAGATTTA AAAAAATCTA CTTTCCAGGT TTCACACAAG AGGAATTAAA TCAAGCCTTA
    TGTGATGCTG TGACTAAAGA TGAGATCCTG CAAACCATGA TATTGGTTTT TAGTGGAGCC
    GACACCATGT GCCCAACAGG GGATAAAGTC TACAACACAC CATACCTTTT AGCAAAGATG
    TCTGGCCAAA GGTTGCAGAT GGAATTCTTG CATCACAATA GGCTTTCTGA TTTTAAAGCA
    CCTTCTTTAA ATGCAAATGG AGCCAGTTTG TTTTATTGTG GGTTTTTATA CAAGGCTTCC
    CCAAGCACTA AGATGACAAT AAACAGAAAA TCTAAAGAAG TTCCAGAGAT GAAGCAATGG
    TGGTGCACTA TCGAAAACAA TTTCTTGAAG TATTACGAAA ATGAAACGGC TCCCGTGGCA
    GACGGTGTGA TTGACTTAAG TGAAATAATA AGTCTAGTTA TTCACCCGTC GGATTTCTCC
    TCCAATGGAA TGGCGGCTTT TACCTTTGAG ATCTACTTTC TGTCGGAACG TATGTTTCTT
    TTTGGAGCTG AAAATGTAGA GTCTCGCAGA GAATGGAGCA GGGCAATAGC GAAGAACTTT
    ACTCCTGCTG TAGAAGGATA TTTGCTGGAA CTAGATTTCA ATGTGCTTGG ATATCTGAAC
    TACAAAAATT CTTCTAGCCT TAGCCAGTGG AAAAAAGGTT GGTTTGCCCT AGAGAAGGCA
    CGCTTACACT ACTGCAATAA AGACGATTGT GGGAATGCAG ACACCATACA ACTAAAGAAA
    CTTCAAGAAC TAACAGCAAA CTCATCCACG CTGAATGGGG AAAAAGGGAA TATTCTTCTG
    CTGGTTGAAA ATGGAAGGAC ATTCTATATC CATGGACATA CAATGCTGGA TTTCACGGTC
    TGGCATTCAG CAATTGAGAA AGCAGCAGGT ACAGATGGTA ATGCACTACA GGATCAGCAG
    CTCAGCAAAA ACAACATTCC TATTATCGTG AACAGCTGCA TAGCATTTGT TACGCAGTAT
    GGTTTGGGAA GCAAATCTCT GTATCTGAAG AATGGAAACC CGTTGCAAGT GAGGGAGCTG
    CTCGAAGAAT TTAAAAAGGA TGCACGGAGC ATTAAACTAA AAGTCGGAAA GCATCAGCTG
    GAAGATGTGA CTGATGTGCT GAAATATTTC TTCTATGAAA TAGATGATGC ACTTCTCACA
    AAAGAACTTT ATCCGTATTG GATCTCTGCC TTAGATATCC GGAATGAACA GGAGCGGGTG
    AAAAAATACA AAACCGTAAT CAGTACAGTA CCAGCCCTAA ATAAAGCAAC ACTGGCAGCC
    CTAATCGAGC ACCTTTTCAG AATACAGAAA TGTTTTGACA TTAATCATCT GGATACTCAG
    ACTCTAGCCA AAGCCTTTTC TTCTTGCTTG TTTCAAACAA ATGGAGAAAA TGAAAAGGAA
    GTAGCTGTTC TGGAAGATCT AATTACCAAT TATGTGAATA TTTTTAATGT GAGTGAAGAT
    CAGGTACAAC AAATGGAGAC AGAGAACCGT TTCATTACCA AATGGAAAGA GGCACAGATA
    TGTCATTCTG GTGACTTGTT GATTGAAGTT TATGTAGAAA GAAAAGAGCC TGACATGTGT
    GTAATTATTA GGGTGCCACC TACCATGGAA ACAGCAGAGC TGACTAATTG TGCTATGGGA
    ATAAAAAACA TTACTCTAAC CAAGGAAATG CCTTGGGCAA CATTTGAAGT AATTGAAAAT
    GGAGAACTTG AGCGCCTTAT GCATTACAAG GAAAAAGTAT TGGAAACCGT CCTTCAGTGG
    AGCTCACTAT CTGACCCTGG AGCAGCTTAC CTCCTTGTAA AGCCACATAA CACAAGAGAT
