ORF » Species Summary » Alligator sinensis » ARHGEF12 cDNA ORF clone

ARHGEF12 cDNA ORF clone, Alligator sinensis(Chinese alligator)

The following ARHGEF12 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ARHGEF12 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
OAl15179 XM_014518409.2
Latest version!		 Alligator sinensis Rho guanine nucleotide exchange factor 12 (ARHGEF12), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAl15179 XM_025200036.1
Latest version!		 Alligator sinensis Rho guanine nucleotide exchange factor 12 (ARHGEF12), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAl15180 XM_014518410.1
Latest version!		 Alligator sinensis Rho guanine nucleotide exchange factor (GEF) 12 (ARHGEF12), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAl84334 XM_025200035.1
Latest version!		 Alligator sinensis Rho guanine nucleotide exchange factor 12 (ARHGEF12), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OAl84334 XM_025200034.1
Latest version!		 Alligator sinensis Rho guanine nucleotide exchange factor 12 (ARHGEF12), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
View Old Accession Versions >>
OAl15179 XM_014518409.1 Alligator sinensis Rho guanine nucleotide exchange factor (GEF) 12 (ARHGEF12), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
Hide Old Accession Versions >>

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** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    ARHGEF12 ( XM_014518409.2 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_014373895.1 Alligator sinensis Rho guanine nucleotide exchange factor 12 (ARHGEF12), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OAl15179
    Clone ID Related Accession (Same CDS sequence) XM_014518409.2 , XM_014518409.1 , XM_025200036.1
    Accession Version XM_014518409.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4326bp)
    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 2018-06-03
    Organism Alligator sinensis(Chinese alligator)
    Product rho guanine nucleotide exchange factor 12 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005841952.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 4, 2018 this sequence version replaced XM_014518409.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGCGGGCTG GAGTTCAGAC GGGTGATCGA ATTATCAAGG TGAATGGGAC TCTTGTAACG 
    CACTCAAACC ATTTGGAAGT GGTCAAGCTG ATCAAGTCGG GTTCCTATGT AGCTCTCACT 
    GTGCAGGGGC GCCCACCAGG GTCGCCCCAG ATTCCGTTAG CTGATTCCGA AGTGGATCCG 
    GCAGCATTCG GGCATATGTC ACCCATCATG ACCTCTCCTC ATTCGCCTGG CACGTTTGGA 
    AACGCAGAAA GGATTACCAG CCCGGTATTA ATGGGGGAGG AGAACAATAT TGTTCACAAC 
    CAGAAAGTGG AGATTCTGAG AAAGATGTTG CAAAAGGAAC AAGAGCAGCT GCAGTCCTTG 
    CAGGAAGATT ACAGCCGAAC ACCAACCCCA CGACTGCTCA AGGAGATTCA GGAAGCCAAG 
    AAACACATCC CTCAGCTGCA GGAGCAACTG TCCAAAGCCA CAGGCTCTCC TCAGGATGGA 
    GTTTTGTCCT CCCGATTAGT GGCTGAGTCT CTGCAGATCA GTGAAGTTGA GACGGAGAGT 
    GGGGAAGGGC TGAGCAAAAT TGAGTCAAGT GGTGATGGCT CCCGGCCAAA CAGTGACATT 
    GCTGATAGTC CTCGGAGTGG CCTGAAGGAG CGAGTTTACC TGGATGAGAG CCCAGAGAAG 
    AGCGAAATTC AGGATACTGA TTCACAGTCC AGTGTTGGGA GCCCCTCCTC CCGCGTGGCA 
    CCTCAGATCA TCGGAGCAGA GGATGACGAC TTTGACACTG AACACGAGCA GATTAATGGG 
    CAGTGCAGCT GTTTCCAAAA CATGGAGCTG TTGAAGTCTC GCCCAGCTCA TCTAGCTGTG 
    TTCCTGCATC ACGTGGTGTC CCAGTTTGAC CCTGCAGCCT TGCTCTGCTA TCTCTATGCG 
    GACTTGTACA AACAGACCAA CTCCAAAGAG ACTCGTCGTG TCTTCCTTGA GTTTAACCAG 
    TTCTTCCTGG ACCGAGCTGC GAACCTGAAG GTCCCAGTTC CAGATGAAGT TTCTGTAGAT 
    CTAGAAAAGA GGCGGCCAGA ACTCATTCCA GAAGAGCTGC ACCGCCATTA CATCCTAACT 
    ATGCAAGATA AAGTCCTTCC AGAGGTCCAG AGGAATTTGG AAGACTTCAG ACAGAAACGT 
    AGCATGGGCC TGACCTTGGC AGAGGGCGAA CTGACTAAGC TGGACGCGGA ACGAGTCCGT 
    GACCGGAGCG TGCTGGAGAA GGAGAGAGCA TGTGCAGAGC AGATAATTGC CAAAATTGAA 
    GAAGTTCTGG TGTCATCTCA ACCTTTGGAA GAGGATAAGA GTTCCACCAT GCAGTATGTG 
    ATTCTCACCT ACATGAAATA TTTGGGGGTG AGAGTCAAAG AGCCCCGGAG TCTGGAGCAG 
    AAGCGTGGAC GTATTGGTTT CCTGCCAAAG ATTAAGCAAA GTATAAAGAA AGAGAAAGAA 
    GGGGAGGAAA AGGTGAAGAG GAGAGGTTTC CCTAGCATCC TGGGGCCGCC GAGAAGACCG 
    AGTCGCCATG ACAGTAGTGC AATTGGCAGA GCCATGGAAA TGCAGAAGCA GCGTCATCCA 
    AAGTACTTAT CCACAACCTC TTCTGTTAGC CCAGAGCCAC CAGACTCTGG CAAAACACGC 
    CAGAGTGGAT CTTCCAGCGA TGGCACAGAT GTAGCATACC CAACTGCTAA TCCTATGTCT 
    CCCCTGACTT CGGGACCTTT TACCTCCCTG GAGGCAAGCA AAGATAGTGA GACAGGTCCC 
    AAGCAGACTG GAGAAGTTCC ACCGTCTAGT GACTCTGTGG ATGGCACCCC CCGCACACCT 
    AATGCCACCT TTGACTTCCC TTCCCCACCC CTGGACCACT TGCAGGAAGA GGAGGGAGAA 
    CTTGAGAGAA CAGCTGAGTT GGGAACACCA AAACCTTTCC GCAAGATGGA GAGCATGGGC 
    TATGGAGATG TCCAAAGTGA GGATGAACTG TATGATTTTG ATACAGACAC CGATCCTCCC 
    AACTGGCAGC AGCTTGTGAG TCGAGAGTTG CTGCTGGGGC TGAAACCGTT TGAAATCAAA 
    CGCCAAGAAG TGATTAACGA GCTGTTTTAC ACAGAGCGAG CTCATGTCCG CACGCTGAAG 
    GTTCTGCATC AGGTCTTCTA CCAGCGTGTC TCCCGTGAAG GGATCCTCAC TCCCTCAGAT 
    CTGCGGAAGA TCTTTTCCAA CCTGGAGGAC ATCCTTCTGC TCCATACCGG CTTGAATGAC 
    CAGATGAAAA GTGTCCGAAA AAGGAATGAG ACATCAGTTA TTGATCAGAT TGGAGAGGAC 
    TTACTAACTT GGTTCAGCGG ACCAGGAGAG GAGAACCTGA AACATGCAGC AGCCACCTTC 
    TGTAGTAACC AGCCCTTTGC TTTAGAGGTG ATCAAATCAC GGCAGAAGAA GGACTCGCGC 
    TTCCAGACCT TTGTGCAGGA TGCCGAGAGT AATCCGCTGT GTCGCCGGTT GCAATTGAAG 
    GATATCATTC CCACTGAGAT GCAGAGACTG ACTAAATACC CCCTTCTGTT GGATAGTATT 
    GCTAAGTATT CAGAACTGCC TGAGGAGAAG GAGAAAGTGA AGAAAGCAGC GGATCACTGC 
    CGTCAAATCC TTAACTATGT GAACCAAGCT GTCAAAGAGT CGGAGAACAA GCAGCATTTA 
    GAAGATTATC AGCGTCGTCT CGACCTATCT TATCTGAAGC AGGCAGAAGA CCCTATGCTG 
    GATGAGTTTC GGAATTTGGA TTTAACCAAG CGGAAGATGA TTCACGAAGG ACCTCTGACT 
    TGGAAGGTGA ATCGGGACAA AACTATAGAT CTCTACACCT TGCTCTTGGA GGATATTCTG 
    GTGCTGTTGC AAAAGCAAGA TGACAAACTG GTGCTGCGGT GTCACAGTAA GATCCTGGCA 
    TCTACTGCTG ACAGCAAGCA CATATTCAGC CCTGTGATCA AGCTGAACAC TGTGCTAGTT 
    CGCCAGGTGG CAACAGATAA CAAAGCTTTC TTTGTCATCT CCATGTCAGA AAATGGCGCC 
    CATATTTATG AACTAGTGGC ACAGACCGTT TCGGAAAAAA ACGCATGGCA GGACCTGATA 
    GCTCAGATGG CAGGGACAGT GAAAGCCGAG GCTTCCACCA GAAGGGTGAT ACCATTACCG 
    CAGCCAGGGC CTGGCGAAGA AGAGCGTGAG GAAGAGGAGC AGAAGTTGAA AGACGAGCAG 
    CCTGATATTC CAGCCAGCAG CATGCAGAGT CCAGATAAAG AGTTGGGCCT TGAGCCTTCC 
    CTCATACTGA AGACCCAGTC TCCTTCAGCT GTTATGTCGG AGAAGTCTGA AGTAGAAGAT 
    CTCCTCGTGA CAGAGAGGCA GTTTGACAAA GAGCAGCAGG AAGACGAGCT TGTGCTCAAA 
    GACTCCTCCG CGTGCTACGA ACAAGCGACC GCAGACGTGC CTTGCGGGGT GTCAGAAGGG 
    CGGTGGGCAC TGGATGCGTT AAGGAGCTTG GGCTTGTTGA AACAGTTGTT GGTGCAGCAG 
    CTTGGCTTGT CAGAGAAGAG GACCCTTGAA GACTGGCAGC ATTTTCCCAG GTTTAGGACA 
    GCTTCCCAAG GTGCTTGGGC AGAAAGTGGA AACCAGGGTG GACTGCAGCA CTCTGATAAT 
    AACAAGATGC ACCAGCCTGG AGTGGACCGG ATGCCTGTCA GACCTGGAAC TAGTGAACCC 
    GCAGCTTGTT ATGGTATCCG GACTTCAGCT GAATTCCCAG CTTCACAGGA TGCCGTGCAG 
    CTGGTATCTA GAGACGCCAG GTCAGGTAAT AATGTAGTAA TGGACCTTGT AAGCATGAAC 
    GTGGAGACCC CGCTCATGGA GCTGGAAGGA GTGGGTCCTG ATGACAATGG AGAGCACTTC 
    TTTGATGCCC GCGAGGCCCA CAGCGACGAC ATCCCATCCG AAGGAGAAGT GACGGAAAGG 
    AAGGAGGATG AGGAGGTGCA GTTACGGATC TCAGGAAATT ATTTGATCCT TGACGGATAT 
    GGAACGGTGC AGGAAAGCTC CACGGACGAT GAGGTGTCTT CGCTAGTCCT ACAGTGCACT 
    GCAGGCAGCA CCTCTCTGGA CACGGCGCAG CAGCAACACG TTTCCCCCAG GGAGGCCCAG 
    TCAGACGGGG GGAGCTCCCT GTTTGCTGAG TTCATGGCCT CCCGCTGGGC GGCTGTGGAG 
    GAGTCCAGCT CCGGAGCACC AAGCCCCCCC TTCTCCGTAG AGTCACGTAT CCAGATGATG 
    CAGTACATTC ACAAGATCGA GGCTGACCTT GAACACTTAA AGGAGATCGA GGAAAATTAT 
    GCCACTCTCC TTCGCCAAAG GCTGGCTGGA TCAGCCCCCA CAGATGAGCA CTCAGACAAA 
    AGTTAG

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

    RefSeq XP_014373895.1
    CDS217..4542
    Translation

    Target ORF information:

    RefSeq Version XM_014518409.2
    Organism Alligator sinensis(Chinese alligator)
    Definition Alligator sinensis Rho guanine nucleotide exchange factor 12 (ARHGEF12), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014518409.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGCGGGCTG GAGTTCAGAC GGGTGATCGA ATTATCAAGG TGAATGGGAC TCTTGTAACG 
    CACTCAAACC ATTTGGAAGT GGTCAAGCTG ATCAAGTCGG GTTCCTATGT AGCTCTCACT 
    GTGCAGGGGC GCCCACCAGG GTCGCCCCAG ATTCCGTTAG CTGATTCCGA AGTGGATCCG 
    GCAGCATTCG GGCATATGTC ACCCATCATG ACCTCTCCTC ATTCGCCTGG CACGTTTGGA 
    AACGCAGAAA GGATTACCAG CCCGGTATTA ATGGGGGAGG AGAACAATAT TGTTCACAAC 
    CAGAAAGTGG AGATTCTGAG AAAGATGTTG CAAAAGGAAC AAGAGCAGCT GCAGTCCTTG 
    CAGGAAGATT ACAGCCGAAC ACCAACCCCA CGACTGCTCA AGGAGATTCA GGAAGCCAAG 
    AAACACATCC CTCAGCTGCA GGAGCAACTG TCCAAAGCCA CAGGCTCTCC TCAGGATGGA 
    GTTTTGTCCT CCCGATTAGT GGCTGAGTCT CTGCAGATCA GTGAAGTTGA GACGGAGAGT 
    GGGGAAGGGC TGAGCAAAAT TGAGTCAAGT GGTGATGGCT CCCGGCCAAA CAGTGACATT 
    GCTGATAGTC CTCGGAGTGG CCTGAAGGAG CGAGTTTACC TGGATGAGAG CCCAGAGAAG 
    AGCGAAATTC AGGATACTGA TTCACAGTCC AGTGTTGGGA GCCCCTCCTC CCGCGTGGCA 
    CCTCAGATCA TCGGAGCAGA GGATGACGAC TTTGACACTG AACACGAGCA GATTAATGGG 
    CAGTGCAGCT GTTTCCAAAA CATGGAGCTG TTGAAGTCTC GCCCAGCTCA TCTAGCTGTG 
    TTCCTGCATC ACGTGGTGTC CCAGTTTGAC CCTGCAGCCT TGCTCTGCTA TCTCTATGCG 
    GACTTGTACA AACAGACCAA CTCCAAAGAG ACTCGTCGTG TCTTCCTTGA GTTTAACCAG 
    TTCTTCCTGG ACCGAGCTGC GAACCTGAAG GTCCCAGTTC CAGATGAAGT TTCTGTAGAT 
    CTAGAAAAGA GGCGGCCAGA ACTCATTCCA GAAGAGCTGC ACCGCCATTA CATCCTAACT 
    ATGCAAGATA AAGTCCTTCC AGAGGTCCAG AGGAATTTGG AAGACTTCAG ACAGAAACGT 
    AGCATGGGCC TGACCTTGGC AGAGGGCGAA CTGACTAAGC TGGACGCGGA ACGAGTCCGT 
    GACCGGAGCG TGCTGGAGAA GGAGAGAGCA TGTGCAGAGC AGATAATTGC CAAAATTGAA 
    GAAGTTCTGG TGTCATCTCA ACCTTTGGAA GAGGATAAGA GTTCCACCAT GCAGTATGTG 
    ATTCTCACCT ACATGAAATA TTTGGGGGTG AGAGTCAAAG AGCCCCGGAG TCTGGAGCAG 
    AAGCGTGGAC GTATTGGTTT CCTGCCAAAG ATTAAGCAAA GTATAAAGAA AGAGAAAGAA 
    GGGGAGGAAA AGGTGAAGAG GAGAGGTTTC CCTAGCATCC TGGGGCCGCC GAGAAGACCG 
    AGTCGCCATG ACAGTAGTGC AATTGGCAGA GCCATGGAAA TGCAGAAGCA GCGTCATCCA 
    AAGTACTTAT CCACAACCTC TTCTGTTAGC CCAGAGCCAC CAGACTCTGG CAAAACACGC 
    CAGAGTGGAT CTTCCAGCGA TGGCACAGAT GTAGCATACC CAACTGCTAA TCCTATGTCT 
    CCCCTGACTT CGGGACCTTT TACCTCCCTG GAGGCAAGCA AAGATAGTGA GACAGGTCCC 
    AAGCAGACTG GAGAAGTTCC ACCGTCTAGT GACTCTGTGG ATGGCACCCC CCGCACACCT 
    AATGCCACCT TTGACTTCCC TTCCCCACCC CTGGACCACT TGCAGGAAGA GGAGGGAGAA 
    CTTGAGAGAA CAGCTGAGTT GGGAACACCA AAACCTTTCC GCAAGATGGA GAGCATGGGC 
    TATGGAGATG TCCAAAGTGA GGATGAACTG TATGATTTTG ATACAGACAC CGATCCTCCC 
    AACTGGCAGC AGCTTGTGAG TCGAGAGTTG CTGCTGGGGC TGAAACCGTT TGAAATCAAA 
    CGCCAAGAAG TGATTAACGA GCTGTTTTAC ACAGAGCGAG CTCATGTCCG CACGCTGAAG 
    GTTCTGCATC AGGTCTTCTA CCAGCGTGTC TCCCGTGAAG GGATCCTCAC TCCCTCAGAT 
    CTGCGGAAGA TCTTTTCCAA CCTGGAGGAC ATCCTTCTGC TCCATACCGG CTTGAATGAC 
    CAGATGAAAA GTGTCCGAAA AAGGAATGAG ACATCAGTTA TTGATCAGAT TGGAGAGGAC 
    TTACTAACTT GGTTCAGCGG ACCAGGAGAG GAGAACCTGA AACATGCAGC AGCCACCTTC 
    TGTAGTAACC AGCCCTTTGC TTTAGAGGTG ATCAAATCAC GGCAGAAGAA GGACTCGCGC 
    TTCCAGACCT TTGTGCAGGA TGCCGAGAGT AATCCGCTGT GTCGCCGGTT GCAATTGAAG 
    GATATCATTC CCACTGAGAT GCAGAGACTG ACTAAATACC CCCTTCTGTT GGATAGTATT 
    GCTAAGTATT CAGAACTGCC TGAGGAGAAG GAGAAAGTGA AGAAAGCAGC GGATCACTGC 
    CGTCAAATCC TTAACTATGT GAACCAAGCT GTCAAAGAGT CGGAGAACAA GCAGCATTTA 
    GAAGATTATC AGCGTCGTCT CGACCTATCT TATCTGAAGC AGGCAGAAGA CCCTATGCTG 
    GATGAGTTTC GGAATTTGGA TTTAACCAAG CGGAAGATGA TTCACGAAGG ACCTCTGACT 
    TGGAAGGTGA ATCGGGACAA AACTATAGAT CTCTACACCT TGCTCTTGGA GGATATTCTG 
    GTGCTGTTGC AAAAGCAAGA TGACAAACTG GTGCTGCGGT GTCACAGTAA GATCCTGGCA 
    TCTACTGCTG ACAGCAAGCA CATATTCAGC CCTGTGATCA AGCTGAACAC TGTGCTAGTT 
    CGCCAGGTGG CAACAGATAA CAAAGCTTTC TTTGTCATCT CCATGTCAGA AAATGGCGCC 
    CATATTTATG AACTAGTGGC ACAGACCGTT TCGGAAAAAA ACGCATGGCA GGACCTGATA 
    GCTCAGATGG CAGGGACAGT GAAAGCCGAG GCTTCCACCA GAAGGGTGAT ACCATTACCG 
    CAGCCAGGGC CTGGCGAAGA AGAGCGTGAG GAAGAGGAGC AGAAGTTGAA AGACGAGCAG 
    CCTGATATTC CAGCCAGCAG CATGCAGAGT CCAGATAAAG AGTTGGGCCT TGAGCCTTCC 
    CTCATACTGA AGACCCAGTC TCCTTCAGCT GTTATGTCGG AGAAGTCTGA AGTAGAAGAT 
    CTCCTCGTGA CAGAGAGGCA GTTTGACAAA GAGCAGCAGG AAGACGAGCT TGTGCTCAAA 
    GACTCCTCCG CGTGCTACGA ACAAGCGACC GCAGACGTGC CTTGCGGGGT GTCAGAAGGG 
    CGGTGGGCAC TGGATGCGTT AAGGAGCTTG GGCTTGTTGA AACAGTTGTT GGTGCAGCAG 
    CTTGGCTTGT CAGAGAAGAG GACCCTTGAA GACTGGCAGC ATTTTCCCAG GTTTAGGACA 
    GCTTCCCAAG GTGCTTGGGC AGAAAGTGGA AACCAGGGTG GACTGCAGCA CTCTGATAAT 
    AACAAGATGC ACCAGCCTGG AGTGGACCGG ATGCCTGTCA GACCTGGAAC TAGTGAACCC 
    GCAGCTTGTT ATGGTATCCG GACTTCAGCT GAATTCCCAG CTTCACAGGA TGCCGTGCAG 
    CTGGTATCTA GAGACGCCAG GTCAGGTAAT AATGTAGTAA TGGACCTTGT AAGCATGAAC 
    GTGGAGACCC CGCTCATGGA GCTGGAAGGA GTGGGTCCTG ATGACAATGG AGAGCACTTC 
    TTTGATGCCC GCGAGGCCCA CAGCGACGAC ATCCCATCCG AAGGAGAAGT GACGGAAAGG 
    AAGGAGGATG AGGAGGTGCA GTTACGGATC TCAGGAAATT ATTTGATCCT TGACGGATAT 
    GGAACGGTGC AGGAAAGCTC CACGGACGAT GAGGTGTCTT CGCTAGTCCT ACAGTGCACT 
    GCAGGCAGCA CCTCTCTGGA CACGGCGCAG CAGCAACACG TTTCCCCCAG GGAGGCCCAG 
    TCAGACGGGG GGAGCTCCCT GTTTGCTGAG TTCATGGCCT CCCGCTGGGC GGCTGTGGAG 
    GAGTCCAGCT CCGGAGCACC AAGCCCCCCC TTCTCCGTAG AGTCACGTAT CCAGATGATG 
    CAGTACATTC ACAAGATCGA GGCTGACCTT GAACACTTAA AGGAGATCGA GGAAAATTAT 
    GCCACTCTCC TTCGCCAAAG GCTGGCTGGA TCAGCCCCCA CAGATGAGCA CTCAGACAAA 
    AGTTAG

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

    ARHGEF12 ( XM_014518409.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_014373895.1 Alligator sinensis Rho guanine nucleotide exchange factor (GEF) 12 (ARHGEF12), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAl15179
    Clone ID Related Accession (Same CDS sequence) XM_014518409.2 , XM_014518409.1 , XM_025200036.1
    Accession Version XM_014518409.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4326bp)
    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 2015-10-29
    Organism Alligator sinensis(Chinese alligator)
    Product rho guanine nucleotide exchange factor 12 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005841952.1) 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 :: Alligator sinensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGCGGGCTG GAGTTCAGAC GGGTGATCGA ATTATCAAGG TGAATGGGAC TCTTGTAACG 
    CACTCAAACC ATTTGGAAGT GGTCAAGCTG ATCAAGTCGG GTTCCTATGT AGCTCTCACT 
    GTGCAGGGGC GCCCACCAGG GTCGCCCCAG ATTCCGTTAG CTGATTCCGA AGTGGATCCG 
    GCAGCATTCG GGCATATGTC ACCCATCATG ACCTCTCCTC ATTCGCCTGG CACGTTTGGA 
    AACGCAGAAA GGATTACCAG CCCGGTATTA ATGGGGGAGG AGAACAATAT TGTTCACAAC 
    CAGAAAGTGG AGATTCTGAG AAAGATGTTG CAAAAGGAAC AAGAGCAGCT GCAGTCCTTG 
    CAGGAAGATT ACAGCCGAAC ACCAACCCCA CGACTGCTCA AGGAGATTCA GGAAGCCAAG 
    AAACACATCC CTCAGCTGCA GGAGCAACTG TCCAAAGCCA CAGGCTCTCC TCAGGATGGA 
    GTTTTGTCCT CCCGATTAGT GGCTGAGTCT CTGCAGATCA GTGAAGTTGA GACGGAGAGT 
    GGGGAAGGGC TGAGCAAAAT TGAGTCAAGT GGTGATGGCT CCCGGCCAAA CAGTGACATT 
    GCTGATAGTC CTCGGAGTGG CCTGAAGGAG CGAGTTTACC TGGATGAGAG CCCAGAGAAG 
    AGCGAAATTC AGGATACTGA TTCACAGTCC AGTGTTGGGA GCCCCTCCTC CCGCGTGGCA 
    CCTCAGATCA TCGGAGCAGA GGATGACGAC TTTGACACTG AACACGAGCA GATTAATGGG 
    CAGTGCAGCT GTTTCCAAAA CATGGAGCTG TTGAAGTCTC GCCCAGCTCA TCTAGCTGTG 
    TTCCTGCATC ACGTGGTGTC CCAGTTTGAC CCTGCAGCCT TGCTCTGCTA TCTCTATGCG 
    GACTTGTACA AACAGACCAA CTCCAAAGAG ACTCGTCGTG TCTTCCTTGA GTTTAACCAG 
    TTCTTCCTGG ACCGAGCTGC GAACCTGAAG GTCCCAGTTC CAGATGAAGT TTCTGTAGAT 
    CTAGAAAAGA GGCGGCCAGA ACTCATTCCA GAAGAGCTGC ACCGCCATTA CATCCTAACT 
    ATGCAAGATA AAGTCCTTCC AGAGGTCCAG AGGAATTTGG AAGACTTCAG ACAGAAACGT 
    AGCATGGGCC TGACCTTGGC AGAGGGCGAA CTGACTAAGC TGGACGCGGA ACGAGTCCGT 
    GACCGGAGCG TGCTGGAGAA GGAGAGAGCA TGTGCAGAGC AGATAATTGC CAAAATTGAA 
    GAAGTTCTGG TGTCATCTCA ACCTTTGGAA GAGGATAAGA GTTCCACCAT GCAGTATGTG 
    ATTCTCACCT ACATGAAATA TTTGGGGGTG AGAGTCAAAG AGCCCCGGAG TCTGGAGCAG 
    AAGCGTGGAC GTATTGGTTT CCTGCCAAAG ATTAAGCAAA GTATAAAGAA AGAGAAAGAA 
    GGGGAGGAAA AGGTGAAGAG GAGAGGTTTC CCTAGCATCC TGGGGCCGCC GAGAAGACCG 
    AGTCGCCATG ACAGTAGTGC AATTGGCAGA GCCATGGAAA TGCAGAAGCA GCGTCATCCA 
    AAGTACTTAT CCACAACCTC TTCTGTTAGC CCAGAGCCAC CAGACTCTGG CAAAACACGC 
    CAGAGTGGAT CTTCCAGCGA TGGCACAGAT GTAGCATACC CAACTGCTAA TCCTATGTCT 
    CCCCTGACTT CGGGACCTTT TACCTCCCTG GAGGCAAGCA AAGATAGTGA GACAGGTCCC 
    AAGCAGACTG GAGAAGTTCC ACCGTCTAGT GACTCTGTGG ATGGCACCCC CCGCACACCT 
    AATGCCACCT TTGACTTCCC TTCCCCACCC CTGGACCACT TGCAGGAAGA GGAGGGAGAA 
    CTTGAGAGAA CAGCTGAGTT GGGAACACCA AAACCTTTCC GCAAGATGGA GAGCATGGGC 
    TATGGAGATG TCCAAAGTGA GGATGAACTG TATGATTTTG ATACAGACAC CGATCCTCCC 
    AACTGGCAGC AGCTTGTGAG TCGAGAGTTG CTGCTGGGGC TGAAACCGTT TGAAATCAAA 
    CGCCAAGAAG TGATTAACGA GCTGTTTTAC ACAGAGCGAG CTCATGTCCG CACGCTGAAG 
    GTTCTGCATC AGGTCTTCTA CCAGCGTGTC TCCCGTGAAG GGATCCTCAC TCCCTCAGAT 
    CTGCGGAAGA TCTTTTCCAA CCTGGAGGAC ATCCTTCTGC TCCATACCGG CTTGAATGAC 
    CAGATGAAAA GTGTCCGAAA AAGGAATGAG ACATCAGTTA TTGATCAGAT TGGAGAGGAC 
    TTACTAACTT GGTTCAGCGG ACCAGGAGAG GAGAACCTGA AACATGCAGC AGCCACCTTC 
    TGTAGTAACC AGCCCTTTGC TTTAGAGGTG ATCAAATCAC GGCAGAAGAA GGACTCGCGC 
    TTCCAGACCT TTGTGCAGGA TGCCGAGAGT AATCCGCTGT GTCGCCGGTT GCAATTGAAG 
    GATATCATTC CCACTGAGAT GCAGAGACTG ACTAAATACC CCCTTCTGTT GGATAGTATT 
    GCTAAGTATT CAGAACTGCC TGAGGAGAAG GAGAAAGTGA AGAAAGCAGC GGATCACTGC 
    CGTCAAATCC TTAACTATGT GAACCAAGCT GTCAAAGAGT CGGAGAACAA GCAGCATTTA 
    GAAGATTATC AGCGTCGTCT CGACCTATCT TATCTGAAGC AGGCAGAAGA CCCTATGCTG 
    GATGAGTTTC GGAATTTGGA TTTAACCAAG CGGAAGATGA TTCACGAAGG ACCTCTGACT 
    TGGAAGGTGA ATCGGGACAA AACTATAGAT CTCTACACCT TGCTCTTGGA GGATATTCTG 
    GTGCTGTTGC AAAAGCAAGA TGACAAACTG GTGCTGCGGT GTCACAGTAA GATCCTGGCA 
    TCTACTGCTG ACAGCAAGCA CATATTCAGC CCTGTGATCA AGCTGAACAC TGTGCTAGTT 
    CGCCAGGTGG CAACAGATAA CAAAGCTTTC TTTGTCATCT CCATGTCAGA AAATGGCGCC 
    CATATTTATG AACTAGTGGC ACAGACCGTT TCGGAAAAAA ACGCATGGCA GGACCTGATA 
    GCTCAGATGG CAGGGACAGT GAAAGCCGAG GCTTCCACCA GAAGGGTGAT ACCATTACCG 
    CAGCCAGGGC CTGGCGAAGA AGAGCGTGAG GAAGAGGAGC AGAAGTTGAA AGACGAGCAG 
    CCTGATATTC CAGCCAGCAG CATGCAGAGT CCAGATAAAG AGTTGGGCCT TGAGCCTTCC 
    CTCATACTGA AGACCCAGTC TCCTTCAGCT GTTATGTCGG AGAAGTCTGA AGTAGAAGAT 
    CTCCTCGTGA CAGAGAGGCA GTTTGACAAA GAGCAGCAGG AAGACGAGCT TGTGCTCAAA 
    GACTCCTCCG CGTGCTACGA ACAAGCGACC GCAGACGTGC CTTGCGGGGT GTCAGAAGGG 
    CGGTGGGCAC TGGATGCGTT AAGGAGCTTG GGCTTGTTGA AACAGTTGTT GGTGCAGCAG 
    CTTGGCTTGT CAGAGAAGAG GACCCTTGAA GACTGGCAGC ATTTTCCCAG GTTTAGGACA 
    GCTTCCCAAG GTGCTTGGGC AGAAAGTGGA AACCAGGGTG GACTGCAGCA CTCTGATAAT 
    AACAAGATGC ACCAGCCTGG AGTGGACCGG ATGCCTGTCA GACCTGGAAC TAGTGAACCC 
    GCAGCTTGTT ATGGTATCCG GACTTCAGCT GAATTCCCAG CTTCACAGGA TGCCGTGCAG 
    CTGGTATCTA GAGACGCCAG GTCAGGTAAT AATGTAGTAA TGGACCTTGT AAGCATGAAC 
    GTGGAGACCC CGCTCATGGA GCTGGAAGGA GTGGGTCCTG ATGACAATGG AGAGCACTTC 
    TTTGATGCCC GCGAGGCCCA CAGCGACGAC ATCCCATCCG AAGGAGAAGT GACGGAAAGG 
    AAGGAGGATG AGGAGGTGCA GTTACGGATC TCAGGAAATT ATTTGATCCT TGACGGATAT 
    GGAACGGTGC AGGAAAGCTC CACGGACGAT GAGGTGTCTT CGCTAGTCCT ACAGTGCACT 
    GCAGGCAGCA CCTCTCTGGA CACGGCGCAG CAGCAACACG TTTCCCCCAG GGAGGCCCAG 
    TCAGACGGGG GGAGCTCCCT GTTTGCTGAG TTCATGGCCT CCCGCTGGGC GGCTGTGGAG 
    GAGTCCAGCT CCGGAGCACC AAGCCCCCCC TTCTCCGTAG AGTCACGTAT CCAGATGATG 
    CAGTACATTC ACAAGATCGA GGCTGACCTT GAACACTTAA AGGAGATCGA GGAAAATTAT 
    GCCACTCTCC TTCGCCAAAG GCTGGCTGGA TCAGCCCCCA CAGATGAGCA CTCAGACAAA 
    AGTTAG