    ATGACGACTC CTGGCCTAAA ATCTTCACAC CACATGCAGT CTGGTCATAT GAAATTTAAA
    GAGGATCCTT CAAAATTACT TTCTGGGAAT AAATTTCAAG AGCGATATTT TGTCTTACGT
    GAAAGAAAAC TTCTCTTATA TAAGGATATA AAGAGTATTA AGCCTGAGAA AGAACTGCTT
    GTTACTTCAT GCAAGGTATA CGCTGGGGTC AAAAAGAAAA TGAAGCCGCC AACAAGTTGG
    GGAATTACAA TTTATTCCGA AAAGCACCAA TGGCATCTAT GTTGTGATAC ACAAGAATCA
    CAGAAAGAAT GGTTGGGAGG CCTTTTTAGT GCACAGCATC CTGGTGCACA GGTTCCATCA
    GCTTCACATG TACAAATGAG AGGAACACAC GTGAGGCAAG GGAAACAAAT GGCAACGGAT
    ATGGATCGCG GTTCAGAAAA AAGCACACTG AAAATAATCC ATGGAGCCTC CACACTGCAA
    CTCAGCCCCA TCTTGAAATC AAGATCCTCA ATGTTGGCTG AGATTTTTGA CTGCAAAGAA
    GAATCAAAAC TTACAAATCA AAAGAAACAC CACAGCTTAA TTAACCTTGA TAATGAAAAC
    AATTACACTG GGGGTGGAAA AGACAATTCA GCAGAACAGA TAATCAAGCA GTGTCCTGCA
    TCAAATGCAA AATTGCCTCC AAACTTAATT AAGGAACTGA ATTCAGTACT TCAGAAAAGC
    AAGAGAGATG TGCAGGAATA G

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

    CloneID OXa49670
    Clone ID Related Accession (Same CDS sequence) XM_031895360.1
    Accession Version XM_031895360.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4698bp)
    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 Rho-GAP domain, 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_030677.2) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation 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
    ATGATCAAAA TGTCCTCAAG CCCTCAACAG AATTCTAATA TTGGCCCGCT GCTAGCTGAT 
    ATTAATTTAG AGACTTATCT TCCAAACTTC CTAAAGTCTG GTTATTATAC AGTTCTAGAA
    TGTGAAAAAT TGAATCATGA GATACTTCAA GAAATGGGAA TATCTCTTAC TGGGCATCGG
    AAGAGAATCA TTGCAAAGCT ACAAAGCATA CAAGAGCAGA TGAGAAGAGA ATCCAGGAAC
    TCGGATTCAT TGACGTCTGA TTCAGAATTA CAGAACTCCA TTACACATGG CTCAAAGCCA
    TTAGACACTA TTCTGCCAGT TAGTGAACAG GTTCAAGGTT CCACCATGGA GTACAATGCA
    TCCCCTGATT CATCTCCTTC AAAGGAAGCA GATAATAATT CAACATGTCA ATATCAGCAA
    AAAGAAGACT CAAATGACCA ATTCAACAGA ACAGGACTGA ATGAAAAATC ATTGGAAATA
    AAAGATCACA GTGTAAAAGA TTTTCCTTTG GATCTTGAGA CACAATTAGA CTCACAGAAT
    TCAGGCTTTT TTGAATTTCA AGGACCAATG GTAGACAATG AGATCTACGA CAAAAGTAAG
    GATGATGGAC ACAAACCTCT ACTAAAGAGT CCTCCAACAA AATCATTCAT TCTGAGAAAC
    AGGCCGGTAC CTAAGTTACC CTTTAACACG AGTGATACAT TTGTCAAAAG CTGTCACCAA
    GAAAGACGTT TAGAAAATAA AGCCGCGCAG GAAAGCTCAG CATCCAAACA ACAAAACCAA
    GAATCTCAAG AACAAAACAT AAATCTAATT TCTCCATATG AAGAAACCTT TTTCAGCAAT
    TCTGAATTTC CAAAGGAAAC CTCAAGGGAT AAATTTCAGT TTCCCTCATA TCATGAACAA
    AATGAAAAAT CCTTGGAAAA GAATGCAAGC ACTTCATGTG GTTCTCTATC TGCTAACAAT
    GGGTCTCCAC CTCCACCGGG GGATCAGATA TCGGAAGAAT CTATATATTC AACAATGGAA
    GAATGCACCC GTGAGTTAAG AGTAAACAGA GGCATTGGCA TGACACCCGA TCCGGCTGCC
    AGTTTGCACA CTGACAGTGG CACTAGCTCT GAATTGGAAG GTGCGGAAAG TGAAATTTCA
    CCCTACGCAT GCTTTTATGG GCCATCAACC ATGCCAGCAA AAACAGGGTG GCTGGAAAAA
    CTGTCACCTC ATCGAAGTGG CATATTTCAA AAGAGATGGG TAAAAGTTGA CGGAATGCAT
    CTTTCCTACT ATAACAATGA CCGGGATATG TTTTCGAAGG GGAAGATTTC TCTGCCTGCC
    ATAACAAAAG TGAACAAAAT GGGAGAGAGC AAATTTGAAG TGGTCACCGT GCAGAGGACG
    TTTGTGTTTC GCACAGAGAA GGAAGAGGAC AGAGACGACT GGATTGACAC GCTGCTGCGC
    ACATCAAAAT CCGAGCCTTA TGAGTTCCCA GATCTCTGTG TCACTGAGAA AAATGGTTAC
    CTTGAGCTGA AAGGTTATAA AAATAAAATC TATGCTGTGA TAAATGGAAG CAAATTATGG
    TTCAGTAAAA GCAAACAGGA TGCGAGTGCT GGCATTGCAA TCACTGACCT CACACTGACT
    ATGGTATCTG TAAAAATTAT AGATCGGAAG TCATTTGAAC TCACTACCCC GTTCAGACAT
    TTTTGCTTAA CAGCAGAGTC TGAGAGAGAG AAACAAGAGT GGACTGAAGA AATACAGCAA
    TCAATAGCAG AAACTCTGGC TGATTATGAA GTAGCTGAAA AGATCTGGTT CAATGAATCT
    AACCGGAGCT GTGCAGATTG CCGCGCTCCC AGCCCTGACT GGGCATCTAT CAGCCTCGGT
    GTTGTCATTT GCAAGAACTG CGCAGGTCAA CATCGGGCAC TTGGAAGCAA CATATCAAAA
    GTTCACAGCT TGATCCTGGA TACTACTATC TGGAGCAATG AACTTGTTGA GCTTTTCATT
    GTCGTGGGAA ATGAGAAAGT AAATAACATC TGGGAAGCAA ATCTTTTGCC TGAGAACATG
    CTTCATATGG ATTCCAATGT AAGCCAGAGA AGATTATTTA TTACACAAAA ATACAAGGAA
    GGGAGATTTA AAAAAATCTA CTTTCCAGGT TTCACACAAG AGGAATTAAA TCAAGCCTTA
    TGTGATGCTG TGACTAAAGA TGAGATCCTG CAAACCATGA TATTGGTTTT TAGTGGAGCC
    GACACCATGT GCCCAACAGG GGATAAAGTC TACAACACAC CATACCTTTT AGCAAAGATG
    TCTGGCCAAA GGTTGCAGAT GGAATTCTTG CATCACAATA GGCTTTCTGA TTTTAAAGCA
    CCTTCTTTAA ATGCAAATGG AGCCAGTTTG TTTTATTGTG GGTTTTTATA CAAGGCTTCC
    CCAAGCACTA AGATGACAAT AAACAGAAAA TCTAAAGAAG TTCCAGAGAT GAAGCAATGG