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

    RefSeq XP_014373895.1
    CDS90..4415
    Translation

    Target ORF information:

    RefSeq Version XM_014518409.1
    Organism Alligator sinensis(Chinese alligator)
    Definition Alligator sinensis Rho guanine nucleotide exchange factor (GEF) 12 (ARHGEF12), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014518409.1

    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
    ATGCGGGCTG GAGTTCAGAC GGGTGATCGA ATTATCAAGG TGAATGGGAC TCTTGTAACG 
    CACTCAAACC ATTTGGAAGT GGTCAAGCTG ATCAAGTCGG GTTCCTATGT AGCTCTCACT 
    GTGCAGGGGC GCCCACCAGG GTCGCCCCAG ATTCCGTTAG CTGATTCCGA AGTGGATCCG 
    GCAGCATTCG GGCATATGTC ACCCATCATG ACCTCTCCTC ATTCGCCTGG CACGTTTGGA 
    AACGCAGAAA GGATTACCAG CCCGGTATTA ATGGGGGAGG AGAACAATAT TGTTCACAAC 
    CAGAAAGTGG AGATTCTGAG AAAGATGTTG CAAAAGGAAC AAGAGCAGCT GCAGTCCTTG 
    CAGGAAGATT ACAGCCGAAC ACCAACCCCA CGACTGCTCA AGGAGATTCA GGAAGCCAAG 
    AAACACATCC CTCAGCTGCA GGAGCAACTG TCCAAAGCCA CAGGCTCTCC TCAGGATGGA 
    GTTTTGTCCT CCCGATTAGT GGCTGAGTCT CTGCAGATCA GTGAAGTTGA GACGGAGAGT 
    GGGGAAGGGC TGAGCAAAAT TGAGTCAAGT GGTGATGGCT CCCGGCCAAA CAGTGACATT 
    GCTGATAGTC CTCGGAGTGG CCTGAAGGAG CGAGTTTACC TGGATGAGAG CCCAGAGAAG 
    AGCGAAATTC AGGATACTGA TTCACAGTCC AGTGTTGGGA GCCCCTCCTC CCGCGTGGCA 
    CCTCAGATCA TCGGAGCAGA GGATGACGAC TTTGACACTG AACACGAGCA GATTAATGGG 
    CAGTGCAGCT GTTTCCAAAA CATGGAGCTG TTGAAGTCTC GCCCAGCTCA TCTAGCTGTG 
    TTCCTGCATC ACGTGGTGTC CCAGTTTGAC CCTGCAGCCT TGCTCTGCTA TCTCTATGCG 
    GACTTGTACA AACAGACCAA CTCCAAAGAG ACTCGTCGTG TCTTCCTTGA GTTTAACCAG 
    TTCTTCCTGG ACCGAGCTGC GAACCTGAAG GTCCCAGTTC CAGATGAAGT TTCTGTAGAT 
    CTAGAAAAGA GGCGGCCAGA ACTCATTCCA GAAGAGCTGC ACCGCCATTA CATCCTAACT 
    ATGCAAGATA AAGTCCTTCC AGAGGTCCAG AGGAATTTGG AAGACTTCAG ACAGAAACGT 
    AGCATGGGCC TGACCTTGGC AGAGGGCGAA CTGACTAAGC TGGACGCGGA ACGAGTCCGT 
    GACCGGAGCG TGCTGGAGAA GGAGAGAGCA TGTGCAGAGC AGATAATTGC CAAAATTGAA 
    GAAGTTCTGG TGTCATCTCA ACCTTTGGAA GAGGATAAGA GTTCCACCAT GCAGTATGTG 
    ATTCTCACCT ACATGAAATA TTTGGGGGTG AGAGTCAAAG AGCCCCGGAG TCTGGAGCAG 
    AAGCGTGGAC GTATTGGTTT CCTGCCAAAG ATTAAGCAAA GTATAAAGAA AGAGAAAGAA 
    GGGGAGGAAA AGGTGAAGAG GAGAGGTTTC CCTAGCATCC TGGGGCCGCC GAGAAGACCG 
    AGTCGCCATG ACAGTAGTGC AATTGGCAGA GCCATGGAAA TGCAGAAGCA GCGTCATCCA 
    AAGTACTTAT CCACAACCTC TTCTGTTAGC CCAGAGCCAC CAGACTCTGG CAAAACACGC 
    CAGAGTGGAT CTTCCAGCGA TGGCACAGAT GTAGCATACC CAACTGCTAA TCCTATGTCT 
    CCCCTGACTT CGGGACCTTT TACCTCCCTG GAGGCAAGCA AAGATAGTGA GACAGGTCCC 
    AAGCAGACTG GAGAAGTTCC ACCGTCTAGT GACTCTGTGG ATGGCACCCC CCGCACACCT 
    AATGCCACCT TTGACTTCCC TTCCCCACCC CTGGACCACT TGCAGGAAGA GGAGGGAGAA 
    CTTGAGAGAA CAGCTGAGTT GGGAACACCA AAACCTTTCC GCAAGATGGA GAGCATGGGC 
    TATGGAGATG TCCAAAGTGA GGATGAACTG TATGATTTTG ATACAGACAC CGATCCTCCC 
    AACTGGCAGC AGCTTGTGAG TCGAGAGTTG CTGCTGGGGC TGAAACCGTT TGAAATCAAA 
    CGCCAAGAAG TGATTAACGA GCTGTTTTAC ACAGAGCGAG CTCATGTCCG CACGCTGAAG 
    GTTCTGCATC AGGTCTTCTA CCAGCGTGTC TCCCGTGAAG GGATCCTCAC TCCCTCAGAT 
    CTGCGGAAGA TCTTTTCCAA CCTGGAGGAC ATCCTTCTGC TCCATACCGG CTTGAATGAC 
    CAGATGAAAA GTGTCCGAAA AAGGAATGAG ACATCAGTTA TTGATCAGAT TGGAGAGGAC 
    TTACTAACTT GGTTCAGCGG ACCAGGAGAG GAGAACCTGA AACATGCAGC AGCCACCTTC 
    TGTAGTAACC AGCCCTTTGC TTTAGAGGTG ATCAAATCAC GGCAGAAGAA GGACTCGCGC 
    TTCCAGACCT TTGTGCAGGA TGCCGAGAGT AATCCGCTGT GTCGCCGGTT GCAATTGAAG 
    GATATCATTC CCACTGAGAT GCAGAGACTG ACTAAATACC CCCTTCTGTT GGATAGTATT 
    GCTAAGTATT CAGAACTGCC TGAGGAGAAG GAGAAAGTGA AGAAAGCAGC GGATCACTGC 
    CGTCAAATCC TTAACTATGT GAACCAAGCT GTCAAAGAGT CGGAGAACAA GCAGCATTTA 
    GAAGATTATC AGCGTCGTCT CGACCTATCT TATCTGAAGC AGGCAGAAGA CCCTATGCTG 
    GATGAGTTTC GGAATTTGGA TTTAACCAAG CGGAAGATGA TTCACGAAGG ACCTCTGACT 
    TGGAAGGTGA ATCGGGACAA AACTATAGAT CTCTACACCT TGCTCTTGGA GGATATTCTG 
    GTGCTGTTGC AAAAGCAAGA TGACAAACTG GTGCTGCGGT GTCACAGTAA GATCCTGGCA 
    TCTACTGCTG ACAGCAAGCA CATATTCAGC CCTGTGATCA AGCTGAACAC TGTGCTAGTT 
    CGCCAGGTGG CAACAGATAA CAAAGCTTTC TTTGTCATCT CCATGTCAGA AAATGGCGCC 
    CATATTTATG AACTAGTGGC ACAGACCGTT TCGGAAAAAA ACGCATGGCA GGACCTGATA 
    GCTCAGATGG CAGGGACAGT GAAAGCCGAG GCTTCCACCA GAAGGGTGAT ACCATTACCG 
    CAGCCAGGGC CTGGCGAAGA AGAGCGTGAG GAAGAGGAGC AGAAGTTGAA AGACGAGCAG 
    CCTGATATTC CAGCCAGCAG CATGCAGAGT CCAGATAAAG AGTTGGGCCT TGAGCCTTCC 
    CTCATACTGA AGACCCAGTC TCCTTCAGCT GTTATGTCGG AGAAGTCTGA AGTAGAAGAT 
    CTCCTCGTGA CAGAGAGGCA GTTTGACAAA GAGCAGCAGG AAGACGAGCT TGTGCTCAAA 
    GACTCCTCCG CGTGCTACGA ACAAGCGACC GCAGACGTGC CTTGCGGGGT GTCAGAAGGG 
    CGGTGGGCAC TGGATGCGTT AAGGAGCTTG GGCTTGTTGA AACAGTTGTT GGTGCAGCAG 
    CTTGGCTTGT CAGAGAAGAG GACCCTTGAA GACTGGCAGC ATTTTCCCAG GTTTAGGACA 
    GCTTCCCAAG GTGCTTGGGC AGAAAGTGGA AACCAGGGTG GACTGCAGCA CTCTGATAAT 
    AACAAGATGC ACCAGCCTGG AGTGGACCGG ATGCCTGTCA GACCTGGAAC TAGTGAACCC 
    GCAGCTTGTT ATGGTATCCG GACTTCAGCT GAATTCCCAG CTTCACAGGA TGCCGTGCAG 
    CTGGTATCTA GAGACGCCAG GTCAGGTAAT AATGTAGTAA TGGACCTTGT AAGCATGAAC 
    GTGGAGACCC CGCTCATGGA GCTGGAAGGA GTGGGTCCTG ATGACAATGG AGAGCACTTC 
    TTTGATGCCC GCGAGGCCCA CAGCGACGAC ATCCCATCCG AAGGAGAAGT GACGGAAAGG 
    AAGGAGGATG AGGAGGTGCA GTTACGGATC TCAGGAAATT ATTTGATCCT TGACGGATAT 
    GGAACGGTGC AGGAAAGCTC CACGGACGAT GAGGTGTCTT CGCTAGTCCT ACAGTGCACT 
    GCAGGCAGCA CCTCTCTGGA CACGGCGCAG CAGCAACACG TTTCCCCCAG GGAGGCCCAG 
    TCAGACGGGG GGAGCTCCCT GTTTGCTGAG TTCATGGCCT CCCGCTGGGC GGCTGTGGAG 
    GAGTCCAGCT CCGGAGCACC AAGCCCCCCC TTCTCCGTAG AGTCACGTAT CCAGATGATG 
    CAGTACATTC ACAAGATCGA GGCTGACCTT GAACACTTAA AGGAGATCGA GGAAAATTAT 
    GCCACTCTCC TTCGCCAAAG GCTGGCTGGA TCAGCCCCCA CAGATGAGCA CTCAGACAAA 
    AGTTAG