    TGGTGCACTA TCGAAAACAA TTTCTTGAAG TATTACGAAA ATGAAACGGC TCCCGTGGCA
    GACGGTGTGA TTGACTTAAG TGAAATAATA AGTCTAGTTA TTCACCCGTC GGATTTCTCC
    TCCAATGGAA TGGCGGCTTT TACCTTTGAG ATCTACTTTC TGTCGGAACG TATGTTTCTT
    TTTGGAGCTG AAAATGTAGA GTCTCGCAGA GAATGGAGCA GGGCAATAGC GAAGAACTTT
    ACTCCTGCTG TAGAAGGATA TTTGCTGGAA CTAGATTTCA ATGTGCTTGG ATATCTGAAC
    TACAAAAATT CTTCTAGCCT TAGCCAGTGG AAAAAAGGTT GGTTTGCCCT AGAGAAGGCA
    CGCTTACACT ACTGCAATAA AGACGATTGT GGGAATGCAG ACACCATACA ACTAAAGAAA
    CTTCAAGAAC TAACAAACTC ATCCACGCTG AATGGGGAAA AAGGGAATAT TCTTCTGCTG
    GTTGAAAATG GAAGGACATT CTATATCCAT GGACATACAA TGCTGGATTT CACGGTCTGG
    CATTCAGCAA TTGAGAAAGC AGCAGGTACA GATGGTAATG CACTACAGGA TCAGCAGCTC
    AGCAAAAACA ACATTCCTAT TATCGTGAAC AGCTGCATAG CATTTGTTAC GCAGTATGGT
    TTGGGAAGCA AATCTCTGTA TCTGAAGAAT GGAAACCCGT TGCAAGTGAG GGAGCTGCTC
    GAAGAATTTA AAAAGGATGC ACGGAGCATT AAACTAAAAG TCGGAAAGCA TCAGCTGGAA
    GATGTGACTG ATGTGCTGAA ATATTTCTTC TATGAAATAG ATGATGCACT TCTCACAAAA
    GAACTTTATC CGTATTGGAT CTCTGCCTTA GATATCCGGA ATGAACAGGA GCGGGTGAAA
    AAATACAAAA CCGTAATCAG TACAGTACCA GCCCTAAATA AAGCAACACT GGCAGCCCTA
    ATCGAGCACC TTTTCAGAAT ACAGAAATGT TTTGACATTA ATCATCTGGA TACTCAGACT
    CTAGCCAAAG CCTTTTCTTC TTGCTTGTTT CAAACAAATG GAGAAAATGA AAAGGAAGTA
    GCTGTTCTGG AAGATCTAAT TACCAATTAT GTGAATATTT TTAATGTGAG TGAAGATCAG
    GTACAACAAA TGGAGACAGA GAACCGTTTC ATTACCAAAT GGAAAGAGGC ACAGATATGT
    CATTCTGGTG ACTTGTTGAT TGAAGTTTAT GTAGAAAGAA AAGAGCCTGA CATGTGTGTA
    ATTATTAGGG TGCCACCTAC CATGGAAACA GCAGAGCTGA CTAATTGTGC TATGGGAATA
    AAAAACATTA CTCTAACCAA GGAAATGCCT TGGGCAACAT TTGAAGTAAT TGAAAATGGA
    GAACTTGAGC GCCTTATGCA TTACAAGGAA AAAGTATTGG AAACCGTCCT TCAGTGGAGC
    TCACTATCTG ACCCTGGAGC AGCTTACCTC CTTGTAAAGC CACATAACAC AAGAGATATG
    ACGACTCCTG GCCTAAAATC TTCACACCAC ATGCAGTCTG GTCATATGAA ATTTAAAGAG
    GATCCTTCAA AATTACTTTC TGGGAATAAA TTTCAAGAGC GATATTTTGT CTTACGTGAA
    AGAAAACTTC TCTTATATAA GGATATAAAG AGTATTAAGC CTGAGAAAGA ACTGCTTGTT
    ACTTCATGCA AGGTATACGC TGGGGTCAAA AAGAAAATGA AGCCGCCAAC AAGTTGGGGA
    ATTACAATTT ATTCCGAAAA GCACCAATGG CATCTATGTT GTGATACACA AGAATCACAG
    AAAGAATGGT TGGGAGGCCT TTTTAGTGCA CAGCATCCTG GTGCACAGGT TCCATCAGCT
    TCACATGTAC AAATGAGAGG AACACACGTG AGGCAAGGGA AACAAATGGC AACGGATATG
    GATCGCGGTT CAGAAAAAAG CACACTGAAA ATAATCCATG GAGCCTCCAC ACTGCAACTC
    AGCCCCATCT TGAAATCAAG ATCCTCAATG TTGGCTGAGA TTTTTGACTG CAAAGAAGAA
    TCAAAACTTA CAAATCAAAA GAAACACCAC AGCTTAATTA ACCTTGATAA TGAAAACAAT
    TACACTGGGG GTGGAAAAGA CAATTCAGCA GAACAGATAA TCAAGCAGTG TCCTGCATCA
    AATGCAAAAT TGCCTCCAAA CTTAATTAAG GAACTGAATT CAGTACTTCA GAAAAGCAAG
    AGAGATGTGC AGGAATAG

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

    RefSeq XP_031751220.1
    CDS252..4949
    Translation

    Target ORF information:

    RefSeq Version XM_031895360.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ArfGAP with RhoGAP domain, ankyrin repeat and PH domain 2 (arap2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031895360.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGATCAAAA TGTCCTCAAG CCCTCAACAG AATTCTAATA TTGGCCCGCT GCTAGCTGAT 
    ATTAATTTAG AGACTTATCT TCCAAACTTC CTAAAGTCTG GTTATTATAC AGTTCTAGAA
    TGTGAAAAAT TGAATCATGA GATACTTCAA GAAATGGGAA TATCTCTTAC TGGGCATCGG
    AAGAGAATCA TTGCAAAGCT ACAAAGCATA CAAGAGCAGA TGAGAAGAGA ATCCAGGAAC
    TCGGATTCAT TGACGTCTGA TTCAGAATTA CAGAACTCCA TTACACATGG CTCAAAGCCA
    TTAGACACTA TTCTGCCAGT TAGTGAACAG GTTCAAGGTT CCACCATGGA GTACAATGCA
    TCCCCTGATT CATCTCCTTC AAAGGAAGCA GATAATAATT CAACATGTCA ATATCAGCAA
    AAAGAAGACT CAAATGACCA ATTCAACAGA ACAGGACTGA ATGAAAAATC ATTGGAAATA
    AAAGATCACA GTGTAAAAGA TTTTCCTTTG GATCTTGAGA CACAATTAGA CTCACAGAAT
    TCAGGCTTTT TTGAATTTCA AGGACCAATG GTAGACAATG AGATCTACGA CAAAAGTAAG
    GATGATGGAC ACAAACCTCT ACTAAAGAGT CCTCCAACAA AATCATTCAT TCTGAGAAAC
    AGGCCGGTAC CTAAGTTACC CTTTAACACG AGTGATACAT TTGTCAAAAG CTGTCACCAA
    GAAAGACGTT TAGAAAATAA AGCCGCGCAG GAAAGCTCAG CATCCAAACA ACAAAACCAA
    GAATCTCAAG AACAAAACAT AAATCTAATT TCTCCATATG AAGAAACCTT TTTCAGCAAT
    TCTGAATTTC CAAAGGAAAC CTCAAGGGAT AAATTTCAGT TTCCCTCATA TCATGAACAA
    AATGAAAAAT CCTTGGAAAA GAATGCAAGC ACTTCATGTG GTTCTCTATC TGCTAACAAT
    GGGTCTCCAC CTCCACCGGG GGATCAGATA TCGGAAGAAT CTATATATTC AACAATGGAA
    GAATGCACCC GTGAGTTAAG AGTAAACAGA GGCATTGGCA TGACACCCGA TCCGGCTGCC