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

    ARHGEF12 ( XM_025200036.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025055821.1 Alligator sinensis Rho guanine nucleotide exchange factor 12 (ARHGEF12), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OAl15179
    Clone ID Related Accession (Same CDS sequence) XM_014518409.2 , XM_014518409.1 , XM_025200036.1
    Accession Version XM_025200036.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4326bp)
    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 2018-06-03
    Organism Alligator sinensis(Chinese alligator)
    Product rho guanine nucleotide exchange factor 12 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005841952.1) 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 Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGCGGGCTG GAGTTCAGAC GGGTGATCGA ATTATCAAGG TGAATGGGAC TCTTGTAACG 
    CACTCAAACC ATTTGGAAGT GGTCAAGCTG ATCAAGTCGG GTTCCTATGT AGCTCTCACT 
    GTGCAGGGGC GCCCACCAGG GTCGCCCCAG ATTCCGTTAG CTGATTCCGA AGTGGATCCG 
    GCAGCATTCG GGCATATGTC ACCCATCATG ACCTCTCCTC ATTCGCCTGG CACGTTTGGA 
    AACGCAGAAA GGATTACCAG CCCGGTATTA ATGGGGGAGG AGAACAATAT TGTTCACAAC 
    CAGAAAGTGG AGATTCTGAG AAAGATGTTG CAAAAGGAAC AAGAGCAGCT GCAGTCCTTG 
    CAGGAAGATT ACAGCCGAAC ACCAACCCCA CGACTGCTCA AGGAGATTCA GGAAGCCAAG 
    AAACACATCC CTCAGCTGCA GGAGCAACTG TCCAAAGCCA CAGGCTCTCC TCAGGATGGA 
    GTTTTGTCCT CCCGATTAGT GGCTGAGTCT CTGCAGATCA GTGAAGTTGA GACGGAGAGT 
    GGGGAAGGGC TGAGCAAAAT TGAGTCAAGT GGTGATGGCT CCCGGCCAAA CAGTGACATT 
    GCTGATAGTC CTCGGAGTGG CCTGAAGGAG CGAGTTTACC TGGATGAGAG CCCAGAGAAG 
    AGCGAAATTC AGGATACTGA TTCACAGTCC AGTGTTGGGA GCCCCTCCTC CCGCGTGGCA 
    CCTCAGATCA TCGGAGCAGA GGATGACGAC TTTGACACTG AACACGAGCA GATTAATGGG 
    CAGTGCAGCT GTTTCCAAAA CATGGAGCTG TTGAAGTCTC GCCCAGCTCA TCTAGCTGTG 
    TTCCTGCATC ACGTGGTGTC CCAGTTTGAC CCTGCAGCCT TGCTCTGCTA TCTCTATGCG 
    GACTTGTACA AACAGACCAA CTCCAAAGAG ACTCGTCGTG TCTTCCTTGA GTTTAACCAG 
    TTCTTCCTGG ACCGAGCTGC GAACCTGAAG GTCCCAGTTC CAGATGAAGT TTCTGTAGAT 
    CTAGAAAAGA GGCGGCCAGA ACTCATTCCA GAAGAGCTGC ACCGCCATTA CATCCTAACT 
    ATGCAAGATA AAGTCCTTCC AGAGGTCCAG AGGAATTTGG AAGACTTCAG ACAGAAACGT 
    AGCATGGGCC TGACCTTGGC AGAGGGCGAA CTGACTAAGC TGGACGCGGA ACGAGTCCGT 
    GACCGGAGCG TGCTGGAGAA GGAGAGAGCA TGTGCAGAGC AGATAATTGC CAAAATTGAA 
    GAAGTTCTGG TGTCATCTCA ACCTTTGGAA GAGGATAAGA GTTCCACCAT GCAGTATGTG 
    ATTCTCACCT ACATGAAATA TTTGGGGGTG AGAGTCAAAG AGCCCCGGAG TCTGGAGCAG 
    AAGCGTGGAC GTATTGGTTT CCTGCCAAAG ATTAAGCAAA GTATAAAGAA AGAGAAAGAA 
    GGGGAGGAAA AGGTGAAGAG GAGAGGTTTC CCTAGCATCC TGGGGCCGCC GAGAAGACCG 
    AGTCGCCATG ACAGTAGTGC AATTGGCAGA GCCATGGAAA TGCAGAAGCA GCGTCATCCA 
    AAGTACTTAT CCACAACCTC TTCTGTTAGC CCAGAGCCAC CAGACTCTGG CAAAACACGC 
    CAGAGTGGAT CTTCCAGCGA TGGCACAGAT GTAGCATACC CAACTGCTAA TCCTATGTCT 
    CCCCTGACTT CGGGACCTTT TACCTCCCTG GAGGCAAGCA AAGATAGTGA GACAGGTCCC 
    AAGCAGACTG GAGAAGTTCC ACCGTCTAGT GACTCTGTGG ATGGCACCCC CCGCACACCT 
    AATGCCACCT TTGACTTCCC TTCCCCACCC CTGGACCACT TGCAGGAAGA GGAGGGAGAA 
    CTTGAGAGAA CAGCTGAGTT GGGAACACCA AAACCTTTCC GCAAGATGGA GAGCATGGGC 
    TATGGAGATG TCCAAAGTGA GGATGAACTG TATGATTTTG ATACAGACAC CGATCCTCCC 
    AACTGGCAGC AGCTTGTGAG TCGAGAGTTG CTGCTGGGGC TGAAACCGTT TGAAATCAAA 
    CGCCAAGAAG TGATTAACGA GCTGTTTTAC ACAGAGCGAG CTCATGTCCG CACGCTGAAG 
    GTTCTGCATC AGGTCTTCTA CCAGCGTGTC TCCCGTGAAG GGATCCTCAC TCCCTCAGAT 
    CTGCGGAAGA TCTTTTCCAA CCTGGAGGAC ATCCTTCTGC TCCATACCGG CTTGAATGAC 
    CAGATGAAAA GTGTCCGAAA AAGGAATGAG ACATCAGTTA TTGATCAGAT TGGAGAGGAC 
    TTACTAACTT GGTTCAGCGG ACCAGGAGAG GAGAACCTGA AACATGCAGC AGCCACCTTC 
    TGTAGTAACC AGCCCTTTGC TTTAGAGGTG ATCAAATCAC GGCAGAAGAA GGACTCGCGC 
    TTCCAGACCT TTGTGCAGGA TGCCGAGAGT AATCCGCTGT GTCGCCGGTT GCAATTGAAG 
    GATATCATTC CCACTGAGAT GCAGAGACTG ACTAAATACC CCCTTCTGTT GGATAGTATT 
    GCTAAGTATT CAGAACTGCC TGAGGAGAAG GAGAAAGTGA AGAAAGCAGC GGATCACTGC 
    CGTCAAATCC TTAACTATGT GAACCAAGCT GTCAAAGAGT CGGAGAACAA GCAGCATTTA 
    GAAGATTATC AGCGTCGTCT CGACCTATCT TATCTGAAGC AGGCAGAAGA CCCTATGCTG 
    GATGAGTTTC GGAATTTGGA TTTAACCAAG CGGAAGATGA TTCACGAAGG ACCTCTGACT 
    TGGAAGGTGA ATCGGGACAA AACTATAGAT CTCTACACCT TGCTCTTGGA GGATATTCTG 
    GTGCTGTTGC AAAAGCAAGA TGACAAACTG GTGCTGCGGT GTCACAGTAA GATCCTGGCA 
    TCTACTGCTG ACAGCAAGCA CATATTCAGC CCTGTGATCA AGCTGAACAC TGTGCTAGTT 
    CGCCAGGTGG CAACAGATAA CAAAGCTTTC TTTGTCATCT CCATGTCAGA AAATGGCGCC 
    CATATTTATG AACTAGTGGC ACAGACCGTT TCGGAAAAAA ACGCATGGCA GGACCTGATA 
    GCTCAGATGG CAGGGACAGT GAAAGCCGAG GCTTCCACCA GAAGGGTGAT ACCATTACCG 
    CAGCCAGGGC CTGGCGAAGA AGAGCGTGAG GAAGAGGAGC AGAAGTTGAA AGACGAGCAG 
    CCTGATATTC CAGCCAGCAG CATGCAGAGT CCAGATAAAG AGTTGGGCCT TGAGCCTTCC 
    CTCATACTGA AGACCCAGTC TCCTTCAGCT GTTATGTCGG AGAAGTCTGA AGTAGAAGAT 
    CTCCTCGTGA CAGAGAGGCA GTTTGACAAA GAGCAGCAGG AAGACGAGCT TGTGCTCAAA 
    GACTCCTCCG CGTGCTACGA ACAAGCGACC GCAGACGTGC CTTGCGGGGT GTCAGAAGGG 
    CGGTGGGCAC TGGATGCGTT AAGGAGCTTG GGCTTGTTGA AACAGTTGTT GGTGCAGCAG 
    CTTGGCTTGT CAGAGAAGAG GACCCTTGAA GACTGGCAGC ATTTTCCCAG GTTTAGGACA 
    GCTTCCCAAG GTGCTTGGGC AGAAAGTGGA AACCAGGGTG GACTGCAGCA CTCTGATAAT 
    AACAAGATGC ACCAGCCTGG AGTGGACCGG ATGCCTGTCA GACCTGGAAC TAGTGAACCC 
    GCAGCTTGTT ATGGTATCCG GACTTCAGCT GAATTCCCAG CTTCACAGGA TGCCGTGCAG 
    CTGGTATCTA GAGACGCCAG GTCAGGTAAT AATGTAGTAA TGGACCTTGT AAGCATGAAC 
    GTGGAGACCC CGCTCATGGA GCTGGAAGGA GTGGGTCCTG ATGACAATGG AGAGCACTTC 
    TTTGATGCCC GCGAGGCCCA CAGCGACGAC ATCCCATCCG AAGGAGAAGT GACGGAAAGG 
    AAGGAGGATG AGGAGGTGCA GTTACGGATC TCAGGAAATT ATTTGATCCT TGACGGATAT 
    GGAACGGTGC AGGAAAGCTC CACGGACGAT GAGGTGTCTT CGCTAGTCCT ACAGTGCACT 
    GCAGGCAGCA CCTCTCTGGA CACGGCGCAG CAGCAACACG TTTCCCCCAG GGAGGCCCAG 
    TCAGACGGGG GGAGCTCCCT GTTTGCTGAG TTCATGGCCT CCCGCTGGGC GGCTGTGGAG 
    GAGTCCAGCT CCGGAGCACC AAGCCCCCCC TTCTCCGTAG AGTCACGTAT CCAGATGATG 
    CAGTACATTC ACAAGATCGA GGCTGACCTT GAACACTTAA AGGAGATCGA GGAAAATTAT 
    GCCACTCTCC TTCGCCAAAG GCTGGCTGGA TCAGCCCCCA CAGATGAGCA CTCAGACAAA 
    AGTTAG

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

    RefSeq XP_025055821.1
    CDS281..4606
    Translation

    Target ORF information:

    RefSeq Version XM_025200036.1
    Organism Alligator sinensis(Chinese alligator)
    Definition Alligator sinensis Rho guanine nucleotide exchange factor 12 (ARHGEF12), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_025200036.1

    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
    ATGCGGGCTG GAGTTCAGAC GGGTGATCGA ATTATCAAGG TGAATGGGAC TCTTGTAACG 
    CACTCAAACC ATTTGGAAGT GGTCAAGCTG ATCAAGTCGG GTTCCTATGT AGCTCTCACT 
    GTGCAGGGGC GCCCACCAGG GTCGCCCCAG ATTCCGTTAG CTGATTCCGA AGTGGATCCG 
    GCAGCATTCG GGCATATGTC ACCCATCATG ACCTCTCCTC ATTCGCCTGG CACGTTTGGA 
    AACGCAGAAA GGATTACCAG CCCGGTATTA ATGGGGGAGG AGAACAATAT TGTTCACAAC 
    CAGAAAGTGG AGATTCTGAG AAAGATGTTG CAAAAGGAAC AAGAGCAGCT GCAGTCCTTG 
    CAGGAAGATT ACAGCCGAAC ACCAACCCCA CGACTGCTCA AGGAGATTCA GGAAGCCAAG 
    AAACACATCC CTCAGCTGCA GGAGCAACTG TCCAAAGCCA CAGGCTCTCC TCAGGATGGA 
    GTTTTGTCCT CCCGATTAGT GGCTGAGTCT CTGCAGATCA GTGAAGTTGA GACGGAGAGT 
    GGGGAAGGGC TGAGCAAAAT TGAGTCAAGT GGTGATGGCT CCCGGCCAAA CAGTGACATT 
    GCTGATAGTC CTCGGAGTGG CCTGAAGGAG CGAGTTTACC TGGATGAGAG CCCAGAGAAG 
    AGCGAAATTC AGGATACTGA TTCACAGTCC AGTGTTGGGA GCCCCTCCTC CCGCGTGGCA 
    CCTCAGATCA TCGGAGCAGA GGATGACGAC TTTGACACTG AACACGAGCA GATTAATGGG 
    CAGTGCAGCT GTTTCCAAAA CATGGAGCTG TTGAAGTCTC GCCCAGCTCA TCTAGCTGTG 
    TTCCTGCATC ACGTGGTGTC CCAGTTTGAC CCTGCAGCCT TGCTCTGCTA TCTCTATGCG 
    GACTTGTACA AACAGACCAA CTCCAAAGAG ACTCGTCGTG TCTTCCTTGA GTTTAACCAG 
    TTCTTCCTGG ACCGAGCTGC GAACCTGAAG GTCCCAGTTC CAGATGAAGT TTCTGTAGAT 
    CTAGAAAAGA GGCGGCCAGA ACTCATTCCA GAAGAGCTGC ACCGCCATTA CATCCTAACT 
    ATGCAAGATA AAGTCCTTCC AGAGGTCCAG AGGAATTTGG AAGACTTCAG ACAGAAACGT 
    AGCATGGGCC TGACCTTGGC AGAGGGCGAA CTGACTAAGC TGGACGCGGA ACGAGTCCGT 
    GACCGGAGCG TGCTGGAGAA GGAGAGAGCA TGTGCAGAGC AGATAATTGC CAAAATTGAA 
    GAAGTTCTGG TGTCATCTCA ACCTTTGGAA GAGGATAAGA GTTCCACCAT GCAGTATGTG 
    ATTCTCACCT ACATGAAATA TTTGGGGGTG AGAGTCAAAG AGCCCCGGAG TCTGGAGCAG 
    AAGCGTGGAC GTATTGGTTT CCTGCCAAAG ATTAAGCAAA GTATAAAGAA AGAGAAAGAA 
    GGGGAGGAAA AGGTGAAGAG GAGAGGTTTC CCTAGCATCC TGGGGCCGCC GAGAAGACCG 
    AGTCGCCATG ACAGTAGTGC AATTGGCAGA GCCATGGAAA TGCAGAAGCA GCGTCATCCA 
    AAGTACTTAT CCACAACCTC TTCTGTTAGC CCAGAGCCAC CAGACTCTGG CAAAACACGC 
    CAGAGTGGAT CTTCCAGCGA TGGCACAGAT GTAGCATACC CAACTGCTAA TCCTATGTCT 
    CCCCTGACTT CGGGACCTTT TACCTCCCTG GAGGCAAGCA AAGATAGTGA GACAGGTCCC 
    AAGCAGACTG GAGAAGTTCC ACCGTCTAGT GACTCTGTGG ATGGCACCCC CCGCACACCT 
    AATGCCACCT TTGACTTCCC TTCCCCACCC CTGGACCACT TGCAGGAAGA GGAGGGAGAA 
    CTTGAGAGAA CAGCTGAGTT GGGAACACCA AAACCTTTCC GCAAGATGGA GAGCATGGGC 
    TATGGAGATG TCCAAAGTGA GGATGAACTG TATGATTTTG ATACAGACAC CGATCCTCCC 
    AACTGGCAGC AGCTTGTGAG TCGAGAGTTG CTGCTGGGGC TGAAACCGTT TGAAATCAAA 
    CGCCAAGAAG TGATTAACGA GCTGTTTTAC ACAGAGCGAG CTCATGTCCG CACGCTGAAG 
    GTTCTGCATC AGGTCTTCTA CCAGCGTGTC TCCCGTGAAG GGATCCTCAC TCCCTCAGAT 
    CTGCGGAAGA TCTTTTCCAA CCTGGAGGAC ATCCTTCTGC TCCATACCGG CTTGAATGAC 
    CAGATGAAAA GTGTCCGAAA AAGGAATGAG ACATCAGTTA TTGATCAGAT TGGAGAGGAC 
    TTACTAACTT GGTTCAGCGG ACCAGGAGAG GAGAACCTGA AACATGCAGC AGCCACCTTC 
    TGTAGTAACC AGCCCTTTGC TTTAGAGGTG ATCAAATCAC GGCAGAAGAA GGACTCGCGC 
    TTCCAGACCT TTGTGCAGGA TGCCGAGAGT AATCCGCTGT GTCGCCGGTT GCAATTGAAG 
    GATATCATTC CCACTGAGAT GCAGAGACTG ACTAAATACC CCCTTCTGTT GGATAGTATT 
    GCTAAGTATT CAGAACTGCC TGAGGAGAAG GAGAAAGTGA AGAAAGCAGC GGATCACTGC 
    CGTCAAATCC TTAACTATGT GAACCAAGCT GTCAAAGAGT CGGAGAACAA GCAGCATTTA 
    GAAGATTATC AGCGTCGTCT CGACCTATCT TATCTGAAGC AGGCAGAAGA CCCTATGCTG 
    GATGAGTTTC GGAATTTGGA TTTAACCAAG CGGAAGATGA TTCACGAAGG ACCTCTGACT 
    TGGAAGGTGA ATCGGGACAA AACTATAGAT CTCTACACCT TGCTCTTGGA GGATATTCTG 
    GTGCTGTTGC AAAAGCAAGA TGACAAACTG GTGCTGCGGT GTCACAGTAA GATCCTGGCA 
    TCTACTGCTG ACAGCAAGCA CATATTCAGC CCTGTGATCA AGCTGAACAC TGTGCTAGTT 
    CGCCAGGTGG CAACAGATAA CAAAGCTTTC TTTGTCATCT CCATGTCAGA AAATGGCGCC 
    CATATTTATG AACTAGTGGC ACAGACCGTT TCGGAAAAAA ACGCATGGCA GGACCTGATA 
    GCTCAGATGG CAGGGACAGT GAAAGCCGAG GCTTCCACCA GAAGGGTGAT ACCATTACCG 
    CAGCCAGGGC CTGGCGAAGA AGAGCGTGAG GAAGAGGAGC AGAAGTTGAA AGACGAGCAG 
    CCTGATATTC CAGCCAGCAG CATGCAGAGT CCAGATAAAG AGTTGGGCCT TGAGCCTTCC 
    CTCATACTGA AGACCCAGTC TCCTTCAGCT GTTATGTCGG AGAAGTCTGA AGTAGAAGAT 
    CTCCTCGTGA CAGAGAGGCA GTTTGACAAA GAGCAGCAGG AAGACGAGCT TGTGCTCAAA 
    GACTCCTCCG CGTGCTACGA ACAAGCGACC GCAGACGTGC CTTGCGGGGT GTCAGAAGGG 
    CGGTGGGCAC TGGATGCGTT AAGGAGCTTG GGCTTGTTGA AACAGTTGTT GGTGCAGCAG 
    CTTGGCTTGT CAGAGAAGAG GACCCTTGAA GACTGGCAGC ATTTTCCCAG GTTTAGGACA 
    GCTTCCCAAG GTGCTTGGGC AGAAAGTGGA AACCAGGGTG GACTGCAGCA CTCTGATAAT 
    AACAAGATGC ACCAGCCTGG AGTGGACCGG ATGCCTGTCA GACCTGGAAC TAGTGAACCC 
    GCAGCTTGTT ATGGTATCCG GACTTCAGCT GAATTCCCAG CTTCACAGGA TGCCGTGCAG 
    CTGGTATCTA GAGACGCCAG GTCAGGTAAT AATGTAGTAA TGGACCTTGT AAGCATGAAC 
    GTGGAGACCC CGCTCATGGA GCTGGAAGGA GTGGGTCCTG ATGACAATGG AGAGCACTTC 
    TTTGATGCCC GCGAGGCCCA CAGCGACGAC ATCCCATCCG AAGGAGAAGT GACGGAAAGG 
    AAGGAGGATG AGGAGGTGCA GTTACGGATC TCAGGAAATT ATTTGATCCT TGACGGATAT 
    GGAACGGTGC AGGAAAGCTC CACGGACGAT GAGGTGTCTT CGCTAGTCCT ACAGTGCACT 
    GCAGGCAGCA CCTCTCTGGA CACGGCGCAG CAGCAACACG TTTCCCCCAG GGAGGCCCAG 
    TCAGACGGGG GGAGCTCCCT GTTTGCTGAG TTCATGGCCT CCCGCTGGGC GGCTGTGGAG 
    GAGTCCAGCT CCGGAGCACC AAGCCCCCCC TTCTCCGTAG AGTCACGTAT CCAGATGATG 
    CAGTACATTC ACAAGATCGA GGCTGACCTT GAACACTTAA AGGAGATCGA GGAAAATTAT 
    GCCACTCTCC TTCGCCAAAG GCTGGCTGGA TCAGCCCCCA CAGATGAGCA CTCAGACAAA 
    AGTTAG