    AGTTTGCACA CTGACAGTGG CACTAGCTCT GAATTGGAAG GTGCGGAAAG TGAAATTTCA
    CCCTACGCAT GCTTTTATGG GCCATCAACC ATGCCAGCAA AAACAGGGTG GCTGGAAAAA
    CTGTCACCTC ATCGAAGTGG CATATTTCAA AAGAGATGGG TAAAAGTTGA CGGAATGCAT
    CTTTCCTACT ATAACAATGA CCGGGATATG TTTTCGAAGG GGAAGATTTC TCTGCCTGCC
    ATAACAAAAG TGAACAAAAT GGGAGAGAGC AAATTTGAAG TGGTCACCGT GCAGAGGACG
    TTTGTGTTTC GCACAGAGAA GGAAGAGGAC AGAGACGACT GGATTGACAC GCTGCTGCGC
    ACATCAAAAT CCGAGCCTTA TGAGTTCCCA GATCTCTGTG TCACTGAGAA AAATGGTTAC
    CTTGAGCTGA AAGGTTATAA AAATAAAATC TATGCTGTGA TAAATGGAAG CAAATTATGG
    TTCAGTAAAA GCAAACAGGA TGCGAGTGCT GGCATTGCAA TCACTGACCT CACACTGACT
    ATGGTATCTG TAAAAATTAT AGATCGGAAG TCATTTGAAC TCACTACCCC GTTCAGACAT
    TTTTGCTTAA CAGCAGAGTC TGAGAGAGAG AAACAAGAGT GGACTGAAGA AATACAGCAA
    TCAATAGCAG AAACTCTGGC TGATTATGAA GTAGCTGAAA AGATCTGGTT CAATGAATCT
    AACCGGAGCT GTGCAGATTG CCGCGCTCCC AGCCCTGACT GGGCATCTAT CAGCCTCGGT
    GTTGTCATTT GCAAGAACTG CGCAGGTCAA CATCGGGCAC TTGGAAGCAA CATATCAAAA
    GTTCACAGCT TGATCCTGGA TACTACTATC TGGAGCAATG AACTTGTTGA GCTTTTCATT
    GTCGTGGGAA ATGAGAAAGT AAATAACATC TGGGAAGCAA ATCTTTTGCC TGAGAACATG
    CTTCATATGG ATTCCAATGT AAGCCAGAGA AGATTATTTA TTACACAAAA ATACAAGGAA
    GGGAGATTTA AAAAAATCTA CTTTCCAGGT TTCACACAAG AGGAATTAAA TCAAGCCTTA
    TGTGATGCTG TGACTAAAGA TGAGATCCTG CAAACCATGA TATTGGTTTT TAGTGGAGCC
    GACACCATGT GCCCAACAGG GGATAAAGTC TACAACACAC CATACCTTTT AGCAAAGATG
    TCTGGCCAAA GGTTGCAGAT GGAATTCTTG CATCACAATA GGCTTTCTGA TTTTAAAGCA
    CCTTCTTTAA ATGCAAATGG AGCCAGTTTG TTTTATTGTG GGTTTTTATA CAAGGCTTCC
    CCAAGCACTA AGATGACAAT AAACAGAAAA TCTAAAGAAG TTCCAGAGAT GAAGCAATGG
    TGGTGCACTA TCGAAAACAA TTTCTTGAAG TATTACGAAA ATGAAACGGC TCCCGTGGCA
    GACGGTGTGA TTGACTTAAG TGAAATAATA AGTCTAGTTA TTCACCCGTC GGATTTCTCC
    TCCAATGGAA TGGCGGCTTT TACCTTTGAG ATCTACTTTC TGTCGGAACG TATGTTTCTT
    TTTGGAGCTG AAAATGTAGA GTCTCGCAGA GAATGGAGCA GGGCAATAGC GAAGAACTTT
    ACTCCTGCTG TAGAAGGATA TTTGCTGGAA CTAGATTTCA ATGTGCTTGG ATATCTGAAC
    TACAAAAATT CTTCTAGCCT TAGCCAGTGG AAAAAAGGTT GGTTTGCCCT AGAGAAGGCA
    CGCTTACACT ACTGCAATAA AGACGATTGT GGGAATGCAG ACACCATACA ACTAAAGAAA
    CTTCAAGAAC TAACAAACTC ATCCACGCTG AATGGGGAAA AAGGGAATAT TCTTCTGCTG
    GTTGAAAATG GAAGGACATT CTATATCCAT GGACATACAA TGCTGGATTT CACGGTCTGG
    CATTCAGCAA TTGAGAAAGC AGCAGGTACA GATGGTAATG CACTACAGGA TCAGCAGCTC
    AGCAAAAACA ACATTCCTAT TATCGTGAAC AGCTGCATAG CATTTGTTAC GCAGTATGGT
    TTGGGAAGCA AATCTCTGTA TCTGAAGAAT GGAAACCCGT TGCAAGTGAG GGAGCTGCTC
    GAAGAATTTA AAAAGGATGC ACGGAGCATT AAACTAAAAG TCGGAAAGCA TCAGCTGGAA
    GATGTGACTG ATGTGCTGAA ATATTTCTTC TATGAAATAG ATGATGCACT TCTCACAAAA
    GAACTTTATC CGTATTGGAT CTCTGCCTTA GATATCCGGA ATGAACAGGA GCGGGTGAAA
    AAATACAAAA CCGTAATCAG TACAGTACCA GCCCTAAATA AAGCAACACT GGCAGCCCTA
    ATCGAGCACC TTTTCAGAAT ACAGAAATGT TTTGACATTA ATCATCTGGA TACTCAGACT
    CTAGCCAAAG CCTTTTCTTC TTGCTTGTTT CAAACAAATG GAGAAAATGA AAAGGAAGTA
    GCTGTTCTGG AAGATCTAAT TACCAATTAT GTGAATATTT TTAATGTGAG TGAAGATCAG
    GTACAACAAA TGGAGACAGA GAACCGTTTC ATTACCAAAT GGAAAGAGGC ACAGATATGT
    CATTCTGGTG ACTTGTTGAT TGAAGTTTAT GTAGAAAGAA AAGAGCCTGA CATGTGTGTA
    ATTATTAGGG TGCCACCTAC CATGGAAACA GCAGAGCTGA CTAATTGTGC TATGGGAATA
    AAAAACATTA CTCTAACCAA GGAAATGCCT TGGGCAACAT TTGAAGTAAT TGAAAATGGA
    GAACTTGAGC GCCTTATGCA TTACAAGGAA AAAGTATTGG AAACCGTCCT TCAGTGGAGC
    TCACTATCTG ACCCTGGAGC AGCTTACCTC CTTGTAAAGC CACATAACAC AAGAGATATG
    ACGACTCCTG GCCTAAAATC TTCACACCAC ATGCAGTCTG GTCATATGAA ATTTAAAGAG
    GATCCTTCAA AATTACTTTC TGGGAATAAA TTTCAAGAGC GATATTTTGT CTTACGTGAA
    AGAAAACTTC TCTTATATAA GGATATAAAG AGTATTAAGC CTGAGAAAGA ACTGCTTGTT
    ACTTCATGCA AGGTATACGC TGGGGTCAAA AAGAAAATGA AGCCGCCAAC AAGTTGGGGA
    ATTACAATTT ATTCCGAAAA GCACCAATGG CATCTATGTT GTGATACACA AGAATCACAG
    AAAGAATGGT TGGGAGGCCT TTTTAGTGCA CAGCATCCTG GTGCACAGGT TCCATCAGCT
    TCACATGTAC AAATGAGAGG AACACACGTG AGGCAAGGGA AACAAATGGC AACGGATATG
    GATCGCGGTT CAGAAAAAAG CACACTGAAA ATAATCCATG GAGCCTCCAC ACTGCAACTC
    AGCCCCATCT TGAAATCAAG ATCCTCAATG TTGGCTGAGA TTTTTGACTG CAAAGAAGAA
    TCAAAACTTA CAAATCAAAA GAAACACCAC AGCTTAATTA ACCTTGATAA TGAAAACAAT
    TACACTGGGG GTGGAAAAGA CAATTCAGCA GAACAGATAA TCAAGCAGTG TCCTGCATCA
    AATGCAAAAT TGCCTCCAAA CTTAATTAAG GAACTGAATT CAGTACTTCA GAAAAGCAAG
    AGAGATGTGC AGGAATAG

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