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

    ARHGEF12 ( XM_014518410.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_014373896.1 Alligator sinensis Rho guanine nucleotide exchange factor (GEF) 12 (ARHGEF12), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAl15180
    Clone ID Related Accession (Same CDS sequence) XM_014518410.1
    Accession Version XM_014518410.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4371bp)
    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 2015-10-29
    Organism Alligator sinensis(Chinese alligator)
    Product rho guanine nucleotide exchange factor 12 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005841952.1) 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 :: Alligator sinensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
    ATGCGGGCTG GAGTTCAGAC GGGTGATCGA ATTATCAAGG TGAATGGGAC TCTTGTAACG 
    CACTCAAACC ATTTGGAAGT GGTCAAGCTG ATCAAGTCGG GTTCCTATGT AGCTCTCACT 
    GTGCAGGGGC GCCCACCAGG GTCGCCCCAG ATTCCGTTAG CTGATTCCGA AGTGGATCCG 
    GCAGCATTCG GGCATATGTC ACCCATCATG ACCTCTCCTC ATTCGCCTGG CACGTTTGGA 
    AACGCAGAAA GGATTACCAG CCCGGTATTA ATGGGGGAGG AGAACAATAT TGTTCACAAC 
    CAGAAAGTGG AGATTCTGAG AAAGATGTTG CAAAAGGAAC AAGAGCAGCT GCAGTCCTTG 
    CAGGAAGATT ACAGCCGAAC ACCAACCCCA CGACTGCTCA AGGAGATTCA GGAAGCCAAG 
    AAACACATCC CTCAGCTGCA GGAGCAACTG TCCAAAGCCA CAGGCTCTCC TCAGGATGGA 
    GTTTTGTCCT CCCGATTAGT GGCTGAGTCT CTGCAGATCA GTGAAGTTGA GACGGAGAGT 
    GGGGAAGGGC TGAGCAAAAT TGAGTCAAGT GGTGATGGCT CCCGGCCAAA CAGTGACATT 
    GCTGATAGTC CTCGGAGTGG CCTGAAGGAG CGAGTTTACC TGGATGAGAG CCCAGAGAAG 
    AGCGAAATTC AGGATACTGA TTCACAGTCC AGTGTTGGGA GCCCCTCCTC CCGCGTGGCA 
    CCTCAGATCA TCGGAGCAGA GGATGACGAC TTTGACACTG AACACGAGCA GATTAATGGG 
    CAGTGCAGCT GTTTCCAAAA CATGGAGCTG TTGAAGTCTC GCCCAGCTCA TCTAGCTGTG 
    TTCCTGCATC ACGTGGTGTC CCAGTTTGAC CCTGCAGCCT TGCTCTGCTA TCTCTATGCG 
    GACTTGTACA AACAGACCAA CTCCAAAGAG ACTCGTCGTG TCTTCCTTGA GTTTAACCAG 
    TTCTTCCTGG ACCGAGCTGC GAACCTGAAG GTCCCAGTTC CAGATGAAGT TTCTGTAGAT 
    CTAGAAAAGA GGCGGCCAGA ACTCATTCCA GAAGAGCTGC ACCGCCATTA CATCCTAACT 
    ATGCAAGATA AAGTCCTTCC AGAGGTCCAG AGGAATTTGG AAGACTTCAG ACAGAAACGT 
    AGCATGGGCC TGACCTTGGC AGAGGGCGAA CTGACTAAGC TGGACGCGGA ACGAGTCCGT 
    GACCGGAGCG TGCTGGAGAA GGAGAGAGCA TGTGCAGAGC AGATAATTGC CAAAATTGAA 
    GAAGTTCTGG TGTCATCTCA ACCTTTGGAA GAGGATAAGA GTTCCACCAT GCAGTATGTG 
    ATTCTCACCT ACATGAAATA TTTGGGGGTG AGAGTCAAAG AGCCCCGGAG TCTGGAGCAG 
    AAGCGTGGAC GTATTGGTTT CCTGCCAAAG ATTAAGCAAA GTATAAAGAA AGAGAAAGAA 
    GGGGAGGAAA AGGTGAAGAG GAGAGGTTTC CCTAGCATCC TGGGGCCGCC GAGAAGACCG 
    AGTCGCCATG ACAGTAGTGC AATTGGCAGA GCCATGGAAA TGCAGAAGCA GCGTCATCCA 
    AAGTACTTAT CCACAACCTC TTCTGTTAGC CCAGAGCCAC CAGACTCTGG CAAAACACGC 
    CAGAGTGGAT CTTCCAGCGA TGGCACAGAT GTAGCATACC CAACTGCTAA TCCTATGTCT 
    CCCCTGACTT CGGGACCTTT TACCTCCCTG GAGGCAAGCA AAGATAGTGA GACAGGTCCC 
    AAGCAGACTG GAGAAGTTCC ACCGTCTAGT GACTCTGTGG ATGGCACCCC CCGCACACCT 
    AATGCCACCT TTGACTTCCC TTCCCCACCC CTGGACCACT TGCAGGAAGA GGAGGGAGAA 
    CTTGAGAGAA CAGCTGAGTT GGGAACACCA AAACCTTTCC GCAAGATGGA GAGCATGGGC 
    TATGGAGATG TCCAAAGTGA GGATGAACTG TATGATTTTG ATACAGACAC CGATCCTCCC 
    AACTGGCAGC AGCTTGTGAG TCGAGAGTTG CTGCTGGGGC TGAAACCGTT TGAAATCAAA 
    CGCCAAGAAG TGATTAACGA GCTGTTTTAC ACAGAGCGAG CTCATGTCCG CACGCTGAAG 
    GTTCTGCATC AGGTCTTCTA CCAGCGTGTC TCCCGTGAAG GGATCCTCAC TCCCTCAGAT 
    CTGCGGAAGA TCTTTTCCAA CCTGGAGGAC ATCCTTCTGC TCCATACCGG CTTGAATGAC 
    CAGATGAAAA GTGTCCGAAA AAGGAATGAG ACATCAGTTA TTGATCAGAT TGGAGAGGAC 
    TTACTAACTT GGTTCAGCGG ACCAGGAGAG GAGAACCTGA AACATGCAGC AGCCACCTTC 
    TGTAGTAACC AGCCCTTTGC TTTAGAGGTG ATCAAATCAC GGCAGAAGAA GGACTCGCGC 
    TTCCAGACCT TTGTGCAGGA TGCCGAGAGT AATCCGCTGT GTCGCCGGTT GCAATTGAAG 
    GATATCATTC CCACTGAGAT GCAGAGACTG ACTAAATACC CCCTTCTGTT GGATAGTATT 
    GCTAAGTATT CAGAACTGCC TGAGGAGAAG GAGAAAGTGA AGAAAGCAGC GGATCACTGC 
    CGTCAAATCC TTAACTATGT GAACCAAGCT GTCAAAGAGT CGGAGAACAA GCAGCATTTA 
    GAAGATTATC AGCGTCGTCT CGACCTATCT TATCTGAAGC AGGCAGAAGA CCCTATGCTG 
    GATGAGTTTC GGAATTTGGA TTTAACCAAG CGGAAGATGA TTCACGAAGG ACCTCTGACT 
    TGGAAGGTGA ATCGGGACAA AACTATAGAT CTCTACACCT TGCTCTTGGA GGATATTCTG 
    GTGCTGTTGC AAAAGCAAGA TGACAAACTG GTGCTGCGGT GTCACAGTAA GATCCTGGCA 
    TCTACTGCTG ACAGCAAGCA CATATTCAGC CCTGTGATCA AGCTGAACAC TGTGCTAGTT 
    CGCCAGGTGG CAACAGATAA CAAAGCTTTC TTTGTCATCT CCATGTCAGA AAATGGCGCC 
    CATATTTATG AACTAGTGGC ACAGACCGTT TCGGAAAAAA ACGCATGGCA GGACCTGATA 
    GCTCAGATGG CAGGGACAGT GAAAGCCGAG GCTTCCACCA GAAGGGTGAT ACCATTACCG 
    CAGCCAGGGC CTGGCGAAGA AGAGCGTGAG GAAGAGGAGC AGAAGTTGAA AGACGAGCAG 
    CCTGATATTC CAGCCAGCAG CATGCAGAGT CCAGATAAAG AGTTGGGCCT TGAGCCTTCC 
    CTCATACTGA AGACCCAGTC TCCTTCAGCT GTTATGTCGG AGAAGTCTGA AGTAGAAGAT 
    CTCCTCGTGA CAGAGAGGCA GTTTGACAAA GAGCAGCAGG AAGACGAGCT TGTGCTCAAA 
    GACTCCTCCG CGTGCTACGA ACAAGCGACC GCAGACGTGC CTTGCGGGGT GTCAGAAGGG 
    CGGTGGGCAC TGGATGCGTT AAGGAGCTTG GGCTTGTTGA AACAGTTGTT GGTGCAGCAG 
    CTTGGCTTGT CAGAGAAGAG GACCCTTGAA GACTGGCAGC ATTTTCCCAG GTTTAGGACA 
    GCTTCCCAAG GTGCTTGGGC AGAAAGTGGA AACCAGGGTG GACTGCAGCA CTCTGATAAT 
    AACAAGATGC ACCAGCCTGG AGTGGACCGG ATGCCTGTCA GACCTGGAAC TAGTGAACCC 
    GCAGCTTGTT ATGGTATCCG GACTTCAGCT GAATTCCCAG CTTCACAGGA TGCCGTGCAG 
    CTGGTATCTA GAGACGCCAG GTCAGGTAAT AATGTAGTAA TGGACCTTGT AAGCATGAAC 
    GTGGAGACCC CGCTCATGGA GCTGGAAGGA GTGGGTCCTG ATGACAATGG AGAGCACTTC 
    TTTGATGCCC GCGAGGCCCA CAGCGACGAC ATCCCATCCG AAGGAGAAGT GACGGAAAGG 
    AAGGAGGATG AGGAGGTGCA GTTACGGATC TCAGGAAATT ATTTGATCCT TGACGGATAT 
    GGAACGGTGC AGGAAAGCTC CACGGACGAT GAGGTGTCTT CGCTAGTCCT ACAGTGCACT 
    GCAGGCAGCA CCTCTCTGGA CACGGCGCAG CAGCAACACG TTTCCCCCAG GGAGGCCCAG 
    TCAGACGGGG GGAGCTCCCT GTTTGCTGAG TTCATGGCCT CCCGCTGGGC GGCTGTGGAG 
    GAGTCCAGCT CCGGAGCACC AAGCCCCCCC TTCTCCGTAG AGTCACGTAT CCAGATGATG 
    CAGTACATTC ACAAGATCGA GGCTGACCTT GAACACTTAA AGGAGATCGA GGAAAATTAT 
    GCCACTCTCC TTCGCCAAAG GCTGGCTGGA TCAGCCCCCA CAGATGAGCA CTCAGACACC 
    GAAGTCTCCT CTCCCACTGT CATCCCCTGC TGCTTCCATA GAAATCCATG A

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

    RefSeq XP_014373896.1
    CDS257..4627
    Translation

    Target ORF information:

    RefSeq Version XM_014518410.1
    Organism Alligator sinensis(Chinese alligator)
    Definition Alligator sinensis Rho guanine nucleotide exchange factor (GEF) 12 (ARHGEF12), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014518410.1

    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
    ATGCGGGCTG GAGTTCAGAC GGGTGATCGA ATTATCAAGG TGAATGGGAC TCTTGTAACG 
    CACTCAAACC ATTTGGAAGT GGTCAAGCTG ATCAAGTCGG GTTCCTATGT AGCTCTCACT 
    GTGCAGGGGC GCCCACCAGG GTCGCCCCAG ATTCCGTTAG CTGATTCCGA AGTGGATCCG 
    GCAGCATTCG GGCATATGTC ACCCATCATG ACCTCTCCTC ATTCGCCTGG CACGTTTGGA 
    AACGCAGAAA GGATTACCAG CCCGGTATTA ATGGGGGAGG AGAACAATAT TGTTCACAAC 
    CAGAAAGTGG AGATTCTGAG AAAGATGTTG CAAAAGGAAC AAGAGCAGCT GCAGTCCTTG 
    CAGGAAGATT ACAGCCGAAC ACCAACCCCA CGACTGCTCA AGGAGATTCA GGAAGCCAAG 
    AAACACATCC CTCAGCTGCA GGAGCAACTG TCCAAAGCCA CAGGCTCTCC TCAGGATGGA 
    GTTTTGTCCT CCCGATTAGT GGCTGAGTCT CTGCAGATCA GTGAAGTTGA GACGGAGAGT 
    GGGGAAGGGC TGAGCAAAAT TGAGTCAAGT GGTGATGGCT CCCGGCCAAA CAGTGACATT 
    GCTGATAGTC CTCGGAGTGG CCTGAAGGAG CGAGTTTACC TGGATGAGAG CCCAGAGAAG 
    AGCGAAATTC AGGATACTGA TTCACAGTCC AGTGTTGGGA GCCCCTCCTC CCGCGTGGCA 
    CCTCAGATCA TCGGAGCAGA GGATGACGAC TTTGACACTG AACACGAGCA GATTAATGGG 
    CAGTGCAGCT GTTTCCAAAA CATGGAGCTG TTGAAGTCTC GCCCAGCTCA TCTAGCTGTG 
    TTCCTGCATC ACGTGGTGTC CCAGTTTGAC CCTGCAGCCT TGCTCTGCTA TCTCTATGCG 
    GACTTGTACA AACAGACCAA CTCCAAAGAG ACTCGTCGTG TCTTCCTTGA GTTTAACCAG 
    TTCTTCCTGG ACCGAGCTGC GAACCTGAAG GTCCCAGTTC CAGATGAAGT TTCTGTAGAT 
    CTAGAAAAGA GGCGGCCAGA ACTCATTCCA GAAGAGCTGC ACCGCCATTA CATCCTAACT 
    ATGCAAGATA AAGTCCTTCC AGAGGTCCAG AGGAATTTGG AAGACTTCAG ACAGAAACGT 
    AGCATGGGCC TGACCTTGGC AGAGGGCGAA CTGACTAAGC TGGACGCGGA ACGAGTCCGT 
    GACCGGAGCG TGCTGGAGAA GGAGAGAGCA TGTGCAGAGC AGATAATTGC CAAAATTGAA 
    GAAGTTCTGG TGTCATCTCA ACCTTTGGAA GAGGATAAGA GTTCCACCAT GCAGTATGTG 
    ATTCTCACCT ACATGAAATA TTTGGGGGTG AGAGTCAAAG AGCCCCGGAG TCTGGAGCAG 
    AAGCGTGGAC GTATTGGTTT CCTGCCAAAG ATTAAGCAAA GTATAAAGAA AGAGAAAGAA 
    GGGGAGGAAA AGGTGAAGAG GAGAGGTTTC CCTAGCATCC TGGGGCCGCC GAGAAGACCG 
    AGTCGCCATG ACAGTAGTGC AATTGGCAGA GCCATGGAAA TGCAGAAGCA GCGTCATCCA 
    AAGTACTTAT CCACAACCTC TTCTGTTAGC CCAGAGCCAC CAGACTCTGG CAAAACACGC 
    CAGAGTGGAT CTTCCAGCGA TGGCACAGAT GTAGCATACC CAACTGCTAA TCCTATGTCT 
    CCCCTGACTT CGGGACCTTT TACCTCCCTG GAGGCAAGCA AAGATAGTGA GACAGGTCCC 
    AAGCAGACTG GAGAAGTTCC ACCGTCTAGT GACTCTGTGG ATGGCACCCC CCGCACACCT 
    AATGCCACCT TTGACTTCCC TTCCCCACCC CTGGACCACT TGCAGGAAGA GGAGGGAGAA 
    CTTGAGAGAA CAGCTGAGTT GGGAACACCA AAACCTTTCC GCAAGATGGA GAGCATGGGC 
    TATGGAGATG TCCAAAGTGA GGATGAACTG TATGATTTTG ATACAGACAC CGATCCTCCC 
    AACTGGCAGC AGCTTGTGAG TCGAGAGTTG CTGCTGGGGC TGAAACCGTT TGAAATCAAA 
    CGCCAAGAAG TGATTAACGA GCTGTTTTAC ACAGAGCGAG CTCATGTCCG CACGCTGAAG 
    GTTCTGCATC AGGTCTTCTA CCAGCGTGTC TCCCGTGAAG GGATCCTCAC TCCCTCAGAT 
    CTGCGGAAGA TCTTTTCCAA CCTGGAGGAC ATCCTTCTGC TCCATACCGG CTTGAATGAC 
    CAGATGAAAA GTGTCCGAAA AAGGAATGAG ACATCAGTTA TTGATCAGAT TGGAGAGGAC 
    TTACTAACTT GGTTCAGCGG ACCAGGAGAG GAGAACCTGA AACATGCAGC AGCCACCTTC 
    TGTAGTAACC AGCCCTTTGC TTTAGAGGTG ATCAAATCAC GGCAGAAGAA GGACTCGCGC 
    TTCCAGACCT TTGTGCAGGA TGCCGAGAGT AATCCGCTGT GTCGCCGGTT GCAATTGAAG 
    GATATCATTC CCACTGAGAT GCAGAGACTG ACTAAATACC CCCTTCTGTT GGATAGTATT 
    GCTAAGTATT CAGAACTGCC TGAGGAGAAG GAGAAAGTGA AGAAAGCAGC GGATCACTGC 
    CGTCAAATCC TTAACTATGT GAACCAAGCT GTCAAAGAGT CGGAGAACAA GCAGCATTTA 
    GAAGATTATC AGCGTCGTCT CGACCTATCT TATCTGAAGC AGGCAGAAGA CCCTATGCTG 
    GATGAGTTTC GGAATTTGGA TTTAACCAAG CGGAAGATGA TTCACGAAGG ACCTCTGACT 
    TGGAAGGTGA ATCGGGACAA AACTATAGAT CTCTACACCT TGCTCTTGGA GGATATTCTG 
    GTGCTGTTGC AAAAGCAAGA TGACAAACTG GTGCTGCGGT GTCACAGTAA GATCCTGGCA 
    TCTACTGCTG ACAGCAAGCA CATATTCAGC CCTGTGATCA AGCTGAACAC TGTGCTAGTT 
    CGCCAGGTGG CAACAGATAA CAAAGCTTTC TTTGTCATCT CCATGTCAGA AAATGGCGCC 
    CATATTTATG AACTAGTGGC ACAGACCGTT TCGGAAAAAA ACGCATGGCA GGACCTGATA 
    GCTCAGATGG CAGGGACAGT GAAAGCCGAG GCTTCCACCA GAAGGGTGAT ACCATTACCG 
    CAGCCAGGGC CTGGCGAAGA AGAGCGTGAG GAAGAGGAGC AGAAGTTGAA AGACGAGCAG 
    CCTGATATTC CAGCCAGCAG CATGCAGAGT CCAGATAAAG AGTTGGGCCT TGAGCCTTCC 
    CTCATACTGA AGACCCAGTC TCCTTCAGCT GTTATGTCGG AGAAGTCTGA AGTAGAAGAT 
    CTCCTCGTGA CAGAGAGGCA GTTTGACAAA GAGCAGCAGG AAGACGAGCT TGTGCTCAAA 
    GACTCCTCCG CGTGCTACGA ACAAGCGACC GCAGACGTGC CTTGCGGGGT GTCAGAAGGG 
    CGGTGGGCAC TGGATGCGTT AAGGAGCTTG GGCTTGTTGA AACAGTTGTT GGTGCAGCAG 
    CTTGGCTTGT CAGAGAAGAG GACCCTTGAA GACTGGCAGC ATTTTCCCAG GTTTAGGACA 
    GCTTCCCAAG GTGCTTGGGC AGAAAGTGGA AACCAGGGTG GACTGCAGCA CTCTGATAAT 
    AACAAGATGC ACCAGCCTGG AGTGGACCGG ATGCCTGTCA GACCTGGAAC TAGTGAACCC 
    GCAGCTTGTT ATGGTATCCG GACTTCAGCT GAATTCCCAG CTTCACAGGA TGCCGTGCAG 
    CTGGTATCTA GAGACGCCAG GTCAGGTAAT AATGTAGTAA TGGACCTTGT AAGCATGAAC 
    GTGGAGACCC CGCTCATGGA GCTGGAAGGA GTGGGTCCTG ATGACAATGG AGAGCACTTC 
    TTTGATGCCC GCGAGGCCCA CAGCGACGAC ATCCCATCCG AAGGAGAAGT GACGGAAAGG 
    AAGGAGGATG AGGAGGTGCA GTTACGGATC TCAGGAAATT ATTTGATCCT TGACGGATAT 
    GGAACGGTGC AGGAAAGCTC CACGGACGAT GAGGTGTCTT CGCTAGTCCT ACAGTGCACT 
    GCAGGCAGCA CCTCTCTGGA CACGGCGCAG CAGCAACACG TTTCCCCCAG GGAGGCCCAG 
    TCAGACGGGG GGAGCTCCCT GTTTGCTGAG TTCATGGCCT CCCGCTGGGC GGCTGTGGAG 
    GAGTCCAGCT CCGGAGCACC AAGCCCCCCC TTCTCCGTAG AGTCACGTAT CCAGATGATG 
    CAGTACATTC ACAAGATCGA GGCTGACCTT GAACACTTAA AGGAGATCGA GGAAAATTAT 
    GCCACTCTCC TTCGCCAAAG GCTGGCTGGA TCAGCCCCCA CAGATGAGCA CTCAGACACC 
    GAAGTCTCCT CTCCCACTGT CATCCCCTGC TGCTTCCATA GAAATCCATG A

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

    ARHGEF12 ( XM_025200035.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025055820.1 Alligator sinensis Rho guanine nucleotide exchange factor 12 (ARHGEF12), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAl84334
    Clone ID Related Accession (Same CDS sequence) XM_025200035.1 , XM_025200034.1
    Accession Version XM_025200035.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4386bp)
    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 2018-06-03
    Organism Alligator sinensis(Chinese alligator)
    Product rho guanine nucleotide exchange factor 12 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005841952.1) 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 Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGCGGGCTG GAGTTCAGAC GGGTGATCGA ATTATCAAGG TGAATGGGAC TCTTGTAACG 
    CACTCAAACC ATTTGGAAGT GGTCAAGCTG ATCAAGTCGG GTTCCTATGT AGCTCTCACT 
    GTGCAGGGGC GCCCACCAGG GTCGCCCCAG ATTCCGTTAG CTGATTCCGA AGTGGATCCG 
    GCAGCATTCG GGCATATGTC ACCCATCATG ACCTCTCCTC ATTCGCCTGG CACGTTTGGA 
    AACGCAGAAA GGATTACCAG CCCGGTATTA ATGGGGGAGG AGAACAATAT TGTTCACAAC 
    CAGAAAGTGG AGATTCTGAG AAAGATGTTG CAAAAGGAAC AAGAGCAGCT GCAGTCCTTG 
    CAGGAAGATT ACAGCCGAAC ACCAACCCCA CGACTGCTCA AGGAGATTCA GGAAGCCAAG 
    AAACACATCC CTCAGCTGCA GGAGCAACTG TCCAAAGCCA CAGGCTCTCC TCAGGATGGA 
    GTTTTGTCCT CCCGATTAGT GGCTGAGTCT CTGCAGATCA GTGAAGTTGA GACGGAGAGT 
    GGGGAAGGGC TGAGCAAAAT TGAGTCAAGT GGTGATGGCT CCCGGCCAAA CAGTGACATT 
    GCTGATAGTC CTCGGAGTGG CCTGAAGGAG CGAGTTTACC TGGATGAGAG CCCAGAGAAG 
    AGCGAAATTC AGGATACTGA TTCACAGTCC AGTGTTGGGA GCCCCTCCTC CCGCGTGGCA 
    CCTCAGATCA TCGGAGCAGA GGATGACGAC TTTGACACTG AACACGAGCA GATTAATGGG 
    CAGTGCAGCT GTTTCCAAAA CATGGAGCTG TTGAAGTCTC GCCCAGCTCA TCTAGCTGTG 
    TTCCTGCATC ACGTGGTGTC CCAGTTTGAC CCTGCAGCCT TGCTCTGCTA TCTCTATGCG 
    GACTTGTACA AACAGACCAA CTCCAAAGAG ACTCGTCGTG TCTTCCTTGA GTTTAACCAG 
    TTCTTCCTGG ACCGAGCTGC GAACCTGAAG GTCCCAGTTC CAGATGAAGT TTCTGTAGAT 
    CTAGAAAAGA GGCGGCCAGA ACTCATTCCA GAAGAGCTGC ACCGCCATTA CATCCTAACT 
    ATGCAAGATA AAGTCCTTCC AGAGGTCCAG AGGAATTTGG AAGACTTCAG ACAGAAACGT 
    AGCATGGGCC TGACCTTGGC AGAGGGCGAA CTGACTAAGC TGGACGCGGA ACGAGTCCGT 
    GACCGGAGCG TGCTGGAGAA GGAGAGAGCA TGTGCAGAGC AGATAATTGC CAAAATTGAA 
    GAAGTTCTGT GGATTGCCAT CAATATGATG ATGACCAGGA GAAAACCATC AGAGAGAAAT 
    ATCCCCAGGG TGTCATCTCA ACCTTTGGAA GAGGATAAGA GTTCCACCAT GCAGTATGTG 
    ATTCTCACCT ACATGAAATA TTTGGGGGTG AGAGTCAAAG AGCCCCGGAG TCTGGAGCAG 
    AAGCGTGGAC GTATTGGTTT CCTGCCAAAG ATTAAGCAAA GTATAAAGAA AGAGAAAGAA 
    GGGGAGGAAA AGGTGAAGAG GAGAGGTTTC CCTAGCATCC TGGGGCCGCC GAGAAGACCG 
    AGTCGCCATG ACAGTAGTGC AATTGGCAGA GCCATGGAAA TGCAGAAGCA GCGTCATCCA 
    AAGTACTTAT CCACAACCTC TTCTGTTAGC CCAGAGCCAC CAGACTCTGG CAAAACACGC 
    CAGAGTGGAT CTTCCAGCGA TGGCACAGAT GTAGCATACC CAACTGCTAA TCCTATGTCT 
    CCCCTGACTT CGGGACCTTT TACCTCCCTG GAGGCAAGCA AAGATAGTGA GACAGGTCCC 
    AAGCAGACTG GAGAAGTTCC ACCGTCTAGT GACTCTGTGG ATGGCACCCC CCGCACACCT 
    AATGCCACCT TTGACTTCCC TTCCCCACCC CTGGACCACT TGCAGGAAGA GGAGGGAGAA 
    CTTGAGAGAA CAGCTGAGTT GGGAACACCA AAACCTTTCC GCAAGATGGA GAGCATGGGC 
    TATGGAGATG TCCAAAGTGA GGATGAACTG TATGATTTTG ATACAGACAC CGATCCTCCC 
    AACTGGCAGC AGCTTGTGAG TCGAGAGTTG CTGCTGGGGC TGAAACCGTT TGAAATCAAA 
    CGCCAAGAAG TGATTAACGA GCTGTTTTAC ACAGAGCGAG CTCATGTCCG CACGCTGAAG 
    GTTCTGCATC AGGTCTTCTA CCAGCGTGTC TCCCGTGAAG GGATCCTCAC TCCCTCAGAT 
    CTGCGGAAGA TCTTTTCCAA CCTGGAGGAC ATCCTTCTGC TCCATACCGG CTTGAATGAC 
    CAGATGAAAA GTGTCCGAAA AAGGAATGAG ACATCAGTTA TTGATCAGAT TGGAGAGGAC 
    TTACTAACTT GGTTCAGCGG ACCAGGAGAG GAGAACCTGA AACATGCAGC AGCCACCTTC 
    TGTAGTAACC AGCCCTTTGC TTTAGAGGTG ATCAAATCAC GGCAGAAGAA GGACTCGCGC 
    TTCCAGACCT TTGTGCAGGA TGCCGAGAGT AATCCGCTGT GTCGCCGGTT GCAATTGAAG 
    GATATCATTC CCACTGAGAT GCAGAGACTG ACTAAATACC CCCTTCTGTT GGATAGTATT 
    GCTAAGTATT CAGAACTGCC TGAGGAGAAG GAGAAAGTGA AGAAAGCAGC GGATCACTGC 
    CGTCAAATCC TTAACTATGT GAACCAAGCT GTCAAAGAGT CGGAGAACAA GCAGCATTTA 
    GAAGATTATC AGCGTCGTCT CGACCTATCT TATCTGAAGC AGGCAGAAGA CCCTATGCTG 
    GATGAGTTTC GGAATTTGGA TTTAACCAAG CGGAAGATGA TTCACGAAGG ACCTCTGACT 
    TGGAAGGTGA ATCGGGACAA AACTATAGAT CTCTACACCT TGCTCTTGGA GGATATTCTG 
    GTGCTGTTGC AAAAGCAAGA TGACAAACTG GTGCTGCGGT GTCACAGTAA GATCCTGGCA 
    TCTACTGCTG ACAGCAAGCA CATATTCAGC CCTGTGATCA AGCTGAACAC TGTGCTAGTT 
    CGCCAGGTGG CAACAGATAA CAAAGCTTTC TTTGTCATCT CCATGTCAGA AAATGGCGCC 
    CATATTTATG AACTAGTGGC ACAGACCGTT TCGGAAAAAA ACGCATGGCA GGACCTGATA 
    GCTCAGATGG CAGGGACAGT GAAAGCCGAG GCTTCCACCA GAAGGGTGAT ACCATTACCG 
    CAGCCAGGGC CTGGCGAAGA AGAGCGTGAG GAAGAGGAGC AGAAGTTGAA AGACGAGCAG 
    CCTGATATTC CAGCCAGCAG CATGCAGAGT CCAGATAAAG AGTTGGGCCT TGAGCCTTCC 
    CTCATACTGA AGACCCAGTC TCCTTCAGCT GTTATGTCGG AGAAGTCTGA AGTAGAAGAT 
    CTCCTCGTGA CAGAGAGGCA GTTTGACAAA GAGCAGCAGG AAGACGAGCT TGTGCTCAAA 
    GACTCCTCCG CGTGCTACGA ACAAGCGACC GCAGACGTGC CTTGCGGGGT GTCAGAAGGG 
    CGGTGGGCAC TGGATGCGTT AAGGAGCTTG GGCTTGTTGA AACAGTTGTT GGTGCAGCAG 
    CTTGGCTTGT CAGAGAAGAG GACCCTTGAA GACTGGCAGC ATTTTCCCAG GTTTAGGACA 
    GCTTCCCAAG GTGCTTGGGC AGAAAGTGGA AACCAGGGTG GACTGCAGCA CTCTGATAAT 
    AACAAGATGC ACCAGCCTGG AGTGGACCGG ATGCCTGTCA GACCTGGAAC TAGTGAACCC 
    GCAGCTTGTT ATGGTATCCG GACTTCAGCT GAATTCCCAG CTTCACAGGA TGCCGTGCAG 
    CTGGTATCTA GAGACGCCAG GTCAGGTAAT AATGTAGTAA TGGACCTTGT AAGCATGAAC 
    GTGGAGACCC CGCTCATGGA GCTGGAAGGA GTGGGTCCTG ATGACAATGG AGAGCACTTC 
    TTTGATGCCC GCGAGGCCCA CAGCGACGAC ATCCCATCCG AAGGAGAAGT GACGGAAAGG 
    AAGGAGGATG AGGAGGTGCA GTTACGGATC TCAGGAAATT ATTTGATCCT TGACGGATAT 
    GGAACGGTGC AGGAAAGCTC CACGGACGAT GAGGTGTCTT CGCTAGTCCT ACAGTGCACT 
    GCAGGCAGCA CCTCTCTGGA CACGGCGCAG CAGCAACACG TTTCCCCCAG GGAGGCCCAG 
    TCAGACGGGG GGAGCTCCCT GTTTGCTGAG TTCATGGCCT CCCGCTGGGC GGCTGTGGAG 
    GAGTCCAGCT CCGGAGCACC AAGCCCCCCC TTCTCCGTAG AGTCACGTAT CCAGATGATG 
    CAGTACATTC ACAAGATCGA GGCTGACCTT GAACACTTAA AGGAGATCGA GGAAAATTAT 
    GCCACTCTCC TTCGCCAAAG GCTGGCTGGA TCAGCCCCCA CAGATGAGCA CTCAGACAAA 
    AGTTAG

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

    RefSeq XP_025055820.1
    CDS217..4602
    Translation

    Target ORF information:

    RefSeq Version XM_025200035.1
    Organism Alligator sinensis(Chinese alligator)
    Definition Alligator sinensis Rho guanine nucleotide exchange factor 12 (ARHGEF12), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_025200035.1

    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
    ATGCGGGCTG GAGTTCAGAC GGGTGATCGA ATTATCAAGG TGAATGGGAC TCTTGTAACG 
    CACTCAAACC ATTTGGAAGT GGTCAAGCTG ATCAAGTCGG GTTCCTATGT AGCTCTCACT 
    GTGCAGGGGC GCCCACCAGG GTCGCCCCAG ATTCCGTTAG CTGATTCCGA AGTGGATCCG 
    GCAGCATTCG GGCATATGTC ACCCATCATG ACCTCTCCTC ATTCGCCTGG CACGTTTGGA 
    AACGCAGAAA GGATTACCAG CCCGGTATTA ATGGGGGAGG AGAACAATAT TGTTCACAAC 
    CAGAAAGTGG AGATTCTGAG AAAGATGTTG CAAAAGGAAC AAGAGCAGCT GCAGTCCTTG 
    CAGGAAGATT ACAGCCGAAC ACCAACCCCA CGACTGCTCA AGGAGATTCA GGAAGCCAAG 
    AAACACATCC CTCAGCTGCA GGAGCAACTG TCCAAAGCCA CAGGCTCTCC TCAGGATGGA 
    GTTTTGTCCT CCCGATTAGT GGCTGAGTCT CTGCAGATCA GTGAAGTTGA GACGGAGAGT 
    GGGGAAGGGC TGAGCAAAAT TGAGTCAAGT GGTGATGGCT CCCGGCCAAA CAGTGACATT 
    GCTGATAGTC CTCGGAGTGG CCTGAAGGAG CGAGTTTACC TGGATGAGAG CCCAGAGAAG 
    AGCGAAATTC AGGATACTGA TTCACAGTCC AGTGTTGGGA GCCCCTCCTC CCGCGTGGCA 
    CCTCAGATCA TCGGAGCAGA GGATGACGAC TTTGACACTG AACACGAGCA GATTAATGGG 
    CAGTGCAGCT GTTTCCAAAA CATGGAGCTG TTGAAGTCTC GCCCAGCTCA TCTAGCTGTG 
    TTCCTGCATC ACGTGGTGTC CCAGTTTGAC CCTGCAGCCT TGCTCTGCTA TCTCTATGCG 
    GACTTGTACA AACAGACCAA CTCCAAAGAG ACTCGTCGTG TCTTCCTTGA GTTTAACCAG 
    TTCTTCCTGG ACCGAGCTGC GAACCTGAAG GTCCCAGTTC CAGATGAAGT TTCTGTAGAT 
    CTAGAAAAGA GGCGGCCAGA ACTCATTCCA GAAGAGCTGC ACCGCCATTA CATCCTAACT 
    ATGCAAGATA AAGTCCTTCC AGAGGTCCAG AGGAATTTGG AAGACTTCAG ACAGAAACGT 
    AGCATGGGCC TGACCTTGGC AGAGGGCGAA CTGACTAAGC TGGACGCGGA ACGAGTCCGT 
    GACCGGAGCG TGCTGGAGAA GGAGAGAGCA TGTGCAGAGC AGATAATTGC CAAAATTGAA 
    GAAGTTCTGT GGATTGCCAT CAATATGATG ATGACCAGGA GAAAACCATC AGAGAGAAAT 
    ATCCCCAGGG TGTCATCTCA ACCTTTGGAA GAGGATAAGA GTTCCACCAT GCAGTATGTG 
    ATTCTCACCT ACATGAAATA TTTGGGGGTG AGAGTCAAAG AGCCCCGGAG TCTGGAGCAG 
    AAGCGTGGAC GTATTGGTTT CCTGCCAAAG ATTAAGCAAA GTATAAAGAA AGAGAAAGAA 
    GGGGAGGAAA AGGTGAAGAG GAGAGGTTTC CCTAGCATCC TGGGGCCGCC GAGAAGACCG 
    AGTCGCCATG ACAGTAGTGC AATTGGCAGA GCCATGGAAA TGCAGAAGCA GCGTCATCCA 
    AAGTACTTAT CCACAACCTC TTCTGTTAGC CCAGAGCCAC CAGACTCTGG CAAAACACGC 
    CAGAGTGGAT CTTCCAGCGA TGGCACAGAT GTAGCATACC CAACTGCTAA TCCTATGTCT 
    CCCCTGACTT CGGGACCTTT TACCTCCCTG GAGGCAAGCA AAGATAGTGA GACAGGTCCC 
    AAGCAGACTG GAGAAGTTCC ACCGTCTAGT GACTCTGTGG ATGGCACCCC CCGCACACCT 
    AATGCCACCT TTGACTTCCC TTCCCCACCC CTGGACCACT TGCAGGAAGA GGAGGGAGAA 
    CTTGAGAGAA CAGCTGAGTT GGGAACACCA AAACCTTTCC GCAAGATGGA GAGCATGGGC 
    TATGGAGATG TCCAAAGTGA GGATGAACTG TATGATTTTG ATACAGACAC CGATCCTCCC 
    AACTGGCAGC AGCTTGTGAG TCGAGAGTTG CTGCTGGGGC TGAAACCGTT TGAAATCAAA 
    CGCCAAGAAG TGATTAACGA GCTGTTTTAC ACAGAGCGAG CTCATGTCCG CACGCTGAAG 
    GTTCTGCATC AGGTCTTCTA CCAGCGTGTC TCCCGTGAAG GGATCCTCAC TCCCTCAGAT 
    CTGCGGAAGA TCTTTTCCAA CCTGGAGGAC ATCCTTCTGC TCCATACCGG CTTGAATGAC 
    CAGATGAAAA GTGTCCGAAA AAGGAATGAG ACATCAGTTA TTGATCAGAT TGGAGAGGAC 
    TTACTAACTT GGTTCAGCGG ACCAGGAGAG GAGAACCTGA AACATGCAGC AGCCACCTTC 
    TGTAGTAACC AGCCCTTTGC TTTAGAGGTG ATCAAATCAC GGCAGAAGAA GGACTCGCGC 
    TTCCAGACCT TTGTGCAGGA TGCCGAGAGT AATCCGCTGT GTCGCCGGTT GCAATTGAAG 
    GATATCATTC CCACTGAGAT GCAGAGACTG ACTAAATACC CCCTTCTGTT GGATAGTATT 
    GCTAAGTATT CAGAACTGCC TGAGGAGAAG GAGAAAGTGA AGAAAGCAGC GGATCACTGC 
    CGTCAAATCC TTAACTATGT GAACCAAGCT GTCAAAGAGT CGGAGAACAA GCAGCATTTA 
    GAAGATTATC AGCGTCGTCT CGACCTATCT TATCTGAAGC AGGCAGAAGA CCCTATGCTG 
    GATGAGTTTC GGAATTTGGA TTTAACCAAG CGGAAGATGA TTCACGAAGG ACCTCTGACT 
    TGGAAGGTGA ATCGGGACAA AACTATAGAT CTCTACACCT TGCTCTTGGA GGATATTCTG 
    GTGCTGTTGC AAAAGCAAGA TGACAAACTG GTGCTGCGGT GTCACAGTAA GATCCTGGCA 
    TCTACTGCTG ACAGCAAGCA CATATTCAGC CCTGTGATCA AGCTGAACAC TGTGCTAGTT 
    CGCCAGGTGG CAACAGATAA CAAAGCTTTC TTTGTCATCT CCATGTCAGA AAATGGCGCC 
    CATATTTATG AACTAGTGGC ACAGACCGTT TCGGAAAAAA ACGCATGGCA GGACCTGATA 
    GCTCAGATGG CAGGGACAGT GAAAGCCGAG GCTTCCACCA GAAGGGTGAT ACCATTACCG 
    CAGCCAGGGC CTGGCGAAGA AGAGCGTGAG GAAGAGGAGC AGAAGTTGAA AGACGAGCAG 
    CCTGATATTC CAGCCAGCAG CATGCAGAGT CCAGATAAAG AGTTGGGCCT TGAGCCTTCC 
    CTCATACTGA AGACCCAGTC TCCTTCAGCT GTTATGTCGG AGAAGTCTGA AGTAGAAGAT 
    CTCCTCGTGA CAGAGAGGCA GTTTGACAAA GAGCAGCAGG AAGACGAGCT TGTGCTCAAA 
    GACTCCTCCG CGTGCTACGA ACAAGCGACC GCAGACGTGC CTTGCGGGGT GTCAGAAGGG 
    CGGTGGGCAC TGGATGCGTT AAGGAGCTTG GGCTTGTTGA AACAGTTGTT GGTGCAGCAG 
    CTTGGCTTGT CAGAGAAGAG GACCCTTGAA GACTGGCAGC ATTTTCCCAG GTTTAGGACA 
    GCTTCCCAAG GTGCTTGGGC AGAAAGTGGA AACCAGGGTG GACTGCAGCA CTCTGATAAT 
    AACAAGATGC ACCAGCCTGG AGTGGACCGG ATGCCTGTCA GACCTGGAAC TAGTGAACCC 
    GCAGCTTGTT ATGGTATCCG GACTTCAGCT GAATTCCCAG CTTCACAGGA TGCCGTGCAG 
    CTGGTATCTA GAGACGCCAG GTCAGGTAAT AATGTAGTAA TGGACCTTGT AAGCATGAAC 
    GTGGAGACCC CGCTCATGGA GCTGGAAGGA GTGGGTCCTG ATGACAATGG AGAGCACTTC 
    TTTGATGCCC GCGAGGCCCA CAGCGACGAC ATCCCATCCG AAGGAGAAGT GACGGAAAGG 
    AAGGAGGATG AGGAGGTGCA GTTACGGATC TCAGGAAATT ATTTGATCCT TGACGGATAT 
    GGAACGGTGC AGGAAAGCTC CACGGACGAT GAGGTGTCTT CGCTAGTCCT ACAGTGCACT 
    GCAGGCAGCA CCTCTCTGGA CACGGCGCAG CAGCAACACG TTTCCCCCAG GGAGGCCCAG 
    TCAGACGGGG GGAGCTCCCT GTTTGCTGAG TTCATGGCCT CCCGCTGGGC GGCTGTGGAG 
    GAGTCCAGCT CCGGAGCACC AAGCCCCCCC TTCTCCGTAG AGTCACGTAT CCAGATGATG 
    CAGTACATTC ACAAGATCGA GGCTGACCTT GAACACTTAA AGGAGATCGA GGAAAATTAT 
    GCCACTCTCC TTCGCCAAAG GCTGGCTGGA TCAGCCCCCA CAGATGAGCA CTCAGACAAA 
    AGTTAG

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

    ARHGEF12 ( XM_025200034.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025055819.1 Alligator sinensis Rho guanine nucleotide exchange factor 12 (ARHGEF12), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAl84334
    Clone ID Related Accession (Same CDS sequence) XM_025200035.1 , XM_025200034.1
    Accession Version XM_025200034.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4386bp)
    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 2018-06-03
    Organism Alligator sinensis(Chinese alligator)
    Product rho guanine nucleotide exchange factor 12 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005841952.1) 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 Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGCGGGCTG GAGTTCAGAC GGGTGATCGA ATTATCAAGG TGAATGGGAC TCTTGTAACG 
    CACTCAAACC ATTTGGAAGT GGTCAAGCTG ATCAAGTCGG GTTCCTATGT AGCTCTCACT 
    GTGCAGGGGC GCCCACCAGG GTCGCCCCAG ATTCCGTTAG CTGATTCCGA AGTGGATCCG 
    GCAGCATTCG GGCATATGTC ACCCATCATG ACCTCTCCTC ATTCGCCTGG CACGTTTGGA 
    AACGCAGAAA GGATTACCAG CCCGGTATTA ATGGGGGAGG AGAACAATAT TGTTCACAAC 
    CAGAAAGTGG AGATTCTGAG AAAGATGTTG CAAAAGGAAC AAGAGCAGCT GCAGTCCTTG 
    CAGGAAGATT ACAGCCGAAC ACCAACCCCA CGACTGCTCA AGGAGATTCA GGAAGCCAAG 
    AAACACATCC CTCAGCTGCA GGAGCAACTG TCCAAAGCCA CAGGCTCTCC TCAGGATGGA 
    GTTTTGTCCT CCCGATTAGT GGCTGAGTCT CTGCAGATCA GTGAAGTTGA GACGGAGAGT 
    GGGGAAGGGC TGAGCAAAAT TGAGTCAAGT GGTGATGGCT CCCGGCCAAA CAGTGACATT 
    GCTGATAGTC CTCGGAGTGG CCTGAAGGAG CGAGTTTACC TGGATGAGAG CCCAGAGAAG 
    AGCGAAATTC AGGATACTGA TTCACAGTCC AGTGTTGGGA GCCCCTCCTC CCGCGTGGCA 
    CCTCAGATCA TCGGAGCAGA GGATGACGAC TTTGACACTG AACACGAGCA GATTAATGGG 
    CAGTGCAGCT GTTTCCAAAA CATGGAGCTG TTGAAGTCTC GCCCAGCTCA TCTAGCTGTG 
    TTCCTGCATC ACGTGGTGTC CCAGTTTGAC CCTGCAGCCT TGCTCTGCTA TCTCTATGCG 
    GACTTGTACA AACAGACCAA CTCCAAAGAG ACTCGTCGTG TCTTCCTTGA GTTTAACCAG 
    TTCTTCCTGG ACCGAGCTGC GAACCTGAAG GTCCCAGTTC CAGATGAAGT TTCTGTAGAT 
    CTAGAAAAGA GGCGGCCAGA ACTCATTCCA GAAGAGCTGC ACCGCCATTA CATCCTAACT 
    ATGCAAGATA AAGTCCTTCC AGAGGTCCAG AGGAATTTGG AAGACTTCAG ACAGAAACGT 
    AGCATGGGCC TGACCTTGGC AGAGGGCGAA CTGACTAAGC TGGACGCGGA ACGAGTCCGT 
    GACCGGAGCG TGCTGGAGAA GGAGAGAGCA TGTGCAGAGC AGATAATTGC CAAAATTGAA 
    GAAGTTCTGT GGATTGCCAT CAATATGATG ATGACCAGGA GAAAACCATC AGAGAGAAAT 
    ATCCCCAGGG TGTCATCTCA ACCTTTGGAA GAGGATAAGA GTTCCACCAT GCAGTATGTG 
    ATTCTCACCT ACATGAAATA TTTGGGGGTG AGAGTCAAAG AGCCCCGGAG TCTGGAGCAG 
    AAGCGTGGAC GTATTGGTTT CCTGCCAAAG ATTAAGCAAA GTATAAAGAA AGAGAAAGAA 
    GGGGAGGAAA AGGTGAAGAG GAGAGGTTTC CCTAGCATCC TGGGGCCGCC GAGAAGACCG 
    AGTCGCCATG ACAGTAGTGC AATTGGCAGA GCCATGGAAA TGCAGAAGCA GCGTCATCCA 
    AAGTACTTAT CCACAACCTC TTCTGTTAGC CCAGAGCCAC CAGACTCTGG CAAAACACGC 
    CAGAGTGGAT CTTCCAGCGA TGGCACAGAT GTAGCATACC CAACTGCTAA TCCTATGTCT 
    CCCCTGACTT CGGGACCTTT TACCTCCCTG GAGGCAAGCA AAGATAGTGA GACAGGTCCC 
    AAGCAGACTG GAGAAGTTCC ACCGTCTAGT GACTCTGTGG ATGGCACCCC CCGCACACCT 
    AATGCCACCT TTGACTTCCC TTCCCCACCC CTGGACCACT TGCAGGAAGA GGAGGGAGAA 
    CTTGAGAGAA CAGCTGAGTT GGGAACACCA AAACCTTTCC GCAAGATGGA GAGCATGGGC 
    TATGGAGATG TCCAAAGTGA GGATGAACTG TATGATTTTG ATACAGACAC CGATCCTCCC 
    AACTGGCAGC AGCTTGTGAG TCGAGAGTTG CTGCTGGGGC TGAAACCGTT TGAAATCAAA 
    CGCCAAGAAG TGATTAACGA GCTGTTTTAC ACAGAGCGAG CTCATGTCCG CACGCTGAAG 
    GTTCTGCATC AGGTCTTCTA CCAGCGTGTC TCCCGTGAAG GGATCCTCAC TCCCTCAGAT 
    CTGCGGAAGA TCTTTTCCAA CCTGGAGGAC ATCCTTCTGC TCCATACCGG CTTGAATGAC 
    CAGATGAAAA GTGTCCGAAA AAGGAATGAG ACATCAGTTA TTGATCAGAT TGGAGAGGAC 
    TTACTAACTT GGTTCAGCGG ACCAGGAGAG GAGAACCTGA AACATGCAGC AGCCACCTTC 
    TGTAGTAACC AGCCCTTTGC TTTAGAGGTG ATCAAATCAC GGCAGAAGAA GGACTCGCGC 
    TTCCAGACCT TTGTGCAGGA TGCCGAGAGT AATCCGCTGT GTCGCCGGTT GCAATTGAAG 
    GATATCATTC CCACTGAGAT GCAGAGACTG ACTAAATACC CCCTTCTGTT GGATAGTATT 
    GCTAAGTATT CAGAACTGCC TGAGGAGAAG GAGAAAGTGA AGAAAGCAGC GGATCACTGC 
    CGTCAAATCC TTAACTATGT GAACCAAGCT GTCAAAGAGT CGGAGAACAA GCAGCATTTA 
    GAAGATTATC AGCGTCGTCT CGACCTATCT TATCTGAAGC AGGCAGAAGA CCCTATGCTG 
    GATGAGTTTC GGAATTTGGA TTTAACCAAG CGGAAGATGA TTCACGAAGG ACCTCTGACT 
    TGGAAGGTGA ATCGGGACAA AACTATAGAT CTCTACACCT TGCTCTTGGA GGATATTCTG 
    GTGCTGTTGC AAAAGCAAGA TGACAAACTG GTGCTGCGGT GTCACAGTAA GATCCTGGCA 
    TCTACTGCTG ACAGCAAGCA CATATTCAGC CCTGTGATCA AGCTGAACAC TGTGCTAGTT 
    CGCCAGGTGG CAACAGATAA CAAAGCTTTC TTTGTCATCT CCATGTCAGA AAATGGCGCC 
    CATATTTATG AACTAGTGGC ACAGACCGTT TCGGAAAAAA ACGCATGGCA GGACCTGATA 
    GCTCAGATGG CAGGGACAGT GAAAGCCGAG GCTTCCACCA GAAGGGTGAT ACCATTACCG 
    CAGCCAGGGC CTGGCGAAGA AGAGCGTGAG GAAGAGGAGC AGAAGTTGAA AGACGAGCAG 
    CCTGATATTC CAGCCAGCAG CATGCAGAGT CCAGATAAAG AGTTGGGCCT TGAGCCTTCC 
    CTCATACTGA AGACCCAGTC TCCTTCAGCT GTTATGTCGG AGAAGTCTGA AGTAGAAGAT 
    CTCCTCGTGA CAGAGAGGCA GTTTGACAAA GAGCAGCAGG AAGACGAGCT TGTGCTCAAA 
    GACTCCTCCG CGTGCTACGA ACAAGCGACC GCAGACGTGC CTTGCGGGGT GTCAGAAGGG 
    CGGTGGGCAC TGGATGCGTT AAGGAGCTTG GGCTTGTTGA AACAGTTGTT GGTGCAGCAG 
    CTTGGCTTGT CAGAGAAGAG GACCCTTGAA GACTGGCAGC ATTTTCCCAG GTTTAGGACA 
    GCTTCCCAAG GTGCTTGGGC AGAAAGTGGA AACCAGGGTG GACTGCAGCA CTCTGATAAT 
    AACAAGATGC ACCAGCCTGG AGTGGACCGG ATGCCTGTCA GACCTGGAAC TAGTGAACCC 
    GCAGCTTGTT ATGGTATCCG GACTTCAGCT GAATTCCCAG CTTCACAGGA TGCCGTGCAG 
    CTGGTATCTA GAGACGCCAG GTCAGGTAAT AATGTAGTAA TGGACCTTGT AAGCATGAAC 
    GTGGAGACCC CGCTCATGGA GCTGGAAGGA GTGGGTCCTG ATGACAATGG AGAGCACTTC 
    TTTGATGCCC GCGAGGCCCA CAGCGACGAC ATCCCATCCG AAGGAGAAGT GACGGAAAGG 
    AAGGAGGATG AGGAGGTGCA GTTACGGATC TCAGGAAATT ATTTGATCCT TGACGGATAT 
    GGAACGGTGC AGGAAAGCTC CACGGACGAT GAGGTGTCTT CGCTAGTCCT ACAGTGCACT 
    GCAGGCAGCA CCTCTCTGGA CACGGCGCAG CAGCAACACG TTTCCCCCAG GGAGGCCCAG 
    TCAGACGGGG GGAGCTCCCT GTTTGCTGAG TTCATGGCCT CCCGCTGGGC GGCTGTGGAG 
    GAGTCCAGCT CCGGAGCACC AAGCCCCCCC TTCTCCGTAG AGTCACGTAT CCAGATGATG 
    CAGTACATTC ACAAGATCGA GGCTGACCTT GAACACTTAA AGGAGATCGA GGAAAATTAT 
    GCCACTCTCC TTCGCCAAAG GCTGGCTGGA TCAGCCCCCA CAGATGAGCA CTCAGACAAA 
    AGTTAG

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

    RefSeq XP_025055819.1
    CDS281..4666
    Translation

    Target ORF information:

    RefSeq Version XM_025200034.1
    Organism Alligator sinensis(Chinese alligator)
    Definition Alligator sinensis Rho guanine nucleotide exchange factor 12 (ARHGEF12), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_025200034.1

    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
    ATGCGGGCTG GAGTTCAGAC GGGTGATCGA ATTATCAAGG TGAATGGGAC TCTTGTAACG 
    CACTCAAACC ATTTGGAAGT GGTCAAGCTG ATCAAGTCGG GTTCCTATGT AGCTCTCACT 
    GTGCAGGGGC GCCCACCAGG GTCGCCCCAG ATTCCGTTAG CTGATTCCGA AGTGGATCCG 
    GCAGCATTCG GGCATATGTC ACCCATCATG ACCTCTCCTC ATTCGCCTGG CACGTTTGGA 
    AACGCAGAAA GGATTACCAG CCCGGTATTA ATGGGGGAGG AGAACAATAT TGTTCACAAC 
    CAGAAAGTGG AGATTCTGAG AAAGATGTTG CAAAAGGAAC AAGAGCAGCT GCAGTCCTTG 
    CAGGAAGATT ACAGCCGAAC ACCAACCCCA CGACTGCTCA AGGAGATTCA GGAAGCCAAG 
    AAACACATCC CTCAGCTGCA GGAGCAACTG TCCAAAGCCA CAGGCTCTCC TCAGGATGGA 
    GTTTTGTCCT CCCGATTAGT GGCTGAGTCT CTGCAGATCA GTGAAGTTGA GACGGAGAGT 
    GGGGAAGGGC TGAGCAAAAT TGAGTCAAGT GGTGATGGCT CCCGGCCAAA CAGTGACATT 
    GCTGATAGTC CTCGGAGTGG CCTGAAGGAG CGAGTTTACC TGGATGAGAG CCCAGAGAAG 
    AGCGAAATTC AGGATACTGA TTCACAGTCC AGTGTTGGGA GCCCCTCCTC CCGCGTGGCA 
    CCTCAGATCA TCGGAGCAGA GGATGACGAC TTTGACACTG AACACGAGCA GATTAATGGG 
    CAGTGCAGCT GTTTCCAAAA CATGGAGCTG TTGAAGTCTC GCCCAGCTCA TCTAGCTGTG 
    TTCCTGCATC ACGTGGTGTC CCAGTTTGAC CCTGCAGCCT TGCTCTGCTA TCTCTATGCG 
    GACTTGTACA AACAGACCAA CTCCAAAGAG ACTCGTCGTG TCTTCCTTGA GTTTAACCAG 
    TTCTTCCTGG ACCGAGCTGC GAACCTGAAG GTCCCAGTTC CAGATGAAGT TTCTGTAGAT 
    CTAGAAAAGA GGCGGCCAGA ACTCATTCCA GAAGAGCTGC ACCGCCATTA CATCCTAACT 
    ATGCAAGATA AAGTCCTTCC AGAGGTCCAG AGGAATTTGG AAGACTTCAG ACAGAAACGT 
    AGCATGGGCC TGACCTTGGC AGAGGGCGAA CTGACTAAGC TGGACGCGGA ACGAGTCCGT 
    GACCGGAGCG TGCTGGAGAA GGAGAGAGCA TGTGCAGAGC AGATAATTGC CAAAATTGAA 
    GAAGTTCTGT GGATTGCCAT CAATATGATG ATGACCAGGA GAAAACCATC AGAGAGAAAT 
    ATCCCCAGGG TGTCATCTCA ACCTTTGGAA GAGGATAAGA GTTCCACCAT GCAGTATGTG 
    ATTCTCACCT ACATGAAATA TTTGGGGGTG AGAGTCAAAG AGCCCCGGAG TCTGGAGCAG 
    AAGCGTGGAC GTATTGGTTT CCTGCCAAAG ATTAAGCAAA GTATAAAGAA AGAGAAAGAA 
    GGGGAGGAAA AGGTGAAGAG GAGAGGTTTC CCTAGCATCC TGGGGCCGCC GAGAAGACCG 
    AGTCGCCATG ACAGTAGTGC AATTGGCAGA GCCATGGAAA TGCAGAAGCA GCGTCATCCA 
    AAGTACTTAT CCACAACCTC TTCTGTTAGC CCAGAGCCAC CAGACTCTGG CAAAACACGC 
    CAGAGTGGAT CTTCCAGCGA TGGCACAGAT GTAGCATACC CAACTGCTAA TCCTATGTCT 
    CCCCTGACTT CGGGACCTTT TACCTCCCTG GAGGCAAGCA AAGATAGTGA GACAGGTCCC 
    AAGCAGACTG GAGAAGTTCC ACCGTCTAGT GACTCTGTGG ATGGCACCCC CCGCACACCT 
    AATGCCACCT TTGACTTCCC TTCCCCACCC CTGGACCACT TGCAGGAAGA GGAGGGAGAA 
    CTTGAGAGAA CAGCTGAGTT GGGAACACCA AAACCTTTCC GCAAGATGGA GAGCATGGGC 
    TATGGAGATG TCCAAAGTGA GGATGAACTG TATGATTTTG ATACAGACAC CGATCCTCCC 
    AACTGGCAGC AGCTTGTGAG TCGAGAGTTG CTGCTGGGGC TGAAACCGTT TGAAATCAAA 
    CGCCAAGAAG TGATTAACGA GCTGTTTTAC ACAGAGCGAG CTCATGTCCG CACGCTGAAG 
    GTTCTGCATC AGGTCTTCTA CCAGCGTGTC TCCCGTGAAG GGATCCTCAC TCCCTCAGAT 
    CTGCGGAAGA TCTTTTCCAA CCTGGAGGAC ATCCTTCTGC TCCATACCGG CTTGAATGAC 
    CAGATGAAAA GTGTCCGAAA AAGGAATGAG ACATCAGTTA TTGATCAGAT TGGAGAGGAC 
    TTACTAACTT GGTTCAGCGG ACCAGGAGAG GAGAACCTGA AACATGCAGC AGCCACCTTC 
    TGTAGTAACC AGCCCTTTGC TTTAGAGGTG ATCAAATCAC GGCAGAAGAA GGACTCGCGC 
    TTCCAGACCT TTGTGCAGGA TGCCGAGAGT AATCCGCTGT GTCGCCGGTT GCAATTGAAG 
    GATATCATTC CCACTGAGAT GCAGAGACTG ACTAAATACC CCCTTCTGTT GGATAGTATT 
    GCTAAGTATT CAGAACTGCC TGAGGAGAAG GAGAAAGTGA AGAAAGCAGC GGATCACTGC 
    CGTCAAATCC TTAACTATGT GAACCAAGCT GTCAAAGAGT CGGAGAACAA GCAGCATTTA 
    GAAGATTATC AGCGTCGTCT CGACCTATCT TATCTGAAGC AGGCAGAAGA CCCTATGCTG 
    GATGAGTTTC GGAATTTGGA TTTAACCAAG CGGAAGATGA TTCACGAAGG ACCTCTGACT 
    TGGAAGGTGA ATCGGGACAA AACTATAGAT CTCTACACCT TGCTCTTGGA GGATATTCTG 
    GTGCTGTTGC AAAAGCAAGA TGACAAACTG GTGCTGCGGT GTCACAGTAA GATCCTGGCA 
    TCTACTGCTG ACAGCAAGCA CATATTCAGC CCTGTGATCA AGCTGAACAC TGTGCTAGTT 
    CGCCAGGTGG CAACAGATAA CAAAGCTTTC TTTGTCATCT CCATGTCAGA AAATGGCGCC 
    CATATTTATG AACTAGTGGC ACAGACCGTT TCGGAAAAAA ACGCATGGCA GGACCTGATA 
    GCTCAGATGG CAGGGACAGT GAAAGCCGAG GCTTCCACCA GAAGGGTGAT ACCATTACCG 
    CAGCCAGGGC CTGGCGAAGA AGAGCGTGAG GAAGAGGAGC AGAAGTTGAA AGACGAGCAG 
    CCTGATATTC CAGCCAGCAG CATGCAGAGT CCAGATAAAG AGTTGGGCCT TGAGCCTTCC 
    CTCATACTGA AGACCCAGTC TCCTTCAGCT GTTATGTCGG AGAAGTCTGA AGTAGAAGAT 
    CTCCTCGTGA CAGAGAGGCA GTTTGACAAA GAGCAGCAGG AAGACGAGCT TGTGCTCAAA 
    GACTCCTCCG CGTGCTACGA ACAAGCGACC GCAGACGTGC CTTGCGGGGT GTCAGAAGGG 
    CGGTGGGCAC TGGATGCGTT AAGGAGCTTG GGCTTGTTGA AACAGTTGTT GGTGCAGCAG 
    CTTGGCTTGT CAGAGAAGAG GACCCTTGAA GACTGGCAGC ATTTTCCCAG GTTTAGGACA 
    GCTTCCCAAG GTGCTTGGGC AGAAAGTGGA AACCAGGGTG GACTGCAGCA CTCTGATAAT 
    AACAAGATGC ACCAGCCTGG AGTGGACCGG ATGCCTGTCA GACCTGGAAC TAGTGAACCC 
    GCAGCTTGTT ATGGTATCCG GACTTCAGCT GAATTCCCAG CTTCACAGGA TGCCGTGCAG 
    CTGGTATCTA GAGACGCCAG GTCAGGTAAT AATGTAGTAA TGGACCTTGT AAGCATGAAC 
    GTGGAGACCC CGCTCATGGA GCTGGAAGGA GTGGGTCCTG ATGACAATGG AGAGCACTTC 
    TTTGATGCCC GCGAGGCCCA CAGCGACGAC ATCCCATCCG AAGGAGAAGT GACGGAAAGG 
    AAGGAGGATG AGGAGGTGCA GTTACGGATC TCAGGAAATT ATTTGATCCT TGACGGATAT 
    GGAACGGTGC AGGAAAGCTC CACGGACGAT GAGGTGTCTT CGCTAGTCCT ACAGTGCACT 
    GCAGGCAGCA CCTCTCTGGA CACGGCGCAG CAGCAACACG TTTCCCCCAG GGAGGCCCAG 
    TCAGACGGGG GGAGCTCCCT GTTTGCTGAG TTCATGGCCT CCCGCTGGGC GGCTGTGGAG 
    GAGTCCAGCT CCGGAGCACC AAGCCCCCCC TTCTCCGTAG AGTCACGTAT CCAGATGATG 
    CAGTACATTC ACAAGATCGA GGCTGACCTT GAACACTTAA AGGAGATCGA GGAAAATTAT 
    GCCACTCTCC TTCGCCAAAG GCTGGCTGGA TCAGCCCCCA CAGATGAGCA CTCAGACAAA 
    AGTTAG

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

見積依頼

Eメール

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電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

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